rtc_base/unique_id_generator_unittest.cc - src - Git at Google

 /*
  *  Copyright 2018 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 "rtc_base/unique_id_generator.h"

 #include <string>
 #include <vector>

 #include "absl/algorithm/container.h"
 #include "api/array_view.h"
 #include "api/task_queue/task_queue_base.h"
 #include "rtc_base/gunit.h"
 #include "rtc_base/helpers.h"
 #include "test/gmock.h"

 using ::testing::IsEmpty;
 using ::testing::Test;

 namespace rtc {
 namespace {
 // Utility class that registers itself as the currently active task queue.
 class FakeTaskQueue : public webrtc::TaskQueueBase {
  public:
   FakeTaskQueue() : task_queue_setter_(this) {}

   void Delete() override {}
   void PostTask(std::unique_ptr<webrtc::QueuedTask> task) override {}
   void PostDelayedTask(std::unique_ptr<webrtc::QueuedTask> task,
                        uint32_t milliseconds) override {}

  private:
   CurrentTaskQueueSetter task_queue_setter_;
 };
 }  // namespace

 template <typename Generator>
 class UniqueIdGeneratorTest : public Test {};

 using test_types = ::testing::Types<UniqueNumberGenerator<uint8_t>,
                                     UniqueNumberGenerator<uint16_t>,
                                     UniqueNumberGenerator<uint32_t>,
                                     UniqueNumberGenerator<int>,
                                     UniqueRandomIdGenerator,
                                     UniqueStringGenerator>;

 TYPED_TEST_SUITE(UniqueIdGeneratorTest, test_types);

 TYPED_TEST(UniqueIdGeneratorTest, ElementsDoNotRepeat) {
   typedef TypeParam Generator;
   const size_t num_elements = 255;
   Generator generator;
   std::vector<typename Generator::value_type> values;
   for (size_t i = 0; i < num_elements; i++) {
     values.push_back(generator());
   }

   EXPECT_EQ(num_elements, values.size());
   // Use a set to check uniqueness.
   std::set<typename Generator::value_type> set(values.begin(), values.end());
   EXPECT_EQ(values.size(), set.size()) << "Returned values were not unique.";
 }

 TYPED_TEST(UniqueIdGeneratorTest, KnownElementsAreNotGenerated) {
   typedef TypeParam Generator;
   const size_t num_elements = 100;
   rtc::InitRandom(0);
   Generator generator1;
   std::vector<typename Generator::value_type> known_values;
   for (size_t i = 0; i < num_elements; i++) {
     known_values.push_back(generator1());
   }
   EXPECT_EQ(num_elements, known_values.size());

   rtc::InitRandom(0);
   Generator generator2(known_values);

   std::vector<typename Generator::value_type> values;
   for (size_t i = 0; i < num_elements; i++) {
     values.push_back(generator2());
   }
   EXPECT_THAT(values, ::testing::SizeIs(num_elements));
   absl::c_sort(values);
   absl::c_sort(known_values);
   std::vector<typename Generator::value_type> intersection;
   absl::c_set_intersection(values, known_values,
                            std::back_inserter(intersection));
   EXPECT_THAT(intersection, IsEmpty());
 }

 TYPED_TEST(UniqueIdGeneratorTest, AddedElementsAreNotGenerated) {
   typedef TypeParam Generator;
   const size_t num_elements = 100;
   rtc::InitRandom(0);
   Generator generator1;
   std::vector<typename Generator::value_type> known_values;
   for (size_t i = 0; i < num_elements; i++) {
     known_values.push_back(generator1());
   }
   EXPECT_EQ(num_elements, known_values.size());

   rtc::InitRandom(0);
   Generator generator2;

   for (const typename Generator::value_type& value : known_values) {
     generator2.AddKnownId(value);
   }

   std::vector<typename Generator::value_type> values;
   for (size_t i = 0; i < num_elements; i++) {
     values.push_back(generator2());
   }
   EXPECT_THAT(values, ::testing::SizeIs(num_elements));
   absl::c_sort(values);
   absl::c_sort(known_values);
   std::vector<typename Generator::value_type> intersection;
   absl::c_set_intersection(values, known_values,
                            std::back_inserter(intersection));
   EXPECT_THAT(intersection, IsEmpty());
 }

 TYPED_TEST(UniqueIdGeneratorTest, AddKnownIdOnNewIdReturnsTrue) {
   typedef TypeParam Generator;

   rtc::InitRandom(0);
   Generator generator1;
   const typename Generator::value_type id = generator1();

   rtc::InitRandom(0);
   Generator generator2;
   EXPECT_TRUE(generator2.AddKnownId(id));
 }

 TYPED_TEST(UniqueIdGeneratorTest, AddKnownIdCalledAgainForSameIdReturnsFalse) {
   typedef TypeParam Generator;

   rtc::InitRandom(0);
   Generator generator1;
   const typename Generator::value_type id = generator1();

   rtc::InitRandom(0);
   Generator generator2;
   ASSERT_TRUE(generator2.AddKnownId(id));
   EXPECT_FALSE(generator2.AddKnownId(id));
 }

 TYPED_TEST(UniqueIdGeneratorTest,
            AddKnownIdOnIdProvidedAsKnownToCtorReturnsFalse) {
   typedef TypeParam Generator;

   rtc::InitRandom(0);
   Generator generator1;
   const typename Generator::value_type id = generator1();
   std::vector<typename Generator::value_type> known_values = {id};

   rtc::InitRandom(0);
   Generator generator2(known_values);
   EXPECT_FALSE(generator2.AddKnownId(id));
 }

 // Tests that it's OK to construct the generator in one execution environment
 // (thread/task queue) but use it in another.
 TEST(UniqueNumberGenerator, UsedOnSecondaryThread) {
   const auto* current_tq = webrtc::TaskQueueBase::Current();
   // Construct the generator before `fake_task_queue` to ensure that it is
   // constructed in a different execution environment than what
   // `fake_task_queue` will represent.
   UniqueNumberGenerator<uint32_t> generator;

   FakeTaskQueue fake_task_queue;
   // Sanity check to make sure we're in a different runtime environment.
   ASSERT_NE(current_tq, webrtc::TaskQueueBase::Current());

   // Generating an id should be fine in this context.
   generator.GenerateNumber();
 }

 #if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)
 TEST(UniqueNumberGeneratorDeathTest, FailsWhenUsedInWrongContext) {
   // Instantiate the generator before the `loop`. This ensures that
   // thread/sequence checkers will pick up a different thread environment than
   // `fake_task_queue` will represent.
   UniqueNumberGenerator<uint32_t> generator;
   // Generate an ID on the current thread. This causes the generator to attach
   // to the current thread context.
   generator.GenerateNumber();

   // Instantiate a fake task queue that will register itself as the current tq.
   FakeTaskQueue fake_task_queue;

   // Attempting to generate an id should now trigger a dcheck.
   EXPECT_DEATH(generator.GenerateNumber(), "");
 }
 #endif

 }  // namespace rtc
	/*
	* Copyright 2018 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 "rtc_base/unique_id_generator.h"

	#include <string>
	#include <vector>

	#include "absl/algorithm/container.h"
	#include "api/array_view.h"
	#include "api/task_queue/task_queue_base.h"
	#include "rtc_base/gunit.h"
	#include "rtc_base/helpers.h"
	#include "test/gmock.h"

	using ::testing::IsEmpty;
	using ::testing::Test;

	namespace rtc {
	namespace {
	// Utility class that registers itself as the currently active task queue.
	class FakeTaskQueue : public webrtc::TaskQueueBase {
	public:
	FakeTaskQueue() : task_queue_setter_(this) {}

	void Delete() override {}
	void PostTask(std::unique_ptr<webrtc::QueuedTask> task) override {}
	void PostDelayedTask(std::unique_ptr<webrtc::QueuedTask> task,
	uint32_t milliseconds) override {}

	private:
	CurrentTaskQueueSetter task_queue_setter_;
	};
	} // namespace

	template <typename Generator>
	class UniqueIdGeneratorTest : public Test {};

	using test_types = ::testing::Types<UniqueNumberGenerator<uint8_t>,
	UniqueNumberGenerator<uint16_t>,
	UniqueNumberGenerator<uint32_t>,
	UniqueNumberGenerator<int>,
	UniqueRandomIdGenerator,
	UniqueStringGenerator>;

	TYPED_TEST_SUITE(UniqueIdGeneratorTest, test_types);

	TYPED_TEST(UniqueIdGeneratorTest, ElementsDoNotRepeat) {
	typedef TypeParam Generator;
	const size_t num_elements = 255;
	Generator generator;
	std::vector<typename Generator::value_type> values;
	for (size_t i = 0; i < num_elements; i++) {
	values.push_back(generator());
	}

	EXPECT_EQ(num_elements, values.size());
	// Use a set to check uniqueness.
	std::set<typename Generator::value_type> set(values.begin(), values.end());
	EXPECT_EQ(values.size(), set.size()) << "Returned values were not unique.";
	}

	TYPED_TEST(UniqueIdGeneratorTest, KnownElementsAreNotGenerated) {
	typedef TypeParam Generator;
	const size_t num_elements = 100;
	rtc::InitRandom(0);
	Generator generator1;
	std::vector<typename Generator::value_type> known_values;
	for (size_t i = 0; i < num_elements; i++) {
	known_values.push_back(generator1());
	}
	EXPECT_EQ(num_elements, known_values.size());

	rtc::InitRandom(0);
	Generator generator2(known_values);

	std::vector<typename Generator::value_type> values;
	for (size_t i = 0; i < num_elements; i++) {
	values.push_back(generator2());
	}
	EXPECT_THAT(values, ::testing::SizeIs(num_elements));
	absl::c_sort(values);
	absl::c_sort(known_values);
	std::vector<typename Generator::value_type> intersection;
	absl::c_set_intersection(values, known_values,
	std::back_inserter(intersection));
	EXPECT_THAT(intersection, IsEmpty());
	}

	TYPED_TEST(UniqueIdGeneratorTest, AddedElementsAreNotGenerated) {
	typedef TypeParam Generator;
	const size_t num_elements = 100;
	rtc::InitRandom(0);
	Generator generator1;
	std::vector<typename Generator::value_type> known_values;
	for (size_t i = 0; i < num_elements; i++) {
	known_values.push_back(generator1());
	}
	EXPECT_EQ(num_elements, known_values.size());

	rtc::InitRandom(0);
	Generator generator2;

	for (const typename Generator::value_type& value : known_values) {
	generator2.AddKnownId(value);
	}

	std::vector<typename Generator::value_type> values;
	for (size_t i = 0; i < num_elements; i++) {
	values.push_back(generator2());
	}
	EXPECT_THAT(values, ::testing::SizeIs(num_elements));
	absl::c_sort(values);
	absl::c_sort(known_values);
	std::vector<typename Generator::value_type> intersection;
	absl::c_set_intersection(values, known_values,
	std::back_inserter(intersection));
	EXPECT_THAT(intersection, IsEmpty());
	}

	TYPED_TEST(UniqueIdGeneratorTest, AddKnownIdOnNewIdReturnsTrue) {
	typedef TypeParam Generator;

	rtc::InitRandom(0);
	Generator generator1;
	const typename Generator::value_type id = generator1();

	rtc::InitRandom(0);
	Generator generator2;
	EXPECT_TRUE(generator2.AddKnownId(id));
	}

	TYPED_TEST(UniqueIdGeneratorTest, AddKnownIdCalledAgainForSameIdReturnsFalse) {
	typedef TypeParam Generator;

	rtc::InitRandom(0);
	Generator generator1;
	const typename Generator::value_type id = generator1();

	rtc::InitRandom(0);
	Generator generator2;
	ASSERT_TRUE(generator2.AddKnownId(id));
	EXPECT_FALSE(generator2.AddKnownId(id));
	}

	TYPED_TEST(UniqueIdGeneratorTest,
	AddKnownIdOnIdProvidedAsKnownToCtorReturnsFalse) {
	typedef TypeParam Generator;

	rtc::InitRandom(0);
	Generator generator1;
	const typename Generator::value_type id = generator1();
	std::vector<typename Generator::value_type> known_values = {id};

	rtc::InitRandom(0);
	Generator generator2(known_values);
	EXPECT_FALSE(generator2.AddKnownId(id));
	}

	// Tests that it's OK to construct the generator in one execution environment
	// (thread/task queue) but use it in another.
	TEST(UniqueNumberGenerator, UsedOnSecondaryThread) {
	const auto* current_tq = webrtc::TaskQueueBase::Current();
	// Construct the generator before `fake_task_queue` to ensure that it is
	// constructed in a different execution environment than what
	// `fake_task_queue` will represent.
	UniqueNumberGenerator<uint32_t> generator;

	FakeTaskQueue fake_task_queue;
	// Sanity check to make sure we're in a different runtime environment.
	ASSERT_NE(current_tq, webrtc::TaskQueueBase::Current());

	// Generating an id should be fine in this context.
	generator.GenerateNumber();
	}

	#if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)
	TEST(UniqueNumberGeneratorDeathTest, FailsWhenUsedInWrongContext) {
	// Instantiate the generator before the `loop`. This ensures that
	// thread/sequence checkers will pick up a different thread environment than
	// `fake_task_queue` will represent.
	UniqueNumberGenerator<uint32_t> generator;
	// Generate an ID on the current thread. This causes the generator to attach
	// to the current thread context.
	generator.GenerateNumber();

	// Instantiate a fake task queue that will register itself as the current tq.
	FakeTaskQueue fake_task_queue;

	// Attempting to generate an id should now trigger a dcheck.
	EXPECT_DEATH(generator.GenerateNumber(), "");
	}
	#endif

	} // namespace rtc