Infer appropriate GNU_STACK alignment for a shared library.
[chromium-blink-merge.git] / remoting / host / heartbeat_sender.cc
blobae109554177f414230ce857e0bb48b1d659c51fe
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 "remoting/host/heartbeat_sender.h"
7 #include <math.h>
9 #include "base/bind.h"
10 #include "base/rand_util.h"
11 #include "base/strings/string_number_conversions.h"
12 #include "base/strings/stringize_macros.h"
13 #include "base/thread_task_runner_handle.h"
14 #include "base/time/time.h"
15 #include "remoting/base/constants.h"
16 #include "remoting/base/logging.h"
17 #include "remoting/host/server_log_entry_host.h"
18 #include "remoting/signaling/iq_sender.h"
19 #include "remoting/signaling/server_log_entry.h"
20 #include "remoting/signaling/signal_strategy.h"
21 #include "third_party/webrtc/libjingle/xmllite/xmlelement.h"
22 #include "third_party/webrtc/libjingle/xmpp/constants.h"
24 using buzz::QName;
25 using buzz::XmlElement;
27 namespace remoting {
29 namespace {
31 const char kHeartbeatQueryTag[] = "heartbeat";
32 const char kHostIdAttr[] = "hostid";
33 const char kHostVersionTag[] = "host-version";
34 const char kHeartbeatSignatureTag[] = "signature";
35 const char kSequenceIdAttr[] = "sequence-id";
36 const char kHostOfflineReasonAttr[] = "host-offline-reason";
38 const char kErrorTag[] = "error";
39 const char kNotFoundTag[] = "item-not-found";
41 const char kHeartbeatResultTag[] = "heartbeat-result";
42 const char kSetIntervalTag[] = "set-interval";
43 const char kExpectedSequenceIdTag[] = "expected-sequence-id";
45 const int64 kDefaultHeartbeatIntervalMs = 5 * 60 * 1000; // 5 minutes.
46 const int64 kResendDelayMs = 10 * 1000; // 10 seconds.
47 const int64 kResendDelayOnHostNotFoundMs = 10 * 1000; // 10 seconds.
48 const int kMaxResendOnHostNotFoundCount = 12; // 2 minutes (12 x 10 seconds).
50 } // namespace
52 HeartbeatSender::HeartbeatSender(
53 const base::Closure& on_heartbeat_successful_callback,
54 const base::Closure& on_unknown_host_id_error,
55 const std::string& host_id,
56 SignalStrategy* signal_strategy,
57 const scoped_refptr<const RsaKeyPair>& host_key_pair,
58 const std::string& directory_bot_jid)
59 : on_heartbeat_successful_callback_(on_heartbeat_successful_callback),
60 on_unknown_host_id_error_(on_unknown_host_id_error),
61 host_id_(host_id),
62 signal_strategy_(signal_strategy),
63 host_key_pair_(host_key_pair),
64 directory_bot_jid_(directory_bot_jid),
65 interval_ms_(kDefaultHeartbeatIntervalMs),
66 sequence_id_(0),
67 sequence_id_was_set_(false),
68 sequence_id_recent_set_num_(0),
69 heartbeat_succeeded_(false),
70 failed_startup_heartbeat_count_(0) {
71 DCHECK(signal_strategy_);
72 DCHECK(host_key_pair_.get());
73 DCHECK(thread_checker_.CalledOnValidThread());
75 signal_strategy_->AddListener(this);
77 // Start heartbeats if the |signal_strategy_| is already connected.
78 OnSignalStrategyStateChange(signal_strategy_->GetState());
81 HeartbeatSender::~HeartbeatSender() {
82 signal_strategy_->RemoveListener(this);
85 void HeartbeatSender::OnSignalStrategyStateChange(SignalStrategy::State state) {
86 DCHECK(thread_checker_.CalledOnValidThread());
87 if (state == SignalStrategy::CONNECTED) {
88 iq_sender_.reset(new IqSender(signal_strategy_));
89 SendStanza();
90 timer_.Start(FROM_HERE, base::TimeDelta::FromMilliseconds(interval_ms_),
91 this, &HeartbeatSender::SendStanza);
92 } else if (state == SignalStrategy::DISCONNECTED) {
93 request_.reset();
94 iq_sender_.reset();
95 timer_.Stop();
96 timer_resend_.Stop();
100 bool HeartbeatSender::OnSignalStrategyIncomingStanza(
101 const buzz::XmlElement* stanza) {
102 return false;
105 void HeartbeatSender::OnHostOfflineReasonTimeout() {
106 DCHECK(!host_offline_reason_ack_callback_.is_null());
108 base::Callback<void(bool)> local_callback = host_offline_reason_ack_callback_;
109 host_offline_reason_ack_callback_.Reset();
110 local_callback.Run(false);
113 void HeartbeatSender::OnHostOfflineReasonAck() {
114 if (host_offline_reason_ack_callback_.is_null()) {
115 DCHECK(!host_offline_reason_timeout_timer_.IsRunning());
116 return;
119 DCHECK(host_offline_reason_timeout_timer_.IsRunning());
120 host_offline_reason_timeout_timer_.Stop();
122 // Run the ACK callback under a clean stack via PostTask() (because the
123 // callback can end up deleting |this| HeartbeatSender [i.e. when used from
124 // HostSignalingManager]).
125 base::Closure fully_bound_ack_callback =
126 base::Bind(host_offline_reason_ack_callback_, true);
127 host_offline_reason_ack_callback_.Reset();
128 base::ThreadTaskRunnerHandle::Get()->PostTask(FROM_HERE,
129 fully_bound_ack_callback);
132 void HeartbeatSender::SetHostOfflineReason(
133 const std::string& host_offline_reason,
134 const base::TimeDelta& timeout,
135 const base::Callback<void(bool success)>& ack_callback) {
136 DCHECK(thread_checker_.CalledOnValidThread());
137 DCHECK(host_offline_reason_ack_callback_.is_null());
138 host_offline_reason_ = host_offline_reason;
139 host_offline_reason_ack_callback_ = ack_callback;
140 host_offline_reason_timeout_timer_.Start(
141 FROM_HERE, timeout, this, &HeartbeatSender::OnHostOfflineReasonTimeout);
142 if (signal_strategy_->GetState() == SignalStrategy::CONNECTED) {
143 DoSendStanza();
147 void HeartbeatSender::SendStanza() {
148 // Make sure we don't send another heartbeat before the heartbeat interval
149 // has expired.
150 timer_resend_.Stop();
151 DoSendStanza();
154 void HeartbeatSender::ResendStanza() {
155 // Make sure we don't send another heartbeat before the heartbeat interval
156 // has expired.
157 timer_.Reset();
158 DoSendStanza();
161 void HeartbeatSender::DoSendStanza() {
162 DCHECK(thread_checker_.CalledOnValidThread());
163 DCHECK(signal_strategy_->GetState() == SignalStrategy::CONNECTED);
164 VLOG(1) << "Sending heartbeat stanza to " << directory_bot_jid_;
166 request_ = iq_sender_->SendIq(
167 buzz::STR_SET, directory_bot_jid_, CreateHeartbeatMessage(),
168 base::Bind(&HeartbeatSender::ProcessResponse,
169 base::Unretained(this),
170 !host_offline_reason_.empty()));
171 ++sequence_id_;
174 void HeartbeatSender::ProcessResponse(
175 bool is_offline_heartbeat_response,
176 IqRequest* request,
177 const XmlElement* response) {
178 DCHECK(thread_checker_.CalledOnValidThread());
180 std::string type = response->Attr(buzz::QN_TYPE);
181 if (type == buzz::STR_ERROR) {
182 const XmlElement* error_element =
183 response->FirstNamed(QName(buzz::NS_CLIENT, kErrorTag));
184 if (error_element) {
185 if (error_element->FirstNamed(QName(buzz::NS_STANZA, kNotFoundTag))) {
186 LOG(ERROR) << "Received error: Host ID not found";
187 // If the host was registered immediately before it sends a heartbeat,
188 // then server-side latency may prevent the server recognizing the
189 // host ID in the heartbeat. So even if all of the first few heartbeats
190 // get a "host ID not found" error, that's not a good enough reason to
191 // exit.
192 failed_startup_heartbeat_count_++;
193 if (!heartbeat_succeeded_ && (failed_startup_heartbeat_count_ <=
194 kMaxResendOnHostNotFoundCount)) {
195 timer_resend_.Start(FROM_HERE,
196 base::TimeDelta::FromMilliseconds(
197 kResendDelayOnHostNotFoundMs),
198 this,
199 &HeartbeatSender::ResendStanza);
200 return;
202 on_unknown_host_id_error_.Run();
203 return;
207 LOG(ERROR) << "Received error in response to heartbeat: "
208 << response->Str();
209 return;
212 // This method must only be called for error or result stanzas.
213 DCHECK_EQ(std::string(buzz::STR_RESULT), type);
215 const XmlElement* result_element =
216 response->FirstNamed(QName(kChromotingXmlNamespace, kHeartbeatResultTag));
217 if (result_element) {
218 const XmlElement* set_interval_element =
219 result_element->FirstNamed(QName(kChromotingXmlNamespace,
220 kSetIntervalTag));
221 if (set_interval_element) {
222 const std::string& interval_str = set_interval_element->BodyText();
223 int interval;
224 if (!base::StringToInt(interval_str, &interval) || interval <= 0) {
225 LOG(ERROR) << "Received invalid set-interval: "
226 << set_interval_element->Str();
227 } else {
228 SetInterval(interval * base::Time::kMillisecondsPerSecond);
232 bool did_set_sequence_id = false;
233 const XmlElement* expected_sequence_id_element =
234 result_element->FirstNamed(QName(kChromotingXmlNamespace,
235 kExpectedSequenceIdTag));
236 if (expected_sequence_id_element) {
237 // The sequence ID sent in the previous heartbeat was not what the server
238 // expected, so send another heartbeat with the expected sequence ID.
239 const std::string& expected_sequence_id_str =
240 expected_sequence_id_element->BodyText();
241 int expected_sequence_id;
242 if (!base::StringToInt(expected_sequence_id_str, &expected_sequence_id)) {
243 LOG(ERROR) << "Received invalid " << kExpectedSequenceIdTag << ": " <<
244 expected_sequence_id_element->Str();
245 } else {
246 SetSequenceId(expected_sequence_id);
247 sequence_id_recent_set_num_++;
248 did_set_sequence_id = true;
251 if (!did_set_sequence_id) {
252 // It seems the bot accepted our signature and our message.
253 sequence_id_recent_set_num_ = 0;
255 // Notify listener of the first successful heartbeat.
256 if (!heartbeat_succeeded_) {
257 on_heartbeat_successful_callback_.Run();
259 heartbeat_succeeded_ = true;
261 // Notify caller of SetHostOfflineReason that we got an ack.
262 if (is_offline_heartbeat_response) {
263 OnHostOfflineReasonAck();
269 void HeartbeatSender::SetInterval(int interval) {
270 if (interval != interval_ms_) {
271 interval_ms_ = interval;
273 // Restart the timer with the new interval.
274 if (timer_.IsRunning()) {
275 timer_.Stop();
276 timer_.Start(FROM_HERE, base::TimeDelta::FromMilliseconds(interval_ms_),
277 this, &HeartbeatSender::SendStanza);
282 void HeartbeatSender::SetSequenceId(int sequence_id) {
283 sequence_id_ = sequence_id;
284 // Setting the sequence ID may be a symptom of a temporary server-side
285 // problem, which would affect many hosts, so don't send a new heartbeat
286 // immediately, as many hosts doing so may overload the server.
287 // But the server will usually set the sequence ID when it receives the first
288 // heartbeat from a host. In that case, we can send a new heartbeat
289 // immediately, as that only happens once per host instance.
290 if (!sequence_id_was_set_) {
291 ResendStanza();
292 } else {
293 HOST_LOG << "The heartbeat sequence ID has been set more than once: "
294 << "the new value is " << sequence_id;
295 double delay = pow(2.0, sequence_id_recent_set_num_) *
296 (1 + base::RandDouble()) * kResendDelayMs;
297 if (delay <= interval_ms_) {
298 timer_resend_.Start(FROM_HERE, base::TimeDelta::FromMilliseconds(delay),
299 this, &HeartbeatSender::ResendStanza);
302 sequence_id_was_set_ = true;
305 scoped_ptr<XmlElement> HeartbeatSender::CreateHeartbeatMessage() {
306 // Create heartbeat stanza.
307 scoped_ptr<XmlElement> heartbeat(new XmlElement(
308 QName(kChromotingXmlNamespace, kHeartbeatQueryTag)));
309 heartbeat->AddAttr(QName(kChromotingXmlNamespace, kHostIdAttr), host_id_);
310 heartbeat->AddAttr(QName(kChromotingXmlNamespace, kSequenceIdAttr),
311 base::IntToString(sequence_id_));
312 if (!host_offline_reason_.empty()) {
313 heartbeat->AddAttr(
314 QName(kChromotingXmlNamespace, kHostOfflineReasonAttr),
315 host_offline_reason_);
317 heartbeat->AddElement(CreateSignature().release());
318 // Append host version.
319 scoped_ptr<XmlElement> version_tag(new XmlElement(
320 QName(kChromotingXmlNamespace, kHostVersionTag)));
321 version_tag->AddText(STRINGIZE(VERSION));
322 heartbeat->AddElement(version_tag.release());
323 // Append log message (which isn't signed).
324 scoped_ptr<XmlElement> log(ServerLogEntry::MakeStanza());
325 scoped_ptr<ServerLogEntry> log_entry(MakeLogEntryForHeartbeat());
326 AddHostFieldsToLogEntry(log_entry.get());
327 log->AddElement(log_entry->ToStanza().release());
328 heartbeat->AddElement(log.release());
329 return heartbeat.Pass();
332 scoped_ptr<XmlElement> HeartbeatSender::CreateSignature() {
333 scoped_ptr<XmlElement> signature_tag(new XmlElement(
334 QName(kChromotingXmlNamespace, kHeartbeatSignatureTag)));
336 std::string message = signal_strategy_->GetLocalJid() + ' ' +
337 base::IntToString(sequence_id_);
338 std::string signature(host_key_pair_->SignMessage(message));
339 signature_tag->AddText(signature);
341 return signature_tag.Pass();
344 } // namespace remoting