cygprofile: increase timeouts to allow showing web contents
[chromium-blink-merge.git] / components / gcm_driver / gcm_driver_desktop_unittest.cc
blob591a02bdd8ef4b26ed0653c6133be6af41d53f09
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "components/gcm_driver/gcm_driver_desktop.h"
7 #include "base/bind.h"
8 #include "base/bind_helpers.h"
9 #include "base/files/scoped_temp_dir.h"
10 #include "base/location.h"
11 #include "base/metrics/field_trial.h"
12 #include "base/prefs/pref_registry_simple.h"
13 #include "base/prefs/testing_pref_service.h"
14 #include "base/run_loop.h"
15 #include "base/strings/string_util.h"
16 #include "base/test/test_simple_task_runner.h"
17 #include "base/thread_task_runner_handle.h"
18 #include "base/threading/thread.h"
19 #include "components/gcm_driver/fake_gcm_app_handler.h"
20 #include "components/gcm_driver/fake_gcm_client.h"
21 #include "components/gcm_driver/fake_gcm_client_factory.h"
22 #include "components/gcm_driver/gcm_app_handler.h"
23 #include "components/gcm_driver/gcm_channel_status_request.h"
24 #include "components/gcm_driver/gcm_channel_status_syncer.h"
25 #include "components/gcm_driver/gcm_client_factory.h"
26 #include "components/gcm_driver/gcm_connection_observer.h"
27 #include "net/url_request/test_url_fetcher_factory.h"
28 #include "net/url_request/url_fetcher_delegate.h"
29 #include "net/url_request/url_request_context_getter.h"
30 #include "net/url_request/url_request_test_util.h"
31 #include "sync/protocol/experiment_status.pb.h"
32 #include "sync/protocol/experiments_specifics.pb.h"
33 #include "testing/gtest/include/gtest/gtest.h"
35 namespace gcm {
37 namespace {
39 const char kTestAppID1[] = "TestApp1";
40 const char kTestAppID2[] = "TestApp2";
41 const char kUserID1[] = "user1";
42 const char kScope[] = "GCM";
43 const char kInstanceID1[] = "IID1";
44 const char kInstanceID2[] = "IID2";
46 class FakeGCMConnectionObserver : public GCMConnectionObserver {
47 public:
48 FakeGCMConnectionObserver();
49 ~FakeGCMConnectionObserver() override;
51 // gcm::GCMConnectionObserver implementation:
52 void OnConnected(const net::IPEndPoint& ip_endpoint) override;
53 void OnDisconnected() override;
55 bool connected() const { return connected_; }
57 private:
58 bool connected_;
61 FakeGCMConnectionObserver::FakeGCMConnectionObserver() : connected_(false) {
64 FakeGCMConnectionObserver::~FakeGCMConnectionObserver() {
67 void FakeGCMConnectionObserver::OnConnected(
68 const net::IPEndPoint& ip_endpoint) {
69 connected_ = true;
72 void FakeGCMConnectionObserver::OnDisconnected() {
73 connected_ = false;
76 void PumpCurrentLoop() {
77 base::MessageLoop::ScopedNestableTaskAllower
78 nestable_task_allower(base::MessageLoop::current());
79 base::RunLoop().RunUntilIdle();
82 void PumpUILoop() {
83 PumpCurrentLoop();
86 std::vector<std::string> ToSenderList(const std::string& sender_ids) {
87 return base::SplitString(
88 sender_ids, ",", base::KEEP_WHITESPACE, base::SPLIT_WANT_NONEMPTY);
91 } // namespace
93 class GCMDriverTest : public testing::Test {
94 public:
95 enum WaitToFinish {
96 DO_NOT_WAIT,
97 WAIT
100 GCMDriverTest();
101 ~GCMDriverTest() override;
103 // testing::Test:
104 void SetUp() override;
105 void TearDown() override;
107 GCMDriverDesktop* driver() { return driver_.get(); }
108 FakeGCMAppHandler* gcm_app_handler() { return gcm_app_handler_.get(); }
109 FakeGCMConnectionObserver* gcm_connection_observer() {
110 return gcm_connection_observer_.get();
112 const std::string& registration_id() const { return registration_id_; }
113 GCMClient::Result registration_result() const { return registration_result_; }
114 const std::string& send_message_id() const { return send_message_id_; }
115 GCMClient::Result send_result() const { return send_result_; }
116 GCMClient::Result unregistration_result() const {
117 return unregistration_result_;
120 void PumpIOLoop();
122 void ClearResults();
124 bool HasAppHandlers() const;
125 FakeGCMClient* GetGCMClient();
127 void CreateDriver();
128 void ShutdownDriver();
129 void AddAppHandlers();
130 void RemoveAppHandlers();
132 void Register(const std::string& app_id,
133 const std::vector<std::string>& sender_ids,
134 WaitToFinish wait_to_finish);
135 void Send(const std::string& app_id,
136 const std::string& receiver_id,
137 const OutgoingMessage& message,
138 WaitToFinish wait_to_finish);
139 void Unregister(const std::string& app_id, WaitToFinish wait_to_finish);
141 void WaitForAsyncOperation();
143 void RegisterCompleted(const std::string& registration_id,
144 GCMClient::Result result);
145 void SendCompleted(const std::string& message_id, GCMClient::Result result);
146 void UnregisterCompleted(GCMClient::Result result);
148 const base::Closure& async_operation_completed_callback() const {
149 return async_operation_completed_callback_;
151 void set_async_operation_completed_callback(const base::Closure& callback) {
152 async_operation_completed_callback_ = callback;
155 private:
156 base::ScopedTempDir temp_dir_;
157 TestingPrefServiceSimple prefs_;
158 scoped_refptr<base::TestSimpleTaskRunner> task_runner_;
159 base::MessageLoopForUI message_loop_;
160 base::Thread io_thread_;
161 base::FieldTrialList field_trial_list_;
162 scoped_ptr<GCMDriverDesktop> driver_;
163 scoped_ptr<FakeGCMAppHandler> gcm_app_handler_;
164 scoped_ptr<FakeGCMConnectionObserver> gcm_connection_observer_;
166 base::Closure async_operation_completed_callback_;
168 std::string registration_id_;
169 GCMClient::Result registration_result_;
170 std::string send_message_id_;
171 GCMClient::Result send_result_;
172 GCMClient::Result unregistration_result_;
174 DISALLOW_COPY_AND_ASSIGN(GCMDriverTest);
177 GCMDriverTest::GCMDriverTest()
178 : task_runner_(new base::TestSimpleTaskRunner()),
179 io_thread_("IOThread"),
180 field_trial_list_(NULL),
181 registration_result_(GCMClient::UNKNOWN_ERROR),
182 send_result_(GCMClient::UNKNOWN_ERROR),
183 unregistration_result_(GCMClient::UNKNOWN_ERROR) {
186 GCMDriverTest::~GCMDriverTest() {
189 void GCMDriverTest::SetUp() {
190 GCMChannelStatusSyncer::RegisterPrefs(prefs_.registry());
191 io_thread_.Start();
192 ASSERT_TRUE(temp_dir_.CreateUniqueTempDir());
195 void GCMDriverTest::TearDown() {
196 if (!driver_)
197 return;
199 ShutdownDriver();
200 driver_.reset();
201 PumpIOLoop();
203 io_thread_.Stop();
206 void GCMDriverTest::PumpIOLoop() {
207 base::RunLoop run_loop;
208 io_thread_.task_runner()->PostTaskAndReply(
209 FROM_HERE, base::Bind(&PumpCurrentLoop), run_loop.QuitClosure());
210 run_loop.Run();
213 void GCMDriverTest::ClearResults() {
214 registration_id_.clear();
215 registration_result_ = GCMClient::UNKNOWN_ERROR;
217 send_message_id_.clear();
218 send_result_ = GCMClient::UNKNOWN_ERROR;
220 unregistration_result_ = GCMClient::UNKNOWN_ERROR;
223 bool GCMDriverTest::HasAppHandlers() const {
224 return !driver_->app_handlers().empty();
227 FakeGCMClient* GCMDriverTest::GetGCMClient() {
228 return static_cast<FakeGCMClient*>(driver_->GetGCMClientForTesting());
231 void GCMDriverTest::CreateDriver() {
232 scoped_refptr<net::URLRequestContextGetter> request_context =
233 new net::TestURLRequestContextGetter(io_thread_.task_runner());
234 // TODO(johnme): Need equivalent test coverage of GCMDriverAndroid.
235 driver_.reset(new GCMDriverDesktop(
236 scoped_ptr<GCMClientFactory>(
237 new FakeGCMClientFactory(base::ThreadTaskRunnerHandle::Get(),
238 io_thread_.task_runner())).Pass(),
239 GCMClient::ChromeBuildInfo(), "http://channel.status.request.url",
240 "user-agent-string", &prefs_, temp_dir_.path(), request_context,
241 base::ThreadTaskRunnerHandle::Get(), io_thread_.task_runner(),
242 task_runner_));
244 gcm_app_handler_.reset(new FakeGCMAppHandler);
245 gcm_connection_observer_.reset(new FakeGCMConnectionObserver);
247 driver_->AddConnectionObserver(gcm_connection_observer_.get());
250 void GCMDriverTest::ShutdownDriver() {
251 if (gcm_connection_observer())
252 driver()->RemoveConnectionObserver(gcm_connection_observer());
253 driver()->Shutdown();
256 void GCMDriverTest::AddAppHandlers() {
257 driver_->AddAppHandler(kTestAppID1, gcm_app_handler_.get());
258 driver_->AddAppHandler(kTestAppID2, gcm_app_handler_.get());
261 void GCMDriverTest::RemoveAppHandlers() {
262 driver_->RemoveAppHandler(kTestAppID1);
263 driver_->RemoveAppHandler(kTestAppID2);
266 void GCMDriverTest::Register(const std::string& app_id,
267 const std::vector<std::string>& sender_ids,
268 WaitToFinish wait_to_finish) {
269 base::RunLoop run_loop;
270 async_operation_completed_callback_ = run_loop.QuitClosure();
271 driver_->Register(app_id,
272 sender_ids,
273 base::Bind(&GCMDriverTest::RegisterCompleted,
274 base::Unretained(this)));
275 if (wait_to_finish == WAIT)
276 run_loop.Run();
279 void GCMDriverTest::Send(const std::string& app_id,
280 const std::string& receiver_id,
281 const OutgoingMessage& message,
282 WaitToFinish wait_to_finish) {
283 base::RunLoop run_loop;
284 async_operation_completed_callback_ = run_loop.QuitClosure();
285 driver_->Send(app_id,
286 receiver_id,
287 message,
288 base::Bind(&GCMDriverTest::SendCompleted,
289 base::Unretained(this)));
290 if (wait_to_finish == WAIT)
291 run_loop.Run();
294 void GCMDriverTest::Unregister(const std::string& app_id,
295 WaitToFinish wait_to_finish) {
296 base::RunLoop run_loop;
297 async_operation_completed_callback_ = run_loop.QuitClosure();
298 driver_->Unregister(app_id,
299 base::Bind(&GCMDriverTest::UnregisterCompleted,
300 base::Unretained(this)));
301 if (wait_to_finish == WAIT)
302 run_loop.Run();
305 void GCMDriverTest::WaitForAsyncOperation() {
306 base::RunLoop run_loop;
307 async_operation_completed_callback_ = run_loop.QuitClosure();
308 run_loop.Run();
311 void GCMDriverTest::RegisterCompleted(const std::string& registration_id,
312 GCMClient::Result result) {
313 registration_id_ = registration_id;
314 registration_result_ = result;
315 if (!async_operation_completed_callback_.is_null())
316 async_operation_completed_callback_.Run();
319 void GCMDriverTest::SendCompleted(const std::string& message_id,
320 GCMClient::Result result) {
321 send_message_id_ = message_id;
322 send_result_ = result;
323 if (!async_operation_completed_callback_.is_null())
324 async_operation_completed_callback_.Run();
327 void GCMDriverTest::UnregisterCompleted(GCMClient::Result result) {
328 unregistration_result_ = result;
329 if (!async_operation_completed_callback_.is_null())
330 async_operation_completed_callback_.Run();
333 TEST_F(GCMDriverTest, Create) {
334 // Create GCMDriver first. By default GCM is set to delay start.
335 CreateDriver();
336 EXPECT_FALSE(driver()->IsStarted());
338 // Adding an app handler will not start GCM.
339 AddAppHandlers();
340 PumpIOLoop();
341 PumpUILoop();
342 EXPECT_FALSE(driver()->IsStarted());
343 EXPECT_FALSE(driver()->IsConnected());
344 EXPECT_FALSE(gcm_connection_observer()->connected());
346 // The GCM registration will kick off the GCM.
347 Register(kTestAppID1, ToSenderList("sender"), GCMDriverTest::WAIT);
348 EXPECT_TRUE(driver()->IsStarted());
349 EXPECT_TRUE(driver()->IsConnected());
350 EXPECT_TRUE(gcm_connection_observer()->connected());
353 TEST_F(GCMDriverTest, Shutdown) {
354 CreateDriver();
355 EXPECT_FALSE(HasAppHandlers());
357 AddAppHandlers();
358 EXPECT_TRUE(HasAppHandlers());
360 ShutdownDriver();
361 EXPECT_FALSE(HasAppHandlers());
362 EXPECT_FALSE(driver()->IsConnected());
363 EXPECT_FALSE(gcm_connection_observer()->connected());
366 TEST_F(GCMDriverTest, DisableAndReenableGCM) {
367 CreateDriver();
368 AddAppHandlers();
369 PumpIOLoop();
370 PumpUILoop();
371 EXPECT_FALSE(driver()->IsStarted());
373 // The GCM registration will kick off the GCM.
374 Register(kTestAppID1, ToSenderList("sender"), GCMDriverTest::WAIT);
375 EXPECT_TRUE(driver()->IsStarted());
377 // Disables the GCM. GCM will be stopped.
378 driver()->Disable();
379 PumpIOLoop();
380 PumpUILoop();
381 EXPECT_FALSE(driver()->IsStarted());
383 // Enables the GCM. GCM will be started.
384 driver()->Enable();
385 PumpIOLoop();
386 PumpUILoop();
387 EXPECT_TRUE(driver()->IsStarted());
390 TEST_F(GCMDriverTest, StartOrStopGCMOnDemand) {
391 CreateDriver();
392 PumpIOLoop();
393 PumpUILoop();
394 EXPECT_FALSE(driver()->IsStarted());
396 // Adding an app handler will not start GCM.
397 driver()->AddAppHandler(kTestAppID1, gcm_app_handler());
398 PumpIOLoop();
399 PumpUILoop();
400 EXPECT_FALSE(driver()->IsStarted());
402 // The GCM registration will kick off the GCM.
403 Register(kTestAppID1, ToSenderList("sender"), GCMDriverTest::WAIT);
404 EXPECT_TRUE(driver()->IsStarted());
406 // Add another app handler.
407 driver()->AddAppHandler(kTestAppID2, gcm_app_handler());
408 PumpIOLoop();
409 PumpUILoop();
410 EXPECT_TRUE(driver()->IsStarted());
412 // GCMClient remains active after one app handler is gone.
413 driver()->RemoveAppHandler(kTestAppID1);
414 PumpIOLoop();
415 PumpUILoop();
416 EXPECT_TRUE(driver()->IsStarted());
418 // GCMClient should be stopped after the last app handler is gone.
419 driver()->RemoveAppHandler(kTestAppID2);
420 PumpIOLoop();
421 PumpUILoop();
422 EXPECT_FALSE(driver()->IsStarted());
424 // GCMClient is restarted after an app handler has been added.
425 driver()->AddAppHandler(kTestAppID2, gcm_app_handler());
426 PumpIOLoop();
427 PumpUILoop();
428 EXPECT_TRUE(driver()->IsStarted());
431 TEST_F(GCMDriverTest, RegisterFailed) {
432 std::vector<std::string> sender_ids;
433 sender_ids.push_back("sender1");
435 CreateDriver();
437 // Registration fails when the no app handler is added.
438 Register(kTestAppID1, sender_ids, GCMDriverTest::WAIT);
439 EXPECT_TRUE(registration_id().empty());
440 EXPECT_EQ(GCMClient::UNKNOWN_ERROR, registration_result());
442 ClearResults();
444 // Registration fails when GCM is disabled.
445 AddAppHandlers();
446 driver()->Disable();
447 Register(kTestAppID1, sender_ids, GCMDriverTest::WAIT);
448 EXPECT_TRUE(registration_id().empty());
449 EXPECT_EQ(GCMClient::GCM_DISABLED, registration_result());
452 TEST_F(GCMDriverTest, UnregisterFailed) {
453 CreateDriver();
455 // Unregistration fails when the no app handler is added.
456 Unregister(kTestAppID1, GCMDriverTest::WAIT);
457 EXPECT_EQ(GCMClient::UNKNOWN_ERROR, unregistration_result());
459 ClearResults();
461 // Unregistration fails when GCM is disabled.
462 AddAppHandlers();
463 driver()->Disable();
464 Unregister(kTestAppID1, GCMDriverTest::WAIT);
465 EXPECT_EQ(GCMClient::GCM_DISABLED, unregistration_result());
468 TEST_F(GCMDriverTest, SendFailed) {
469 OutgoingMessage message;
470 message.id = "1";
471 message.data["key1"] = "value1";
473 CreateDriver();
475 // Sending fails when the no app handler is added.
476 Send(kTestAppID1, kUserID1, message, GCMDriverTest::WAIT);
477 EXPECT_TRUE(send_message_id().empty());
478 EXPECT_EQ(GCMClient::UNKNOWN_ERROR, send_result());
480 ClearResults();
482 // Sending fails when GCM is disabled.
483 AddAppHandlers();
484 driver()->Disable();
485 Send(kTestAppID1, kUserID1, message, GCMDriverTest::WAIT);
486 EXPECT_TRUE(send_message_id().empty());
487 EXPECT_EQ(GCMClient::GCM_DISABLED, send_result());
490 TEST_F(GCMDriverTest, GCMClientNotReadyBeforeRegistration) {
491 CreateDriver();
492 PumpIOLoop();
493 PumpUILoop();
495 // Make GCMClient not ready until PerformDelayedStart is called.
496 GetGCMClient()->set_start_mode_overridding(
497 FakeGCMClient::FORCE_TO_ALWAYS_DELAY_START_GCM);
499 AddAppHandlers();
501 // The registration is on hold until GCMClient is ready.
502 std::vector<std::string> sender_ids;
503 sender_ids.push_back("sender1");
504 Register(kTestAppID1,
505 sender_ids,
506 GCMDriverTest::DO_NOT_WAIT);
507 PumpIOLoop();
508 PumpUILoop();
509 EXPECT_TRUE(registration_id().empty());
510 EXPECT_EQ(GCMClient::UNKNOWN_ERROR, registration_result());
512 // Register operation will be invoked after GCMClient becomes ready.
513 GetGCMClient()->PerformDelayedStart();
514 WaitForAsyncOperation();
515 EXPECT_FALSE(registration_id().empty());
516 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
519 TEST_F(GCMDriverTest, GCMClientNotReadyBeforeSending) {
520 CreateDriver();
521 PumpIOLoop();
522 PumpUILoop();
524 // Make GCMClient not ready until PerformDelayedStart is called.
525 GetGCMClient()->set_start_mode_overridding(
526 FakeGCMClient::FORCE_TO_ALWAYS_DELAY_START_GCM);
528 AddAppHandlers();
530 // The sending is on hold until GCMClient is ready.
531 OutgoingMessage message;
532 message.id = "1";
533 message.data["key1"] = "value1";
534 message.data["key2"] = "value2";
535 Send(kTestAppID1, kUserID1, message, GCMDriverTest::DO_NOT_WAIT);
536 PumpIOLoop();
537 PumpUILoop();
539 EXPECT_TRUE(send_message_id().empty());
540 EXPECT_EQ(GCMClient::UNKNOWN_ERROR, send_result());
542 // Send operation will be invoked after GCMClient becomes ready.
543 GetGCMClient()->PerformDelayedStart();
544 WaitForAsyncOperation();
545 EXPECT_EQ(message.id, send_message_id());
546 EXPECT_EQ(GCMClient::SUCCESS, send_result());
549 // Tests a single instance of GCMDriver.
550 class GCMDriverFunctionalTest : public GCMDriverTest {
551 public:
552 GCMDriverFunctionalTest();
553 ~GCMDriverFunctionalTest() override;
555 // GCMDriverTest:
556 void SetUp() override;
558 private:
559 DISALLOW_COPY_AND_ASSIGN(GCMDriverFunctionalTest);
562 GCMDriverFunctionalTest::GCMDriverFunctionalTest() {
565 GCMDriverFunctionalTest::~GCMDriverFunctionalTest() {
568 void GCMDriverFunctionalTest::SetUp() {
569 GCMDriverTest::SetUp();
571 CreateDriver();
572 AddAppHandlers();
573 PumpIOLoop();
574 PumpUILoop();
577 TEST_F(GCMDriverFunctionalTest, Register) {
578 std::vector<std::string> sender_ids;
579 sender_ids.push_back("sender1");
580 Register(kTestAppID1, sender_ids, GCMDriverTest::WAIT);
581 const std::string expected_registration_id =
582 FakeGCMClient::GenerateGCMRegistrationID(sender_ids);
584 EXPECT_EQ(expected_registration_id, registration_id());
585 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
588 TEST_F(GCMDriverFunctionalTest, RegisterError) {
589 std::vector<std::string> sender_ids;
590 sender_ids.push_back("sender1@error");
591 Register(kTestAppID1, sender_ids, GCMDriverTest::WAIT);
593 EXPECT_TRUE(registration_id().empty());
594 EXPECT_NE(GCMClient::SUCCESS, registration_result());
597 TEST_F(GCMDriverFunctionalTest, RegisterAgainWithSameSenderIDs) {
598 std::vector<std::string> sender_ids;
599 sender_ids.push_back("sender1");
600 sender_ids.push_back("sender2");
601 Register(kTestAppID1, sender_ids, GCMDriverTest::WAIT);
602 const std::string expected_registration_id =
603 FakeGCMClient::GenerateGCMRegistrationID(sender_ids);
605 EXPECT_EQ(expected_registration_id, registration_id());
606 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
608 // Clears the results the would be set by the Register callback in preparation
609 // to call register 2nd time.
610 ClearResults();
612 // Calling register 2nd time with the same set of sender IDs but different
613 // ordering will get back the same registration ID.
614 std::vector<std::string> another_sender_ids;
615 another_sender_ids.push_back("sender2");
616 another_sender_ids.push_back("sender1");
617 Register(kTestAppID1, another_sender_ids, GCMDriverTest::WAIT);
619 EXPECT_EQ(expected_registration_id, registration_id());
620 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
623 TEST_F(GCMDriverFunctionalTest, RegisterAgainWithDifferentSenderIDs) {
624 std::vector<std::string> sender_ids;
625 sender_ids.push_back("sender1");
626 Register(kTestAppID1, sender_ids, GCMDriverTest::WAIT);
627 const std::string expected_registration_id =
628 FakeGCMClient::GenerateGCMRegistrationID(sender_ids);
630 EXPECT_EQ(expected_registration_id, registration_id());
631 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
633 // Make sender IDs different.
634 sender_ids.push_back("sender2");
635 const std::string expected_registration_id2 =
636 FakeGCMClient::GenerateGCMRegistrationID(sender_ids);
638 // Calling register 2nd time with the different sender IDs will get back a new
639 // registration ID.
640 Register(kTestAppID1, sender_ids, GCMDriverTest::WAIT);
641 EXPECT_EQ(expected_registration_id2, registration_id());
642 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
645 TEST_F(GCMDriverFunctionalTest, UnregisterExplicitly) {
646 std::vector<std::string> sender_ids;
647 sender_ids.push_back("sender1");
648 Register(kTestAppID1, sender_ids, GCMDriverTest::WAIT);
650 EXPECT_FALSE(registration_id().empty());
651 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
653 Unregister(kTestAppID1, GCMDriverTest::WAIT);
655 EXPECT_EQ(GCMClient::SUCCESS, unregistration_result());
658 TEST_F(GCMDriverFunctionalTest, UnregisterWhenAsyncOperationPending) {
659 std::vector<std::string> sender_ids;
660 sender_ids.push_back("sender1");
661 // First start registration without waiting for it to complete.
662 Register(kTestAppID1, sender_ids, GCMDriverTest::DO_NOT_WAIT);
664 // Test that unregistration fails with async operation pending when there is a
665 // registration already in progress.
666 Unregister(kTestAppID1, GCMDriverTest::WAIT);
667 EXPECT_EQ(GCMClient::ASYNC_OPERATION_PENDING,
668 unregistration_result());
670 // Complete the unregistration.
671 WaitForAsyncOperation();
672 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
674 // Start unregistration without waiting for it to complete. This time no async
675 // operation is pending.
676 Unregister(kTestAppID1, GCMDriverTest::DO_NOT_WAIT);
678 // Test that unregistration fails with async operation pending when there is
679 // an unregistration already in progress.
680 Unregister(kTestAppID1, GCMDriverTest::WAIT);
681 EXPECT_EQ(GCMClient::ASYNC_OPERATION_PENDING,
682 unregistration_result());
683 ClearResults();
685 // Complete unregistration.
686 WaitForAsyncOperation();
687 EXPECT_EQ(GCMClient::SUCCESS, unregistration_result());
690 TEST_F(GCMDriverFunctionalTest, RegisterWhenAsyncOperationPending) {
691 std::vector<std::string> sender_ids;
692 sender_ids.push_back("sender1");
693 // First start registration without waiting for it to complete.
694 Register(kTestAppID1, sender_ids, GCMDriverTest::DO_NOT_WAIT);
696 // Test that registration fails with async operation pending when there is a
697 // registration already in progress.
698 Register(kTestAppID1, sender_ids, GCMDriverTest::WAIT);
699 EXPECT_EQ(GCMClient::ASYNC_OPERATION_PENDING,
700 registration_result());
701 ClearResults();
703 // Complete the registration.
704 WaitForAsyncOperation();
705 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
708 TEST_F(GCMDriverFunctionalTest, RegisterAfterUnfinishedUnregister) {
709 // Register and wait for it to complete.
710 std::vector<std::string> sender_ids;
711 sender_ids.push_back("sender1");
712 Register(kTestAppID1, sender_ids, GCMDriverTest::WAIT);
713 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
714 EXPECT_EQ(FakeGCMClient::GenerateGCMRegistrationID(sender_ids),
715 registration_id());
717 // Clears the results the would be set by the Register callback in preparation
718 // to call register 2nd time.
719 ClearResults();
721 // Start unregistration without waiting for it to complete.
722 Unregister(kTestAppID1, GCMDriverTest::DO_NOT_WAIT);
724 // Register immeidately after unregistration is not completed.
725 sender_ids.push_back("sender2");
726 Register(kTestAppID1, sender_ids, GCMDriverTest::WAIT);
728 // We need one more waiting since the waiting in Register is indeed for
729 // uncompleted Unregister.
730 WaitForAsyncOperation();
731 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
732 EXPECT_EQ(FakeGCMClient::GenerateGCMRegistrationID(sender_ids),
733 registration_id());
736 TEST_F(GCMDriverFunctionalTest, Send) {
737 OutgoingMessage message;
738 message.id = "1@ack";
739 message.data["key1"] = "value1";
740 message.data["key2"] = "value2";
741 Send(kTestAppID1, kUserID1, message, GCMDriverTest::WAIT);
743 EXPECT_EQ(message.id, send_message_id());
744 EXPECT_EQ(GCMClient::SUCCESS, send_result());
746 gcm_app_handler()->WaitForNotification();
747 EXPECT_EQ(message.id, gcm_app_handler()->acked_message_id());
748 EXPECT_EQ(kTestAppID1, gcm_app_handler()->app_id());
751 TEST_F(GCMDriverFunctionalTest, SendError) {
752 OutgoingMessage message;
753 // Embedding error in id will tell the mock to simulate the send error.
754 message.id = "1@error";
755 message.data["key1"] = "value1";
756 message.data["key2"] = "value2";
757 Send(kTestAppID1, kUserID1, message, GCMDriverTest::WAIT);
759 EXPECT_EQ(message.id, send_message_id());
760 EXPECT_EQ(GCMClient::SUCCESS, send_result());
762 // Wait for the send error.
763 gcm_app_handler()->WaitForNotification();
764 EXPECT_EQ(FakeGCMAppHandler::SEND_ERROR_EVENT,
765 gcm_app_handler()->received_event());
766 EXPECT_EQ(kTestAppID1, gcm_app_handler()->app_id());
767 EXPECT_EQ(message.id,
768 gcm_app_handler()->send_error_details().message_id);
769 EXPECT_NE(GCMClient::SUCCESS,
770 gcm_app_handler()->send_error_details().result);
771 EXPECT_EQ(message.data,
772 gcm_app_handler()->send_error_details().additional_data);
775 TEST_F(GCMDriverFunctionalTest, MessageReceived) {
776 // GCM registration has to be performed otherwise GCM will not be started.
777 Register(kTestAppID1, ToSenderList("sender"), GCMDriverTest::WAIT);
779 IncomingMessage message;
780 message.data["key1"] = "value1";
781 message.data["key2"] = "value2";
782 message.sender_id = "sender";
783 GetGCMClient()->ReceiveMessage(kTestAppID1, message);
784 gcm_app_handler()->WaitForNotification();
785 EXPECT_EQ(FakeGCMAppHandler::MESSAGE_EVENT,
786 gcm_app_handler()->received_event());
787 EXPECT_EQ(kTestAppID1, gcm_app_handler()->app_id());
788 EXPECT_EQ(message.data, gcm_app_handler()->message().data);
789 EXPECT_TRUE(gcm_app_handler()->message().collapse_key.empty());
790 EXPECT_EQ(message.sender_id, gcm_app_handler()->message().sender_id);
793 TEST_F(GCMDriverFunctionalTest, MessageWithCollapseKeyReceived) {
794 // GCM registration has to be performed otherwise GCM will not be started.
795 Register(kTestAppID1, ToSenderList("sender"), GCMDriverTest::WAIT);
797 IncomingMessage message;
798 message.data["key1"] = "value1";
799 message.collapse_key = "collapse_key_value";
800 message.sender_id = "sender";
801 GetGCMClient()->ReceiveMessage(kTestAppID1, message);
802 gcm_app_handler()->WaitForNotification();
803 EXPECT_EQ(FakeGCMAppHandler::MESSAGE_EVENT,
804 gcm_app_handler()->received_event());
805 EXPECT_EQ(kTestAppID1, gcm_app_handler()->app_id());
806 EXPECT_EQ(message.data, gcm_app_handler()->message().data);
807 EXPECT_EQ(message.collapse_key,
808 gcm_app_handler()->message().collapse_key);
811 TEST_F(GCMDriverFunctionalTest, MessagesDeleted) {
812 // GCM registration has to be performed otherwise GCM will not be started.
813 Register(kTestAppID1, ToSenderList("sender"), GCMDriverTest::WAIT);
815 GetGCMClient()->DeleteMessages(kTestAppID1);
816 gcm_app_handler()->WaitForNotification();
817 EXPECT_EQ(FakeGCMAppHandler::MESSAGES_DELETED_EVENT,
818 gcm_app_handler()->received_event());
819 EXPECT_EQ(kTestAppID1, gcm_app_handler()->app_id());
822 TEST_F(GCMDriverFunctionalTest, LastTokenFetchTime) {
823 // GCM registration has to be performed otherwise GCM will not be started.
824 Register(kTestAppID1, ToSenderList("sender"), GCMDriverTest::WAIT);
826 EXPECT_EQ(base::Time(), driver()->GetLastTokenFetchTime());
827 base::Time fetch_time = base::Time::Now();
828 driver()->SetLastTokenFetchTime(fetch_time);
829 EXPECT_EQ(fetch_time, driver()->GetLastTokenFetchTime());
832 // Tests a single instance of GCMDriver.
833 class GCMChannelStatusSyncerTest : public GCMDriverTest {
834 public:
835 GCMChannelStatusSyncerTest();
836 ~GCMChannelStatusSyncerTest() override;
838 // testing::Test:
839 void SetUp() override;
841 void CompleteGCMChannelStatusRequest(bool enabled, int poll_interval_seconds);
842 bool CompareDelaySeconds(int64 expected_delay_seconds,
843 int64 actual_delay_seconds);
845 GCMChannelStatusSyncer* syncer() {
846 return driver()->gcm_channel_status_syncer_for_testing();
849 private:
850 net::TestURLFetcherFactory url_fetcher_factory_;
852 DISALLOW_COPY_AND_ASSIGN(GCMChannelStatusSyncerTest);
855 GCMChannelStatusSyncerTest::GCMChannelStatusSyncerTest() {
858 GCMChannelStatusSyncerTest::~GCMChannelStatusSyncerTest() {
861 void GCMChannelStatusSyncerTest::SetUp() {
862 GCMDriverTest::SetUp();
864 url_fetcher_factory_.set_remove_fetcher_on_delete(true);
866 // Turn on all-user support.
867 ASSERT_TRUE(base::FieldTrialList::CreateFieldTrial("GCM", "Enabled"));
870 void GCMChannelStatusSyncerTest::CompleteGCMChannelStatusRequest(
871 bool enabled, int poll_interval_seconds) {
872 sync_pb::ExperimentStatusResponse response_proto;
873 sync_pb::ExperimentsSpecifics* experiment_specifics =
874 response_proto.add_experiment();
875 experiment_specifics->mutable_gcm_channel()->set_enabled(enabled);
877 if (poll_interval_seconds)
878 response_proto.set_poll_interval_seconds(poll_interval_seconds);
880 std::string response_string;
881 response_proto.SerializeToString(&response_string);
883 net::TestURLFetcher* fetcher = url_fetcher_factory_.GetFetcherByID(0);
884 ASSERT_TRUE(fetcher);
885 fetcher->set_response_code(net::HTTP_OK);
886 fetcher->SetResponseString(response_string);
887 fetcher->delegate()->OnURLFetchComplete(fetcher);
890 bool GCMChannelStatusSyncerTest::CompareDelaySeconds(
891 int64 expected_delay_seconds, int64 actual_delay_seconds) {
892 // Most of time, the actual delay should not be smaller than the expected
893 // delay.
894 if (actual_delay_seconds >= expected_delay_seconds)
895 return true;
896 // It is also OK that the actual delay is a bit smaller than the expected
897 // delay in case that the test runs slowly.
898 return expected_delay_seconds - actual_delay_seconds < 30;
901 TEST_F(GCMChannelStatusSyncerTest, DisableAndEnable) {
902 // Create GCMDriver first. By default, GCM is enabled.
903 CreateDriver();
904 EXPECT_TRUE(driver()->gcm_enabled());
905 EXPECT_TRUE(syncer()->gcm_enabled());
907 // Remove delay such that the request could be executed immediately.
908 syncer()->set_delay_removed_for_testing(true);
910 // GCM is still enabled at this point.
911 AddAppHandlers();
912 EXPECT_TRUE(driver()->gcm_enabled());
913 EXPECT_TRUE(syncer()->gcm_enabled());
915 // Wait until the GCM channel status request gets triggered.
916 PumpUILoop();
918 // Complete the request that disables the GCM.
919 CompleteGCMChannelStatusRequest(false, 0);
920 EXPECT_FALSE(driver()->gcm_enabled());
921 EXPECT_FALSE(syncer()->gcm_enabled());
922 EXPECT_FALSE(driver()->IsStarted());
924 // Wait until next GCM channel status request gets triggered.
925 PumpUILoop();
927 // Complete the request that enables the GCM.
928 CompleteGCMChannelStatusRequest(true, 0);
929 EXPECT_TRUE(driver()->gcm_enabled());
930 EXPECT_TRUE(syncer()->gcm_enabled());
933 TEST_F(GCMChannelStatusSyncerTest, DisableRestartAndEnable) {
934 // Create GCMDriver first. By default, GCM is enabled.
935 CreateDriver();
936 EXPECT_TRUE(driver()->gcm_enabled());
937 EXPECT_TRUE(syncer()->gcm_enabled());
939 // Remove delay such that the request could be executed immediately.
940 syncer()->set_delay_removed_for_testing(true);
942 // GCM is still enabled at this point.
943 AddAppHandlers();
944 EXPECT_TRUE(driver()->gcm_enabled());
945 EXPECT_TRUE(syncer()->gcm_enabled());
947 // Wait until the GCM channel status request gets triggered.
948 PumpUILoop();
950 // Complete the request that disables the GCM.
951 CompleteGCMChannelStatusRequest(false, 0);
952 EXPECT_FALSE(driver()->gcm_enabled());
953 EXPECT_FALSE(syncer()->gcm_enabled());
955 // Simulate browser start by recreating GCMDriver.
956 ShutdownDriver();
957 CreateDriver();
959 // Remove delay such that the request could be executed immediately.
960 syncer()->set_delay_removed_for_testing(true);
962 // GCM is still disabled.
963 EXPECT_FALSE(driver()->gcm_enabled());
964 EXPECT_FALSE(syncer()->gcm_enabled());
966 AddAppHandlers();
967 EXPECT_FALSE(driver()->gcm_enabled());
968 EXPECT_FALSE(syncer()->gcm_enabled());
970 // Wait until the GCM channel status request gets triggered.
971 PumpUILoop();
973 // Complete the request that re-enables the GCM.
974 CompleteGCMChannelStatusRequest(true, 0);
975 EXPECT_TRUE(driver()->gcm_enabled());
976 EXPECT_TRUE(syncer()->gcm_enabled());
979 TEST_F(GCMChannelStatusSyncerTest, FirstTimePolling) {
980 // Start GCM.
981 CreateDriver();
982 AddAppHandlers();
984 // The 1st request should be triggered shortly without jittering.
985 EXPECT_EQ(GCMChannelStatusSyncer::first_time_delay_seconds(),
986 syncer()->current_request_delay_interval().InSeconds());
989 TEST_F(GCMChannelStatusSyncerTest, SubsequentPollingWithDefaultInterval) {
990 // Create GCMDriver first. GCM is not started.
991 CreateDriver();
993 // Remove delay such that the request could be executed immediately.
994 syncer()->set_delay_removed_for_testing(true);
996 // Now GCM is started.
997 AddAppHandlers();
999 // Wait until the GCM channel status request gets triggered.
1000 PumpUILoop();
1002 // Keep delay such that we can find out the computed delay time.
1003 syncer()->set_delay_removed_for_testing(false);
1005 // Complete the request. The default interval is intact.
1006 CompleteGCMChannelStatusRequest(true, 0);
1008 // The next request should be scheduled at the expected default interval.
1009 int64 actual_delay_seconds =
1010 syncer()->current_request_delay_interval().InSeconds();
1011 int64 expected_delay_seconds =
1012 GCMChannelStatusRequest::default_poll_interval_seconds();
1013 EXPECT_TRUE(CompareDelaySeconds(expected_delay_seconds, actual_delay_seconds))
1014 << "expected delay: " << expected_delay_seconds
1015 << " actual delay: " << actual_delay_seconds;
1017 // Simulate browser start by recreating GCMDriver.
1018 ShutdownDriver();
1019 CreateDriver();
1020 AddAppHandlers();
1022 // After start-up, the request should still be scheduled at the expected
1023 // default interval.
1024 actual_delay_seconds =
1025 syncer()->current_request_delay_interval().InSeconds();
1026 EXPECT_TRUE(CompareDelaySeconds(expected_delay_seconds, actual_delay_seconds))
1027 << "expected delay: " << expected_delay_seconds
1028 << " actual delay: " << actual_delay_seconds;
1031 TEST_F(GCMChannelStatusSyncerTest, SubsequentPollingWithUpdatedInterval) {
1032 // Create GCMDriver first. GCM is not started.
1033 CreateDriver();
1035 // Remove delay such that the request could be executed immediately.
1036 syncer()->set_delay_removed_for_testing(true);
1038 // Now GCM is started.
1039 AddAppHandlers();
1041 // Wait until the GCM channel status request gets triggered.
1042 PumpUILoop();
1044 // Keep delay such that we can find out the computed delay time.
1045 syncer()->set_delay_removed_for_testing(false);
1047 // Complete the request. The interval is being changed.
1048 int new_poll_interval_seconds =
1049 GCMChannelStatusRequest::default_poll_interval_seconds() * 2;
1050 CompleteGCMChannelStatusRequest(true, new_poll_interval_seconds);
1052 // The next request should be scheduled at the expected updated interval.
1053 int64 actual_delay_seconds =
1054 syncer()->current_request_delay_interval().InSeconds();
1055 int64 expected_delay_seconds = new_poll_interval_seconds;
1056 EXPECT_TRUE(CompareDelaySeconds(expected_delay_seconds, actual_delay_seconds))
1057 << "expected delay: " << expected_delay_seconds
1058 << " actual delay: " << actual_delay_seconds;
1060 // Simulate browser start by recreating GCMDriver.
1061 ShutdownDriver();
1062 CreateDriver();
1063 AddAppHandlers();
1065 // After start-up, the request should still be scheduled at the expected
1066 // updated interval.
1067 actual_delay_seconds =
1068 syncer()->current_request_delay_interval().InSeconds();
1069 EXPECT_TRUE(CompareDelaySeconds(expected_delay_seconds, actual_delay_seconds))
1070 << "expected delay: " << expected_delay_seconds
1071 << " actual delay: " << actual_delay_seconds;
1074 class GCMDriverInstanceIDTest : public GCMDriverTest {
1075 public:
1076 GCMDriverInstanceIDTest();
1077 ~GCMDriverInstanceIDTest() override;
1079 void GetReady();
1080 void GetInstanceID(const std::string& app_id, WaitToFinish wait_to_finish);
1081 void GetInstanceIDDataCompleted(const std::string& instance_id,
1082 const std::string& extra_data);
1083 void GetToken(const std::string& app_id,
1084 const std::string& authorized_entity,
1085 const std::string& scope,
1086 WaitToFinish wait_to_finish);
1087 void DeleteToken(const std::string& app_id,
1088 const std::string& authorized_entity,
1089 const std::string& scope,
1090 WaitToFinish wait_to_finish);
1092 std::string instance_id() const { return instance_id_; }
1093 std::string extra_data() const { return extra_data_; }
1095 private:
1096 std::string instance_id_;
1097 std::string extra_data_;
1099 DISALLOW_COPY_AND_ASSIGN(GCMDriverInstanceIDTest);
1102 GCMDriverInstanceIDTest::GCMDriverInstanceIDTest() {
1105 GCMDriverInstanceIDTest::~GCMDriverInstanceIDTest() {
1108 void GCMDriverInstanceIDTest::GetReady() {
1109 CreateDriver();
1110 AddAppHandlers();
1111 PumpIOLoop();
1112 PumpUILoop();
1115 void GCMDriverInstanceIDTest::GetInstanceID(const std::string& app_id,
1116 WaitToFinish wait_to_finish) {
1117 base::RunLoop run_loop;
1118 set_async_operation_completed_callback(run_loop.QuitClosure());
1119 driver()->GetInstanceIDData(app_id,
1120 base::Bind(&GCMDriverInstanceIDTest::GetInstanceIDDataCompleted,
1121 base::Unretained(this)));
1122 if (wait_to_finish == WAIT)
1123 run_loop.Run();
1126 void GCMDriverInstanceIDTest::GetInstanceIDDataCompleted(
1127 const std::string& instance_id, const std::string& extra_data) {
1128 instance_id_ = instance_id;
1129 extra_data_ = extra_data;
1130 if (!async_operation_completed_callback().is_null())
1131 async_operation_completed_callback().Run();
1134 void GCMDriverInstanceIDTest::GetToken(const std::string& app_id,
1135 const std::string& authorized_entity,
1136 const std::string& scope,
1137 WaitToFinish wait_to_finish) {
1138 base::RunLoop run_loop;
1139 set_async_operation_completed_callback(run_loop.QuitClosure());
1140 std::map<std::string, std::string> options;
1141 driver()->GetToken(app_id,
1142 authorized_entity,
1143 scope,
1144 options,
1145 base::Bind(&GCMDriverTest::RegisterCompleted,
1146 base::Unretained(this)));
1147 if (wait_to_finish == WAIT)
1148 run_loop.Run();
1151 void GCMDriverInstanceIDTest::DeleteToken(const std::string& app_id,
1152 const std::string& authorized_entity,
1153 const std::string& scope,
1154 WaitToFinish wait_to_finish) {
1155 base::RunLoop run_loop;
1156 set_async_operation_completed_callback(run_loop.QuitClosure());
1157 driver()->DeleteToken(app_id,
1158 authorized_entity,
1159 scope,
1160 base::Bind(&GCMDriverTest::UnregisterCompleted,
1161 base::Unretained(this)));
1162 if (wait_to_finish == WAIT)
1163 run_loop.Run();
1166 TEST_F(GCMDriverInstanceIDTest, InstanceIDData) {
1167 GetReady();
1169 driver()->AddInstanceIDData(kTestAppID1, kInstanceID1, "Foo");
1170 GetInstanceID(kTestAppID1, GCMDriverTest::WAIT);
1172 EXPECT_EQ(kInstanceID1, instance_id());
1173 EXPECT_EQ("Foo", extra_data());
1175 driver()->RemoveInstanceIDData(kTestAppID1);
1176 GetInstanceID(kTestAppID1, GCMDriverTest::WAIT);
1178 EXPECT_TRUE(instance_id().empty());
1179 EXPECT_TRUE(extra_data().empty());
1182 TEST_F(GCMDriverInstanceIDTest, GCMClientNotReadyBeforeInstanceIDData) {
1183 CreateDriver();
1184 PumpIOLoop();
1185 PumpUILoop();
1187 // Make GCMClient not ready until PerformDelayedStart is called.
1188 GetGCMClient()->set_start_mode_overridding(
1189 FakeGCMClient::FORCE_TO_ALWAYS_DELAY_START_GCM);
1191 AddAppHandlers();
1193 // All operations are on hold until GCMClient is ready.
1194 driver()->AddInstanceIDData(kTestAppID1, kInstanceID1, "Foo");
1195 driver()->AddInstanceIDData(kTestAppID2, kInstanceID2, "Bar");
1196 driver()->RemoveInstanceIDData(kTestAppID1);
1197 GetInstanceID(kTestAppID2, GCMDriverTest::DO_NOT_WAIT);
1198 PumpIOLoop();
1199 PumpUILoop();
1200 EXPECT_TRUE(instance_id().empty());
1201 EXPECT_TRUE(extra_data().empty());
1203 // All operations will be performed after GCMClient becomes ready.
1204 GetGCMClient()->PerformDelayedStart();
1205 WaitForAsyncOperation();
1206 EXPECT_EQ(kInstanceID2, instance_id());
1207 EXPECT_EQ("Bar", extra_data());
1210 TEST_F(GCMDriverInstanceIDTest, GetToken) {
1211 GetReady();
1213 const std::string expected_token =
1214 FakeGCMClient::GenerateInstanceIDToken(kUserID1, kScope);
1215 GetToken(kTestAppID1, kUserID1, kScope, GCMDriverTest::WAIT);
1217 EXPECT_EQ(expected_token, registration_id());
1218 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
1221 TEST_F(GCMDriverInstanceIDTest, GetTokenError) {
1222 GetReady();
1224 std::string error_entity = "sender@error";
1225 GetToken(kTestAppID1, error_entity, kScope, GCMDriverTest::WAIT);
1227 EXPECT_TRUE(registration_id().empty());
1228 EXPECT_NE(GCMClient::SUCCESS, registration_result());
1231 TEST_F(GCMDriverInstanceIDTest, GCMClientNotReadyBeforeGetToken) {
1232 CreateDriver();
1233 PumpIOLoop();
1234 PumpUILoop();
1236 // Make GCMClient not ready until PerformDelayedStart is called.
1237 GetGCMClient()->set_start_mode_overridding(
1238 FakeGCMClient::FORCE_TO_ALWAYS_DELAY_START_GCM);
1240 AddAppHandlers();
1242 // GetToken operation is on hold until GCMClient is ready.
1243 GetToken(kTestAppID1, kUserID1, kScope, GCMDriverTest::DO_NOT_WAIT);
1244 PumpIOLoop();
1245 PumpUILoop();
1246 EXPECT_TRUE(registration_id().empty());
1247 EXPECT_EQ(GCMClient::UNKNOWN_ERROR, registration_result());
1249 // GetToken operation will be invoked after GCMClient becomes ready.
1250 GetGCMClient()->PerformDelayedStart();
1251 WaitForAsyncOperation();
1252 EXPECT_FALSE(registration_id().empty());
1253 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
1256 TEST_F(GCMDriverInstanceIDTest, DeleteToken) {
1257 GetReady();
1259 const std::string expected_token =
1260 FakeGCMClient::GenerateInstanceIDToken(kUserID1, kScope);
1261 GetToken(kTestAppID1, kUserID1, kScope, GCMDriverTest::WAIT);
1262 EXPECT_EQ(expected_token, registration_id());
1263 EXPECT_EQ(GCMClient::SUCCESS, registration_result());
1265 DeleteToken(kTestAppID1, kUserID1, kScope, GCMDriverTest::WAIT);
1266 EXPECT_EQ(GCMClient::SUCCESS, unregistration_result());
1269 TEST_F(GCMDriverInstanceIDTest, GCMClientNotReadyBeforeDeleteToken) {
1270 CreateDriver();
1271 PumpIOLoop();
1272 PumpUILoop();
1274 // Make GCMClient not ready until PerformDelayedStart is called.
1275 GetGCMClient()->set_start_mode_overridding(
1276 FakeGCMClient::FORCE_TO_ALWAYS_DELAY_START_GCM);
1278 AddAppHandlers();
1280 // DeleteToken operation is on hold until GCMClient is ready.
1281 DeleteToken(kTestAppID1, kUserID1, kScope, GCMDriverTest::DO_NOT_WAIT);
1282 PumpIOLoop();
1283 PumpUILoop();
1284 EXPECT_EQ(GCMClient::UNKNOWN_ERROR, unregistration_result());
1286 // DeleteToken operation will be invoked after GCMClient becomes ready.
1287 GetGCMClient()->PerformDelayedStart();
1288 WaitForAsyncOperation();
1289 EXPECT_EQ(GCMClient::SUCCESS, unregistration_result());
1292 } // namespace gcm