#include #include #include #include #include using namespace llarp::object; TEST(Object, VerifySize) { static_assert(sizeof(Buffer< char >) == sizeof(char), ""); static_assert(sizeof(Buffer< int >) == sizeof(int), ""); static_assert(sizeof(Buffer< double >) == sizeof(double), ""); static_assert(sizeof(Buffer< std::string >) == sizeof(std::string), ""); } TEST(Object, Inplace) { // Verify we can create and destroy a type with a non-trivial destructor Buffer< std::vector< std::string > > strBuf; new(strBuf.buffer()) std::vector< std::string >(100, "abc"); strBuf.value().~vector(); } TEST(Catalog, smoke) { const double value1 = 1.0; const double value2 = 2.0; int handle1 = -1; int handle2 = -1; Catalog< double > catalog; handle1 = catalog.add(value1); catalog.remove(handle1); for(size_t j = 0; j < 5; ++j) { for(size_t i = 1; i < 256; ++i) { ASSERT_FALSE(catalog.find(handle1)); handle2 = catalog.add(value2); catalog.remove(handle2); } handle2 = catalog.add(value2); ASSERT_EQ(handle1, handle2); ASSERT_TRUE(catalog.find(handle1)); absl::optional< double > result = catalog.find(handle1); ASSERT_TRUE(result); ASSERT_EQ(value2, result); catalog.remove(handle2); } } TEST(Catalog, Iterator) { static constexpr size_t THREAD_COUNT = 10; static constexpr size_t ITERATION_COUNT = 1000; std::array< std::thread, THREAD_COUNT + 3 > threads; using llarp::util::Barrier; using Iterator = CatalogIterator< int >; using Cat = Catalog< int >; Barrier barrier(THREAD_COUNT + 3); Cat catalog; // Repeatedly remove + add values from the catalog for(size_t i = 0; i < THREAD_COUNT; ++i) { threads[i] = std::thread( [](Barrier *barrier, Cat *catalog, int id) { barrier->Block(); for(size_t i = 0; i < ITERATION_COUNT; ++i) { int h = catalog->add(id); absl::optional< int > res = catalog->find(h); ASSERT_TRUE(res); ASSERT_EQ(res.value(), id); ASSERT_TRUE(catalog->replace(-id - 1, h)); res = catalog->find(h); ASSERT_TRUE(res); ASSERT_EQ(-id - 1, res.value()); int removed = -1; ASSERT_TRUE(catalog->remove(h, &removed)); ASSERT_EQ(removed, -id - 1); ASSERT_FALSE(catalog->find(h)); } }, &barrier, &catalog, i); } // Verify the length constraint is never violated threads[THREAD_COUNT] = std::thread( [](Barrier *barrier, Cat *catalog) { barrier->Block(); for(size_t i = 0; i < ITERATION_COUNT; ++i) { size_t size = catalog->size(); ASSERT_LE(size, THREAD_COUNT); } }, &barrier, &catalog); // Verify that iteration always produces a valid state threads[THREAD_COUNT + 1] = std::thread( [](Barrier *barrier, Cat *catalog) { barrier->Block(); for(size_t i = 0; i < ITERATION_COUNT; ++i) { int arr[100]; size_t size = 0; for(Iterator it(*catalog); it; ++it) { arr[size++] = it().second; } for(int i = 0; i < 100; i++) { // value must be valid bool present = false; for(int id = 0; id < static_cast< int >(THREAD_COUNT); id++) { if(id == arr[i] || -id - 1 == arr[i]) { present = true; break; } } ASSERT_TRUE(present); // no duplicate should be there for(size_t j = i + 1; j < size; j++) { ASSERT_NE(arr[i], arr[j]); } } } }, &barrier, &catalog); // And that we don't have an invalid catalog threads[THREAD_COUNT + 2] = std::thread( [](Barrier *barrier, Cat *catalog) { barrier->Block(); for(size_t i = 0; i < ITERATION_COUNT; ++i) { catalog->verify(); } }, &barrier, &catalog); for(std::thread &t : threads) { t.join(); } }