rocksdb/util/auto_roll_logger_test.cc

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// Copyright (c) 2013, Facebook, Inc. All rights reserved.
// This source code is licensed under the BSD-style license found in the
// LICENSE file in the root directory of this source tree. An additional grant
// of patent rights can be found in the PATENTS file in the same directory.
//
#include <string>
#include <cmath>
#include <iostream>
#include <fstream>
#include <iterator>
#include <algorithm>
#include "util/testharness.h"
#include "util/auto_roll_logger.h"
#include "rocksdb/db.h"
#include <sys/stat.h>
#include <errno.h>
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 LogMessage(const InfoLogLevel log_level, Logger* logger,
const char* message) {
Log(log_level, 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<uint64_t>(s.st_ctime);
}
void AutoRollLoggerTest::RollLogFileBySizeTest(AutoRollLogger* logger,
size_t log_max_size,
const string& log_message) {
logger->SetInfoLogLevel(InfoLogLevel::INFO);
// 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 rocksdb 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> logger;
// Normal logger
ASSERT_OK(CreateLoggerFromOptions(kTestDir, "", env, options, &logger));
ASSERT_TRUE(dynamic_cast<PosixLogger*>(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<AutoRollLogger*>(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<AutoRollLogger*>(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<AutoRollLogger*>(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");
}
TEST(AutoRollLoggerTest, InfoLogLevel) {
InitTestDb();
size_t log_size = 8192;
size_t log_lines = 0;
// an extra-scope to force the AutoRollLogger to flush the log file when it
// becomes out of scope.
{
AutoRollLogger logger(Env::Default(), kTestDir, "", log_size, 0);
for (int log_level = InfoLogLevel::FATAL; log_level >= InfoLogLevel::DEBUG;
log_level--) {
logger.SetInfoLogLevel((InfoLogLevel)log_level);
for (int log_type = InfoLogLevel::DEBUG; log_type <= InfoLogLevel::FATAL;
log_type++) {
// log messages with log level smaller than log_level will not be
// logged.
LogMessage((InfoLogLevel)log_type, &logger, kSampleMessage.c_str());
}
log_lines += InfoLogLevel::FATAL - log_level + 1;
}
for (int log_level = InfoLogLevel::FATAL; log_level >= InfoLogLevel::DEBUG;
log_level--) {
logger.SetInfoLogLevel((InfoLogLevel)log_level);
// again, messages with level smaller than log_level will not be logged.
Debug(&logger, "%s", kSampleMessage.c_str());
Info(&logger, "%s", kSampleMessage.c_str());
Warn(&logger, "%s", kSampleMessage.c_str());
Error(&logger, "%s", kSampleMessage.c_str());
Fatal(&logger, "%s", kSampleMessage.c_str());
log_lines += InfoLogLevel::FATAL - log_level + 1;
}
}
std::ifstream inFile(AutoRollLoggerTest::kLogFile.c_str());
size_t lines = std::count(std::istreambuf_iterator<char>(inFile),
std::istreambuf_iterator<char>(), '\n');
ASSERT_EQ(log_lines, lines);
inFile.close();
}
int OldLogFileCount(const string& dir) {
std::vector<std::string> files;
Env::Default()->GetChildren(dir, &files);
int log_file_count = 0;
for (std::vector<std::string>::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();
}