// Copyright (c) 2012 Facebook. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include #include #include "util/testharness.h" #include "util/auto_roll_logger.h" #include "rocksdb/db.h" #include #include #include using namespace std; namespace rocksdb { class AutoRollLoggerTest { public: static void InitTestDb() { string deleteCmd = "rm -rf " + kTestDir; ASSERT_TRUE(system(deleteCmd.c_str()) == 0); Env::Default()->CreateDir(kTestDir); } void RollLogFileBySizeTest(AutoRollLogger* logger, size_t log_max_size, const string& log_message); uint64_t RollLogFileByTimeTest(AutoRollLogger* logger, size_t time, const string& log_message); static const string kSampleMessage; static const string kTestDir; static const string kLogFile; static Env* env; }; const string AutoRollLoggerTest::kSampleMessage( "this is the message to be written to the log file!!"); const string AutoRollLoggerTest::kTestDir( test::TmpDir() + "/db_log_test"); const string AutoRollLoggerTest::kLogFile( test::TmpDir() + "/db_log_test/LOG"); Env* AutoRollLoggerTest::env = Env::Default(); // In this test we only want to Log some simple log message with // no format. LogMessage() provides such a simple interface and // avoids the [format-security] warning which occurs when you // call Log(logger, log_message) directly. void LogMessage(Logger* logger, const char* message) { Log(logger, "%s", message); } void GetFileCreateTime(const std::string& fname, uint64_t* file_ctime) { struct stat s; if (stat(fname.c_str(), &s) != 0) { *file_ctime = (uint64_t)0; } *file_ctime = static_cast(s.st_ctime); } void AutoRollLoggerTest::RollLogFileBySizeTest(AutoRollLogger* logger, size_t log_max_size, const string& log_message) { // measure the size of each message, which is supposed // to be equal or greater than log_message.size() LogMessage(logger, log_message.c_str()); size_t message_size = logger->GetLogFileSize(); size_t current_log_size = message_size; // Test the cases when the log file will not be rolled. while (current_log_size + message_size < log_max_size) { LogMessage(logger, log_message.c_str()); current_log_size += message_size; ASSERT_EQ(current_log_size, logger->GetLogFileSize()); } // Now the log file will be rolled LogMessage(logger, log_message.c_str()); // Since rotation is checked before actual logging, we need to // trigger the rotation by logging another message. LogMessage(logger, log_message.c_str()); ASSERT_TRUE(message_size == logger->GetLogFileSize()); } uint64_t AutoRollLoggerTest::RollLogFileByTimeTest( AutoRollLogger* logger, size_t time, const string& log_message) { uint64_t expected_create_time; uint64_t actual_create_time; uint64_t total_log_size; ASSERT_OK(env->GetFileSize(kLogFile, &total_log_size)); GetFileCreateTime(kLogFile, &expected_create_time); logger->SetCallNowMicrosEveryNRecords(0); // -- Write to the log for several times, which is supposed // to be finished before time. for (int i = 0; i < 10; ++i) { LogMessage(logger, log_message.c_str()); ASSERT_OK(logger->GetStatus()); // Make sure we always write to the same log file (by // checking the create time); GetFileCreateTime(kLogFile, &actual_create_time); // Also make sure the log size is increasing. ASSERT_EQ(expected_create_time, actual_create_time); ASSERT_GT(logger->GetLogFileSize(), total_log_size); total_log_size = logger->GetLogFileSize(); } // -- Make the log file expire sleep(time); LogMessage(logger, log_message.c_str()); // At this time, the new log file should be created. GetFileCreateTime(kLogFile, &actual_create_time); ASSERT_GT(actual_create_time, expected_create_time); ASSERT_LT(logger->GetLogFileSize(), total_log_size); expected_create_time = actual_create_time; return expected_create_time; } TEST(AutoRollLoggerTest, RollLogFileBySize) { InitTestDb(); size_t log_max_size = 1024 * 5; AutoRollLogger logger(Env::Default(), kTestDir, "", log_max_size, 0); RollLogFileBySizeTest(&logger, log_max_size, kSampleMessage + ":RollLogFileBySize"); } TEST(AutoRollLoggerTest, RollLogFileByTime) { size_t time = 1; size_t log_size = 1024 * 5; InitTestDb(); // -- Test the existence of file during the server restart. ASSERT_TRUE(!env->FileExists(kLogFile)); AutoRollLogger logger(Env::Default(), kTestDir, "", log_size, 1); ASSERT_TRUE(env->FileExists(kLogFile)); RollLogFileByTimeTest(&logger, time, kSampleMessage + ":RollLogFileByTime"); } TEST(AutoRollLoggerTest, OpenLogFilesMultipleTimesWithOptionLog_max_size) { // If only 'log_max_size' options is specified, then every time // when leveldb is restarted, a new empty log file will be created. InitTestDb(); // WORKAROUND: // avoid complier's complaint of "comparison between signed // and unsigned integer expressions" because literal 0 is // treated as "singed". size_t kZero = 0; size_t log_size = 1024; AutoRollLogger* logger = new AutoRollLogger( Env::Default(), kTestDir, "", log_size, 0); LogMessage(logger, kSampleMessage.c_str()); ASSERT_GT(logger->GetLogFileSize(), kZero); delete logger; // reopens the log file and an empty log file will be created. logger = new AutoRollLogger( Env::Default(), kTestDir, "", log_size, 0); ASSERT_EQ(logger->GetLogFileSize(), kZero); delete logger; } TEST(AutoRollLoggerTest, CompositeRollByTimeAndSizeLogger) { size_t time = 1, log_max_size = 1024 * 5; InitTestDb(); AutoRollLogger logger(Env::Default(), kTestDir, "", log_max_size, time); // Test the ability to roll by size RollLogFileBySizeTest( &logger, log_max_size, kSampleMessage + ":CompositeRollByTimeAndSizeLogger"); // Test the ability to roll by Time RollLogFileByTimeTest( &logger, time, kSampleMessage + ":CompositeRollByTimeAndSizeLogger"); } TEST(AutoRollLoggerTest, CreateLoggerFromOptions) { Options options; shared_ptr logger; // Normal logger ASSERT_OK(CreateLoggerFromOptions(kTestDir, "", env, options, &logger)); ASSERT_TRUE(dynamic_cast(logger.get())); // Only roll by size InitTestDb(); options.max_log_file_size = 1024; ASSERT_OK(CreateLoggerFromOptions(kTestDir, "", env, options, &logger)); AutoRollLogger* auto_roll_logger = dynamic_cast(logger.get()); ASSERT_TRUE(auto_roll_logger); RollLogFileBySizeTest( auto_roll_logger, options.max_log_file_size, kSampleMessage + ":CreateLoggerFromOptions - size"); // Only roll by Time InitTestDb(); options.max_log_file_size = 0; options.log_file_time_to_roll = 1; ASSERT_OK(CreateLoggerFromOptions(kTestDir, "", env, options, &logger)); auto_roll_logger = dynamic_cast(logger.get()); RollLogFileByTimeTest( auto_roll_logger, options.log_file_time_to_roll, kSampleMessage + ":CreateLoggerFromOptions - time"); // roll by both Time and size InitTestDb(); options.max_log_file_size = 1024 * 5; options.log_file_time_to_roll = 1; ASSERT_OK(CreateLoggerFromOptions(kTestDir, "", env, options, &logger)); auto_roll_logger = dynamic_cast(logger.get()); RollLogFileBySizeTest( auto_roll_logger, options.max_log_file_size, kSampleMessage + ":CreateLoggerFromOptions - both"); RollLogFileByTimeTest( auto_roll_logger, options.log_file_time_to_roll, kSampleMessage + ":CreateLoggerFromOptions - both"); } int OldLogFileCount(const string& dir) { std::vector files; Env::Default()->GetChildren(dir, &files); int log_file_count = 0; for (std::vector::iterator it = files.begin(); it != files.end(); ++it) { uint64_t create_time; FileType type; if (!ParseFileName(*it, &create_time, &type)) { continue; } if (type == kInfoLogFile && create_time > 0) { ++log_file_count; } } return log_file_count; } } // namespace rocksdb int main(int argc, char** argv) { return rocksdb::test::RunAllTests(); }