// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "components/metrics/serialization/serialization_utils.h" #include "base/files/file_util.h" #include "base/files/scoped_temp_dir.h" #include "base/logging.h" #include "base/strings/stringprintf.h" #include "components/metrics/serialization/metric_sample.h" #include "testing/gtest/include/gtest/gtest.h" namespace metrics { namespace { class SerializationUtilsTest : public testing::Test { protected: SerializationUtilsTest() { bool success = temporary_dir.CreateUniqueTempDir(); if (success) { base::FilePath dir_path = temporary_dir.path(); filename = dir_path.value() + "chromeossampletest"; filepath = base::FilePath(filename); } } void SetUp() override { base::DeleteFile(filepath, false); } void TestSerialization(MetricSample* sample) { std::string serialized(sample->ToString()); ASSERT_EQ('\0', serialized[serialized.length() - 1]); scoped_ptr deserialized = SerializationUtils::ParseSample(serialized); ASSERT_TRUE(deserialized); EXPECT_TRUE(sample->IsEqual(*deserialized.get())); } std::string filename; base::ScopedTempDir temporary_dir; base::FilePath filepath; }; TEST_F(SerializationUtilsTest, CrashSerializeTest) { TestSerialization(MetricSample::CrashSample("test").get()); } TEST_F(SerializationUtilsTest, HistogramSerializeTest) { TestSerialization( MetricSample::HistogramSample("myhist", 13, 1, 100, 10).get()); } TEST_F(SerializationUtilsTest, LinearSerializeTest) { TestSerialization( MetricSample::LinearHistogramSample("linearhist", 12, 30).get()); } TEST_F(SerializationUtilsTest, SparseSerializeTest) { TestSerialization(MetricSample::SparseHistogramSample("mysparse", 30).get()); } TEST_F(SerializationUtilsTest, UserActionSerializeTest) { TestSerialization(MetricSample::UserActionSample("myaction").get()); } TEST_F(SerializationUtilsTest, IllegalNameAreFilteredTest) { scoped_ptr sample1 = MetricSample::SparseHistogramSample("no space", 10); scoped_ptr sample2 = MetricSample::LinearHistogramSample( base::StringPrintf("here%cbhe", '\0'), 1, 3); EXPECT_FALSE(SerializationUtils::WriteMetricToFile(*sample1.get(), filename)); EXPECT_FALSE(SerializationUtils::WriteMetricToFile(*sample2.get(), filename)); int64 size = 0; ASSERT_TRUE(!PathExists(filepath) || base::GetFileSize(filepath, &size)); EXPECT_EQ(0, size); } TEST_F(SerializationUtilsTest, BadInputIsCaughtTest) { std::string input( base::StringPrintf("sparsehistogram%cname foo%c", '\0', '\0')); EXPECT_EQ(NULL, MetricSample::ParseSparseHistogram(input).get()); } TEST_F(SerializationUtilsTest, MessageSeparatedByZero) { scoped_ptr crash = MetricSample::CrashSample("mycrash"); SerializationUtils::WriteMetricToFile(*crash.get(), filename); int64 size = 0; ASSERT_TRUE(base::GetFileSize(filepath, &size)); // 4 bytes for the size // 5 bytes for crash // 7 bytes for mycrash // 2 bytes for the \0 // -> total of 18 EXPECT_EQ(size, 18); } TEST_F(SerializationUtilsTest, MessagesTooLongAreDiscardedTest) { // Creates a message that is bigger than the maximum allowed size. // As we are adding extra character (crash, \0s, etc), if the name is // kMessageMaxLength long, it will be too long. std::string name(SerializationUtils::kMessageMaxLength, 'c'); scoped_ptr crash = MetricSample::CrashSample(name); EXPECT_FALSE(SerializationUtils::WriteMetricToFile(*crash.get(), filename)); int64 size = 0; ASSERT_TRUE(base::GetFileSize(filepath, &size)); EXPECT_EQ(0, size); } TEST_F(SerializationUtilsTest, ReadLongMessageTest) { base::File test_file(filepath, base::File::FLAG_OPEN_ALWAYS | base::File::FLAG_APPEND); std::string message(SerializationUtils::kMessageMaxLength + 1, 'c'); int32 message_size = message.length() + sizeof(int32); test_file.WriteAtCurrentPos(reinterpret_cast(&message_size), sizeof(message_size)); test_file.WriteAtCurrentPos(message.c_str(), message.length()); test_file.Close(); scoped_ptr crash = MetricSample::CrashSample("test"); SerializationUtils::WriteMetricToFile(*crash.get(), filename); ScopedVector samples; SerializationUtils::ReadAndTruncateMetricsFromFile(filename, &samples); ASSERT_EQ(size_t(1), samples.size()); ASSERT_TRUE(samples[0] != NULL); EXPECT_TRUE(crash->IsEqual(*samples[0])); } TEST_F(SerializationUtilsTest, WriteReadTest) { scoped_ptr hist = MetricSample::HistogramSample("myhist", 1, 2, 3, 4); scoped_ptr crash = MetricSample::CrashSample("mycrash"); scoped_ptr lhist = MetricSample::LinearHistogramSample("linear", 1, 10); scoped_ptr shist = MetricSample::SparseHistogramSample("mysparse", 30); scoped_ptr action = MetricSample::UserActionSample("myaction"); SerializationUtils::WriteMetricToFile(*hist.get(), filename); SerializationUtils::WriteMetricToFile(*crash.get(), filename); SerializationUtils::WriteMetricToFile(*lhist.get(), filename); SerializationUtils::WriteMetricToFile(*shist.get(), filename); SerializationUtils::WriteMetricToFile(*action.get(), filename); ScopedVector vect; SerializationUtils::ReadAndTruncateMetricsFromFile(filename, &vect); ASSERT_EQ(vect.size(), size_t(5)); for (int i = 0; i < 5; i++) { ASSERT_TRUE(vect[0] != NULL); } EXPECT_TRUE(hist->IsEqual(*vect[0])); EXPECT_TRUE(crash->IsEqual(*vect[1])); EXPECT_TRUE(lhist->IsEqual(*vect[2])); EXPECT_TRUE(shist->IsEqual(*vect[3])); EXPECT_TRUE(action->IsEqual(*vect[4])); int64 size = 0; ASSERT_TRUE(base::GetFileSize(filepath, &size)); ASSERT_EQ(0, size); } } // namespace } // namespace metrics