// Copyright 2020 The Pigweed Authors // // Licensed under the Apache License, Version 2.0 (the "License"); you may not // use this file except in compliance with the License. You may obtain a copy of // the License at // // https://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, WITHOUT // WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the // License for the specific language governing permissions and limitations under // the License. #include "pw_kvs/alignment.h" #include #include #include "gtest/gtest.h" #include "pw_status/status_with_size.h" namespace pw::kvs { namespace { using namespace std::string_view_literals; using std::byte; TEST(AlignUp, Zero) { EXPECT_EQ(0u, AlignUp(0, 1)); EXPECT_EQ(0u, AlignUp(0, 2)); EXPECT_EQ(0u, AlignUp(0, 15)); } TEST(AlignUp, Aligned) { for (size_t i = 1; i < 130; ++i) { EXPECT_EQ(i, AlignUp(i, i)); EXPECT_EQ(2 * i, AlignUp(2 * i, i)); EXPECT_EQ(3 * i, AlignUp(3 * i, i)); } } TEST(AlignUp, NonAligned_PowerOf2) { EXPECT_EQ(32u, AlignUp(1, 32)); EXPECT_EQ(32u, AlignUp(31, 32)); EXPECT_EQ(64u, AlignUp(33, 32)); EXPECT_EQ(64u, AlignUp(45, 32)); EXPECT_EQ(64u, AlignUp(63, 32)); EXPECT_EQ(128u, AlignUp(127, 32)); } TEST(AlignUp, NonAligned_NonPowerOf2) { EXPECT_EQ(2u, AlignUp(1, 2)); EXPECT_EQ(15u, AlignUp(1, 15)); EXPECT_EQ(15u, AlignUp(14, 15)); EXPECT_EQ(30u, AlignUp(16, 15)); } TEST(AlignDown, Zero) { EXPECT_EQ(0u, AlignDown(0, 1)); EXPECT_EQ(0u, AlignDown(0, 2)); EXPECT_EQ(0u, AlignDown(0, 15)); } TEST(AlignDown, Aligned) { for (size_t i = 1; i < 130; ++i) { EXPECT_EQ(i, AlignDown(i, i)); EXPECT_EQ(2 * i, AlignDown(2 * i, i)); EXPECT_EQ(3 * i, AlignDown(3 * i, i)); } } TEST(AlignDown, NonAligned_PowerOf2) { EXPECT_EQ(0u, AlignDown(1, 32)); EXPECT_EQ(0u, AlignDown(31, 32)); EXPECT_EQ(32u, AlignDown(33, 32)); EXPECT_EQ(32u, AlignDown(45, 32)); EXPECT_EQ(32u, AlignDown(63, 32)); EXPECT_EQ(96u, AlignDown(127, 32)); } TEST(AlignDown, NonAligned_NonPowerOf2) { EXPECT_EQ(0u, AlignDown(1, 2)); EXPECT_EQ(0u, AlignDown(1, 15)); EXPECT_EQ(0u, AlignDown(14, 15)); EXPECT_EQ(15u, AlignDown(16, 15)); } TEST(Padding, Zero) { EXPECT_EQ(0u, Padding(0, 1)); EXPECT_EQ(0u, Padding(0, 2)); EXPECT_EQ(0u, Padding(0, 15)); } TEST(Padding, Aligned) { for (size_t i = 1; i < 130; ++i) { EXPECT_EQ(0u, Padding(i, i)); EXPECT_EQ(0u, Padding(2 * i, i)); EXPECT_EQ(0u, Padding(3 * i, i)); } } TEST(Padding, NonAligned_PowerOf2) { EXPECT_EQ(31u, Padding(1, 32)); EXPECT_EQ(1u, Padding(31, 32)); EXPECT_EQ(31u, Padding(33, 32)); EXPECT_EQ(19u, Padding(45, 32)); EXPECT_EQ(1u, Padding(63, 32)); EXPECT_EQ(1u, Padding(127, 32)); } TEST(Padding, NonAligned_NonPowerOf2) { EXPECT_EQ(1u, Padding(1, 2)); EXPECT_EQ(14u, Padding(1, 15)); EXPECT_EQ(1u, Padding(14, 15)); EXPECT_EQ(14u, Padding(16, 15)); } constexpr size_t kAlignment = 10; constexpr std::string_view kData = "123456789_123456789_123456789_123456789_123456789_" // 50 "123456789_123456789_123456789_123456789_123456789_"; // 100 const span kBytes = as_bytes(span(kData)); // The output function checks that the data is properly aligned and matches // the expected value (should always be 123456789_...). OutputToFunction check_against_data([](span data) { EXPECT_EQ(data.size() % kAlignment, 0u); EXPECT_EQ(kData.substr(0, data.size()), std::string_view(reinterpret_cast(data.data()), data.size())); return StatusWithSize(data.size()); }); TEST(AlignedWriter, Write_VaryingLengths) { AlignedWriterBuffer<32> writer(kAlignment, check_against_data); // Write values smaller than the alignment. EXPECT_EQ(Status::OK, writer.Write(kBytes.subspan(0, 1)).status()); EXPECT_EQ(Status::OK, writer.Write(kBytes.subspan(1, 9)).status()); // Write values larger than the alignment but smaller than the buffer. EXPECT_EQ(Status::OK, writer.Write(kBytes.subspan(10, 11)).status()); // Exactly fill the remainder of the buffer. EXPECT_EQ(Status::OK, writer.Write(kBytes.subspan(21, 11)).status()); // Fill the buffer more than once. EXPECT_EQ(Status::OK, writer.Write(kBytes.subspan(32, 66)).status()); // Write nothing. EXPECT_EQ(Status::OK, writer.Write(kBytes.subspan(98, 0)).status()); // Write the remaining data. EXPECT_EQ(Status::OK, writer.Write(kBytes.subspan(98, 2)).status()); auto result = writer.Flush(); EXPECT_EQ(Status::OK, result.status()); EXPECT_EQ(kData.size(), result.size()); } TEST(AlignedWriter, DestructorFlushes) { static size_t called_with_bytes; called_with_bytes = 0; OutputToFunction output([](span data) { called_with_bytes += data.size(); return StatusWithSize(data.size()); }); { AlignedWriterBuffer<64> writer(3, output); writer.Write(as_bytes(span("What is this?"))); EXPECT_EQ(called_with_bytes, 0u); // Buffer not full; no output yet. } EXPECT_EQ(called_with_bytes, AlignUp(sizeof("What is this?"), 3)); } // Output class that can be programmed to fail for testing purposes. // TODO(hepler): If we create a general pw_io / pw_stream module, this and // InputWithErrorInjection should be made into generic test utility classes, // similar to InMemoryFakeFlash. struct OutputWithErrorInjection final : public Output { public: enum { kKeepGoing, kBreakOnNext, kBroken } state = kKeepGoing; private: StatusWithSize DoWrite(span data) override { switch (state) { case kKeepGoing: return StatusWithSize(data.size()); case kBreakOnNext: state = kBroken; break; case kBroken: ADD_FAILURE(); break; } return StatusWithSize(Status::UNKNOWN, data.size()); } }; TEST(AlignedWriter, Write_NoFurtherWritesOnFailure) { OutputWithErrorInjection output; { AlignedWriterBuffer<4> writer(3, output); writer.Write(as_bytes(span("Everything is fine."))); output.state = OutputWithErrorInjection::kBreakOnNext; EXPECT_EQ(Status::UNKNOWN, writer.Write(as_bytes(span("No more writes, okay?"))).status()); writer.Flush(); } } TEST(AlignedWriter, Write_ReturnsTotalBytesWritten) { static Status return_status; return_status = Status::OK; OutputToFunction output([](span data) { return StatusWithSize(return_status, data.size()); }); AlignedWriterBuffer<22> writer(10, output); StatusWithSize result = writer.Write(as_bytes(span("12345678901"sv))); EXPECT_EQ(Status::OK, result.status()); EXPECT_EQ(0u, result.size()); // No writes; haven't filled buffer. result = writer.Write(as_bytes(span("2345678901"sv))); EXPECT_EQ(Status::OK, result.status()); EXPECT_EQ(20u, result.size()); return_status = Status::PERMISSION_DENIED; result = writer.Write(as_bytes(span("2345678901234567890"sv))); EXPECT_EQ(Status::PERMISSION_DENIED, result.status()); EXPECT_EQ(40u, result.size()); } TEST(AlignedWriter, Flush_Ok_ReturnsTotalBytesWritten) { OutputToFunction output( [](span data) { return StatusWithSize(data.size()); }); AlignedWriterBuffer<4> writer(2, output); EXPECT_EQ(Status::OK, writer.Write(as_bytes(span("12345678901"sv))).status()); StatusWithSize result = writer.Flush(); EXPECT_EQ(Status::OK, result.status()); EXPECT_EQ(12u, result.size()); } TEST(AlignedWriter, Flush_Error_ReturnsTotalBytesWritten) { OutputToFunction output([](span data) { return StatusWithSize(Status::ABORTED, data.size()); }); AlignedWriterBuffer<20> writer(10, output); EXPECT_EQ(0u, writer.Write(as_bytes(span("12345678901"sv))).size()); StatusWithSize result = writer.Flush(); EXPECT_EQ(Status::ABORTED, result.status()); EXPECT_EQ(20u, result.size()); } // Input class that can be programmed to fail for testing purposes. class InputWithErrorInjection final : public Input { public: void BreakOnIndex(size_t index) { break_on_index_ = index; } private: StatusWithSize DoRead(span data) override { EXPECT_LE(index_ + data.size(), kBytes.size()); if (index_ + data.size() > kBytes.size()) { return StatusWithSize::INTERNAL; } // Check if reading from the index that was programmed to cause an error. if (index_ <= break_on_index_ && break_on_index_ <= index_ + data.size()) { return StatusWithSize::ABORTED; } std::memcpy(data.data(), kBytes.data(), data.size()); index_ += data.size(); return StatusWithSize(data.size()); } size_t index_ = 0; size_t break_on_index_ = size_t(-1); }; TEST(AlignedWriter, WriteFromInput_Successful) { AlignedWriterBuffer<32> writer(kAlignment, check_against_data); InputWithErrorInjection input; StatusWithSize result = writer.Write(input, kData.size()); EXPECT_EQ(Status::OK, result.status()); EXPECT_LE(result.size(), kData.size()); // May not have written it all yet. result = writer.Flush(); EXPECT_EQ(Status::OK, result.status()); EXPECT_EQ(kData.size(), result.size()); } TEST(AlignedWriter, WriteFromInput_InputError) { AlignedWriterBuffer writer(kAlignment, check_against_data); InputWithErrorInjection input; input.BreakOnIndex(kAlignment + 2); StatusWithSize result = writer.Write(input, kData.size()); EXPECT_EQ(Status::ABORTED, result.status()); EXPECT_LE(result.size(), kAlignment); // Wrote the first chunk, nothing more. } TEST(AlignedWriter, WriteFromInput_OutputError) { InputWithErrorInjection input; OutputWithErrorInjection output; AlignedWriterBuffer<4> writer(3, output); output.state = OutputWithErrorInjection::kBreakOnNext; StatusWithSize result = writer.Write(input, kData.size()); EXPECT_EQ(Status::UNKNOWN, result.status()); EXPECT_EQ(3u, result.size()); // Attempted to write 3 bytes. } } // namespace } // namespace pw::kvs