#include "ping_array.h" #include #include #include "mono_time.h" namespace { struct Ping_Array_Deleter { void operator()(Ping_Array *arr) { ping_array_kill(arr); } }; using Ping_Array_Ptr = std::unique_ptr; struct Mono_Time_Deleter { void operator()(Mono_Time *arr) { mono_time_free(arr); } }; using Mono_Time_Ptr = std::unique_ptr; TEST(PingArray, MinimumTimeoutIsOne) { EXPECT_EQ(ping_array_new(1, 0), nullptr); EXPECT_NE(Ping_Array_Ptr(ping_array_new(1, 1)), nullptr); } TEST(PingArray, MinimumArraySizeIsOne) { EXPECT_EQ(ping_array_new(0, 1), nullptr); EXPECT_NE(Ping_Array_Ptr(ping_array_new(1, 1)), nullptr); } TEST(PingArray, ArraySizeMustBePowerOfTwo) { Ping_Array_Ptr arr; arr.reset(ping_array_new(2, 1)); EXPECT_NE(arr, nullptr); arr.reset(ping_array_new(4, 1)); EXPECT_NE(arr, nullptr); arr.reset(ping_array_new(1024, 1)); EXPECT_NE(arr, nullptr); EXPECT_EQ(ping_array_new(1023, 1), nullptr); EXPECT_EQ(ping_array_new(1234, 1), nullptr); } TEST(PingArray, StoredDataCanBeRetrieved) { Ping_Array_Ptr const arr(ping_array_new(2, 1)); Mono_Time_Ptr const mono_time(mono_time_new()); uint64_t const ping_id = ping_array_add(arr.get(), mono_time.get(), std::vector{1, 2, 3, 4}.data(), 4); EXPECT_NE(ping_id, 0); std::vector data(4); EXPECT_EQ(ping_array_check(arr.get(), mono_time.get(), data.data(), data.size(), ping_id), 4); EXPECT_EQ(data, std::vector({1, 2, 3, 4})); } TEST(PingArray, RetrievingDataWithTooSmallOutputBufferHasNoEffect) { Ping_Array_Ptr const arr(ping_array_new(2, 1)); Mono_Time_Ptr const mono_time(mono_time_new()); uint64_t const ping_id = ping_array_add(arr.get(), mono_time.get(), (std::vector{1, 2, 3, 4}).data(), 4); EXPECT_NE(ping_id, 0); std::vector data(4); EXPECT_EQ(ping_array_check(arr.get(), mono_time.get(), data.data(), 3, ping_id), -1); // It doesn't write anything to the data array. EXPECT_EQ(data, std::vector({0, 0, 0, 0})); // Afterwards, we can still read it. EXPECT_EQ(ping_array_check(arr.get(), mono_time.get(), data.data(), 4, ping_id), 4); EXPECT_EQ(data, std::vector({1, 2, 3, 4})); } TEST(PingArray, ZeroLengthDataCanBeAdded) { Ping_Array_Ptr const arr(ping_array_new(2, 1)); Mono_Time_Ptr const mono_time(mono_time_new()); uint64_t const ping_id = ping_array_add(arr.get(), mono_time.get(), nullptr, 0); EXPECT_NE(ping_id, 0); EXPECT_EQ(ping_array_check(arr.get(), mono_time.get(), nullptr, 0, ping_id), 0); } TEST(PingArray, PingId0IsInvalid) { Ping_Array_Ptr const arr(ping_array_new(2, 1)); Mono_Time_Ptr const mono_time(mono_time_new()); EXPECT_EQ(ping_array_check(arr.get(), mono_time.get(), nullptr, 0, 0), -1); } // Protection against replay attacks. TEST(PingArray, DataCanOnlyBeRetrievedOnce) { Ping_Array_Ptr const arr(ping_array_new(2, 1)); Mono_Time_Ptr const mono_time(mono_time_new()); uint64_t const ping_id = ping_array_add(arr.get(), mono_time.get(), nullptr, 0); EXPECT_NE(ping_id, 0); EXPECT_EQ(ping_array_check(arr.get(), mono_time.get(), nullptr, 0, ping_id), 0); EXPECT_EQ(ping_array_check(arr.get(), mono_time.get(), nullptr, 0, ping_id), -1); } TEST(PingArray, PingIdMustMatchOnCheck) { Ping_Array_Ptr const arr(ping_array_new(1, 1)); Mono_Time_Ptr const mono_time(mono_time_new()); uint64_t const ping_id = ping_array_add(arr.get(), mono_time.get(), nullptr, 0); EXPECT_NE(ping_id, 0); uint64_t const bad_ping_id = ping_id == 1 ? 2 : 1; // bad_ping_id will also be pointing at the same element, but won't match the // actual ping_id. EXPECT_EQ(ping_array_check(arr.get(), mono_time.get(), nullptr, 0, bad_ping_id), -1); EXPECT_EQ(ping_array_check(arr.get(), mono_time.get(), nullptr, 0, ping_id), 0); } } // namespace