Revert "Fix broken channel icon in chrome://help on CrOS" and try again
[chromium-blink-merge.git] / net / spdy / spdy_session.cc
blobab7baf36d6e2c0af5bb74051b731f0192b808014
1 // Copyright (c) 2012 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/spdy/spdy_session.h"
7 #include <algorithm>
8 #include <map>
10 #include "base/basictypes.h"
11 #include "base/bind.h"
12 #include "base/compiler_specific.h"
13 #include "base/location.h"
14 #include "base/logging.h"
15 #include "base/metrics/field_trial.h"
16 #include "base/metrics/histogram_macros.h"
17 #include "base/metrics/sparse_histogram.h"
18 #include "base/profiler/scoped_tracker.h"
19 #include "base/single_thread_task_runner.h"
20 #include "base/stl_util.h"
21 #include "base/strings/string_number_conversions.h"
22 #include "base/strings/string_util.h"
23 #include "base/strings/stringprintf.h"
24 #include "base/strings/utf_string_conversions.h"
25 #include "base/thread_task_runner_handle.h"
26 #include "base/time/time.h"
27 #include "base/values.h"
28 #include "crypto/ec_private_key.h"
29 #include "crypto/ec_signature_creator.h"
30 #include "net/base/connection_type_histograms.h"
31 #include "net/base/net_util.h"
32 #include "net/cert/asn1_util.h"
33 #include "net/cert/cert_verify_result.h"
34 #include "net/http/http_log_util.h"
35 #include "net/http/http_network_session.h"
36 #include "net/http/http_server_properties.h"
37 #include "net/http/http_util.h"
38 #include "net/http/transport_security_state.h"
39 #include "net/log/net_log.h"
40 #include "net/socket/ssl_client_socket.h"
41 #include "net/spdy/spdy_buffer_producer.h"
42 #include "net/spdy/spdy_frame_builder.h"
43 #include "net/spdy/spdy_http_utils.h"
44 #include "net/spdy/spdy_protocol.h"
45 #include "net/spdy/spdy_session_pool.h"
46 #include "net/spdy/spdy_stream.h"
47 #include "net/ssl/channel_id_service.h"
48 #include "net/ssl/ssl_cipher_suite_names.h"
49 #include "net/ssl/ssl_connection_status_flags.h"
51 namespace net {
53 namespace {
55 const int kReadBufferSize = 8 * 1024;
56 const int kDefaultConnectionAtRiskOfLossSeconds = 10;
57 const int kHungIntervalSeconds = 10;
59 // Minimum seconds that unclaimed pushed streams will be kept in memory.
60 const int kMinPushedStreamLifetimeSeconds = 300;
62 scoped_ptr<base::ListValue> SpdyHeaderBlockToListValue(
63 const SpdyHeaderBlock& headers,
64 NetLogCaptureMode capture_mode) {
65 scoped_ptr<base::ListValue> headers_list(new base::ListValue());
66 for (SpdyHeaderBlock::const_iterator it = headers.begin();
67 it != headers.end(); ++it) {
68 headers_list->AppendString(
69 it->first + ": " +
70 ElideHeaderValueForNetLog(capture_mode, it->first, it->second));
72 return headers_list.Pass();
75 scoped_ptr<base::Value> NetLogSpdySynStreamSentCallback(
76 const SpdyHeaderBlock* headers,
77 bool fin,
78 bool unidirectional,
79 SpdyPriority spdy_priority,
80 SpdyStreamId stream_id,
81 NetLogCaptureMode capture_mode) {
82 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
83 dict->Set("headers", SpdyHeaderBlockToListValue(*headers, capture_mode));
84 dict->SetBoolean("fin", fin);
85 dict->SetBoolean("unidirectional", unidirectional);
86 dict->SetInteger("priority", static_cast<int>(spdy_priority));
87 dict->SetInteger("stream_id", stream_id);
88 return dict.Pass();
91 scoped_ptr<base::Value> NetLogSpdySynStreamReceivedCallback(
92 const SpdyHeaderBlock* headers,
93 bool fin,
94 bool unidirectional,
95 SpdyPriority spdy_priority,
96 SpdyStreamId stream_id,
97 SpdyStreamId associated_stream,
98 NetLogCaptureMode capture_mode) {
99 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
100 dict->Set("headers", SpdyHeaderBlockToListValue(*headers, capture_mode));
101 dict->SetBoolean("fin", fin);
102 dict->SetBoolean("unidirectional", unidirectional);
103 dict->SetInteger("priority", static_cast<int>(spdy_priority));
104 dict->SetInteger("stream_id", stream_id);
105 dict->SetInteger("associated_stream", associated_stream);
106 return dict.Pass();
109 scoped_ptr<base::Value> NetLogSpdySynReplyOrHeadersReceivedCallback(
110 const SpdyHeaderBlock* headers,
111 bool fin,
112 SpdyStreamId stream_id,
113 NetLogCaptureMode capture_mode) {
114 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
115 dict->Set("headers", SpdyHeaderBlockToListValue(*headers, capture_mode));
116 dict->SetBoolean("fin", fin);
117 dict->SetInteger("stream_id", stream_id);
118 return dict.Pass();
121 scoped_ptr<base::Value> NetLogSpdySessionCloseCallback(
122 int net_error,
123 const std::string* description,
124 NetLogCaptureMode /* capture_mode */) {
125 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
126 dict->SetInteger("net_error", net_error);
127 dict->SetString("description", *description);
128 return dict.Pass();
131 scoped_ptr<base::Value> NetLogSpdySessionCallback(
132 const HostPortProxyPair* host_pair,
133 NetLogCaptureMode /* capture_mode */) {
134 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
135 dict->SetString("host", host_pair->first.ToString());
136 dict->SetString("proxy", host_pair->second.ToPacString());
137 return dict.Pass();
140 scoped_ptr<base::Value> NetLogSpdyInitializedCallback(
141 NetLog::Source source,
142 const NextProto protocol_version,
143 NetLogCaptureMode /* capture_mode */) {
144 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
145 if (source.IsValid()) {
146 source.AddToEventParameters(dict.get());
148 dict->SetString("protocol",
149 SSLClientSocket::NextProtoToString(protocol_version));
150 return dict.Pass();
153 scoped_ptr<base::Value> NetLogSpdySettingsCallback(
154 const HostPortPair& host_port_pair,
155 bool clear_persisted,
156 NetLogCaptureMode /* capture_mode */) {
157 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
158 dict->SetString("host", host_port_pair.ToString());
159 dict->SetBoolean("clear_persisted", clear_persisted);
160 return dict.Pass();
163 scoped_ptr<base::Value> NetLogSpdySettingCallback(
164 SpdySettingsIds id,
165 const SpdyMajorVersion protocol_version,
166 SpdySettingsFlags flags,
167 uint32 value,
168 NetLogCaptureMode /* capture_mode */) {
169 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
170 dict->SetInteger("id",
171 SpdyConstants::SerializeSettingId(protocol_version, id));
172 dict->SetInteger("flags", flags);
173 dict->SetInteger("value", value);
174 return dict.Pass();
177 scoped_ptr<base::Value> NetLogSpdySendSettingsCallback(
178 const SettingsMap* settings,
179 const SpdyMajorVersion protocol_version,
180 NetLogCaptureMode /* capture_mode */) {
181 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
182 scoped_ptr<base::ListValue> settings_list(new base::ListValue());
183 for (SettingsMap::const_iterator it = settings->begin();
184 it != settings->end(); ++it) {
185 const SpdySettingsIds id = it->first;
186 const SpdySettingsFlags flags = it->second.first;
187 const uint32 value = it->second.second;
188 settings_list->Append(new base::StringValue(base::StringPrintf(
189 "[id:%u flags:%u value:%u]",
190 SpdyConstants::SerializeSettingId(protocol_version, id),
191 flags,
192 value)));
194 dict->Set("settings", settings_list.Pass());
195 return dict.Pass();
198 scoped_ptr<base::Value> NetLogSpdyWindowUpdateFrameCallback(
199 SpdyStreamId stream_id,
200 uint32 delta,
201 NetLogCaptureMode /* capture_mode */) {
202 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
203 dict->SetInteger("stream_id", static_cast<int>(stream_id));
204 dict->SetInteger("delta", delta);
205 return dict.Pass();
208 scoped_ptr<base::Value> NetLogSpdySessionWindowUpdateCallback(
209 int32 delta,
210 int32 window_size,
211 NetLogCaptureMode /* capture_mode */) {
212 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
213 dict->SetInteger("delta", delta);
214 dict->SetInteger("window_size", window_size);
215 return dict.Pass();
218 scoped_ptr<base::Value> NetLogSpdyDataCallback(
219 SpdyStreamId stream_id,
220 int size,
221 bool fin,
222 NetLogCaptureMode /* capture_mode */) {
223 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
224 dict->SetInteger("stream_id", static_cast<int>(stream_id));
225 dict->SetInteger("size", size);
226 dict->SetBoolean("fin", fin);
227 return dict.Pass();
230 scoped_ptr<base::Value> NetLogSpdyRstCallback(
231 SpdyStreamId stream_id,
232 int status,
233 const std::string* description,
234 NetLogCaptureMode /* capture_mode */) {
235 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
236 dict->SetInteger("stream_id", static_cast<int>(stream_id));
237 dict->SetInteger("status", status);
238 dict->SetString("description", *description);
239 return dict.Pass();
242 scoped_ptr<base::Value> NetLogSpdyPingCallback(
243 SpdyPingId unique_id,
244 bool is_ack,
245 const char* type,
246 NetLogCaptureMode /* capture_mode */) {
247 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
248 dict->SetInteger("unique_id", static_cast<int>(unique_id));
249 dict->SetString("type", type);
250 dict->SetBoolean("is_ack", is_ack);
251 return dict.Pass();
254 scoped_ptr<base::Value> NetLogSpdyGoAwayCallback(
255 SpdyStreamId last_stream_id,
256 int active_streams,
257 int unclaimed_streams,
258 SpdyGoAwayStatus status,
259 NetLogCaptureMode /* capture_mode */) {
260 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
261 dict->SetInteger("last_accepted_stream_id",
262 static_cast<int>(last_stream_id));
263 dict->SetInteger("active_streams", active_streams);
264 dict->SetInteger("unclaimed_streams", unclaimed_streams);
265 dict->SetInteger("status", static_cast<int>(status));
266 return dict.Pass();
269 scoped_ptr<base::Value> NetLogSpdyPushPromiseReceivedCallback(
270 const SpdyHeaderBlock* headers,
271 SpdyStreamId stream_id,
272 SpdyStreamId promised_stream_id,
273 NetLogCaptureMode capture_mode) {
274 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
275 dict->Set("headers", SpdyHeaderBlockToListValue(*headers, capture_mode));
276 dict->SetInteger("id", stream_id);
277 dict->SetInteger("promised_stream_id", promised_stream_id);
278 return dict.Pass();
281 scoped_ptr<base::Value> NetLogSpdyAdoptedPushStreamCallback(
282 SpdyStreamId stream_id,
283 const GURL* url,
284 NetLogCaptureMode capture_mode) {
285 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
286 dict->SetInteger("stream_id", stream_id);
287 dict->SetString("url", url->spec());
288 return dict.Pass();
291 // Helper function to return the total size of an array of objects
292 // with .size() member functions.
293 template <typename T, size_t N> size_t GetTotalSize(const T (&arr)[N]) {
294 size_t total_size = 0;
295 for (size_t i = 0; i < N; ++i) {
296 total_size += arr[i].size();
298 return total_size;
301 // Helper class for std:find_if on STL container containing
302 // SpdyStreamRequest weak pointers.
303 class RequestEquals {
304 public:
305 RequestEquals(const base::WeakPtr<SpdyStreamRequest>& request)
306 : request_(request) {}
308 bool operator()(const base::WeakPtr<SpdyStreamRequest>& request) const {
309 return request_.get() == request.get();
312 private:
313 const base::WeakPtr<SpdyStreamRequest> request_;
316 // The maximum number of concurrent streams we will ever create. Even if
317 // the server permits more, we will never exceed this limit.
318 const size_t kMaxConcurrentStreamLimit = 256;
320 } // namespace
322 SpdyProtocolErrorDetails MapFramerErrorToProtocolError(
323 SpdyFramer::SpdyError err) {
324 switch(err) {
325 case SpdyFramer::SPDY_NO_ERROR:
326 return SPDY_ERROR_NO_ERROR;
327 case SpdyFramer::SPDY_INVALID_CONTROL_FRAME:
328 return SPDY_ERROR_INVALID_CONTROL_FRAME;
329 case SpdyFramer::SPDY_CONTROL_PAYLOAD_TOO_LARGE:
330 return SPDY_ERROR_CONTROL_PAYLOAD_TOO_LARGE;
331 case SpdyFramer::SPDY_ZLIB_INIT_FAILURE:
332 return SPDY_ERROR_ZLIB_INIT_FAILURE;
333 case SpdyFramer::SPDY_UNSUPPORTED_VERSION:
334 return SPDY_ERROR_UNSUPPORTED_VERSION;
335 case SpdyFramer::SPDY_DECOMPRESS_FAILURE:
336 return SPDY_ERROR_DECOMPRESS_FAILURE;
337 case SpdyFramer::SPDY_COMPRESS_FAILURE:
338 return SPDY_ERROR_COMPRESS_FAILURE;
339 case SpdyFramer::SPDY_GOAWAY_FRAME_CORRUPT:
340 return SPDY_ERROR_GOAWAY_FRAME_CORRUPT;
341 case SpdyFramer::SPDY_RST_STREAM_FRAME_CORRUPT:
342 return SPDY_ERROR_RST_STREAM_FRAME_CORRUPT;
343 case SpdyFramer::SPDY_INVALID_DATA_FRAME_FLAGS:
344 return SPDY_ERROR_INVALID_DATA_FRAME_FLAGS;
345 case SpdyFramer::SPDY_INVALID_CONTROL_FRAME_FLAGS:
346 return SPDY_ERROR_INVALID_CONTROL_FRAME_FLAGS;
347 case SpdyFramer::SPDY_UNEXPECTED_FRAME:
348 return SPDY_ERROR_UNEXPECTED_FRAME;
349 default:
350 NOTREACHED();
351 return static_cast<SpdyProtocolErrorDetails>(-1);
355 Error MapFramerErrorToNetError(SpdyFramer::SpdyError err) {
356 switch (err) {
357 case SpdyFramer::SPDY_NO_ERROR:
358 return OK;
359 case SpdyFramer::SPDY_INVALID_CONTROL_FRAME:
360 return ERR_SPDY_PROTOCOL_ERROR;
361 case SpdyFramer::SPDY_CONTROL_PAYLOAD_TOO_LARGE:
362 return ERR_SPDY_FRAME_SIZE_ERROR;
363 case SpdyFramer::SPDY_ZLIB_INIT_FAILURE:
364 return ERR_SPDY_COMPRESSION_ERROR;
365 case SpdyFramer::SPDY_UNSUPPORTED_VERSION:
366 return ERR_SPDY_PROTOCOL_ERROR;
367 case SpdyFramer::SPDY_DECOMPRESS_FAILURE:
368 return ERR_SPDY_COMPRESSION_ERROR;
369 case SpdyFramer::SPDY_COMPRESS_FAILURE:
370 return ERR_SPDY_COMPRESSION_ERROR;
371 case SpdyFramer::SPDY_GOAWAY_FRAME_CORRUPT:
372 return ERR_SPDY_PROTOCOL_ERROR;
373 case SpdyFramer::SPDY_RST_STREAM_FRAME_CORRUPT:
374 return ERR_SPDY_PROTOCOL_ERROR;
375 case SpdyFramer::SPDY_INVALID_DATA_FRAME_FLAGS:
376 return ERR_SPDY_PROTOCOL_ERROR;
377 case SpdyFramer::SPDY_INVALID_CONTROL_FRAME_FLAGS:
378 return ERR_SPDY_PROTOCOL_ERROR;
379 case SpdyFramer::SPDY_UNEXPECTED_FRAME:
380 return ERR_SPDY_PROTOCOL_ERROR;
381 default:
382 NOTREACHED();
383 return ERR_SPDY_PROTOCOL_ERROR;
387 SpdyProtocolErrorDetails MapRstStreamStatusToProtocolError(
388 SpdyRstStreamStatus status) {
389 switch(status) {
390 case RST_STREAM_PROTOCOL_ERROR:
391 return STATUS_CODE_PROTOCOL_ERROR;
392 case RST_STREAM_INVALID_STREAM:
393 return STATUS_CODE_INVALID_STREAM;
394 case RST_STREAM_REFUSED_STREAM:
395 return STATUS_CODE_REFUSED_STREAM;
396 case RST_STREAM_UNSUPPORTED_VERSION:
397 return STATUS_CODE_UNSUPPORTED_VERSION;
398 case RST_STREAM_CANCEL:
399 return STATUS_CODE_CANCEL;
400 case RST_STREAM_INTERNAL_ERROR:
401 return STATUS_CODE_INTERNAL_ERROR;
402 case RST_STREAM_FLOW_CONTROL_ERROR:
403 return STATUS_CODE_FLOW_CONTROL_ERROR;
404 case RST_STREAM_STREAM_IN_USE:
405 return STATUS_CODE_STREAM_IN_USE;
406 case RST_STREAM_STREAM_ALREADY_CLOSED:
407 return STATUS_CODE_STREAM_ALREADY_CLOSED;
408 case RST_STREAM_INVALID_CREDENTIALS:
409 return STATUS_CODE_INVALID_CREDENTIALS;
410 case RST_STREAM_FRAME_SIZE_ERROR:
411 return STATUS_CODE_FRAME_SIZE_ERROR;
412 case RST_STREAM_SETTINGS_TIMEOUT:
413 return STATUS_CODE_SETTINGS_TIMEOUT;
414 case RST_STREAM_CONNECT_ERROR:
415 return STATUS_CODE_CONNECT_ERROR;
416 case RST_STREAM_ENHANCE_YOUR_CALM:
417 return STATUS_CODE_ENHANCE_YOUR_CALM;
418 case RST_STREAM_INADEQUATE_SECURITY:
419 return STATUS_CODE_INADEQUATE_SECURITY;
420 case RST_STREAM_HTTP_1_1_REQUIRED:
421 return STATUS_CODE_HTTP_1_1_REQUIRED;
422 default:
423 NOTREACHED();
424 return static_cast<SpdyProtocolErrorDetails>(-1);
428 SpdyGoAwayStatus MapNetErrorToGoAwayStatus(Error err) {
429 switch (err) {
430 case OK:
431 return GOAWAY_NO_ERROR;
432 case ERR_SPDY_PROTOCOL_ERROR:
433 return GOAWAY_PROTOCOL_ERROR;
434 case ERR_SPDY_FLOW_CONTROL_ERROR:
435 return GOAWAY_FLOW_CONTROL_ERROR;
436 case ERR_SPDY_FRAME_SIZE_ERROR:
437 return GOAWAY_FRAME_SIZE_ERROR;
438 case ERR_SPDY_COMPRESSION_ERROR:
439 return GOAWAY_COMPRESSION_ERROR;
440 case ERR_SPDY_INADEQUATE_TRANSPORT_SECURITY:
441 return GOAWAY_INADEQUATE_SECURITY;
442 default:
443 return GOAWAY_PROTOCOL_ERROR;
447 void SplitPushedHeadersToRequestAndResponse(const SpdyHeaderBlock& headers,
448 SpdyMajorVersion protocol_version,
449 SpdyHeaderBlock* request_headers,
450 SpdyHeaderBlock* response_headers) {
451 DCHECK(response_headers);
452 DCHECK(request_headers);
453 for (SpdyHeaderBlock::const_iterator it = headers.begin();
454 it != headers.end();
455 ++it) {
456 SpdyHeaderBlock* to_insert = response_headers;
457 if (protocol_version == SPDY2) {
458 if (it->first == "url")
459 to_insert = request_headers;
460 } else {
461 const char* host = protocol_version >= HTTP2 ? ":authority" : ":host";
462 static const char scheme[] = ":scheme";
463 static const char path[] = ":path";
464 if (it->first == host || it->first == scheme || it->first == path)
465 to_insert = request_headers;
467 to_insert->insert(*it);
471 SpdyStreamRequest::SpdyStreamRequest() : weak_ptr_factory_(this) {
472 Reset();
475 SpdyStreamRequest::~SpdyStreamRequest() {
476 CancelRequest();
479 int SpdyStreamRequest::StartRequest(
480 SpdyStreamType type,
481 const base::WeakPtr<SpdySession>& session,
482 const GURL& url,
483 RequestPriority priority,
484 const BoundNetLog& net_log,
485 const CompletionCallback& callback) {
486 DCHECK(session);
487 DCHECK(!session_);
488 DCHECK(!stream_);
489 DCHECK(callback_.is_null());
491 type_ = type;
492 session_ = session;
493 url_ = url;
494 priority_ = priority;
495 net_log_ = net_log;
496 callback_ = callback;
498 base::WeakPtr<SpdyStream> stream;
499 int rv = session->TryCreateStream(weak_ptr_factory_.GetWeakPtr(), &stream);
500 if (rv == OK) {
501 Reset();
502 stream_ = stream;
504 return rv;
507 void SpdyStreamRequest::CancelRequest() {
508 if (session_)
509 session_->CancelStreamRequest(weak_ptr_factory_.GetWeakPtr());
510 Reset();
511 // Do this to cancel any pending CompleteStreamRequest() tasks.
512 weak_ptr_factory_.InvalidateWeakPtrs();
515 base::WeakPtr<SpdyStream> SpdyStreamRequest::ReleaseStream() {
516 DCHECK(!session_);
517 base::WeakPtr<SpdyStream> stream = stream_;
518 DCHECK(stream);
519 Reset();
520 return stream;
523 void SpdyStreamRequest::OnRequestCompleteSuccess(
524 const base::WeakPtr<SpdyStream>& stream) {
525 DCHECK(session_);
526 DCHECK(!stream_);
527 DCHECK(!callback_.is_null());
528 CompletionCallback callback = callback_;
529 Reset();
530 DCHECK(stream);
531 stream_ = stream;
532 callback.Run(OK);
535 void SpdyStreamRequest::OnRequestCompleteFailure(int rv) {
536 DCHECK(session_);
537 DCHECK(!stream_);
538 DCHECK(!callback_.is_null());
539 CompletionCallback callback = callback_;
540 Reset();
541 DCHECK_NE(rv, OK);
542 callback.Run(rv);
545 void SpdyStreamRequest::Reset() {
546 type_ = SPDY_BIDIRECTIONAL_STREAM;
547 session_.reset();
548 stream_.reset();
549 url_ = GURL();
550 priority_ = MINIMUM_PRIORITY;
551 net_log_ = BoundNetLog();
552 callback_.Reset();
555 SpdySession::ActiveStreamInfo::ActiveStreamInfo()
556 : stream(NULL),
557 waiting_for_syn_reply(false) {}
559 SpdySession::ActiveStreamInfo::ActiveStreamInfo(SpdyStream* stream)
560 : stream(stream),
561 waiting_for_syn_reply(stream->type() != SPDY_PUSH_STREAM) {
564 SpdySession::ActiveStreamInfo::~ActiveStreamInfo() {}
566 SpdySession::PushedStreamInfo::PushedStreamInfo() : stream_id(0) {}
568 SpdySession::PushedStreamInfo::PushedStreamInfo(
569 SpdyStreamId stream_id,
570 base::TimeTicks creation_time)
571 : stream_id(stream_id),
572 creation_time(creation_time) {}
574 SpdySession::PushedStreamInfo::~PushedStreamInfo() {}
576 // static
577 bool SpdySession::CanPool(TransportSecurityState* transport_security_state,
578 const SSLInfo& ssl_info,
579 const std::string& old_hostname,
580 const std::string& new_hostname) {
581 // Pooling is prohibited if the server cert is not valid for the new domain,
582 // and for connections on which client certs were sent. It is also prohibited
583 // when channel ID was sent if the hosts are from different eTLDs+1.
584 if (IsCertStatusError(ssl_info.cert_status))
585 return false;
587 if (ssl_info.client_cert_sent)
588 return false;
590 if (ssl_info.channel_id_sent &&
591 ChannelIDService::GetDomainForHost(new_hostname) !=
592 ChannelIDService::GetDomainForHost(old_hostname)) {
593 return false;
596 bool unused = false;
597 if (!ssl_info.cert->VerifyNameMatch(new_hostname, &unused))
598 return false;
600 std::string pinning_failure_log;
601 // DISABLE_PIN_REPORTS is set here because this check can fail in
602 // normal operation without being indicative of a misconfiguration or
603 // attack.
605 // TODO(estark): replace 0 below with the port of the connection
606 // (though it won't actually be used since reports aren't getting
607 // sent).
608 if (!transport_security_state->CheckPublicKeyPins(
609 HostPortPair(new_hostname, 0), ssl_info.is_issued_by_known_root,
610 ssl_info.public_key_hashes, ssl_info.unverified_cert.get(),
611 ssl_info.cert.get(), TransportSecurityState::DISABLE_PIN_REPORTS,
612 &pinning_failure_log)) {
613 return false;
616 return true;
619 SpdySession::SpdySession(
620 const SpdySessionKey& spdy_session_key,
621 const base::WeakPtr<HttpServerProperties>& http_server_properties,
622 TransportSecurityState* transport_security_state,
623 bool verify_domain_authentication,
624 bool enable_sending_initial_data,
625 bool enable_compression,
626 bool enable_ping_based_connection_checking,
627 NextProto default_protocol,
628 size_t session_max_recv_window_size,
629 size_t stream_max_recv_window_size,
630 size_t initial_max_concurrent_streams,
631 TimeFunc time_func,
632 const HostPortPair& trusted_spdy_proxy,
633 NetLog* net_log)
634 : in_io_loop_(false),
635 spdy_session_key_(spdy_session_key),
636 pool_(NULL),
637 http_server_properties_(http_server_properties),
638 transport_security_state_(transport_security_state),
639 read_buffer_(new IOBuffer(kReadBufferSize)),
640 stream_hi_water_mark_(kFirstStreamId),
641 last_accepted_push_stream_id_(0),
642 num_pushed_streams_(0u),
643 num_active_pushed_streams_(0u),
644 in_flight_write_frame_type_(DATA),
645 in_flight_write_frame_size_(0),
646 is_secure_(false),
647 certificate_error_code_(OK),
648 availability_state_(STATE_AVAILABLE),
649 read_state_(READ_STATE_DO_READ),
650 write_state_(WRITE_STATE_IDLE),
651 error_on_close_(OK),
652 max_concurrent_streams_(initial_max_concurrent_streams == 0
653 ? kInitialMaxConcurrentStreams
654 : initial_max_concurrent_streams),
655 max_concurrent_pushed_streams_(kMaxConcurrentPushedStreams),
656 streams_initiated_count_(0),
657 streams_pushed_count_(0),
658 streams_pushed_and_claimed_count_(0),
659 streams_abandoned_count_(0),
660 total_bytes_received_(0),
661 sent_settings_(false),
662 received_settings_(false),
663 stalled_streams_(0),
664 pings_in_flight_(0),
665 next_ping_id_(1),
666 last_activity_time_(time_func()),
667 last_compressed_frame_len_(0),
668 check_ping_status_pending_(false),
669 send_connection_header_prefix_(false),
670 flow_control_state_(FLOW_CONTROL_NONE),
671 session_send_window_size_(0),
672 session_max_recv_window_size_(session_max_recv_window_size),
673 session_recv_window_size_(0),
674 session_unacked_recv_window_bytes_(0),
675 stream_initial_send_window_size_(
676 GetDefaultInitialWindowSize(default_protocol)),
677 stream_max_recv_window_size_(stream_max_recv_window_size),
678 net_log_(BoundNetLog::Make(net_log, NetLog::SOURCE_HTTP2_SESSION)),
679 verify_domain_authentication_(verify_domain_authentication),
680 enable_sending_initial_data_(enable_sending_initial_data),
681 enable_compression_(enable_compression),
682 enable_ping_based_connection_checking_(
683 enable_ping_based_connection_checking),
684 protocol_(default_protocol),
685 connection_at_risk_of_loss_time_(
686 base::TimeDelta::FromSeconds(kDefaultConnectionAtRiskOfLossSeconds)),
687 hung_interval_(base::TimeDelta::FromSeconds(kHungIntervalSeconds)),
688 trusted_spdy_proxy_(trusted_spdy_proxy),
689 time_func_(time_func),
690 weak_factory_(this) {
691 DCHECK_GE(protocol_, kProtoSPDYMinimumVersion);
692 DCHECK_LE(protocol_, kProtoSPDYMaximumVersion);
693 DCHECK(HttpStreamFactory::spdy_enabled());
694 net_log_.BeginEvent(
695 NetLog::TYPE_HTTP2_SESSION,
696 base::Bind(&NetLogSpdySessionCallback, &host_port_proxy_pair()));
697 next_unclaimed_push_stream_sweep_time_ = time_func_() +
698 base::TimeDelta::FromSeconds(kMinPushedStreamLifetimeSeconds);
699 // TODO(mbelshe): consider randomization of the stream_hi_water_mark.
702 SpdySession::~SpdySession() {
703 CHECK(!in_io_loop_);
704 DcheckDraining();
706 // TODO(akalin): Check connection->is_initialized() instead. This
707 // requires re-working CreateFakeSpdySession(), though.
708 DCHECK(connection_->socket());
709 // With SPDY we can't recycle sockets.
710 connection_->socket()->Disconnect();
712 RecordHistograms();
714 net_log_.EndEvent(NetLog::TYPE_HTTP2_SESSION);
717 void SpdySession::InitializeWithSocket(
718 scoped_ptr<ClientSocketHandle> connection,
719 SpdySessionPool* pool,
720 bool is_secure,
721 int certificate_error_code) {
722 CHECK(!in_io_loop_);
723 DCHECK_EQ(availability_state_, STATE_AVAILABLE);
724 DCHECK_EQ(read_state_, READ_STATE_DO_READ);
725 DCHECK_EQ(write_state_, WRITE_STATE_IDLE);
726 DCHECK(!connection_);
728 DCHECK(certificate_error_code == OK ||
729 certificate_error_code < ERR_IO_PENDING);
730 // TODO(akalin): Check connection->is_initialized() instead. This
731 // requires re-working CreateFakeSpdySession(), though.
732 DCHECK(connection->socket());
734 connection_ = connection.Pass();
735 is_secure_ = is_secure;
736 certificate_error_code_ = certificate_error_code;
738 NextProto protocol_negotiated =
739 connection_->socket()->GetNegotiatedProtocol();
740 if (protocol_negotiated != kProtoUnknown) {
741 protocol_ = protocol_negotiated;
742 stream_initial_send_window_size_ = GetDefaultInitialWindowSize(protocol_);
744 DCHECK_GE(protocol_, kProtoSPDYMinimumVersion);
745 DCHECK_LE(protocol_, kProtoSPDYMaximumVersion);
747 if ((protocol_ >= kProtoHTTP2MinimumVersion) &&
748 (protocol_ <= kProtoHTTP2MaximumVersion))
749 send_connection_header_prefix_ = true;
751 if (protocol_ >= kProtoSPDY31) {
752 flow_control_state_ = FLOW_CONTROL_STREAM_AND_SESSION;
753 session_send_window_size_ = GetDefaultInitialWindowSize(protocol_);
754 session_recv_window_size_ = GetDefaultInitialWindowSize(protocol_);
755 } else if (protocol_ >= kProtoSPDY3) {
756 flow_control_state_ = FLOW_CONTROL_STREAM;
757 } else {
758 flow_control_state_ = FLOW_CONTROL_NONE;
761 buffered_spdy_framer_.reset(
762 new BufferedSpdyFramer(NextProtoToSpdyMajorVersion(protocol_),
763 enable_compression_));
764 buffered_spdy_framer_->set_visitor(this);
765 buffered_spdy_framer_->set_debug_visitor(this);
766 UMA_HISTOGRAM_ENUMERATION(
767 "Net.SpdyVersion2",
768 protocol_ - kProtoSPDYHistogramOffset,
769 kProtoSPDYMaximumVersion - kProtoSPDYMinimumVersion + 1);
771 net_log_.AddEvent(
772 NetLog::TYPE_HTTP2_SESSION_INITIALIZED,
773 base::Bind(&NetLogSpdyInitializedCallback,
774 connection_->socket()->NetLog().source(), protocol_));
776 DCHECK_EQ(availability_state_, STATE_AVAILABLE);
777 connection_->AddHigherLayeredPool(this);
778 if (enable_sending_initial_data_)
779 SendInitialData();
780 pool_ = pool;
782 // Bootstrap the read loop.
783 base::ThreadTaskRunnerHandle::Get()->PostTask(
784 FROM_HERE,
785 base::Bind(&SpdySession::PumpReadLoop, weak_factory_.GetWeakPtr(),
786 READ_STATE_DO_READ, OK));
789 bool SpdySession::VerifyDomainAuthentication(const std::string& domain) {
790 if (!verify_domain_authentication_)
791 return true;
793 if (availability_state_ == STATE_DRAINING)
794 return false;
796 SSLInfo ssl_info;
797 bool was_npn_negotiated;
798 NextProto protocol_negotiated = kProtoUnknown;
799 if (!GetSSLInfo(&ssl_info, &was_npn_negotiated, &protocol_negotiated))
800 return true; // This is not a secure session, so all domains are okay.
802 return CanPool(transport_security_state_, ssl_info,
803 host_port_pair().host(), domain);
806 int SpdySession::GetPushStream(
807 const GURL& url,
808 base::WeakPtr<SpdyStream>* stream,
809 const BoundNetLog& stream_net_log) {
810 CHECK(!in_io_loop_);
812 stream->reset();
814 if (availability_state_ == STATE_DRAINING)
815 return ERR_CONNECTION_CLOSED;
817 Error err = TryAccessStream(url);
818 if (err != OK)
819 return err;
821 *stream = GetActivePushStream(url);
822 if (*stream) {
823 DCHECK_LT(streams_pushed_and_claimed_count_, streams_pushed_count_);
824 streams_pushed_and_claimed_count_++;
826 return OK;
829 // {,Try}CreateStream() and TryAccessStream() can be called with
830 // |in_io_loop_| set if a stream is being created in response to
831 // another being closed due to received data.
833 Error SpdySession::TryAccessStream(const GURL& url) {
834 if (is_secure_ && certificate_error_code_ != OK &&
835 (url.SchemeIs("https") || url.SchemeIs("wss"))) {
836 RecordProtocolErrorHistogram(
837 PROTOCOL_ERROR_REQUEST_FOR_SECURE_CONTENT_OVER_INSECURE_SESSION);
838 DoDrainSession(
839 static_cast<Error>(certificate_error_code_),
840 "Tried to get SPDY stream for secure content over an unauthenticated "
841 "session.");
842 return ERR_SPDY_PROTOCOL_ERROR;
844 return OK;
847 int SpdySession::TryCreateStream(
848 const base::WeakPtr<SpdyStreamRequest>& request,
849 base::WeakPtr<SpdyStream>* stream) {
850 DCHECK(request);
852 if (availability_state_ == STATE_GOING_AWAY)
853 return ERR_FAILED;
855 if (availability_state_ == STATE_DRAINING)
856 return ERR_CONNECTION_CLOSED;
858 Error err = TryAccessStream(request->url());
859 if (err != OK)
860 return err;
862 if (!max_concurrent_streams_ ||
863 (active_streams_.size() + created_streams_.size() - num_pushed_streams_ <
864 max_concurrent_streams_)) {
865 return CreateStream(*request, stream);
868 stalled_streams_++;
869 net_log().AddEvent(NetLog::TYPE_HTTP2_SESSION_STALLED_MAX_STREAMS);
870 RequestPriority priority = request->priority();
871 CHECK_GE(priority, MINIMUM_PRIORITY);
872 CHECK_LE(priority, MAXIMUM_PRIORITY);
873 pending_create_stream_queues_[priority].push_back(request);
874 return ERR_IO_PENDING;
877 int SpdySession::CreateStream(const SpdyStreamRequest& request,
878 base::WeakPtr<SpdyStream>* stream) {
879 DCHECK_GE(request.priority(), MINIMUM_PRIORITY);
880 DCHECK_LE(request.priority(), MAXIMUM_PRIORITY);
882 if (availability_state_ == STATE_GOING_AWAY)
883 return ERR_FAILED;
885 if (availability_state_ == STATE_DRAINING)
886 return ERR_CONNECTION_CLOSED;
888 Error err = TryAccessStream(request.url());
889 if (err != OK) {
890 // This should have been caught in TryCreateStream().
891 NOTREACHED();
892 return err;
895 DCHECK(connection_->socket());
896 UMA_HISTOGRAM_BOOLEAN("Net.SpdySession.CreateStreamWithSocketConnected",
897 connection_->socket()->IsConnected());
898 if (!connection_->socket()->IsConnected()) {
899 DoDrainSession(
900 ERR_CONNECTION_CLOSED,
901 "Tried to create SPDY stream for a closed socket connection.");
902 return ERR_CONNECTION_CLOSED;
905 scoped_ptr<SpdyStream> new_stream(
906 new SpdyStream(request.type(), GetWeakPtr(), request.url(),
907 request.priority(), stream_initial_send_window_size_,
908 stream_max_recv_window_size_, request.net_log()));
909 *stream = new_stream->GetWeakPtr();
910 InsertCreatedStream(new_stream.Pass());
912 UMA_HISTOGRAM_CUSTOM_COUNTS(
913 "Net.SpdyPriorityCount",
914 static_cast<int>(request.priority()), 0, 10, 11);
916 return OK;
919 void SpdySession::CancelStreamRequest(
920 const base::WeakPtr<SpdyStreamRequest>& request) {
921 DCHECK(request);
922 RequestPriority priority = request->priority();
923 CHECK_GE(priority, MINIMUM_PRIORITY);
924 CHECK_LE(priority, MAXIMUM_PRIORITY);
926 #if DCHECK_IS_ON()
927 // |request| should not be in a queue not matching its priority.
928 for (int i = MINIMUM_PRIORITY; i <= MAXIMUM_PRIORITY; ++i) {
929 if (priority == i)
930 continue;
931 PendingStreamRequestQueue* queue = &pending_create_stream_queues_[i];
932 DCHECK(std::find_if(queue->begin(),
933 queue->end(),
934 RequestEquals(request)) == queue->end());
936 #endif
938 PendingStreamRequestQueue* queue =
939 &pending_create_stream_queues_[priority];
940 // Remove |request| from |queue| while preserving the order of the
941 // other elements.
942 PendingStreamRequestQueue::iterator it =
943 std::find_if(queue->begin(), queue->end(), RequestEquals(request));
944 // The request may already be removed if there's a
945 // CompleteStreamRequest() in flight.
946 if (it != queue->end()) {
947 it = queue->erase(it);
948 // |request| should be in the queue at most once, and if it is
949 // present, should not be pending completion.
950 DCHECK(std::find_if(it, queue->end(), RequestEquals(request)) ==
951 queue->end());
955 base::WeakPtr<SpdyStreamRequest> SpdySession::GetNextPendingStreamRequest() {
956 for (int j = MAXIMUM_PRIORITY; j >= MINIMUM_PRIORITY; --j) {
957 if (pending_create_stream_queues_[j].empty())
958 continue;
960 base::WeakPtr<SpdyStreamRequest> pending_request =
961 pending_create_stream_queues_[j].front();
962 DCHECK(pending_request);
963 pending_create_stream_queues_[j].pop_front();
964 return pending_request;
966 return base::WeakPtr<SpdyStreamRequest>();
969 void SpdySession::ProcessPendingStreamRequests() {
970 // Like |max_concurrent_streams_|, 0 means infinite for
971 // |max_requests_to_process|.
972 size_t max_requests_to_process = 0;
973 if (max_concurrent_streams_ != 0) {
974 max_requests_to_process =
975 max_concurrent_streams_ -
976 (active_streams_.size() + created_streams_.size());
978 for (size_t i = 0;
979 max_requests_to_process == 0 || i < max_requests_to_process; ++i) {
980 base::WeakPtr<SpdyStreamRequest> pending_request =
981 GetNextPendingStreamRequest();
982 if (!pending_request)
983 break;
985 // Note that this post can race with other stream creations, and it's
986 // possible that the un-stalled stream will be stalled again if it loses.
987 // TODO(jgraettinger): Provide stronger ordering guarantees.
988 base::ThreadTaskRunnerHandle::Get()->PostTask(
989 FROM_HERE, base::Bind(&SpdySession::CompleteStreamRequest,
990 weak_factory_.GetWeakPtr(), pending_request));
994 void SpdySession::AddPooledAlias(const SpdySessionKey& alias_key) {
995 pooled_aliases_.insert(alias_key);
998 SpdyMajorVersion SpdySession::GetProtocolVersion() const {
999 DCHECK(buffered_spdy_framer_.get());
1000 return buffered_spdy_framer_->protocol_version();
1003 bool SpdySession::HasAcceptableTransportSecurity() const {
1004 // If we're not even using TLS, we have no standards to meet.
1005 if (!is_secure_) {
1006 return true;
1009 // We don't enforce transport security standards for older SPDY versions.
1010 if (GetProtocolVersion() < HTTP2) {
1011 return true;
1014 SSLInfo ssl_info;
1015 CHECK(connection_->socket()->GetSSLInfo(&ssl_info));
1017 // HTTP/2 requires TLS 1.2+
1018 if (SSLConnectionStatusToVersion(ssl_info.connection_status) <
1019 SSL_CONNECTION_VERSION_TLS1_2) {
1020 return false;
1023 if (!IsSecureTLSCipherSuite(
1024 SSLConnectionStatusToCipherSuite(ssl_info.connection_status))) {
1025 return false;
1028 return true;
1031 base::WeakPtr<SpdySession> SpdySession::GetWeakPtr() {
1032 return weak_factory_.GetWeakPtr();
1035 bool SpdySession::CloseOneIdleConnection() {
1036 CHECK(!in_io_loop_);
1037 DCHECK(pool_);
1038 if (active_streams_.empty()) {
1039 DoDrainSession(ERR_CONNECTION_CLOSED, "Closing idle connection.");
1041 // Return false as the socket wasn't immediately closed.
1042 return false;
1045 void SpdySession::EnqueueStreamWrite(
1046 const base::WeakPtr<SpdyStream>& stream,
1047 SpdyFrameType frame_type,
1048 scoped_ptr<SpdyBufferProducer> producer) {
1049 DCHECK(frame_type == HEADERS ||
1050 frame_type == DATA ||
1051 frame_type == CREDENTIAL ||
1052 frame_type == SYN_STREAM);
1053 EnqueueWrite(stream->priority(), frame_type, producer.Pass(), stream);
1056 scoped_ptr<SpdyFrame> SpdySession::CreateSynStream(
1057 SpdyStreamId stream_id,
1058 RequestPriority priority,
1059 SpdyControlFlags flags,
1060 const SpdyHeaderBlock& block) {
1061 ActiveStreamMap::const_iterator it = active_streams_.find(stream_id);
1062 CHECK(it != active_streams_.end());
1063 CHECK_EQ(it->second.stream->stream_id(), stream_id);
1065 SendPrefacePingIfNoneInFlight();
1067 DCHECK(buffered_spdy_framer_.get());
1068 SpdyPriority spdy_priority =
1069 ConvertRequestPriorityToSpdyPriority(priority, GetProtocolVersion());
1071 scoped_ptr<SpdyFrame> syn_frame;
1072 // TODO(hkhalil): Avoid copy of |block|.
1073 if (GetProtocolVersion() <= SPDY3) {
1074 SpdySynStreamIR syn_stream(stream_id);
1075 syn_stream.set_associated_to_stream_id(0);
1076 syn_stream.set_priority(spdy_priority);
1077 syn_stream.set_fin((flags & CONTROL_FLAG_FIN) != 0);
1078 syn_stream.set_unidirectional((flags & CONTROL_FLAG_UNIDIRECTIONAL) != 0);
1079 syn_stream.set_header_block(block);
1080 syn_frame.reset(buffered_spdy_framer_->SerializeFrame(syn_stream));
1081 } else {
1082 SpdyHeadersIR headers(stream_id);
1083 headers.set_priority(spdy_priority);
1084 headers.set_has_priority(true);
1085 headers.set_fin((flags & CONTROL_FLAG_FIN) != 0);
1086 headers.set_header_block(block);
1087 syn_frame.reset(buffered_spdy_framer_->SerializeFrame(headers));
1090 streams_initiated_count_++;
1092 if (net_log().IsCapturing()) {
1093 const NetLog::EventType type =
1094 (GetProtocolVersion() <= SPDY3)
1095 ? NetLog::TYPE_HTTP2_SESSION_SYN_STREAM
1096 : NetLog::TYPE_HTTP2_SESSION_SEND_HEADERS;
1097 net_log().AddEvent(type,
1098 base::Bind(&NetLogSpdySynStreamSentCallback, &block,
1099 (flags & CONTROL_FLAG_FIN) != 0,
1100 (flags & CONTROL_FLAG_UNIDIRECTIONAL) != 0,
1101 spdy_priority, stream_id));
1104 return syn_frame.Pass();
1107 scoped_ptr<SpdyBuffer> SpdySession::CreateDataBuffer(SpdyStreamId stream_id,
1108 IOBuffer* data,
1109 int len,
1110 SpdyDataFlags flags) {
1111 if (availability_state_ == STATE_DRAINING) {
1112 return scoped_ptr<SpdyBuffer>();
1115 ActiveStreamMap::const_iterator it = active_streams_.find(stream_id);
1116 CHECK(it != active_streams_.end());
1117 SpdyStream* stream = it->second.stream;
1118 CHECK_EQ(stream->stream_id(), stream_id);
1120 if (len < 0) {
1121 NOTREACHED();
1122 return scoped_ptr<SpdyBuffer>();
1125 int effective_len = std::min(len, kMaxSpdyFrameChunkSize);
1127 bool send_stalled_by_stream =
1128 (flow_control_state_ >= FLOW_CONTROL_STREAM) &&
1129 (stream->send_window_size() <= 0);
1130 bool send_stalled_by_session = IsSendStalled();
1132 // NOTE: There's an enum of the same name in histograms.xml.
1133 enum SpdyFrameFlowControlState {
1134 SEND_NOT_STALLED,
1135 SEND_STALLED_BY_STREAM,
1136 SEND_STALLED_BY_SESSION,
1137 SEND_STALLED_BY_STREAM_AND_SESSION,
1140 SpdyFrameFlowControlState frame_flow_control_state = SEND_NOT_STALLED;
1141 if (send_stalled_by_stream) {
1142 if (send_stalled_by_session) {
1143 frame_flow_control_state = SEND_STALLED_BY_STREAM_AND_SESSION;
1144 } else {
1145 frame_flow_control_state = SEND_STALLED_BY_STREAM;
1147 } else if (send_stalled_by_session) {
1148 frame_flow_control_state = SEND_STALLED_BY_SESSION;
1151 if (flow_control_state_ == FLOW_CONTROL_STREAM) {
1152 UMA_HISTOGRAM_ENUMERATION(
1153 "Net.SpdyFrameStreamFlowControlState",
1154 frame_flow_control_state,
1155 SEND_STALLED_BY_STREAM + 1);
1156 } else if (flow_control_state_ == FLOW_CONTROL_STREAM_AND_SESSION) {
1157 UMA_HISTOGRAM_ENUMERATION(
1158 "Net.SpdyFrameStreamAndSessionFlowControlState",
1159 frame_flow_control_state,
1160 SEND_STALLED_BY_STREAM_AND_SESSION + 1);
1163 // Obey send window size of the stream if stream flow control is
1164 // enabled.
1165 if (flow_control_state_ >= FLOW_CONTROL_STREAM) {
1166 if (send_stalled_by_stream) {
1167 stream->set_send_stalled_by_flow_control(true);
1168 // Even though we're currently stalled only by the stream, we
1169 // might end up being stalled by the session also.
1170 QueueSendStalledStream(*stream);
1171 net_log().AddEvent(
1172 NetLog::TYPE_HTTP2_SESSION_STREAM_STALLED_BY_STREAM_SEND_WINDOW,
1173 NetLog::IntegerCallback("stream_id", stream_id));
1174 return scoped_ptr<SpdyBuffer>();
1177 effective_len = std::min(effective_len, stream->send_window_size());
1180 // Obey send window size of the session if session flow control is
1181 // enabled.
1182 if (flow_control_state_ == FLOW_CONTROL_STREAM_AND_SESSION) {
1183 if (send_stalled_by_session) {
1184 stream->set_send_stalled_by_flow_control(true);
1185 QueueSendStalledStream(*stream);
1186 net_log().AddEvent(
1187 NetLog::TYPE_HTTP2_SESSION_STREAM_STALLED_BY_SESSION_SEND_WINDOW,
1188 NetLog::IntegerCallback("stream_id", stream_id));
1189 return scoped_ptr<SpdyBuffer>();
1192 effective_len = std::min(effective_len, session_send_window_size_);
1195 DCHECK_GE(effective_len, 0);
1197 // Clear FIN flag if only some of the data will be in the data
1198 // frame.
1199 if (effective_len < len)
1200 flags = static_cast<SpdyDataFlags>(flags & ~DATA_FLAG_FIN);
1202 if (net_log().IsCapturing()) {
1203 net_log().AddEvent(NetLog::TYPE_HTTP2_SESSION_SEND_DATA,
1204 base::Bind(&NetLogSpdyDataCallback, stream_id,
1205 effective_len, (flags & DATA_FLAG_FIN) != 0));
1208 // Send PrefacePing for DATA_FRAMEs with nonzero payload size.
1209 if (effective_len > 0)
1210 SendPrefacePingIfNoneInFlight();
1212 // TODO(mbelshe): reduce memory copies here.
1213 DCHECK(buffered_spdy_framer_.get());
1214 scoped_ptr<SpdyFrame> frame(
1215 buffered_spdy_framer_->CreateDataFrame(
1216 stream_id, data->data(),
1217 static_cast<uint32>(effective_len), flags));
1219 scoped_ptr<SpdyBuffer> data_buffer(new SpdyBuffer(frame.Pass()));
1221 // Send window size is based on payload size, so nothing to do if this is
1222 // just a FIN with no payload.
1223 if (flow_control_state_ == FLOW_CONTROL_STREAM_AND_SESSION &&
1224 effective_len != 0) {
1225 DecreaseSendWindowSize(static_cast<int32>(effective_len));
1226 data_buffer->AddConsumeCallback(
1227 base::Bind(&SpdySession::OnWriteBufferConsumed,
1228 weak_factory_.GetWeakPtr(),
1229 static_cast<size_t>(effective_len)));
1232 return data_buffer.Pass();
1235 void SpdySession::CloseActiveStream(SpdyStreamId stream_id, int status) {
1236 DCHECK_NE(stream_id, 0u);
1238 ActiveStreamMap::iterator it = active_streams_.find(stream_id);
1239 if (it == active_streams_.end()) {
1240 NOTREACHED();
1241 return;
1244 CloseActiveStreamIterator(it, status);
1247 void SpdySession::CloseCreatedStream(
1248 const base::WeakPtr<SpdyStream>& stream, int status) {
1249 DCHECK_EQ(stream->stream_id(), 0u);
1251 CreatedStreamSet::iterator it = created_streams_.find(stream.get());
1252 if (it == created_streams_.end()) {
1253 NOTREACHED();
1254 return;
1257 CloseCreatedStreamIterator(it, status);
1260 void SpdySession::ResetStream(SpdyStreamId stream_id,
1261 SpdyRstStreamStatus status,
1262 const std::string& description) {
1263 DCHECK_NE(stream_id, 0u);
1265 ActiveStreamMap::iterator it = active_streams_.find(stream_id);
1266 if (it == active_streams_.end()) {
1267 NOTREACHED();
1268 return;
1271 ResetStreamIterator(it, status, description);
1274 bool SpdySession::IsStreamActive(SpdyStreamId stream_id) const {
1275 return ContainsKey(active_streams_, stream_id);
1278 LoadState SpdySession::GetLoadState() const {
1279 // Just report that we're idle since the session could be doing
1280 // many things concurrently.
1281 return LOAD_STATE_IDLE;
1284 void SpdySession::CloseActiveStreamIterator(ActiveStreamMap::iterator it,
1285 int status) {
1286 // TODO(mbelshe): We should send a RST_STREAM control frame here
1287 // so that the server can cancel a large send.
1289 scoped_ptr<SpdyStream> owned_stream(it->second.stream);
1290 active_streams_.erase(it);
1292 // TODO(akalin): When SpdyStream was ref-counted (and
1293 // |unclaimed_pushed_streams_| held scoped_refptr<SpdyStream>), this
1294 // was only done when status was not OK. This meant that pushed
1295 // streams can still be claimed after they're closed. This is
1296 // probably something that we still want to support, although server
1297 // push is hardly used. Write tests for this and fix this. (See
1298 // http://crbug.com/261712 .)
1299 if (owned_stream->type() == SPDY_PUSH_STREAM) {
1300 unclaimed_pushed_streams_.erase(owned_stream->url());
1301 num_pushed_streams_--;
1302 if (!owned_stream->IsReservedRemote())
1303 num_active_pushed_streams_--;
1306 DeleteStream(owned_stream.Pass(), status);
1307 MaybeFinishGoingAway();
1309 // If there are no active streams and the socket pool is stalled, close the
1310 // session to free up a socket slot.
1311 if (active_streams_.empty() && connection_->IsPoolStalled()) {
1312 DoDrainSession(ERR_CONNECTION_CLOSED, "Closing idle connection.");
1316 void SpdySession::CloseCreatedStreamIterator(CreatedStreamSet::iterator it,
1317 int status) {
1318 scoped_ptr<SpdyStream> owned_stream(*it);
1319 created_streams_.erase(it);
1320 DeleteStream(owned_stream.Pass(), status);
1323 void SpdySession::ResetStreamIterator(ActiveStreamMap::iterator it,
1324 SpdyRstStreamStatus status,
1325 const std::string& description) {
1326 // Send the RST_STREAM frame first as CloseActiveStreamIterator()
1327 // may close us.
1328 SpdyStreamId stream_id = it->first;
1329 RequestPriority priority = it->second.stream->priority();
1330 EnqueueResetStreamFrame(stream_id, priority, status, description);
1332 // Removes any pending writes for the stream except for possibly an
1333 // in-flight one.
1334 CloseActiveStreamIterator(it, ERR_SPDY_PROTOCOL_ERROR);
1337 void SpdySession::EnqueueResetStreamFrame(SpdyStreamId stream_id,
1338 RequestPriority priority,
1339 SpdyRstStreamStatus status,
1340 const std::string& description) {
1341 DCHECK_NE(stream_id, 0u);
1343 net_log().AddEvent(
1344 NetLog::TYPE_HTTP2_SESSION_SEND_RST_STREAM,
1345 base::Bind(&NetLogSpdyRstCallback, stream_id, status, &description));
1347 DCHECK(buffered_spdy_framer_.get());
1348 scoped_ptr<SpdyFrame> rst_frame(
1349 buffered_spdy_framer_->CreateRstStream(stream_id, status));
1351 EnqueueSessionWrite(priority, RST_STREAM, rst_frame.Pass());
1352 RecordProtocolErrorHistogram(MapRstStreamStatusToProtocolError(status));
1355 void SpdySession::PumpReadLoop(ReadState expected_read_state, int result) {
1356 // TODO(bnc): Remove ScopedTracker below once crbug.com/462774 is fixed.
1357 tracked_objects::ScopedTracker tracking_profile(
1358 FROM_HERE_WITH_EXPLICIT_FUNCTION("462774 SpdySession::PumpReadLoop"));
1360 CHECK(!in_io_loop_);
1361 if (availability_state_ == STATE_DRAINING) {
1362 return;
1364 ignore_result(DoReadLoop(expected_read_state, result));
1367 int SpdySession::DoReadLoop(ReadState expected_read_state, int result) {
1368 CHECK(!in_io_loop_);
1369 CHECK_EQ(read_state_, expected_read_state);
1371 in_io_loop_ = true;
1373 int bytes_read_without_yielding = 0;
1374 const base::TimeTicks yield_after_time =
1375 time_func_() +
1376 base::TimeDelta::FromMilliseconds(kYieldAfterDurationMilliseconds);
1378 // Loop until the session is draining, the read becomes blocked, or
1379 // the read limit is exceeded.
1380 while (true) {
1381 switch (read_state_) {
1382 case READ_STATE_DO_READ:
1383 CHECK_EQ(result, OK);
1384 result = DoRead();
1385 break;
1386 case READ_STATE_DO_READ_COMPLETE:
1387 if (result > 0)
1388 bytes_read_without_yielding += result;
1389 result = DoReadComplete(result);
1390 break;
1391 default:
1392 NOTREACHED() << "read_state_: " << read_state_;
1393 break;
1396 if (availability_state_ == STATE_DRAINING)
1397 break;
1399 if (result == ERR_IO_PENDING)
1400 break;
1402 if (bytes_read_without_yielding > kYieldAfterBytesRead ||
1403 time_func_() > yield_after_time) {
1404 read_state_ = READ_STATE_DO_READ;
1405 base::ThreadTaskRunnerHandle::Get()->PostTask(
1406 FROM_HERE,
1407 base::Bind(&SpdySession::PumpReadLoop, weak_factory_.GetWeakPtr(),
1408 READ_STATE_DO_READ, OK));
1409 result = ERR_IO_PENDING;
1410 break;
1414 CHECK(in_io_loop_);
1415 in_io_loop_ = false;
1417 return result;
1420 int SpdySession::DoRead() {
1421 CHECK(in_io_loop_);
1423 CHECK(connection_);
1424 CHECK(connection_->socket());
1425 read_state_ = READ_STATE_DO_READ_COMPLETE;
1426 return connection_->socket()->Read(
1427 read_buffer_.get(),
1428 kReadBufferSize,
1429 base::Bind(&SpdySession::PumpReadLoop,
1430 weak_factory_.GetWeakPtr(), READ_STATE_DO_READ_COMPLETE));
1433 int SpdySession::DoReadComplete(int result) {
1434 CHECK(in_io_loop_);
1436 // Parse a frame. For now this code requires that the frame fit into our
1437 // buffer (kReadBufferSize).
1438 // TODO(mbelshe): support arbitrarily large frames!
1440 if (result == 0) {
1441 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdySession.BytesRead.EOF",
1442 total_bytes_received_, 1, 100000000, 50);
1443 DoDrainSession(ERR_CONNECTION_CLOSED, "Connection closed");
1445 return ERR_CONNECTION_CLOSED;
1448 if (result < 0) {
1449 DoDrainSession(static_cast<Error>(result), "result is < 0.");
1450 return result;
1452 CHECK_LE(result, kReadBufferSize);
1453 total_bytes_received_ += result;
1455 last_activity_time_ = time_func_();
1457 DCHECK(buffered_spdy_framer_.get());
1458 char* data = read_buffer_->data();
1459 while (result > 0) {
1460 uint32 bytes_processed = buffered_spdy_framer_->ProcessInput(data, result);
1461 result -= bytes_processed;
1462 data += bytes_processed;
1464 if (availability_state_ == STATE_DRAINING) {
1465 return ERR_CONNECTION_CLOSED;
1468 DCHECK_EQ(buffered_spdy_framer_->error_code(), SpdyFramer::SPDY_NO_ERROR);
1471 read_state_ = READ_STATE_DO_READ;
1472 return OK;
1475 void SpdySession::PumpWriteLoop(WriteState expected_write_state, int result) {
1476 CHECK(!in_io_loop_);
1477 DCHECK_EQ(write_state_, expected_write_state);
1479 DoWriteLoop(expected_write_state, result);
1481 if (availability_state_ == STATE_DRAINING && !in_flight_write_ &&
1482 write_queue_.IsEmpty()) {
1483 pool_->RemoveUnavailableSession(GetWeakPtr()); // Destroys |this|.
1484 return;
1488 int SpdySession::DoWriteLoop(WriteState expected_write_state, int result) {
1489 CHECK(!in_io_loop_);
1490 DCHECK_NE(write_state_, WRITE_STATE_IDLE);
1491 DCHECK_EQ(write_state_, expected_write_state);
1493 in_io_loop_ = true;
1495 // Loop until the session is closed or the write becomes blocked.
1496 while (true) {
1497 switch (write_state_) {
1498 case WRITE_STATE_DO_WRITE:
1499 DCHECK_EQ(result, OK);
1500 result = DoWrite();
1501 break;
1502 case WRITE_STATE_DO_WRITE_COMPLETE:
1503 result = DoWriteComplete(result);
1504 break;
1505 case WRITE_STATE_IDLE:
1506 default:
1507 NOTREACHED() << "write_state_: " << write_state_;
1508 break;
1511 if (write_state_ == WRITE_STATE_IDLE) {
1512 DCHECK_EQ(result, ERR_IO_PENDING);
1513 break;
1516 if (result == ERR_IO_PENDING)
1517 break;
1520 CHECK(in_io_loop_);
1521 in_io_loop_ = false;
1523 return result;
1526 int SpdySession::DoWrite() {
1527 CHECK(in_io_loop_);
1529 DCHECK(buffered_spdy_framer_);
1530 if (in_flight_write_) {
1531 DCHECK_GT(in_flight_write_->GetRemainingSize(), 0u);
1532 } else {
1533 // Grab the next frame to send.
1534 SpdyFrameType frame_type = DATA;
1535 scoped_ptr<SpdyBufferProducer> producer;
1536 base::WeakPtr<SpdyStream> stream;
1537 if (!write_queue_.Dequeue(&frame_type, &producer, &stream)) {
1538 write_state_ = WRITE_STATE_IDLE;
1539 return ERR_IO_PENDING;
1542 if (stream.get())
1543 CHECK(!stream->IsClosed());
1545 // Activate the stream only when sending the SYN_STREAM frame to
1546 // guarantee monotonically-increasing stream IDs.
1547 if (frame_type == SYN_STREAM) {
1548 CHECK(stream.get());
1549 CHECK_EQ(stream->stream_id(), 0u);
1550 scoped_ptr<SpdyStream> owned_stream =
1551 ActivateCreatedStream(stream.get());
1552 InsertActivatedStream(owned_stream.Pass());
1554 if (stream_hi_water_mark_ > kLastStreamId) {
1555 CHECK_EQ(stream->stream_id(), kLastStreamId);
1556 // We've exhausted the stream ID space, and no new streams may be
1557 // created after this one.
1558 MakeUnavailable();
1559 StartGoingAway(kLastStreamId, ERR_ABORTED);
1563 // TODO(pkasting): Remove ScopedTracker below once crbug.com/457517 is
1564 // fixed.
1565 tracked_objects::ScopedTracker tracking_profile1(
1566 FROM_HERE_WITH_EXPLICIT_FUNCTION("457517 SpdySession::DoWrite1"));
1567 in_flight_write_ = producer->ProduceBuffer();
1568 if (!in_flight_write_) {
1569 NOTREACHED();
1570 return ERR_UNEXPECTED;
1572 in_flight_write_frame_type_ = frame_type;
1573 in_flight_write_frame_size_ = in_flight_write_->GetRemainingSize();
1574 DCHECK_GE(in_flight_write_frame_size_,
1575 buffered_spdy_framer_->GetFrameMinimumSize());
1576 in_flight_write_stream_ = stream;
1579 write_state_ = WRITE_STATE_DO_WRITE_COMPLETE;
1581 // Explicitly store in a scoped_refptr<IOBuffer> to avoid problems
1582 // with Socket implementations that don't store their IOBuffer
1583 // argument in a scoped_refptr<IOBuffer> (see crbug.com/232345).
1584 // TODO(pkasting): Remove ScopedTracker below once crbug.com/457517 is fixed.
1585 tracked_objects::ScopedTracker tracking_profile2(
1586 FROM_HERE_WITH_EXPLICIT_FUNCTION("457517 SpdySession::DoWrite2"));
1587 scoped_refptr<IOBuffer> write_io_buffer =
1588 in_flight_write_->GetIOBufferForRemainingData();
1589 return connection_->socket()->Write(
1590 write_io_buffer.get(),
1591 in_flight_write_->GetRemainingSize(),
1592 base::Bind(&SpdySession::PumpWriteLoop,
1593 weak_factory_.GetWeakPtr(), WRITE_STATE_DO_WRITE_COMPLETE));
1596 int SpdySession::DoWriteComplete(int result) {
1597 CHECK(in_io_loop_);
1598 DCHECK_NE(result, ERR_IO_PENDING);
1599 DCHECK_GT(in_flight_write_->GetRemainingSize(), 0u);
1601 last_activity_time_ = time_func_();
1603 if (result < 0) {
1604 DCHECK_NE(result, ERR_IO_PENDING);
1605 in_flight_write_.reset();
1606 in_flight_write_frame_type_ = DATA;
1607 in_flight_write_frame_size_ = 0;
1608 in_flight_write_stream_.reset();
1609 write_state_ = WRITE_STATE_DO_WRITE;
1610 DoDrainSession(static_cast<Error>(result), "Write error");
1611 return OK;
1614 // It should not be possible to have written more bytes than our
1615 // in_flight_write_.
1616 DCHECK_LE(static_cast<size_t>(result),
1617 in_flight_write_->GetRemainingSize());
1619 if (result > 0) {
1620 in_flight_write_->Consume(static_cast<size_t>(result));
1622 // We only notify the stream when we've fully written the pending frame.
1623 if (in_flight_write_->GetRemainingSize() == 0) {
1624 // It is possible that the stream was cancelled while we were
1625 // writing to the socket.
1626 if (in_flight_write_stream_.get()) {
1627 DCHECK_GT(in_flight_write_frame_size_, 0u);
1628 in_flight_write_stream_->OnFrameWriteComplete(
1629 in_flight_write_frame_type_,
1630 in_flight_write_frame_size_);
1633 // Cleanup the write which just completed.
1634 in_flight_write_.reset();
1635 in_flight_write_frame_type_ = DATA;
1636 in_flight_write_frame_size_ = 0;
1637 in_flight_write_stream_.reset();
1641 write_state_ = WRITE_STATE_DO_WRITE;
1642 return OK;
1645 void SpdySession::DcheckGoingAway() const {
1646 #if DCHECK_IS_ON()
1647 DCHECK_GE(availability_state_, STATE_GOING_AWAY);
1648 for (int i = MINIMUM_PRIORITY; i <= MAXIMUM_PRIORITY; ++i) {
1649 DCHECK(pending_create_stream_queues_[i].empty());
1651 DCHECK(created_streams_.empty());
1652 #endif
1655 void SpdySession::DcheckDraining() const {
1656 DcheckGoingAway();
1657 DCHECK_EQ(availability_state_, STATE_DRAINING);
1658 DCHECK(active_streams_.empty());
1659 DCHECK(unclaimed_pushed_streams_.empty());
1662 void SpdySession::StartGoingAway(SpdyStreamId last_good_stream_id,
1663 Error status) {
1664 DCHECK_GE(availability_state_, STATE_GOING_AWAY);
1666 // The loops below are carefully written to avoid reentrancy problems.
1668 while (true) {
1669 size_t old_size = GetTotalSize(pending_create_stream_queues_);
1670 base::WeakPtr<SpdyStreamRequest> pending_request =
1671 GetNextPendingStreamRequest();
1672 if (!pending_request)
1673 break;
1674 // No new stream requests should be added while the session is
1675 // going away.
1676 DCHECK_GT(old_size, GetTotalSize(pending_create_stream_queues_));
1677 pending_request->OnRequestCompleteFailure(ERR_ABORTED);
1680 while (true) {
1681 size_t old_size = active_streams_.size();
1682 ActiveStreamMap::iterator it =
1683 active_streams_.lower_bound(last_good_stream_id + 1);
1684 if (it == active_streams_.end())
1685 break;
1686 LogAbandonedActiveStream(it, status);
1687 CloseActiveStreamIterator(it, status);
1688 // No new streams should be activated while the session is going
1689 // away.
1690 DCHECK_GT(old_size, active_streams_.size());
1693 while (!created_streams_.empty()) {
1694 size_t old_size = created_streams_.size();
1695 CreatedStreamSet::iterator it = created_streams_.begin();
1696 LogAbandonedStream(*it, status);
1697 CloseCreatedStreamIterator(it, status);
1698 // No new streams should be created while the session is going
1699 // away.
1700 DCHECK_GT(old_size, created_streams_.size());
1703 write_queue_.RemovePendingWritesForStreamsAfter(last_good_stream_id);
1705 DcheckGoingAway();
1708 void SpdySession::MaybeFinishGoingAway() {
1709 if (active_streams_.empty() && availability_state_ == STATE_GOING_AWAY) {
1710 DoDrainSession(OK, "Finished going away");
1714 void SpdySession::DoDrainSession(Error err, const std::string& description) {
1715 if (availability_state_ == STATE_DRAINING) {
1716 return;
1718 MakeUnavailable();
1720 // Mark host_port_pair requiring HTTP/1.1 for subsequent connections.
1721 if (err == ERR_HTTP_1_1_REQUIRED) {
1722 http_server_properties_->SetHTTP11Required(host_port_pair());
1725 // If |err| indicates an error occurred, inform the peer that we're closing
1726 // and why. Don't GOAWAY on a graceful or idle close, as that may
1727 // unnecessarily wake the radio. We could technically GOAWAY on network errors
1728 // (we'll probably fail to actually write it, but that's okay), however many
1729 // unit-tests would need to be updated.
1730 if (err != OK &&
1731 err != ERR_ABORTED && // Used by SpdySessionPool to close idle sessions.
1732 err != ERR_NETWORK_CHANGED && // Used to deprecate sessions on IP change.
1733 err != ERR_SOCKET_NOT_CONNECTED && err != ERR_HTTP_1_1_REQUIRED &&
1734 err != ERR_CONNECTION_CLOSED && err != ERR_CONNECTION_RESET) {
1735 // Enqueue a GOAWAY to inform the peer of why we're closing the connection.
1736 SpdyGoAwayIR goaway_ir(last_accepted_push_stream_id_,
1737 MapNetErrorToGoAwayStatus(err),
1738 description);
1739 EnqueueSessionWrite(HIGHEST,
1740 GOAWAY,
1741 scoped_ptr<SpdyFrame>(
1742 buffered_spdy_framer_->SerializeFrame(goaway_ir)));
1745 availability_state_ = STATE_DRAINING;
1746 error_on_close_ = err;
1748 net_log_.AddEvent(
1749 NetLog::TYPE_HTTP2_SESSION_CLOSE,
1750 base::Bind(&NetLogSpdySessionCloseCallback, err, &description));
1752 UMA_HISTOGRAM_SPARSE_SLOWLY("Net.SpdySession.ClosedOnError", -err);
1753 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdySession.BytesRead.OtherErrors",
1754 total_bytes_received_, 1, 100000000, 50);
1756 if (err == OK) {
1757 // We ought to be going away already, as this is a graceful close.
1758 DcheckGoingAway();
1759 } else {
1760 StartGoingAway(0, err);
1762 DcheckDraining();
1763 MaybePostWriteLoop();
1766 void SpdySession::LogAbandonedStream(SpdyStream* stream, Error status) {
1767 DCHECK(stream);
1768 std::string description = base::StringPrintf(
1769 "ABANDONED (stream_id=%d): ", stream->stream_id()) +
1770 stream->url().spec();
1771 stream->LogStreamError(status, description);
1772 // We don't increment the streams abandoned counter here. If the
1773 // stream isn't active (i.e., it hasn't written anything to the wire
1774 // yet) then it's as if it never existed. If it is active, then
1775 // LogAbandonedActiveStream() will increment the counters.
1778 void SpdySession::LogAbandonedActiveStream(ActiveStreamMap::const_iterator it,
1779 Error status) {
1780 DCHECK_GT(it->first, 0u);
1781 LogAbandonedStream(it->second.stream, status);
1782 ++streams_abandoned_count_;
1783 if (it->second.stream->type() == SPDY_PUSH_STREAM &&
1784 unclaimed_pushed_streams_.find(it->second.stream->url()) !=
1785 unclaimed_pushed_streams_.end()) {
1789 SpdyStreamId SpdySession::GetNewStreamId() {
1790 CHECK_LE(stream_hi_water_mark_, kLastStreamId);
1791 SpdyStreamId id = stream_hi_water_mark_;
1792 stream_hi_water_mark_ += 2;
1793 return id;
1796 void SpdySession::CloseSessionOnError(Error err,
1797 const std::string& description) {
1798 DCHECK_LT(err, ERR_IO_PENDING);
1799 DoDrainSession(err, description);
1802 void SpdySession::MakeUnavailable() {
1803 if (availability_state_ == STATE_AVAILABLE) {
1804 availability_state_ = STATE_GOING_AWAY;
1805 pool_->MakeSessionUnavailable(GetWeakPtr());
1809 scoped_ptr<base::Value> SpdySession::GetInfoAsValue() const {
1810 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
1812 dict->SetInteger("source_id", net_log_.source().id);
1814 dict->SetString("host_port_pair", host_port_pair().ToString());
1815 if (!pooled_aliases_.empty()) {
1816 scoped_ptr<base::ListValue> alias_list(new base::ListValue());
1817 for (const auto& alias : pooled_aliases_) {
1818 alias_list->AppendString(alias.host_port_pair().ToString());
1820 dict->Set("aliases", alias_list.Pass());
1822 dict->SetString("proxy", host_port_proxy_pair().second.ToURI());
1824 dict->SetInteger("active_streams", active_streams_.size());
1826 dict->SetInteger("unclaimed_pushed_streams",
1827 unclaimed_pushed_streams_.size());
1829 dict->SetBoolean("is_secure", is_secure_);
1831 dict->SetString("protocol_negotiated",
1832 SSLClientSocket::NextProtoToString(
1833 connection_->socket()->GetNegotiatedProtocol()));
1835 dict->SetInteger("error", error_on_close_);
1836 dict->SetInteger("max_concurrent_streams", max_concurrent_streams_);
1838 dict->SetInteger("streams_initiated_count", streams_initiated_count_);
1839 dict->SetInteger("streams_pushed_count", streams_pushed_count_);
1840 dict->SetInteger("streams_pushed_and_claimed_count",
1841 streams_pushed_and_claimed_count_);
1842 dict->SetInteger("streams_abandoned_count", streams_abandoned_count_);
1843 DCHECK(buffered_spdy_framer_.get());
1844 dict->SetInteger("frames_received", buffered_spdy_framer_->frames_received());
1846 dict->SetBoolean("sent_settings", sent_settings_);
1847 dict->SetBoolean("received_settings", received_settings_);
1849 dict->SetInteger("send_window_size", session_send_window_size_);
1850 dict->SetInteger("recv_window_size", session_recv_window_size_);
1851 dict->SetInteger("unacked_recv_window_bytes",
1852 session_unacked_recv_window_bytes_);
1853 return dict.Pass();
1856 bool SpdySession::IsReused() const {
1857 return buffered_spdy_framer_->frames_received() > 0 ||
1858 connection_->reuse_type() == ClientSocketHandle::UNUSED_IDLE;
1861 bool SpdySession::GetLoadTimingInfo(SpdyStreamId stream_id,
1862 LoadTimingInfo* load_timing_info) const {
1863 return connection_->GetLoadTimingInfo(stream_id != kFirstStreamId,
1864 load_timing_info);
1867 int SpdySession::GetPeerAddress(IPEndPoint* address) const {
1868 int rv = ERR_SOCKET_NOT_CONNECTED;
1869 if (connection_->socket()) {
1870 rv = connection_->socket()->GetPeerAddress(address);
1873 UMA_HISTOGRAM_BOOLEAN("Net.SpdySessionSocketNotConnectedGetPeerAddress",
1874 rv == ERR_SOCKET_NOT_CONNECTED);
1876 return rv;
1879 int SpdySession::GetLocalAddress(IPEndPoint* address) const {
1880 int rv = ERR_SOCKET_NOT_CONNECTED;
1881 if (connection_->socket()) {
1882 rv = connection_->socket()->GetLocalAddress(address);
1885 UMA_HISTOGRAM_BOOLEAN("Net.SpdySessionSocketNotConnectedGetLocalAddress",
1886 rv == ERR_SOCKET_NOT_CONNECTED);
1888 return rv;
1891 void SpdySession::EnqueueSessionWrite(RequestPriority priority,
1892 SpdyFrameType frame_type,
1893 scoped_ptr<SpdyFrame> frame) {
1894 DCHECK(frame_type == RST_STREAM || frame_type == SETTINGS ||
1895 frame_type == WINDOW_UPDATE || frame_type == PING ||
1896 frame_type == GOAWAY);
1897 EnqueueWrite(
1898 priority, frame_type,
1899 scoped_ptr<SpdyBufferProducer>(
1900 new SimpleBufferProducer(
1901 scoped_ptr<SpdyBuffer>(new SpdyBuffer(frame.Pass())))),
1902 base::WeakPtr<SpdyStream>());
1905 void SpdySession::EnqueueWrite(RequestPriority priority,
1906 SpdyFrameType frame_type,
1907 scoped_ptr<SpdyBufferProducer> producer,
1908 const base::WeakPtr<SpdyStream>& stream) {
1909 if (availability_state_ == STATE_DRAINING)
1910 return;
1912 write_queue_.Enqueue(priority, frame_type, producer.Pass(), stream);
1913 MaybePostWriteLoop();
1916 void SpdySession::MaybePostWriteLoop() {
1917 if (write_state_ == WRITE_STATE_IDLE) {
1918 CHECK(!in_flight_write_);
1919 write_state_ = WRITE_STATE_DO_WRITE;
1920 base::ThreadTaskRunnerHandle::Get()->PostTask(
1921 FROM_HERE,
1922 base::Bind(&SpdySession::PumpWriteLoop, weak_factory_.GetWeakPtr(),
1923 WRITE_STATE_DO_WRITE, OK));
1927 void SpdySession::InsertCreatedStream(scoped_ptr<SpdyStream> stream) {
1928 CHECK_EQ(stream->stream_id(), 0u);
1929 CHECK(created_streams_.find(stream.get()) == created_streams_.end());
1930 created_streams_.insert(stream.release());
1933 scoped_ptr<SpdyStream> SpdySession::ActivateCreatedStream(SpdyStream* stream) {
1934 CHECK_EQ(stream->stream_id(), 0u);
1935 CHECK(created_streams_.find(stream) != created_streams_.end());
1936 stream->set_stream_id(GetNewStreamId());
1937 scoped_ptr<SpdyStream> owned_stream(stream);
1938 created_streams_.erase(stream);
1939 return owned_stream.Pass();
1942 void SpdySession::InsertActivatedStream(scoped_ptr<SpdyStream> stream) {
1943 SpdyStreamId stream_id = stream->stream_id();
1944 CHECK_NE(stream_id, 0u);
1945 std::pair<ActiveStreamMap::iterator, bool> result =
1946 active_streams_.insert(
1947 std::make_pair(stream_id, ActiveStreamInfo(stream.get())));
1948 CHECK(result.second);
1949 ignore_result(stream.release());
1952 void SpdySession::DeleteStream(scoped_ptr<SpdyStream> stream, int status) {
1953 if (in_flight_write_stream_.get() == stream.get()) {
1954 // If we're deleting the stream for the in-flight write, we still
1955 // need to let the write complete, so we clear
1956 // |in_flight_write_stream_| and let the write finish on its own
1957 // without notifying |in_flight_write_stream_|.
1958 in_flight_write_stream_.reset();
1961 write_queue_.RemovePendingWritesForStream(stream->GetWeakPtr());
1962 stream->OnClose(status);
1964 if (availability_state_ == STATE_AVAILABLE) {
1965 ProcessPendingStreamRequests();
1969 base::WeakPtr<SpdyStream> SpdySession::GetActivePushStream(const GURL& url) {
1970 PushedStreamMap::iterator unclaimed_it = unclaimed_pushed_streams_.find(url);
1971 if (unclaimed_it == unclaimed_pushed_streams_.end())
1972 return base::WeakPtr<SpdyStream>();
1974 SpdyStreamId stream_id = unclaimed_it->second.stream_id;
1975 unclaimed_pushed_streams_.erase(unclaimed_it);
1977 ActiveStreamMap::iterator active_it = active_streams_.find(stream_id);
1978 if (active_it == active_streams_.end()) {
1979 NOTREACHED();
1980 return base::WeakPtr<SpdyStream>();
1983 net_log_.AddEvent(NetLog::TYPE_HTTP2_STREAM_ADOPTED_PUSH_STREAM,
1984 base::Bind(&NetLogSpdyAdoptedPushStreamCallback,
1985 active_it->second.stream->stream_id(), &url));
1986 return active_it->second.stream->GetWeakPtr();
1989 bool SpdySession::GetSSLInfo(SSLInfo* ssl_info,
1990 bool* was_npn_negotiated,
1991 NextProto* protocol_negotiated) {
1992 *was_npn_negotiated = connection_->socket()->WasNpnNegotiated();
1993 *protocol_negotiated = connection_->socket()->GetNegotiatedProtocol();
1994 return connection_->socket()->GetSSLInfo(ssl_info);
1997 void SpdySession::OnError(SpdyFramer::SpdyError error_code) {
1998 CHECK(in_io_loop_);
2000 RecordProtocolErrorHistogram(MapFramerErrorToProtocolError(error_code));
2001 std::string description =
2002 base::StringPrintf("Framer error: %d (%s).",
2003 error_code,
2004 SpdyFramer::ErrorCodeToString(error_code));
2005 DoDrainSession(MapFramerErrorToNetError(error_code), description);
2008 void SpdySession::OnStreamError(SpdyStreamId stream_id,
2009 const std::string& description) {
2010 CHECK(in_io_loop_);
2012 ActiveStreamMap::iterator it = active_streams_.find(stream_id);
2013 if (it == active_streams_.end()) {
2014 // We still want to send a frame to reset the stream even if we
2015 // don't know anything about it.
2016 EnqueueResetStreamFrame(
2017 stream_id, IDLE, RST_STREAM_PROTOCOL_ERROR, description);
2018 return;
2021 ResetStreamIterator(it, RST_STREAM_PROTOCOL_ERROR, description);
2024 void SpdySession::OnDataFrameHeader(SpdyStreamId stream_id,
2025 size_t length,
2026 bool fin) {
2027 CHECK(in_io_loop_);
2029 ActiveStreamMap::iterator it = active_streams_.find(stream_id);
2031 // By the time data comes in, the stream may already be inactive.
2032 if (it == active_streams_.end())
2033 return;
2035 SpdyStream* stream = it->second.stream;
2036 CHECK_EQ(stream->stream_id(), stream_id);
2038 DCHECK(buffered_spdy_framer_);
2039 size_t header_len = buffered_spdy_framer_->GetDataFrameMinimumSize();
2040 stream->IncrementRawReceivedBytes(header_len);
2043 void SpdySession::OnStreamFrameData(SpdyStreamId stream_id,
2044 const char* data,
2045 size_t len,
2046 bool fin) {
2047 CHECK(in_io_loop_);
2048 DCHECK_LT(len, 1u << 24);
2049 if (net_log().IsCapturing()) {
2050 net_log().AddEvent(
2051 NetLog::TYPE_HTTP2_SESSION_RECV_DATA,
2052 base::Bind(&NetLogSpdyDataCallback, stream_id, len, fin));
2055 // Build the buffer as early as possible so that we go through the
2056 // session flow control checks and update
2057 // |unacked_recv_window_bytes_| properly even when the stream is
2058 // inactive (since the other side has still reduced its session send
2059 // window).
2060 scoped_ptr<SpdyBuffer> buffer;
2061 if (data) {
2062 DCHECK_GT(len, 0u);
2063 CHECK_LE(len, static_cast<size_t>(kReadBufferSize));
2064 buffer.reset(new SpdyBuffer(data, len));
2066 if (flow_control_state_ == FLOW_CONTROL_STREAM_AND_SESSION) {
2067 DecreaseRecvWindowSize(static_cast<int32>(len));
2068 buffer->AddConsumeCallback(
2069 base::Bind(&SpdySession::OnReadBufferConsumed,
2070 weak_factory_.GetWeakPtr()));
2072 } else {
2073 DCHECK_EQ(len, 0u);
2076 ActiveStreamMap::iterator it = active_streams_.find(stream_id);
2078 // By the time data comes in, the stream may already be inactive.
2079 if (it == active_streams_.end())
2080 return;
2082 SpdyStream* stream = it->second.stream;
2083 CHECK_EQ(stream->stream_id(), stream_id);
2085 stream->IncrementRawReceivedBytes(len);
2087 if (it->second.waiting_for_syn_reply) {
2088 const std::string& error = "Data received before SYN_REPLY.";
2089 stream->LogStreamError(ERR_SPDY_PROTOCOL_ERROR, error);
2090 ResetStreamIterator(it, RST_STREAM_PROTOCOL_ERROR, error);
2091 return;
2094 stream->OnDataReceived(buffer.Pass());
2097 void SpdySession::OnStreamPadding(SpdyStreamId stream_id, size_t len) {
2098 CHECK(in_io_loop_);
2100 if (flow_control_state_ != FLOW_CONTROL_STREAM_AND_SESSION)
2101 return;
2103 // Decrease window size because padding bytes are received.
2104 // Increase window size because padding bytes are consumed (by discarding).
2105 // Net result: |session_unacked_recv_window_bytes_| increases by |len|,
2106 // |session_recv_window_size_| does not change.
2107 DecreaseRecvWindowSize(static_cast<int32>(len));
2108 IncreaseRecvWindowSize(static_cast<int32>(len));
2110 ActiveStreamMap::iterator it = active_streams_.find(stream_id);
2111 if (it == active_streams_.end())
2112 return;
2113 it->second.stream->OnPaddingConsumed(len);
2116 void SpdySession::OnSettings(bool clear_persisted) {
2117 CHECK(in_io_loop_);
2119 if (clear_persisted)
2120 http_server_properties_->ClearSpdySettings(host_port_pair());
2122 if (net_log_.IsCapturing()) {
2123 net_log_.AddEvent(NetLog::TYPE_HTTP2_SESSION_RECV_SETTINGS,
2124 base::Bind(&NetLogSpdySettingsCallback, host_port_pair(),
2125 clear_persisted));
2128 if (GetProtocolVersion() >= HTTP2) {
2129 // Send an acknowledgment of the setting.
2130 SpdySettingsIR settings_ir;
2131 settings_ir.set_is_ack(true);
2132 EnqueueSessionWrite(
2133 HIGHEST,
2134 SETTINGS,
2135 scoped_ptr<SpdyFrame>(
2136 buffered_spdy_framer_->SerializeFrame(settings_ir)));
2140 void SpdySession::OnSetting(SpdySettingsIds id,
2141 uint8 flags,
2142 uint32 value) {
2143 CHECK(in_io_loop_);
2145 HandleSetting(id, value);
2146 http_server_properties_->SetSpdySetting(
2147 host_port_pair(),
2149 static_cast<SpdySettingsFlags>(flags),
2150 value);
2151 received_settings_ = true;
2153 // Log the setting.
2154 const SpdyMajorVersion protocol_version = GetProtocolVersion();
2155 net_log_.AddEvent(NetLog::TYPE_HTTP2_SESSION_RECV_SETTING,
2156 base::Bind(&NetLogSpdySettingCallback, id, protocol_version,
2157 static_cast<SpdySettingsFlags>(flags), value));
2160 void SpdySession::OnSendCompressedFrame(
2161 SpdyStreamId stream_id,
2162 SpdyFrameType type,
2163 size_t payload_len,
2164 size_t frame_len) {
2165 if (type != SYN_STREAM && type != HEADERS)
2166 return;
2168 DCHECK(buffered_spdy_framer_.get());
2169 size_t compressed_len =
2170 frame_len - buffered_spdy_framer_->GetSynStreamMinimumSize();
2172 if (payload_len) {
2173 // Make sure we avoid early decimal truncation.
2174 int compression_pct = 100 - (100 * compressed_len) / payload_len;
2175 UMA_HISTOGRAM_PERCENTAGE("Net.SpdySynStreamCompressionPercentage",
2176 compression_pct);
2180 void SpdySession::OnReceiveCompressedFrame(
2181 SpdyStreamId stream_id,
2182 SpdyFrameType type,
2183 size_t frame_len) {
2184 last_compressed_frame_len_ = frame_len;
2187 int SpdySession::OnInitialResponseHeadersReceived(
2188 const SpdyHeaderBlock& response_headers,
2189 base::Time response_time,
2190 base::TimeTicks recv_first_byte_time,
2191 SpdyStream* stream) {
2192 CHECK(in_io_loop_);
2193 SpdyStreamId stream_id = stream->stream_id();
2195 if (stream->type() == SPDY_PUSH_STREAM) {
2196 DCHECK(stream->IsReservedRemote());
2197 if (max_concurrent_pushed_streams_ &&
2198 num_active_pushed_streams_ >= max_concurrent_pushed_streams_) {
2199 ResetStream(stream_id,
2200 RST_STREAM_REFUSED_STREAM,
2201 "Stream concurrency limit reached.");
2202 return STATUS_CODE_REFUSED_STREAM;
2206 if (stream->type() == SPDY_PUSH_STREAM) {
2207 // Will be balanced in DeleteStream.
2208 num_active_pushed_streams_++;
2211 // May invalidate |stream|.
2212 int rv = stream->OnInitialResponseHeadersReceived(
2213 response_headers, response_time, recv_first_byte_time);
2214 if (rv < 0) {
2215 DCHECK_NE(rv, ERR_IO_PENDING);
2216 DCHECK(active_streams_.find(stream_id) == active_streams_.end());
2219 return rv;
2222 void SpdySession::OnSynStream(SpdyStreamId stream_id,
2223 SpdyStreamId associated_stream_id,
2224 SpdyPriority priority,
2225 bool fin,
2226 bool unidirectional,
2227 const SpdyHeaderBlock& headers) {
2228 CHECK(in_io_loop_);
2230 DCHECK_LE(GetProtocolVersion(), SPDY3);
2232 base::Time response_time = base::Time::Now();
2233 base::TimeTicks recv_first_byte_time = time_func_();
2235 if (net_log_.IsCapturing()) {
2236 net_log_.AddEvent(
2237 NetLog::TYPE_HTTP2_SESSION_PUSHED_SYN_STREAM,
2238 base::Bind(&NetLogSpdySynStreamReceivedCallback, &headers, fin,
2239 unidirectional, priority, stream_id, associated_stream_id));
2242 // Split headers to simulate push promise and response.
2243 SpdyHeaderBlock request_headers;
2244 SpdyHeaderBlock response_headers;
2245 SplitPushedHeadersToRequestAndResponse(
2246 headers, GetProtocolVersion(), &request_headers, &response_headers);
2248 if (!TryCreatePushStream(
2249 stream_id, associated_stream_id, priority, request_headers))
2250 return;
2252 ActiveStreamMap::iterator active_it = active_streams_.find(stream_id);
2253 if (active_it == active_streams_.end()) {
2254 NOTREACHED();
2255 return;
2258 OnInitialResponseHeadersReceived(response_headers, response_time,
2259 recv_first_byte_time,
2260 active_it->second.stream);
2263 void SpdySession::DeleteExpiredPushedStreams() {
2264 if (unclaimed_pushed_streams_.empty())
2265 return;
2267 // Check that adequate time has elapsed since the last sweep.
2268 if (time_func_() < next_unclaimed_push_stream_sweep_time_)
2269 return;
2271 // Gather old streams to delete.
2272 base::TimeTicks minimum_freshness = time_func_() -
2273 base::TimeDelta::FromSeconds(kMinPushedStreamLifetimeSeconds);
2274 std::vector<SpdyStreamId> streams_to_close;
2275 for (PushedStreamMap::iterator it = unclaimed_pushed_streams_.begin();
2276 it != unclaimed_pushed_streams_.end(); ++it) {
2277 if (minimum_freshness > it->second.creation_time)
2278 streams_to_close.push_back(it->second.stream_id);
2281 for (std::vector<SpdyStreamId>::const_iterator to_close_it =
2282 streams_to_close.begin();
2283 to_close_it != streams_to_close.end(); ++to_close_it) {
2284 ActiveStreamMap::iterator active_it = active_streams_.find(*to_close_it);
2285 if (active_it == active_streams_.end())
2286 continue;
2288 LogAbandonedActiveStream(active_it, ERR_INVALID_SPDY_STREAM);
2289 // CloseActiveStreamIterator() will remove the stream from
2290 // |unclaimed_pushed_streams_|.
2291 ResetStreamIterator(
2292 active_it, RST_STREAM_REFUSED_STREAM, "Stream not claimed.");
2295 next_unclaimed_push_stream_sweep_time_ = time_func_() +
2296 base::TimeDelta::FromSeconds(kMinPushedStreamLifetimeSeconds);
2299 void SpdySession::OnSynReply(SpdyStreamId stream_id,
2300 bool fin,
2301 const SpdyHeaderBlock& headers) {
2302 CHECK(in_io_loop_);
2304 base::Time response_time = base::Time::Now();
2305 base::TimeTicks recv_first_byte_time = time_func_();
2307 if (net_log().IsCapturing()) {
2308 net_log().AddEvent(NetLog::TYPE_HTTP2_SESSION_SYN_REPLY,
2309 base::Bind(&NetLogSpdySynReplyOrHeadersReceivedCallback,
2310 &headers, fin, stream_id));
2313 ActiveStreamMap::iterator it = active_streams_.find(stream_id);
2314 if (it == active_streams_.end()) {
2315 // NOTE: it may just be that the stream was cancelled.
2316 return;
2319 SpdyStream* stream = it->second.stream;
2320 CHECK_EQ(stream->stream_id(), stream_id);
2322 stream->IncrementRawReceivedBytes(last_compressed_frame_len_);
2323 last_compressed_frame_len_ = 0;
2325 if (GetProtocolVersion() >= HTTP2) {
2326 const std::string& error = "HTTP/2 wasn't expecting SYN_REPLY.";
2327 stream->LogStreamError(ERR_SPDY_PROTOCOL_ERROR, error);
2328 ResetStreamIterator(it, RST_STREAM_PROTOCOL_ERROR, error);
2329 return;
2331 if (!it->second.waiting_for_syn_reply) {
2332 const std::string& error =
2333 "Received duplicate SYN_REPLY for stream.";
2334 stream->LogStreamError(ERR_SPDY_PROTOCOL_ERROR, error);
2335 ResetStreamIterator(it, RST_STREAM_PROTOCOL_ERROR, error);
2336 return;
2338 it->second.waiting_for_syn_reply = false;
2340 ignore_result(OnInitialResponseHeadersReceived(
2341 headers, response_time, recv_first_byte_time, stream));
2344 void SpdySession::OnHeaders(SpdyStreamId stream_id,
2345 bool has_priority,
2346 SpdyPriority priority,
2347 SpdyStreamId parent_stream_id,
2348 bool exclusive,
2349 bool fin,
2350 const SpdyHeaderBlock& headers) {
2351 CHECK(in_io_loop_);
2353 if (net_log().IsCapturing()) {
2354 net_log().AddEvent(NetLog::TYPE_HTTP2_SESSION_RECV_HEADERS,
2355 base::Bind(&NetLogSpdySynReplyOrHeadersReceivedCallback,
2356 &headers, fin, stream_id));
2359 ActiveStreamMap::iterator it = active_streams_.find(stream_id);
2360 if (it == active_streams_.end()) {
2361 // NOTE: it may just be that the stream was cancelled.
2362 LOG(WARNING) << "Received HEADERS for invalid stream " << stream_id;
2363 return;
2366 SpdyStream* stream = it->second.stream;
2367 CHECK_EQ(stream->stream_id(), stream_id);
2369 stream->IncrementRawReceivedBytes(last_compressed_frame_len_);
2370 last_compressed_frame_len_ = 0;
2372 base::Time response_time = base::Time::Now();
2373 base::TimeTicks recv_first_byte_time = time_func_();
2375 if (it->second.waiting_for_syn_reply) {
2376 if (GetProtocolVersion() < HTTP2) {
2377 const std::string& error =
2378 "Was expecting SYN_REPLY, not HEADERS.";
2379 stream->LogStreamError(ERR_SPDY_PROTOCOL_ERROR, error);
2380 ResetStreamIterator(it, RST_STREAM_PROTOCOL_ERROR, error);
2381 return;
2384 it->second.waiting_for_syn_reply = false;
2385 ignore_result(OnInitialResponseHeadersReceived(
2386 headers, response_time, recv_first_byte_time, stream));
2387 } else if (it->second.stream->IsReservedRemote()) {
2388 ignore_result(OnInitialResponseHeadersReceived(
2389 headers, response_time, recv_first_byte_time, stream));
2390 } else {
2391 int rv = stream->OnAdditionalResponseHeadersReceived(headers);
2392 if (rv < 0) {
2393 DCHECK_NE(rv, ERR_IO_PENDING);
2394 DCHECK(active_streams_.find(stream_id) == active_streams_.end());
2399 bool SpdySession::OnUnknownFrame(SpdyStreamId stream_id, int frame_type) {
2400 // Validate stream id.
2401 // Was the frame sent on a stream id that has not been used in this session?
2402 if (stream_id % 2 == 1 && stream_id > stream_hi_water_mark_)
2403 return false;
2405 if (stream_id % 2 == 0 && stream_id > last_accepted_push_stream_id_)
2406 return false;
2408 return true;
2411 void SpdySession::OnRstStream(SpdyStreamId stream_id,
2412 SpdyRstStreamStatus status) {
2413 CHECK(in_io_loop_);
2415 std::string description;
2416 net_log().AddEvent(
2417 NetLog::TYPE_HTTP2_SESSION_RST_STREAM,
2418 base::Bind(&NetLogSpdyRstCallback, stream_id, status, &description));
2420 ActiveStreamMap::iterator it = active_streams_.find(stream_id);
2421 if (it == active_streams_.end()) {
2422 // NOTE: it may just be that the stream was cancelled.
2423 LOG(WARNING) << "Received RST for invalid stream" << stream_id;
2424 return;
2427 CHECK_EQ(it->second.stream->stream_id(), stream_id);
2429 if (status == 0) {
2430 it->second.stream->OnDataReceived(scoped_ptr<SpdyBuffer>());
2431 } else if (status == RST_STREAM_REFUSED_STREAM) {
2432 CloseActiveStreamIterator(it, ERR_SPDY_SERVER_REFUSED_STREAM);
2433 } else if (status == RST_STREAM_HTTP_1_1_REQUIRED) {
2434 // TODO(bnc): Record histogram with number of open streams capped at 50.
2435 it->second.stream->LogStreamError(
2436 ERR_HTTP_1_1_REQUIRED,
2437 base::StringPrintf(
2438 "SPDY session closed because of stream with status: %d", status));
2439 DoDrainSession(ERR_HTTP_1_1_REQUIRED, "HTTP_1_1_REQUIRED for stream.");
2440 } else {
2441 RecordProtocolErrorHistogram(
2442 PROTOCOL_ERROR_RST_STREAM_FOR_NON_ACTIVE_STREAM);
2443 it->second.stream->LogStreamError(
2444 ERR_SPDY_PROTOCOL_ERROR,
2445 base::StringPrintf("SPDY stream closed with status: %d", status));
2446 // TODO(mbelshe): Map from Spdy-protocol errors to something sensical.
2447 // For now, it doesn't matter much - it is a protocol error.
2448 CloseActiveStreamIterator(it, ERR_SPDY_PROTOCOL_ERROR);
2452 void SpdySession::OnGoAway(SpdyStreamId last_accepted_stream_id,
2453 SpdyGoAwayStatus status) {
2454 CHECK(in_io_loop_);
2456 // TODO(jgraettinger): UMA histogram on |status|.
2458 net_log_.AddEvent(NetLog::TYPE_HTTP2_SESSION_GOAWAY,
2459 base::Bind(&NetLogSpdyGoAwayCallback,
2460 last_accepted_stream_id, active_streams_.size(),
2461 unclaimed_pushed_streams_.size(), status));
2462 MakeUnavailable();
2463 if (status == GOAWAY_HTTP_1_1_REQUIRED) {
2464 // TODO(bnc): Record histogram with number of open streams capped at 50.
2465 DoDrainSession(ERR_HTTP_1_1_REQUIRED, "HTTP_1_1_REQUIRED for stream.");
2466 } else {
2467 StartGoingAway(last_accepted_stream_id, ERR_ABORTED);
2469 // This is to handle the case when we already don't have any active
2470 // streams (i.e., StartGoingAway() did nothing). Otherwise, we have
2471 // active streams and so the last one being closed will finish the
2472 // going away process (see DeleteStream()).
2473 MaybeFinishGoingAway();
2476 void SpdySession::OnPing(SpdyPingId unique_id, bool is_ack) {
2477 CHECK(in_io_loop_);
2479 net_log_.AddEvent(
2480 NetLog::TYPE_HTTP2_SESSION_PING,
2481 base::Bind(&NetLogSpdyPingCallback, unique_id, is_ack, "received"));
2483 // Send response to a PING from server.
2484 if ((protocol_ >= kProtoHTTP2MinimumVersion && !is_ack) ||
2485 (protocol_ < kProtoHTTP2MinimumVersion && unique_id % 2 == 0)) {
2486 WritePingFrame(unique_id, true);
2487 return;
2490 --pings_in_flight_;
2491 if (pings_in_flight_ < 0) {
2492 RecordProtocolErrorHistogram(PROTOCOL_ERROR_UNEXPECTED_PING);
2493 DoDrainSession(ERR_SPDY_PROTOCOL_ERROR, "pings_in_flight_ is < 0.");
2494 pings_in_flight_ = 0;
2495 return;
2498 if (pings_in_flight_ > 0)
2499 return;
2501 // We will record RTT in histogram when there are no more client sent
2502 // pings_in_flight_.
2503 RecordPingRTTHistogram(time_func_() - last_ping_sent_time_);
2506 void SpdySession::OnWindowUpdate(SpdyStreamId stream_id,
2507 int delta_window_size) {
2508 CHECK(in_io_loop_);
2510 net_log_.AddEvent(NetLog::TYPE_HTTP2_SESSION_RECEIVED_WINDOW_UPDATE_FRAME,
2511 base::Bind(&NetLogSpdyWindowUpdateFrameCallback, stream_id,
2512 delta_window_size));
2514 if (stream_id == kSessionFlowControlStreamId) {
2515 // WINDOW_UPDATE for the session.
2516 if (flow_control_state_ < FLOW_CONTROL_STREAM_AND_SESSION) {
2517 LOG(WARNING) << "Received WINDOW_UPDATE for session when "
2518 << "session flow control is not turned on";
2519 // TODO(akalin): Record an error and close the session.
2520 return;
2523 if (delta_window_size < 1) {
2524 RecordProtocolErrorHistogram(PROTOCOL_ERROR_INVALID_WINDOW_UPDATE_SIZE);
2525 DoDrainSession(
2526 ERR_SPDY_PROTOCOL_ERROR,
2527 "Received WINDOW_UPDATE with an invalid delta_window_size " +
2528 base::UintToString(delta_window_size));
2529 return;
2532 IncreaseSendWindowSize(delta_window_size);
2533 } else {
2534 // WINDOW_UPDATE for a stream.
2535 if (flow_control_state_ < FLOW_CONTROL_STREAM) {
2536 // TODO(akalin): Record an error and close the session.
2537 LOG(WARNING) << "Received WINDOW_UPDATE for stream " << stream_id
2538 << " when flow control is not turned on";
2539 return;
2542 ActiveStreamMap::iterator it = active_streams_.find(stream_id);
2544 if (it == active_streams_.end()) {
2545 // NOTE: it may just be that the stream was cancelled.
2546 LOG(WARNING) << "Received WINDOW_UPDATE for invalid stream " << stream_id;
2547 return;
2550 SpdyStream* stream = it->second.stream;
2551 CHECK_EQ(stream->stream_id(), stream_id);
2553 if (delta_window_size < 1) {
2554 ResetStreamIterator(it, RST_STREAM_FLOW_CONTROL_ERROR,
2555 base::StringPrintf(
2556 "Received WINDOW_UPDATE with an invalid "
2557 "delta_window_size %d",
2558 delta_window_size));
2559 return;
2562 CHECK_EQ(it->second.stream->stream_id(), stream_id);
2563 it->second.stream->IncreaseSendWindowSize(delta_window_size);
2567 bool SpdySession::TryCreatePushStream(SpdyStreamId stream_id,
2568 SpdyStreamId associated_stream_id,
2569 SpdyPriority priority,
2570 const SpdyHeaderBlock& headers) {
2571 // Server-initiated streams should have even sequence numbers.
2572 if ((stream_id & 0x1) != 0) {
2573 LOG(WARNING) << "Received invalid push stream id " << stream_id;
2574 if (GetProtocolVersion() > SPDY2)
2575 CloseSessionOnError(ERR_SPDY_PROTOCOL_ERROR, "Odd push stream id.");
2576 return false;
2579 if (GetProtocolVersion() > SPDY2) {
2580 if (stream_id <= last_accepted_push_stream_id_) {
2581 LOG(WARNING) << "Received push stream id lesser or equal to the last "
2582 << "accepted before " << stream_id;
2583 CloseSessionOnError(
2584 ERR_SPDY_PROTOCOL_ERROR,
2585 "New push stream id must be greater than the last accepted.");
2586 return false;
2590 if (IsStreamActive(stream_id)) {
2591 // For SPDY3 and higher we should not get here, we'll start going away
2592 // earlier on |last_seen_push_stream_id_| check.
2593 CHECK_GT(SPDY3, GetProtocolVersion());
2594 LOG(WARNING) << "Received push for active stream " << stream_id;
2595 return false;
2598 last_accepted_push_stream_id_ = stream_id;
2600 RequestPriority request_priority =
2601 ConvertSpdyPriorityToRequestPriority(priority, GetProtocolVersion());
2603 if (availability_state_ == STATE_GOING_AWAY) {
2604 // TODO(akalin): This behavior isn't in the SPDY spec, although it
2605 // probably should be.
2606 EnqueueResetStreamFrame(stream_id,
2607 request_priority,
2608 RST_STREAM_REFUSED_STREAM,
2609 "push stream request received when going away");
2610 return false;
2613 if (associated_stream_id == 0) {
2614 // In HTTP/2 0 stream id in PUSH_PROMISE frame leads to framer error and
2615 // session going away. We should never get here.
2616 CHECK_GT(HTTP2, GetProtocolVersion());
2617 std::string description = base::StringPrintf(
2618 "Received invalid associated stream id %d for pushed stream %d",
2619 associated_stream_id,
2620 stream_id);
2621 EnqueueResetStreamFrame(
2622 stream_id, request_priority, RST_STREAM_REFUSED_STREAM, description);
2623 return false;
2626 streams_pushed_count_++;
2628 // TODO(mbelshe): DCHECK that this is a GET method?
2630 // Verify that the response had a URL for us.
2631 GURL gurl = GetUrlFromHeaderBlock(headers, GetProtocolVersion(), true);
2632 if (!gurl.is_valid()) {
2633 EnqueueResetStreamFrame(stream_id,
2634 request_priority,
2635 RST_STREAM_PROTOCOL_ERROR,
2636 "Pushed stream url was invalid: " + gurl.spec());
2637 return false;
2640 // Verify we have a valid stream association.
2641 ActiveStreamMap::iterator associated_it =
2642 active_streams_.find(associated_stream_id);
2643 if (associated_it == active_streams_.end()) {
2644 EnqueueResetStreamFrame(
2645 stream_id,
2646 request_priority,
2647 RST_STREAM_INVALID_STREAM,
2648 base::StringPrintf("Received push for inactive associated stream %d",
2649 associated_stream_id));
2650 return false;
2653 // Check that the pushed stream advertises the same origin as its associated
2654 // stream. Bypass this check if and only if this session is with a SPDY proxy
2655 // that is trusted explicitly via the --trusted-spdy-proxy switch.
2656 if (trusted_spdy_proxy_.Equals(host_port_pair())) {
2657 // Disallow pushing of HTTPS content.
2658 if (gurl.SchemeIs("https")) {
2659 EnqueueResetStreamFrame(
2660 stream_id,
2661 request_priority,
2662 RST_STREAM_REFUSED_STREAM,
2663 base::StringPrintf("Rejected push of Cross Origin HTTPS content %d",
2664 associated_stream_id));
2666 } else {
2667 GURL associated_url(associated_it->second.stream->GetUrlFromHeaders());
2668 if (associated_url.GetOrigin() != gurl.GetOrigin()) {
2669 EnqueueResetStreamFrame(
2670 stream_id,
2671 request_priority,
2672 RST_STREAM_REFUSED_STREAM,
2673 base::StringPrintf("Rejected Cross Origin Push Stream %d",
2674 associated_stream_id));
2675 return false;
2679 // There should not be an existing pushed stream with the same path.
2680 PushedStreamMap::iterator pushed_it =
2681 unclaimed_pushed_streams_.lower_bound(gurl);
2682 if (pushed_it != unclaimed_pushed_streams_.end() &&
2683 pushed_it->first == gurl) {
2684 EnqueueResetStreamFrame(
2685 stream_id,
2686 request_priority,
2687 RST_STREAM_PROTOCOL_ERROR,
2688 "Received duplicate pushed stream with url: " + gurl.spec());
2689 return false;
2692 scoped_ptr<SpdyStream> stream(
2693 new SpdyStream(SPDY_PUSH_STREAM, GetWeakPtr(), gurl, request_priority,
2694 stream_initial_send_window_size_,
2695 stream_max_recv_window_size_, net_log_));
2696 stream->set_stream_id(stream_id);
2698 // In spdy4/http2 PUSH_PROMISE arrives on associated stream.
2699 if (associated_it != active_streams_.end() && GetProtocolVersion() >= HTTP2) {
2700 associated_it->second.stream->IncrementRawReceivedBytes(
2701 last_compressed_frame_len_);
2702 } else {
2703 stream->IncrementRawReceivedBytes(last_compressed_frame_len_);
2706 last_compressed_frame_len_ = 0;
2708 PushedStreamMap::iterator inserted_pushed_it =
2709 unclaimed_pushed_streams_.insert(
2710 pushed_it,
2711 std::make_pair(gurl, PushedStreamInfo(stream_id, time_func_())));
2712 DCHECK(inserted_pushed_it != pushed_it);
2713 DeleteExpiredPushedStreams();
2715 InsertActivatedStream(stream.Pass());
2717 ActiveStreamMap::iterator active_it = active_streams_.find(stream_id);
2718 if (active_it == active_streams_.end()) {
2719 NOTREACHED();
2720 return false;
2723 active_it->second.stream->OnPushPromiseHeadersReceived(headers);
2724 DCHECK(active_it->second.stream->IsReservedRemote());
2725 num_pushed_streams_++;
2726 return true;
2729 void SpdySession::OnPushPromise(SpdyStreamId stream_id,
2730 SpdyStreamId promised_stream_id,
2731 const SpdyHeaderBlock& headers) {
2732 CHECK(in_io_loop_);
2734 if (net_log_.IsCapturing()) {
2735 net_log_.AddEvent(NetLog::TYPE_HTTP2_SESSION_RECV_PUSH_PROMISE,
2736 base::Bind(&NetLogSpdyPushPromiseReceivedCallback,
2737 &headers, stream_id, promised_stream_id));
2740 // Any priority will do.
2741 // TODO(baranovich): pass parent stream id priority?
2742 if (!TryCreatePushStream(promised_stream_id, stream_id, 0, headers))
2743 return;
2746 void SpdySession::SendStreamWindowUpdate(SpdyStreamId stream_id,
2747 uint32 delta_window_size) {
2748 CHECK_GE(flow_control_state_, FLOW_CONTROL_STREAM);
2749 ActiveStreamMap::const_iterator it = active_streams_.find(stream_id);
2750 CHECK(it != active_streams_.end());
2751 CHECK_EQ(it->second.stream->stream_id(), stream_id);
2752 SendWindowUpdateFrame(
2753 stream_id, delta_window_size, it->second.stream->priority());
2756 void SpdySession::SendInitialData() {
2757 DCHECK(enable_sending_initial_data_);
2759 if (send_connection_header_prefix_) {
2760 DCHECK_GE(protocol_, kProtoHTTP2MinimumVersion);
2761 DCHECK_LE(protocol_, kProtoHTTP2MaximumVersion);
2762 scoped_ptr<SpdyFrame> connection_header_prefix_frame(
2763 new SpdyFrame(const_cast<char*>(kHttp2ConnectionHeaderPrefix),
2764 kHttp2ConnectionHeaderPrefixSize,
2765 false /* take_ownership */));
2766 // Count the prefix as part of the subsequent SETTINGS frame.
2767 EnqueueSessionWrite(HIGHEST, SETTINGS,
2768 connection_header_prefix_frame.Pass());
2771 // First, notify the server about the settings they should use when
2772 // communicating with us.
2773 SettingsMap settings_map;
2774 // Create a new settings frame notifying the server of our
2775 // max concurrent streams and initial window size.
2776 settings_map[SETTINGS_MAX_CONCURRENT_STREAMS] =
2777 SettingsFlagsAndValue(SETTINGS_FLAG_NONE, kMaxConcurrentPushedStreams);
2778 if (flow_control_state_ >= FLOW_CONTROL_STREAM &&
2779 stream_max_recv_window_size_ != GetDefaultInitialWindowSize(protocol_)) {
2780 settings_map[SETTINGS_INITIAL_WINDOW_SIZE] =
2781 SettingsFlagsAndValue(SETTINGS_FLAG_NONE, stream_max_recv_window_size_);
2783 SendSettings(settings_map);
2785 // Next, notify the server about our initial recv window size.
2786 if (flow_control_state_ == FLOW_CONTROL_STREAM_AND_SESSION) {
2787 // Bump up the receive window size to the real initial value. This
2788 // has to go here since the WINDOW_UPDATE frame sent by
2789 // IncreaseRecvWindowSize() call uses |buffered_spdy_framer_|.
2790 // This condition implies that |session_max_recv_window_size_| -
2791 // |session_recv_window_size_| doesn't overflow.
2792 DCHECK_GE(session_max_recv_window_size_, session_recv_window_size_);
2793 DCHECK_GE(session_recv_window_size_, 0);
2794 if (session_max_recv_window_size_ > session_recv_window_size_) {
2795 IncreaseRecvWindowSize(session_max_recv_window_size_ -
2796 session_recv_window_size_);
2800 if (protocol_ <= kProtoSPDY31) {
2801 // Finally, notify the server about the settings they have
2802 // previously told us to use when communicating with them (after
2803 // applying them).
2804 const SettingsMap& server_settings_map =
2805 http_server_properties_->GetSpdySettings(host_port_pair());
2806 if (server_settings_map.empty())
2807 return;
2809 SettingsMap::const_iterator it =
2810 server_settings_map.find(SETTINGS_CURRENT_CWND);
2811 uint32 cwnd = (it != server_settings_map.end()) ? it->second.second : 0;
2812 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdySettingsCwndSent", cwnd, 1, 200, 100);
2814 for (SettingsMap::const_iterator it = server_settings_map.begin();
2815 it != server_settings_map.end(); ++it) {
2816 const SpdySettingsIds new_id = it->first;
2817 const uint32 new_val = it->second.second;
2818 HandleSetting(new_id, new_val);
2821 SendSettings(server_settings_map);
2826 void SpdySession::SendSettings(const SettingsMap& settings) {
2827 const SpdyMajorVersion protocol_version = GetProtocolVersion();
2828 net_log_.AddEvent(
2829 NetLog::TYPE_HTTP2_SESSION_SEND_SETTINGS,
2830 base::Bind(&NetLogSpdySendSettingsCallback, &settings, protocol_version));
2831 // Create the SETTINGS frame and send it.
2832 DCHECK(buffered_spdy_framer_.get());
2833 scoped_ptr<SpdyFrame> settings_frame(
2834 buffered_spdy_framer_->CreateSettings(settings));
2835 sent_settings_ = true;
2836 EnqueueSessionWrite(HIGHEST, SETTINGS, settings_frame.Pass());
2839 void SpdySession::HandleSetting(uint32 id, uint32 value) {
2840 switch (id) {
2841 case SETTINGS_MAX_CONCURRENT_STREAMS:
2842 max_concurrent_streams_ = std::min(static_cast<size_t>(value),
2843 kMaxConcurrentStreamLimit);
2844 ProcessPendingStreamRequests();
2845 break;
2846 case SETTINGS_INITIAL_WINDOW_SIZE: {
2847 if (flow_control_state_ < FLOW_CONTROL_STREAM) {
2848 net_log().AddEvent(
2849 NetLog::TYPE_HTTP2_SESSION_INITIAL_WINDOW_SIZE_NO_FLOW_CONTROL);
2850 return;
2853 if (value > static_cast<uint32>(kint32max)) {
2854 net_log().AddEvent(
2855 NetLog::TYPE_HTTP2_SESSION_INITIAL_WINDOW_SIZE_OUT_OF_RANGE,
2856 NetLog::IntegerCallback("initial_window_size", value));
2857 return;
2860 // SETTINGS_INITIAL_WINDOW_SIZE updates initial_send_window_size_ only.
2861 int32 delta_window_size =
2862 static_cast<int32>(value) - stream_initial_send_window_size_;
2863 stream_initial_send_window_size_ = static_cast<int32>(value);
2864 UpdateStreamsSendWindowSize(delta_window_size);
2865 net_log().AddEvent(
2866 NetLog::TYPE_HTTP2_SESSION_UPDATE_STREAMS_SEND_WINDOW_SIZE,
2867 NetLog::IntegerCallback("delta_window_size", delta_window_size));
2868 break;
2873 void SpdySession::UpdateStreamsSendWindowSize(int32 delta_window_size) {
2874 DCHECK_GE(flow_control_state_, FLOW_CONTROL_STREAM);
2875 for (ActiveStreamMap::iterator it = active_streams_.begin();
2876 it != active_streams_.end(); ++it) {
2877 it->second.stream->AdjustSendWindowSize(delta_window_size);
2880 for (CreatedStreamSet::const_iterator it = created_streams_.begin();
2881 it != created_streams_.end(); it++) {
2882 (*it)->AdjustSendWindowSize(delta_window_size);
2886 void SpdySession::SendPrefacePingIfNoneInFlight() {
2887 if (pings_in_flight_ || !enable_ping_based_connection_checking_)
2888 return;
2890 base::TimeTicks now = time_func_();
2891 // If there is no activity in the session, then send a preface-PING.
2892 if ((now - last_activity_time_) > connection_at_risk_of_loss_time_)
2893 SendPrefacePing();
2896 void SpdySession::SendPrefacePing() {
2897 WritePingFrame(next_ping_id_, false);
2900 void SpdySession::SendWindowUpdateFrame(SpdyStreamId stream_id,
2901 uint32 delta_window_size,
2902 RequestPriority priority) {
2903 CHECK_GE(flow_control_state_, FLOW_CONTROL_STREAM);
2904 ActiveStreamMap::const_iterator it = active_streams_.find(stream_id);
2905 if (it != active_streams_.end()) {
2906 CHECK_EQ(it->second.stream->stream_id(), stream_id);
2907 } else {
2908 CHECK_EQ(flow_control_state_, FLOW_CONTROL_STREAM_AND_SESSION);
2909 CHECK_EQ(stream_id, kSessionFlowControlStreamId);
2912 net_log_.AddEvent(NetLog::TYPE_HTTP2_SESSION_SENT_WINDOW_UPDATE_FRAME,
2913 base::Bind(&NetLogSpdyWindowUpdateFrameCallback, stream_id,
2914 delta_window_size));
2916 DCHECK(buffered_spdy_framer_.get());
2917 scoped_ptr<SpdyFrame> window_update_frame(
2918 buffered_spdy_framer_->CreateWindowUpdate(stream_id, delta_window_size));
2919 EnqueueSessionWrite(priority, WINDOW_UPDATE, window_update_frame.Pass());
2922 void SpdySession::WritePingFrame(SpdyPingId unique_id, bool is_ack) {
2923 DCHECK(buffered_spdy_framer_.get());
2924 scoped_ptr<SpdyFrame> ping_frame(
2925 buffered_spdy_framer_->CreatePingFrame(unique_id, is_ack));
2926 EnqueueSessionWrite(HIGHEST, PING, ping_frame.Pass());
2928 if (net_log().IsCapturing()) {
2929 net_log().AddEvent(
2930 NetLog::TYPE_HTTP2_SESSION_PING,
2931 base::Bind(&NetLogSpdyPingCallback, unique_id, is_ack, "sent"));
2933 if (!is_ack) {
2934 next_ping_id_ += 2;
2935 ++pings_in_flight_;
2936 PlanToCheckPingStatus();
2937 last_ping_sent_time_ = time_func_();
2941 void SpdySession::PlanToCheckPingStatus() {
2942 if (check_ping_status_pending_)
2943 return;
2945 check_ping_status_pending_ = true;
2946 base::ThreadTaskRunnerHandle::Get()->PostDelayedTask(
2947 FROM_HERE, base::Bind(&SpdySession::CheckPingStatus,
2948 weak_factory_.GetWeakPtr(), time_func_()),
2949 hung_interval_);
2952 void SpdySession::CheckPingStatus(base::TimeTicks last_check_time) {
2953 CHECK(!in_io_loop_);
2955 // Check if we got a response back for all PINGs we had sent.
2956 if (pings_in_flight_ == 0) {
2957 check_ping_status_pending_ = false;
2958 return;
2961 DCHECK(check_ping_status_pending_);
2963 base::TimeTicks now = time_func_();
2964 base::TimeDelta delay = hung_interval_ - (now - last_activity_time_);
2966 if (delay.InMilliseconds() < 0 || last_activity_time_ < last_check_time) {
2967 DoDrainSession(ERR_SPDY_PING_FAILED, "Failed ping.");
2968 return;
2971 // Check the status of connection after a delay.
2972 base::ThreadTaskRunnerHandle::Get()->PostDelayedTask(
2973 FROM_HERE, base::Bind(&SpdySession::CheckPingStatus,
2974 weak_factory_.GetWeakPtr(), now),
2975 delay);
2978 void SpdySession::RecordPingRTTHistogram(base::TimeDelta duration) {
2979 UMA_HISTOGRAM_CUSTOM_TIMES("Net.SpdyPing.RTT", duration,
2980 base::TimeDelta::FromMilliseconds(1),
2981 base::TimeDelta::FromMinutes(10), 100);
2984 void SpdySession::RecordProtocolErrorHistogram(
2985 SpdyProtocolErrorDetails details) {
2986 UMA_HISTOGRAM_ENUMERATION("Net.SpdySessionErrorDetails2", details,
2987 NUM_SPDY_PROTOCOL_ERROR_DETAILS);
2988 if (base::EndsWith(host_port_pair().host(), "google.com",
2989 base::CompareCase::INSENSITIVE_ASCII)) {
2990 UMA_HISTOGRAM_ENUMERATION("Net.SpdySessionErrorDetails_Google2", details,
2991 NUM_SPDY_PROTOCOL_ERROR_DETAILS);
2995 void SpdySession::RecordHistograms() {
2996 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdyStreamsPerSession",
2997 streams_initiated_count_,
2998 0, 300, 50);
2999 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdyStreamsPushedPerSession",
3000 streams_pushed_count_,
3001 0, 300, 50);
3002 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdyStreamsPushedAndClaimedPerSession",
3003 streams_pushed_and_claimed_count_,
3004 0, 300, 50);
3005 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdyStreamsAbandonedPerSession",
3006 streams_abandoned_count_,
3007 0, 300, 50);
3008 UMA_HISTOGRAM_ENUMERATION("Net.SpdySettingsSent",
3009 sent_settings_ ? 1 : 0, 2);
3010 UMA_HISTOGRAM_ENUMERATION("Net.SpdySettingsReceived",
3011 received_settings_ ? 1 : 0, 2);
3012 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdyStreamStallsPerSession",
3013 stalled_streams_,
3014 0, 300, 50);
3015 UMA_HISTOGRAM_ENUMERATION("Net.SpdySessionsWithStalls",
3016 stalled_streams_ > 0 ? 1 : 0, 2);
3018 if (received_settings_) {
3019 // Enumerate the saved settings, and set histograms for it.
3020 const SettingsMap& settings_map =
3021 http_server_properties_->GetSpdySettings(host_port_pair());
3023 SettingsMap::const_iterator it;
3024 for (it = settings_map.begin(); it != settings_map.end(); ++it) {
3025 const SpdySettingsIds id = it->first;
3026 const uint32 val = it->second.second;
3027 switch (id) {
3028 case SETTINGS_CURRENT_CWND:
3029 // Record several different histograms to see if cwnd converges
3030 // for larger volumes of data being sent.
3031 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdySettingsCwnd",
3032 val, 1, 200, 100);
3033 if (total_bytes_received_ > 10 * 1024) {
3034 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdySettingsCwnd10K",
3035 val, 1, 200, 100);
3036 if (total_bytes_received_ > 25 * 1024) {
3037 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdySettingsCwnd25K",
3038 val, 1, 200, 100);
3039 if (total_bytes_received_ > 50 * 1024) {
3040 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdySettingsCwnd50K",
3041 val, 1, 200, 100);
3042 if (total_bytes_received_ > 100 * 1024) {
3043 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdySettingsCwnd100K",
3044 val, 1, 200, 100);
3049 break;
3050 case SETTINGS_ROUND_TRIP_TIME:
3051 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdySettingsRTT",
3052 val, 1, 1200, 100);
3053 break;
3054 case SETTINGS_DOWNLOAD_RETRANS_RATE:
3055 UMA_HISTOGRAM_CUSTOM_COUNTS("Net.SpdySettingsRetransRate",
3056 val, 1, 100, 50);
3057 break;
3058 default:
3059 break;
3065 void SpdySession::CompleteStreamRequest(
3066 const base::WeakPtr<SpdyStreamRequest>& pending_request) {
3067 // Abort if the request has already been cancelled.
3068 if (!pending_request)
3069 return;
3071 base::WeakPtr<SpdyStream> stream;
3072 int rv = TryCreateStream(pending_request, &stream);
3074 if (rv == OK) {
3075 DCHECK(stream);
3076 pending_request->OnRequestCompleteSuccess(stream);
3077 return;
3079 DCHECK(!stream);
3081 if (rv != ERR_IO_PENDING) {
3082 pending_request->OnRequestCompleteFailure(rv);
3086 SSLClientSocket* SpdySession::GetSSLClientSocket() const {
3087 if (!is_secure_)
3088 return NULL;
3089 SSLClientSocket* ssl_socket =
3090 reinterpret_cast<SSLClientSocket*>(connection_->socket());
3091 DCHECK(ssl_socket);
3092 return ssl_socket;
3095 void SpdySession::OnWriteBufferConsumed(
3096 size_t frame_payload_size,
3097 size_t consume_size,
3098 SpdyBuffer::ConsumeSource consume_source) {
3099 // We can be called with |in_io_loop_| set if a write SpdyBuffer is
3100 // deleted (e.g., a stream is closed due to incoming data).
3102 DCHECK_EQ(flow_control_state_, FLOW_CONTROL_STREAM_AND_SESSION);
3104 if (consume_source == SpdyBuffer::DISCARD) {
3105 // If we're discarding a frame or part of it, increase the send
3106 // window by the number of discarded bytes. (Although if we're
3107 // discarding part of a frame, it's probably because of a write
3108 // error and we'll be tearing down the session soon.)
3109 int remaining_payload_bytes = std::min(consume_size, frame_payload_size);
3110 DCHECK_GT(remaining_payload_bytes, 0);
3111 IncreaseSendWindowSize(remaining_payload_bytes);
3113 // For consumed bytes, the send window is increased when we receive
3114 // a WINDOW_UPDATE frame.
3117 void SpdySession::IncreaseSendWindowSize(int delta_window_size) {
3118 // We can be called with |in_io_loop_| set if a SpdyBuffer is
3119 // deleted (e.g., a stream is closed due to incoming data).
3121 DCHECK_EQ(flow_control_state_, FLOW_CONTROL_STREAM_AND_SESSION);
3122 DCHECK_GE(delta_window_size, 1);
3124 // Check for overflow.
3125 int32 max_delta_window_size = kint32max - session_send_window_size_;
3126 if (delta_window_size > max_delta_window_size) {
3127 RecordProtocolErrorHistogram(PROTOCOL_ERROR_INVALID_WINDOW_UPDATE_SIZE);
3128 DoDrainSession(
3129 ERR_SPDY_PROTOCOL_ERROR,
3130 "Received WINDOW_UPDATE [delta: " +
3131 base::IntToString(delta_window_size) +
3132 "] for session overflows session_send_window_size_ [current: " +
3133 base::IntToString(session_send_window_size_) + "]");
3134 return;
3137 session_send_window_size_ += delta_window_size;
3139 net_log_.AddEvent(NetLog::TYPE_HTTP2_SESSION_UPDATE_SEND_WINDOW,
3140 base::Bind(&NetLogSpdySessionWindowUpdateCallback,
3141 delta_window_size, session_send_window_size_));
3143 DCHECK(!IsSendStalled());
3144 ResumeSendStalledStreams();
3147 void SpdySession::DecreaseSendWindowSize(int32 delta_window_size) {
3148 DCHECK_EQ(flow_control_state_, FLOW_CONTROL_STREAM_AND_SESSION);
3150 // We only call this method when sending a frame. Therefore,
3151 // |delta_window_size| should be within the valid frame size range.
3152 DCHECK_GE(delta_window_size, 1);
3153 DCHECK_LE(delta_window_size, kMaxSpdyFrameChunkSize);
3155 // |send_window_size_| should have been at least |delta_window_size| for
3156 // this call to happen.
3157 DCHECK_GE(session_send_window_size_, delta_window_size);
3159 session_send_window_size_ -= delta_window_size;
3161 net_log_.AddEvent(NetLog::TYPE_HTTP2_SESSION_UPDATE_SEND_WINDOW,
3162 base::Bind(&NetLogSpdySessionWindowUpdateCallback,
3163 -delta_window_size, session_send_window_size_));
3166 void SpdySession::OnReadBufferConsumed(
3167 size_t consume_size,
3168 SpdyBuffer::ConsumeSource consume_source) {
3169 // We can be called with |in_io_loop_| set if a read SpdyBuffer is
3170 // deleted (e.g., discarded by a SpdyReadQueue).
3172 DCHECK_EQ(flow_control_state_, FLOW_CONTROL_STREAM_AND_SESSION);
3173 DCHECK_GE(consume_size, 1u);
3174 DCHECK_LE(consume_size, static_cast<size_t>(kint32max));
3176 IncreaseRecvWindowSize(static_cast<int32>(consume_size));
3179 void SpdySession::IncreaseRecvWindowSize(int32 delta_window_size) {
3180 DCHECK_EQ(flow_control_state_, FLOW_CONTROL_STREAM_AND_SESSION);
3181 DCHECK_GE(session_unacked_recv_window_bytes_, 0);
3182 DCHECK_GE(session_recv_window_size_, session_unacked_recv_window_bytes_);
3183 DCHECK_GE(delta_window_size, 1);
3184 // Check for overflow.
3185 DCHECK_LE(delta_window_size, kint32max - session_recv_window_size_);
3187 session_recv_window_size_ += delta_window_size;
3188 net_log_.AddEvent(NetLog::TYPE_HTTP2_STREAM_UPDATE_RECV_WINDOW,
3189 base::Bind(&NetLogSpdySessionWindowUpdateCallback,
3190 delta_window_size, session_recv_window_size_));
3192 session_unacked_recv_window_bytes_ += delta_window_size;
3193 if (session_unacked_recv_window_bytes_ > session_max_recv_window_size_ / 2) {
3194 SendWindowUpdateFrame(kSessionFlowControlStreamId,
3195 session_unacked_recv_window_bytes_,
3196 HIGHEST);
3197 session_unacked_recv_window_bytes_ = 0;
3201 void SpdySession::DecreaseRecvWindowSize(int32 delta_window_size) {
3202 CHECK(in_io_loop_);
3203 DCHECK_EQ(flow_control_state_, FLOW_CONTROL_STREAM_AND_SESSION);
3204 DCHECK_GE(delta_window_size, 1);
3206 // The receiving window size as the peer knows it is
3207 // |session_recv_window_size_ - session_unacked_recv_window_bytes_|, if more
3208 // data are sent by the peer, that means that the receive window is not being
3209 // respected.
3210 if (delta_window_size >
3211 session_recv_window_size_ - session_unacked_recv_window_bytes_) {
3212 RecordProtocolErrorHistogram(PROTOCOL_ERROR_RECEIVE_WINDOW_VIOLATION);
3213 DoDrainSession(
3214 ERR_SPDY_FLOW_CONTROL_ERROR,
3215 "delta_window_size is " + base::IntToString(delta_window_size) +
3216 " in DecreaseRecvWindowSize, which is larger than the receive " +
3217 "window size of " + base::IntToString(session_recv_window_size_));
3218 return;
3221 session_recv_window_size_ -= delta_window_size;
3222 net_log_.AddEvent(NetLog::TYPE_HTTP2_SESSION_UPDATE_RECV_WINDOW,
3223 base::Bind(&NetLogSpdySessionWindowUpdateCallback,
3224 -delta_window_size, session_recv_window_size_));
3227 void SpdySession::QueueSendStalledStream(const SpdyStream& stream) {
3228 DCHECK(stream.send_stalled_by_flow_control());
3229 RequestPriority priority = stream.priority();
3230 CHECK_GE(priority, MINIMUM_PRIORITY);
3231 CHECK_LE(priority, MAXIMUM_PRIORITY);
3232 stream_send_unstall_queue_[priority].push_back(stream.stream_id());
3235 void SpdySession::ResumeSendStalledStreams() {
3236 DCHECK_EQ(flow_control_state_, FLOW_CONTROL_STREAM_AND_SESSION);
3238 // We don't have to worry about new streams being queued, since
3239 // doing so would cause IsSendStalled() to return true. But we do
3240 // have to worry about streams being closed, as well as ourselves
3241 // being closed.
3243 while (!IsSendStalled()) {
3244 size_t old_size = 0;
3245 #if DCHECK_IS_ON()
3246 old_size = GetTotalSize(stream_send_unstall_queue_);
3247 #endif
3249 SpdyStreamId stream_id = PopStreamToPossiblyResume();
3250 if (stream_id == 0)
3251 break;
3252 ActiveStreamMap::const_iterator it = active_streams_.find(stream_id);
3253 // The stream may actually still be send-stalled after this (due
3254 // to its own send window) but that's okay -- it'll then be
3255 // resumed once its send window increases.
3256 if (it != active_streams_.end())
3257 it->second.stream->PossiblyResumeIfSendStalled();
3259 // The size should decrease unless we got send-stalled again.
3260 if (!IsSendStalled())
3261 DCHECK_LT(GetTotalSize(stream_send_unstall_queue_), old_size);
3265 SpdyStreamId SpdySession::PopStreamToPossiblyResume() {
3266 for (int i = MAXIMUM_PRIORITY; i >= MINIMUM_PRIORITY; --i) {
3267 std::deque<SpdyStreamId>* queue = &stream_send_unstall_queue_[i];
3268 if (!queue->empty()) {
3269 SpdyStreamId stream_id = queue->front();
3270 queue->pop_front();
3271 return stream_id;
3274 return 0;
3277 } // namespace net