// Copyright (C) 2019 The Android Open Source Project // // 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 // // http://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 "src/storage/StorageManager.h" #include #include #include #include #include "android-base/stringprintf.h" #include "stats_log_util.h" #include "tests/statsd_test_util.h" #include "utils/DbUtils.h" #ifdef __ANDROID__ namespace android { namespace os { namespace statsd { using namespace testing; using std::make_shared; using std::shared_ptr; using std::vector; using testing::Contains; TEST(StorageManagerTest, TrainInfoReadWriteTest) { InstallTrainInfo trainInfo; trainInfo.trainVersionCode = 12345; trainInfo.trainName = "This is a train name #)$(&&$"; trainInfo.status = 1; const char* expIds = "test_ids"; trainInfo.experimentIds.assign(expIds, expIds + strlen(expIds)); bool result; result = StorageManager::writeTrainInfo(trainInfo); EXPECT_TRUE(result); InstallTrainInfo trainInfoResult; result = StorageManager::readTrainInfo(trainInfo.trainName, trainInfoResult); EXPECT_TRUE(result); EXPECT_EQ(trainInfo.trainVersionCode, trainInfoResult.trainVersionCode); ASSERT_EQ(trainInfo.trainName.size(), trainInfoResult.trainName.size()); EXPECT_EQ(trainInfo.trainName, trainInfoResult.trainName); EXPECT_EQ(trainInfo.status, trainInfoResult.status); ASSERT_EQ(trainInfo.experimentIds.size(), trainInfoResult.experimentIds.size()); EXPECT_EQ(trainInfo.experimentIds, trainInfoResult.experimentIds); } TEST(StorageManagerTest, TrainInfoReadWriteTrainNameSizeOneTest) { InstallTrainInfo trainInfo; trainInfo.trainVersionCode = 12345; trainInfo.trainName = "{"; trainInfo.status = 1; const char* expIds = "test_ids"; trainInfo.experimentIds.assign(expIds, expIds + strlen(expIds)); bool result; result = StorageManager::writeTrainInfo(trainInfo); EXPECT_TRUE(result); InstallTrainInfo trainInfoResult; result = StorageManager::readTrainInfo(trainInfo.trainName, trainInfoResult); EXPECT_TRUE(result); EXPECT_EQ(trainInfo.trainVersionCode, trainInfoResult.trainVersionCode); ASSERT_EQ(trainInfo.trainName.size(), trainInfoResult.trainName.size()); EXPECT_EQ(trainInfo.trainName, trainInfoResult.trainName); EXPECT_EQ(trainInfo.status, trainInfoResult.status); ASSERT_EQ(trainInfo.experimentIds.size(), trainInfoResult.experimentIds.size()); EXPECT_EQ(trainInfo.experimentIds, trainInfoResult.experimentIds); } TEST(StorageManagerTest, SortFileTest) { vector list; // assume now sec is 500 list.emplace_back("200_5000_123454", false, 20, 300); list.emplace_back("300_2000_123454_history", true, 30, 200); list.emplace_back("400_100009_123454_history", true, 40, 100); list.emplace_back("100_2000_123454", false, 50, 400); StorageManager::sortFiles(&list); EXPECT_EQ("200_5000_123454", list[0].mFileName); EXPECT_EQ("100_2000_123454", list[1].mFileName); EXPECT_EQ("400_100009_123454_history", list[2].mFileName); EXPECT_EQ("300_2000_123454_history", list[3].mFileName); } const string testDir = "/data/misc/stats-data/"; const string file1 = testDir + "2557169347_1066_1"; const string file2 = testDir + "2557169349_1066_1"; const string file1_history = file1 + "_history"; const string file2_history = file2 + "_history"; bool prepareLocalHistoryTestFiles() { android::base::unique_fd fd(TEMP_FAILURE_RETRY( open(file1.c_str(), O_WRONLY | O_CREAT | O_CLOEXEC, S_IRUSR | S_IWUSR))); if (fd != -1) { dprintf(fd, "content"); } else { return false; } android::base::unique_fd fd2(TEMP_FAILURE_RETRY( open(file2.c_str(), O_WRONLY | O_CREAT | O_CLOEXEC, S_IRUSR | S_IWUSR))); if (fd2 != -1) { dprintf(fd2, "content"); } else { return false; } return true; } void clearLocalHistoryTestFiles() { TEMP_FAILURE_RETRY(remove(file1.c_str())); TEMP_FAILURE_RETRY(remove(file2.c_str())); TEMP_FAILURE_RETRY(remove(file1_history.c_str())); TEMP_FAILURE_RETRY(remove(file2_history.c_str())); } bool fileExist(string name) { android::base::unique_fd fd(TEMP_FAILURE_RETRY(open(name.c_str(), O_RDONLY | O_CLOEXEC))); return fd != -1; } /* The following AppendConfigReportTests test the 4 combinations of [whether erase data] [whether * the caller is adb] */ TEST(StorageManagerTest, AppendConfigReportTest1) { EXPECT_TRUE(prepareLocalHistoryTestFiles()); ProtoOutputStream out; StorageManager::appendConfigMetricsReport(ConfigKey(1066, 1), &out, false /*erase?*/, false /*isAdb?*/); EXPECT_FALSE(fileExist(file1)); EXPECT_FALSE(fileExist(file2)); EXPECT_TRUE(fileExist(file1_history)); EXPECT_TRUE(fileExist(file2_history)); clearLocalHistoryTestFiles(); } TEST(StorageManagerTest, AppendConfigReportTest2) { EXPECT_TRUE(prepareLocalHistoryTestFiles()); ProtoOutputStream out; StorageManager::appendConfigMetricsReport(ConfigKey(1066, 1), &out, true /*erase?*/, false /*isAdb?*/); EXPECT_FALSE(fileExist(file1)); EXPECT_FALSE(fileExist(file2)); EXPECT_FALSE(fileExist(file1_history)); EXPECT_FALSE(fileExist(file2_history)); clearLocalHistoryTestFiles(); } TEST(StorageManagerTest, AppendConfigReportTest3) { EXPECT_TRUE(prepareLocalHistoryTestFiles()); ProtoOutputStream out; StorageManager::appendConfigMetricsReport(ConfigKey(1066, 1), &out, false /*erase?*/, true /*isAdb?*/); EXPECT_TRUE(fileExist(file1)); EXPECT_TRUE(fileExist(file2)); EXPECT_FALSE(fileExist(file1_history)); EXPECT_FALSE(fileExist(file2_history)); clearLocalHistoryTestFiles(); } TEST(StorageManagerTest, AppendConfigReportTest4) { EXPECT_TRUE(prepareLocalHistoryTestFiles()); ProtoOutputStream out; StorageManager::appendConfigMetricsReport(ConfigKey(1066, 1), &out, true /*erase?*/, true /*isAdb?*/); EXPECT_FALSE(fileExist(file1)); EXPECT_FALSE(fileExist(file2)); EXPECT_FALSE(fileExist(file1_history)); EXPECT_FALSE(fileExist(file2_history)); clearLocalHistoryTestFiles(); } TEST(StorageManagerTest, TrainInfoReadWrite32To64BitTest) { InstallTrainInfo trainInfo; trainInfo.trainVersionCode = 12345; trainInfo.trainName = "This is a train name #)$(&&$"; trainInfo.status = 1; const char* expIds = "test_ids"; trainInfo.experimentIds.assign(expIds, expIds + strlen(expIds)); // Write the train info. fork the code to always write in 32 bit. StorageManager::deleteSuffixedFiles(TRAIN_INFO_DIR, trainInfo.trainName.c_str()); std::string fileName = base::StringPrintf("%s/%ld_%s", TRAIN_INFO_DIR, (long)getWallClockSec(), trainInfo.trainName.c_str()); int fd = open(fileName.c_str(), O_WRONLY | O_CREAT | O_CLOEXEC, S_IRUSR | S_IWUSR); ASSERT_NE(fd, -1); size_t result; // Write the magic word result = write(fd, &TRAIN_INFO_FILE_MAGIC, sizeof(TRAIN_INFO_FILE_MAGIC)); ASSERT_EQ(result, sizeof(TRAIN_INFO_FILE_MAGIC)); // Write the train version const size_t trainVersionCodeByteCount = sizeof(trainInfo.trainVersionCode); result = write(fd, &trainInfo.trainVersionCode, trainVersionCodeByteCount); ASSERT_EQ(result, trainVersionCodeByteCount); // Write # of bytes in trainName to file. // NB: this is changed from size_t to int32_t for this test. const int32_t trainNameSize = trainInfo.trainName.size(); const size_t trainNameSizeByteCount = sizeof(trainNameSize); result = write(fd, (uint8_t*)&trainNameSize, trainNameSizeByteCount); ASSERT_EQ(result, trainNameSizeByteCount); // Write trainName to file result = write(fd, trainInfo.trainName.c_str(), trainNameSize); ASSERT_EQ(result, trainNameSize); // Write status to file const size_t statusByteCount = sizeof(trainInfo.status); result = write(fd, (uint8_t*)&trainInfo.status, statusByteCount); ASSERT_EQ(result, statusByteCount); // Write experiment id count to file. // NB: this is changed from size_t to int32_t for this test. const int32_t experimentIdsCount = trainInfo.experimentIds.size(); const size_t experimentIdsCountByteCount = sizeof(experimentIdsCount); result = write(fd, (uint8_t*)&experimentIdsCount, experimentIdsCountByteCount); ASSERT_EQ(result, experimentIdsCountByteCount); // Write experimentIds to file for (size_t i = 0; i < experimentIdsCount; i++) { const int64_t experimentId = trainInfo.experimentIds[i]; const size_t experimentIdByteCount = sizeof(experimentId); result = write(fd, &experimentId, experimentIdByteCount); ASSERT_EQ(result, experimentIdByteCount); } // Write bools to file const size_t boolByteCount = sizeof(trainInfo.requiresStaging); result = write(fd, (uint8_t*)&trainInfo.requiresStaging, boolByteCount); ASSERT_EQ(result, boolByteCount); result = write(fd, (uint8_t*)&trainInfo.rollbackEnabled, boolByteCount); ASSERT_EQ(result, boolByteCount); result = write(fd, (uint8_t*)&trainInfo.requiresLowLatencyMonitor, boolByteCount); ASSERT_EQ(result, boolByteCount); close(fd); InstallTrainInfo trainInfoResult; EXPECT_TRUE(StorageManager::readTrainInfo(trainInfo.trainName, trainInfoResult)); EXPECT_EQ(trainInfo.trainVersionCode, trainInfoResult.trainVersionCode); ASSERT_EQ(trainInfo.trainName.size(), trainInfoResult.trainName.size()); EXPECT_EQ(trainInfo.trainName, trainInfoResult.trainName); EXPECT_EQ(trainInfo.status, trainInfoResult.status); ASSERT_EQ(trainInfo.experimentIds.size(), trainInfoResult.experimentIds.size()); EXPECT_EQ(trainInfo.experimentIds, trainInfoResult.experimentIds); } TEST(StorageManagerTest, DeleteUnmodifiedOldDbFiles) { if (!isAtLeastU()) { GTEST_SKIP(); } ConfigKey key(123, 12345); unique_ptr event = CreateRestrictedLogEvent(/*atomTag=*/10, /*timestampNs=*/1000); dbutils::createTableIfNeeded(key, /*metricId=*/1, *event); EXPECT_TRUE(StorageManager::hasFile( base::StringPrintf("%s/%s", STATS_RESTRICTED_DATA_DIR, "123_12345.db").c_str())); int64_t wallClockSec = getWallClockSec() + (StatsdStats::kMaxAgeSecond + 1); StorageManager::enforceDbGuardrails(STATS_RESTRICTED_DATA_DIR, wallClockSec, /*maxBytes=*/INT_MAX); EXPECT_FALSE(StorageManager::hasFile( base::StringPrintf("%s/%s", STATS_RESTRICTED_DATA_DIR, "123_12345.db").c_str())); } TEST(StorageManagerTest, DeleteLargeDbFiles) { if (!isAtLeastU()) { GTEST_SKIP(); } ConfigKey key(123, 12345); unique_ptr event = CreateRestrictedLogEvent(/*atomTag=*/10, /*timestampNs=*/1000); dbutils::createTableIfNeeded(key, /*metricId=*/1, *event); EXPECT_TRUE(StorageManager::hasFile( base::StringPrintf("%s/%s", STATS_RESTRICTED_DATA_DIR, "123_12345.db").c_str())); StorageManager::enforceDbGuardrails(STATS_RESTRICTED_DATA_DIR, /*wallClockSec=*/getWallClockSec(), /*maxBytes=*/0); EXPECT_FALSE(StorageManager::hasFile( base::StringPrintf("%s/%s", STATS_RESTRICTED_DATA_DIR, "123_12345.db").c_str())); } } // namespace statsd } // namespace os } // namespace android #else GTEST_LOG_(INFO) << "This test does nothing.\n"; #endif