pc/dtmfsender_unittest.cc - src - Git at Google

 /*
  *  Copyright 2012 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "pc/dtmfsender.h"

 #include <memory>
 #include <set>
 #include <string>
 #include <vector>


 #include "pc/audiotrack.h"
 #include "rtc_base/fakeclock.h"
 #include "rtc_base/gunit.h"
 #include "rtc_base/timeutils.h"

 using webrtc::AudioTrackInterface;
 using webrtc::AudioTrack;
 using webrtc::DtmfProviderInterface;
 using webrtc::DtmfSender;
 using webrtc::DtmfSenderObserverInterface;

 static const char kTestAudioLabel[] = "test_audio_track";
 // TODO(deadbeef): Even though this test now uses a fake clock, it has a
 // generous 3-second timeout for every test case. The timeout could be tuned
 // to each test based on the tones sent, instead.
 static const int kMaxWaitMs = 3000;

 class FakeDtmfObserver : public DtmfSenderObserverInterface {
  public:
   FakeDtmfObserver() : completed_(false) {}

   // Implements DtmfSenderObserverInterface.
   void OnToneChange(const std::string& tone) override {
     tones_.push_back(tone);
     if (tone.empty()) {
       completed_ = true;
     }
   }

   // getters
   const std::vector<std::string>& tones() const {
     return tones_;
   }
   bool completed() const {
     return completed_;
   }

  private:
   std::vector<std::string> tones_;
   bool completed_;
 };

 class FakeDtmfProvider : public DtmfProviderInterface {
  public:
   struct DtmfInfo {
     DtmfInfo(int code, int duration, int gap)
       : code(code),
         duration(duration),
         gap(gap) {}
     int code;
     int duration;
     int gap;
   };

   FakeDtmfProvider() : last_insert_dtmf_call_(0) {}

   ~FakeDtmfProvider() {
     SignalDestroyed();
   }

   // Implements DtmfProviderInterface.
   bool CanInsertDtmf() override { return can_insert_; }

   bool InsertDtmf(int code, int duration) override {
     int gap = 0;
     // TODO(ronghuawu): Make the timer (basically the rtc::TimeNanos)
     // mockable and use a fake timer in the unit tests.
     if (last_insert_dtmf_call_ > 0) {
       gap = static_cast<int>(rtc::TimeMillis() - last_insert_dtmf_call_);
     }
     last_insert_dtmf_call_ = rtc::TimeMillis();

     dtmf_info_queue_.push_back(DtmfInfo(code, duration, gap));
     return true;
   }

   sigslot::signal0<>* GetOnDestroyedSignal() override {
     return &SignalDestroyed;
   }

   // getter and setter
   const std::vector<DtmfInfo>& dtmf_info_queue() const {
     return dtmf_info_queue_;
   }

   // helper functions
   void SetCanInsertDtmf(bool can_insert) { can_insert_ = can_insert; }

  private:
   bool can_insert_ = false;
   std::vector<DtmfInfo> dtmf_info_queue_;
   int64_t last_insert_dtmf_call_;
   sigslot::signal0<> SignalDestroyed;
 };

 class DtmfSenderTest : public testing::Test {
  protected:
   DtmfSenderTest()
       : track_(AudioTrack::Create(kTestAudioLabel, NULL)),
         observer_(new rtc::RefCountedObject<FakeDtmfObserver>()),
         provider_(new FakeDtmfProvider()) {
     provider_->SetCanInsertDtmf(true);
     dtmf_ = DtmfSender::Create(track_, rtc::Thread::Current(),
                                provider_.get());
     dtmf_->RegisterObserver(observer_.get());
   }

   ~DtmfSenderTest() {
     if (dtmf_.get()) {
       dtmf_->UnregisterObserver();
     }
   }

   // Constructs a list of DtmfInfo from |tones|, |duration| and
   // |inter_tone_gap|.
   void GetDtmfInfoFromString(const std::string& tones, int duration,
                              int inter_tone_gap,
                              std::vector<FakeDtmfProvider::DtmfInfo>* dtmfs) {
     // Init extra_delay as -inter_tone_gap - duration to ensure the first
     // DtmfInfo's gap field will be 0.
     int extra_delay = -1 * (inter_tone_gap + duration);

     std::string::const_iterator it = tones.begin();
     for (; it != tones.end(); ++it) {
       char tone = *it;
       int code = 0;
       webrtc::GetDtmfCode(tone, &code);
       if (tone == ',') {
         extra_delay = 2000;  // 2 seconds
       } else {
         dtmfs->push_back(FakeDtmfProvider::DtmfInfo(code, duration,
                          duration + inter_tone_gap + extra_delay));
         extra_delay = 0;
       }
     }
   }

   void VerifyExpectedState(AudioTrackInterface* track,
                           const std::string& tones,
                           int duration, int inter_tone_gap) {
     EXPECT_EQ(track, dtmf_->track());
     EXPECT_EQ(tones, dtmf_->tones());
     EXPECT_EQ(duration, dtmf_->duration());
     EXPECT_EQ(inter_tone_gap, dtmf_->inter_tone_gap());
   }

   // Verify the provider got all the expected calls.
   void VerifyOnProvider(const std::string& tones, int duration,
                         int inter_tone_gap) {
     std::vector<FakeDtmfProvider::DtmfInfo> dtmf_queue_ref;
     GetDtmfInfoFromString(tones, duration, inter_tone_gap, &dtmf_queue_ref);
     VerifyOnProvider(dtmf_queue_ref);
   }

   void VerifyOnProvider(
       const std::vector<FakeDtmfProvider::DtmfInfo>& dtmf_queue_ref) {
     const std::vector<FakeDtmfProvider::DtmfInfo>& dtmf_queue =
         provider_->dtmf_info_queue();
     ASSERT_EQ(dtmf_queue_ref.size(), dtmf_queue.size());
     std::vector<FakeDtmfProvider::DtmfInfo>::const_iterator it_ref =
         dtmf_queue_ref.begin();
     std::vector<FakeDtmfProvider::DtmfInfo>::const_iterator it =
         dtmf_queue.begin();
     while (it_ref != dtmf_queue_ref.end() && it != dtmf_queue.end()) {
       EXPECT_EQ(it_ref->code, it->code);
       EXPECT_EQ(it_ref->duration, it->duration);
       // Allow ~10ms error (can be small since we're using a fake clock).
       EXPECT_GE(it_ref->gap, it->gap - 10);
       EXPECT_LE(it_ref->gap, it->gap + 10);
       ++it_ref;
       ++it;
     }
   }

   // Verify the observer got all the expected callbacks.
   void VerifyOnObserver(const std::string& tones_ref) {
     const std::vector<std::string>& tones = observer_->tones();
     // The observer will get an empty string at the end.
     EXPECT_EQ(tones_ref.size() + 1, tones.size());
     EXPECT_TRUE(tones.back().empty());
     std::string::const_iterator it_ref = tones_ref.begin();
     std::vector<std::string>::const_iterator it = tones.begin();
     while (it_ref != tones_ref.end() && it != tones.end()) {
       EXPECT_EQ(*it_ref, it->at(0));
       ++it_ref;
       ++it;
     }
   }

   rtc::scoped_refptr<AudioTrackInterface> track_;
   std::unique_ptr<FakeDtmfObserver> observer_;
   std::unique_ptr<FakeDtmfProvider> provider_;
   rtc::scoped_refptr<DtmfSender> dtmf_;
   rtc::ScopedFakeClock fake_clock_;
 };

 TEST_F(DtmfSenderTest, CanInsertDtmf) {
   EXPECT_TRUE(dtmf_->CanInsertDtmf());
   provider_->SetCanInsertDtmf(false);
   EXPECT_FALSE(dtmf_->CanInsertDtmf());
 }

 TEST_F(DtmfSenderTest, InsertDtmf) {
   std::string tones = "@1%a&*$";
   int duration = 100;
   int inter_tone_gap = 50;
   EXPECT_TRUE(dtmf_->InsertDtmf(tones, duration, inter_tone_gap));
   EXPECT_TRUE_SIMULATED_WAIT(observer_->completed(), kMaxWaitMs, fake_clock_);

   // The unrecognized characters should be ignored.
   std::string known_tones = "1a*";
   VerifyOnProvider(known_tones, duration, inter_tone_gap);
   VerifyOnObserver(known_tones);
 }

 TEST_F(DtmfSenderTest, InsertDtmfTwice) {
   std::string tones1 = "12";
   std::string tones2 = "ab";
   int duration = 100;
   int inter_tone_gap = 50;
   EXPECT_TRUE(dtmf_->InsertDtmf(tones1, duration, inter_tone_gap));
   VerifyExpectedState(track_, tones1, duration, inter_tone_gap);
   // Wait until the first tone got sent.
   EXPECT_TRUE_SIMULATED_WAIT(observer_->tones().size() == 1, kMaxWaitMs,
                              fake_clock_);
   VerifyExpectedState(track_, "2", duration, inter_tone_gap);
   // Insert with another tone buffer.
   EXPECT_TRUE(dtmf_->InsertDtmf(tones2, duration, inter_tone_gap));
   VerifyExpectedState(track_, tones2, duration, inter_tone_gap);
   // Wait until it's completed.
   EXPECT_TRUE_SIMULATED_WAIT(observer_->completed(), kMaxWaitMs, fake_clock_);

   std::vector<FakeDtmfProvider::DtmfInfo> dtmf_queue_ref;
   GetDtmfInfoFromString("1", duration, inter_tone_gap, &dtmf_queue_ref);
   GetDtmfInfoFromString("ab", duration, inter_tone_gap, &dtmf_queue_ref);
   VerifyOnProvider(dtmf_queue_ref);
   VerifyOnObserver("1ab");
 }

 TEST_F(DtmfSenderTest, InsertDtmfWhileProviderIsDeleted) {
   std::string tones = "@1%a&*$";
   int duration = 100;
   int inter_tone_gap = 50;
   EXPECT_TRUE(dtmf_->InsertDtmf(tones, duration, inter_tone_gap));
   // Wait until the first tone got sent.
   EXPECT_TRUE_SIMULATED_WAIT(observer_->tones().size() == 1, kMaxWaitMs,
                              fake_clock_);
   // Delete provider.
   provider_.reset();
   // The queue should be discontinued so no more tone callbacks.
   SIMULATED_WAIT(false, 200, fake_clock_);
   EXPECT_EQ(1U, observer_->tones().size());
 }

 TEST_F(DtmfSenderTest, InsertDtmfWhileSenderIsDeleted) {
   std::string tones = "@1%a&*$";
   int duration = 100;
   int inter_tone_gap = 50;
   EXPECT_TRUE(dtmf_->InsertDtmf(tones, duration, inter_tone_gap));
   // Wait until the first tone got sent.
   EXPECT_TRUE_SIMULATED_WAIT(observer_->tones().size() == 1, kMaxWaitMs,
                              fake_clock_);
   // Delete the sender.
   dtmf_ = NULL;
   // The queue should be discontinued so no more tone callbacks.
   SIMULATED_WAIT(false, 200, fake_clock_);
   EXPECT_EQ(1U, observer_->tones().size());
 }

 TEST_F(DtmfSenderTest, InsertEmptyTonesToCancelPreviousTask) {
   std::string tones1 = "12";
   std::string tones2 = "";
   int duration = 100;
   int inter_tone_gap = 50;
   EXPECT_TRUE(dtmf_->InsertDtmf(tones1, duration, inter_tone_gap));
   // Wait until the first tone got sent.
   EXPECT_TRUE_SIMULATED_WAIT(observer_->tones().size() == 1, kMaxWaitMs,
                              fake_clock_);
   // Insert with another tone buffer.
   EXPECT_TRUE(dtmf_->InsertDtmf(tones2, duration, inter_tone_gap));
   // Wait until it's completed.
   EXPECT_TRUE_SIMULATED_WAIT(observer_->completed(), kMaxWaitMs, fake_clock_);

   std::vector<FakeDtmfProvider::DtmfInfo> dtmf_queue_ref;
   GetDtmfInfoFromString("1", duration, inter_tone_gap, &dtmf_queue_ref);
   VerifyOnProvider(dtmf_queue_ref);
   VerifyOnObserver("1");
 }

 TEST_F(DtmfSenderTest, InsertDtmfWithCommaAsDelay) {
   std::string tones = "3,4";
   int duration = 100;
   int inter_tone_gap = 50;
   EXPECT_TRUE(dtmf_->InsertDtmf(tones, duration, inter_tone_gap));
   EXPECT_TRUE_SIMULATED_WAIT(observer_->completed(), kMaxWaitMs, fake_clock_);

   VerifyOnProvider(tones, duration, inter_tone_gap);
   VerifyOnObserver(tones);
 }

 TEST_F(DtmfSenderTest, TryInsertDtmfWhenItDoesNotWork) {
   std::string tones = "3,4";
   int duration = 100;
   int inter_tone_gap = 50;
   provider_->SetCanInsertDtmf(false);
   EXPECT_FALSE(dtmf_->InsertDtmf(tones, duration, inter_tone_gap));
 }

 TEST_F(DtmfSenderTest, InsertDtmfWithInvalidDurationOrGap) {
   std::string tones = "3,4";
   int duration = 40;
   int inter_tone_gap = 50;

   EXPECT_FALSE(dtmf_->InsertDtmf(tones, 6001, inter_tone_gap));
   EXPECT_FALSE(dtmf_->InsertDtmf(tones, 39, inter_tone_gap));
   EXPECT_FALSE(dtmf_->InsertDtmf(tones, duration, 49));

   EXPECT_TRUE(dtmf_->InsertDtmf(tones, duration, inter_tone_gap));
 }
	/*
	* Copyright 2012 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "pc/dtmfsender.h"

	#include <memory>
	#include <set>
	#include <string>
	#include <vector>


	#include "pc/audiotrack.h"
	#include "rtc_base/fakeclock.h"
	#include "rtc_base/gunit.h"
	#include "rtc_base/timeutils.h"

	using webrtc::AudioTrackInterface;
	using webrtc::AudioTrack;
	using webrtc::DtmfProviderInterface;
	using webrtc::DtmfSender;
	using webrtc::DtmfSenderObserverInterface;

	static const char kTestAudioLabel[] = "test_audio_track";
	// TODO(deadbeef): Even though this test now uses a fake clock, it has a
	// generous 3-second timeout for every test case. The timeout could be tuned
	// to each test based on the tones sent, instead.
	static const int kMaxWaitMs = 3000;

	class FakeDtmfObserver : public DtmfSenderObserverInterface {
	public:
	FakeDtmfObserver() : completed_(false) {}

	// Implements DtmfSenderObserverInterface.
	void OnToneChange(const std::string& tone) override {
	tones_.push_back(tone);
	if (tone.empty()) {
	completed_ = true;
	}
	}

	// getters
	const std::vector<std::string>& tones() const {
	return tones_;
	}
	bool completed() const {
	return completed_;
	}

	private:
	std::vector<std::string> tones_;
	bool completed_;
	};

	class FakeDtmfProvider : public DtmfProviderInterface {
	public:
	struct DtmfInfo {
	DtmfInfo(int code, int duration, int gap)
	: code(code),
	duration(duration),
	gap(gap) {}
	int code;
	int duration;
	int gap;
	};

	FakeDtmfProvider() : last_insert_dtmf_call_(0) {}

	~FakeDtmfProvider() {
	SignalDestroyed();
	}

	// Implements DtmfProviderInterface.
	bool CanInsertDtmf() override { return can_insert_; }

	bool InsertDtmf(int code, int duration) override {
	int gap = 0;
	// TODO(ronghuawu): Make the timer (basically the rtc::TimeNanos)
	// mockable and use a fake timer in the unit tests.
	if (last_insert_dtmf_call_ > 0) {
	gap = static_cast<int>(rtc::TimeMillis() - last_insert_dtmf_call_);
	}
	last_insert_dtmf_call_ = rtc::TimeMillis();

	dtmf_info_queue_.push_back(DtmfInfo(code, duration, gap));
	return true;
	}

	sigslot::signal0<>* GetOnDestroyedSignal() override {
	return &SignalDestroyed;
	}

	// getter and setter
	const std::vector<DtmfInfo>& dtmf_info_queue() const {
	return dtmf_info_queue_;
	}

	// helper functions
	void SetCanInsertDtmf(bool can_insert) { can_insert_ = can_insert; }

	private:
	bool can_insert_ = false;
	std::vector<DtmfInfo> dtmf_info_queue_;
	int64_t last_insert_dtmf_call_;
	sigslot::signal0<> SignalDestroyed;
	};

	class DtmfSenderTest : public testing::Test {
	protected:
	DtmfSenderTest()
	: track_(AudioTrack::Create(kTestAudioLabel, NULL)),
	observer_(new rtc::RefCountedObject<FakeDtmfObserver>()),
	provider_(new FakeDtmfProvider()) {
	provider_->SetCanInsertDtmf(true);
	dtmf_ = DtmfSender::Create(track_, rtc::Thread::Current(),
	provider_.get());
	dtmf_->RegisterObserver(observer_.get());
	}

	~DtmfSenderTest() {
	if (dtmf_.get()) {
	dtmf_->UnregisterObserver();
	}
	}

	// Constructs a list of DtmfInfo from \|tones\|, \|duration\| and
	// \|inter_tone_gap\|.
	void GetDtmfInfoFromString(const std::string& tones, int duration,
	int inter_tone_gap,
	std::vector<FakeDtmfProvider::DtmfInfo>* dtmfs) {
	// Init extra_delay as -inter_tone_gap - duration to ensure the first
	// DtmfInfo's gap field will be 0.
	int extra_delay = -1 * (inter_tone_gap + duration);

	std::string::const_iterator it = tones.begin();
	for (; it != tones.end(); ++it) {
	char tone = *it;
	int code = 0;
	webrtc::GetDtmfCode(tone, &code);
	if (tone == ',') {
	extra_delay = 2000; // 2 seconds
	} else {
	dtmfs->push_back(FakeDtmfProvider::DtmfInfo(code, duration,
	duration + inter_tone_gap + extra_delay));
	extra_delay = 0;
	}
	}
	}

	void VerifyExpectedState(AudioTrackInterface* track,
	const std::string& tones,
	int duration, int inter_tone_gap) {
	EXPECT_EQ(track, dtmf_->track());
	EXPECT_EQ(tones, dtmf_->tones());
	EXPECT_EQ(duration, dtmf_->duration());
	EXPECT_EQ(inter_tone_gap, dtmf_->inter_tone_gap());
	}

	// Verify the provider got all the expected calls.
	void VerifyOnProvider(const std::string& tones, int duration,
	int inter_tone_gap) {
	std::vector<FakeDtmfProvider::DtmfInfo> dtmf_queue_ref;
	GetDtmfInfoFromString(tones, duration, inter_tone_gap, &dtmf_queue_ref);
	VerifyOnProvider(dtmf_queue_ref);
	}

	void VerifyOnProvider(
	const std::vector<FakeDtmfProvider::DtmfInfo>& dtmf_queue_ref) {
	const std::vector<FakeDtmfProvider::DtmfInfo>& dtmf_queue =
	provider_->dtmf_info_queue();
	ASSERT_EQ(dtmf_queue_ref.size(), dtmf_queue.size());
	std::vector<FakeDtmfProvider::DtmfInfo>::const_iterator it_ref =
	dtmf_queue_ref.begin();
	std::vector<FakeDtmfProvider::DtmfInfo>::const_iterator it =
	dtmf_queue.begin();
	while (it_ref != dtmf_queue_ref.end() && it != dtmf_queue.end()) {
	EXPECT_EQ(it_ref->code, it->code);
	EXPECT_EQ(it_ref->duration, it->duration);
	// Allow ~10ms error (can be small since we're using a fake clock).
	EXPECT_GE(it_ref->gap, it->gap - 10);
	EXPECT_LE(it_ref->gap, it->gap + 10);
	++it_ref;
	++it;
	}
	}

	// Verify the observer got all the expected callbacks.
	void VerifyOnObserver(const std::string& tones_ref) {
	const std::vector<std::string>& tones = observer_->tones();
	// The observer will get an empty string at the end.
	EXPECT_EQ(tones_ref.size() + 1, tones.size());
	EXPECT_TRUE(tones.back().empty());
	std::string::const_iterator it_ref = tones_ref.begin();
	std::vector<std::string>::const_iterator it = tones.begin();
	while (it_ref != tones_ref.end() && it != tones.end()) {
	EXPECT_EQ(*it_ref, it->at(0));
	++it_ref;
	++it;
	}
	}

	rtc::scoped_refptr<AudioTrackInterface> track_;
	std::unique_ptr<FakeDtmfObserver> observer_;
	std::unique_ptr<FakeDtmfProvider> provider_;
	rtc::scoped_refptr<DtmfSender> dtmf_;
	rtc::ScopedFakeClock fake_clock_;
	};

	TEST_F(DtmfSenderTest, CanInsertDtmf) {
	EXPECT_TRUE(dtmf_->CanInsertDtmf());
	provider_->SetCanInsertDtmf(false);
	EXPECT_FALSE(dtmf_->CanInsertDtmf());
	}

	TEST_F(DtmfSenderTest, InsertDtmf) {
	std::string tones = "@1%a&*$";
	int duration = 100;
	int inter_tone_gap = 50;
	EXPECT_TRUE(dtmf_->InsertDtmf(tones, duration, inter_tone_gap));
	EXPECT_TRUE_SIMULATED_WAIT(observer_->completed(), kMaxWaitMs, fake_clock_);

	// The unrecognized characters should be ignored.
	std::string known_tones = "1a*";
	VerifyOnProvider(known_tones, duration, inter_tone_gap);
	VerifyOnObserver(known_tones);
	}

	TEST_F(DtmfSenderTest, InsertDtmfTwice) {
	std::string tones1 = "12";
	std::string tones2 = "ab";
	int duration = 100;
	int inter_tone_gap = 50;
	EXPECT_TRUE(dtmf_->InsertDtmf(tones1, duration, inter_tone_gap));
	VerifyExpectedState(track_, tones1, duration, inter_tone_gap);
	// Wait until the first tone got sent.
	EXPECT_TRUE_SIMULATED_WAIT(observer_->tones().size() == 1, kMaxWaitMs,
	fake_clock_);
	VerifyExpectedState(track_, "2", duration, inter_tone_gap);
	// Insert with another tone buffer.
	EXPECT_TRUE(dtmf_->InsertDtmf(tones2, duration, inter_tone_gap));
	VerifyExpectedState(track_, tones2, duration, inter_tone_gap);
	// Wait until it's completed.
	EXPECT_TRUE_SIMULATED_WAIT(observer_->completed(), kMaxWaitMs, fake_clock_);

	std::vector<FakeDtmfProvider::DtmfInfo> dtmf_queue_ref;
	GetDtmfInfoFromString("1", duration, inter_tone_gap, &dtmf_queue_ref);
	GetDtmfInfoFromString("ab", duration, inter_tone_gap, &dtmf_queue_ref);
	VerifyOnProvider(dtmf_queue_ref);
	VerifyOnObserver("1ab");
	}

	TEST_F(DtmfSenderTest, InsertDtmfWhileProviderIsDeleted) {
	std::string tones = "@1%a&*$";
	int duration = 100;
	int inter_tone_gap = 50;
	EXPECT_TRUE(dtmf_->InsertDtmf(tones, duration, inter_tone_gap));
	// Wait until the first tone got sent.
	EXPECT_TRUE_SIMULATED_WAIT(observer_->tones().size() == 1, kMaxWaitMs,
	fake_clock_);
	// Delete provider.
	provider_.reset();
	// The queue should be discontinued so no more tone callbacks.
	SIMULATED_WAIT(false, 200, fake_clock_);
	EXPECT_EQ(1U, observer_->tones().size());
	}

	TEST_F(DtmfSenderTest, InsertDtmfWhileSenderIsDeleted) {
	std::string tones = "@1%a&*$";
	int duration = 100;
	int inter_tone_gap = 50;
	EXPECT_TRUE(dtmf_->InsertDtmf(tones, duration, inter_tone_gap));
	// Wait until the first tone got sent.
	EXPECT_TRUE_SIMULATED_WAIT(observer_->tones().size() == 1, kMaxWaitMs,
	fake_clock_);
	// Delete the sender.
	dtmf_ = NULL;
	// The queue should be discontinued so no more tone callbacks.
	SIMULATED_WAIT(false, 200, fake_clock_);
	EXPECT_EQ(1U, observer_->tones().size());
	}

	TEST_F(DtmfSenderTest, InsertEmptyTonesToCancelPreviousTask) {
	std::string tones1 = "12";
	std::string tones2 = "";
	int duration = 100;
	int inter_tone_gap = 50;
	EXPECT_TRUE(dtmf_->InsertDtmf(tones1, duration, inter_tone_gap));
	// Wait until the first tone got sent.
	EXPECT_TRUE_SIMULATED_WAIT(observer_->tones().size() == 1, kMaxWaitMs,
	fake_clock_);
	// Insert with another tone buffer.
	EXPECT_TRUE(dtmf_->InsertDtmf(tones2, duration, inter_tone_gap));
	// Wait until it's completed.
	EXPECT_TRUE_SIMULATED_WAIT(observer_->completed(), kMaxWaitMs, fake_clock_);

	std::vector<FakeDtmfProvider::DtmfInfo> dtmf_queue_ref;
	GetDtmfInfoFromString("1", duration, inter_tone_gap, &dtmf_queue_ref);
	VerifyOnProvider(dtmf_queue_ref);
	VerifyOnObserver("1");
	}

	TEST_F(DtmfSenderTest, InsertDtmfWithCommaAsDelay) {
	std::string tones = "3,4";
	int duration = 100;
	int inter_tone_gap = 50;
	EXPECT_TRUE(dtmf_->InsertDtmf(tones, duration, inter_tone_gap));
	EXPECT_TRUE_SIMULATED_WAIT(observer_->completed(), kMaxWaitMs, fake_clock_);

	VerifyOnProvider(tones, duration, inter_tone_gap);
	VerifyOnObserver(tones);
	}

	TEST_F(DtmfSenderTest, TryInsertDtmfWhenItDoesNotWork) {
	std::string tones = "3,4";
	int duration = 100;
	int inter_tone_gap = 50;
	provider_->SetCanInsertDtmf(false);
	EXPECT_FALSE(dtmf_->InsertDtmf(tones, duration, inter_tone_gap));
	}

	TEST_F(DtmfSenderTest, InsertDtmfWithInvalidDurationOrGap) {
	std::string tones = "3,4";
	int duration = 40;
	int inter_tone_gap = 50;

	EXPECT_FALSE(dtmf_->InsertDtmf(tones, 6001, inter_tone_gap));
	EXPECT_FALSE(dtmf_->InsertDtmf(tones, 39, inter_tone_gap));
	EXPECT_FALSE(dtmf_->InsertDtmf(tones, duration, 49));

	EXPECT_TRUE(dtmf_->InsertDtmf(tones, duration, inter_tone_gap));
	}