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gerrit.openbmc.org / openbmc / openpower-vpd-parser / df841a50310f94854dfe95b7740d360874d205f1 / . / vpd-manager / src / logger.cpp
blob: 1e133f0f4180a0c530755bc33b12b9287b05fb09 [file] [log] [blame]
#include "logger.hpp"
#include <regex>
#include <sstream>
namespace vpd
{
std::shared_ptr<Logger> Logger::m_loggerInstance;
void Logger::logMessage(std::string_view i_message,
const PlaceHolder& i_placeHolder,
const types::PelInfoTuple* i_pelTuple,
const std::source_location& i_location)
{
std::ostringstream l_log;
l_log << "FileName: " << i_location.file_name() << ","
<< " Line: " << i_location.line() << " " << i_message;
if ((i_placeHolder == PlaceHolder::COLLECTION) && m_collectionLogger)
{
// Log it to a specific place.
m_collectionLogger->logMessage(l_log.str());
}
else if (i_placeHolder == PlaceHolder::PEL)
{
if (i_pelTuple)
{
// LOG PEL
// This should call create PEL API from the event logger.
return;
}
std::cout << "Pel info tuple required to log PEL for message <" +
l_log.str() + ">"
<< std::endl;
}
else if ((i_placeHolder == PlaceHolder::VPD_WRITE) && m_vpdWriteLogger)
{
m_vpdWriteLogger->logMessage(l_log.str());
}
else
{
// Default case, let it go to journal.
std::cout << l_log.str() << std::endl;
}
}
void Logger::initiateVpdCollectionLogging() noexcept
{
try
{
// collection log file directory
const std::filesystem::path l_collectionLogDirectory{"/var/lib/vpd"};
std::error_code l_ec;
if (!std::filesystem::exists(l_collectionLogDirectory, l_ec))
{
if (l_ec)
{
throw std::runtime_error(
"File system call to exist failed with error = " +
l_ec.message());
}
throw std::runtime_error(
"Directory " + l_collectionLogDirectory.string() +
" does not exist");
}
// base name of collection log file
std::filesystem::path l_collectionLogFilePath{l_collectionLogDirectory};
l_collectionLogFilePath /= "collection";
unsigned l_collectionLogFileCount{0};
std::filesystem::file_time_type l_oldestFileTime;
std::filesystem::path l_oldestFilePath{l_collectionLogFilePath};
// iterate through all entries in the log directory
for (const auto& l_dirEntry :
std::filesystem::directory_iterator(l_collectionLogDirectory))
{
// check /var/lib/vpd for number "collection.*" log file
const std::regex l_collectionLogFileRegex{"collection.*\\.log"};
if (std::filesystem::is_regular_file(l_dirEntry.path()) &&
std::regex_match(l_dirEntry.path().filename().string(),
l_collectionLogFileRegex))
{
// check the write time of this file
const auto l_fileWriteTime =
std::filesystem::last_write_time(l_dirEntry.path());
// update oldest file path if required
if (l_fileWriteTime < l_oldestFileTime)
{
l_oldestFileTime = l_fileWriteTime;
l_oldestFilePath = l_dirEntry.path();
}
l_collectionLogFileCount++;
}
}
// maximum number of collection log files to maintain
constexpr auto l_maxCollectionLogFiles{3};
if (l_collectionLogFileCount >= l_maxCollectionLogFiles)
{
// delete oldest collection log file
l_collectionLogFilePath = l_oldestFilePath;
logMessage("Deleting collection log file " +
l_collectionLogFilePath.string());
std::error_code l_ec;
if (!std::filesystem::remove(l_collectionLogFilePath, l_ec))
{
logMessage("Failed to delete existing collection log file " +
l_collectionLogFilePath.string() +
" Error: " + l_ec.message());
}
}
else
{
l_collectionLogFilePath +=
"_" + std::to_string(l_collectionLogFileCount) + ".log";
}
// create collection logger object with collection_(n+1).log
m_collectionLogger.reset(
new AsyncFileLogger(l_collectionLogFilePath, 4096));
}
catch (const std::exception& l_ex)
{
logMessage("Failed to initialize collection logger. Error: " +
std::string(l_ex.what()));
}
}
void SyncFileLogger::logMessage(const std::string_view& i_message)
{
try
{
if (++m_currentNumEntries > m_maxEntries)
{
rotateFile();
}
m_fileStream << timestamp() << " : " << i_message << std::endl;
}
catch (const std::exception& l_ex)
{
// log message to journal if we fail to log to file
auto l_logger = Logger::getLoggerInstance();
l_logger->logMessage(i_message);
}
}
void AsyncFileLogger::logMessage(const std::string_view& i_message)
{
try
{
// acquire lock on queue
std::unique_lock<std::mutex> l_lock(m_mutex);
// push message to queue
m_messageQueue.emplace(timestamp() + " : " + std::string(i_message));
// notify log worker thread
m_cv.notify_one();
}
catch (const std::exception& l_ex)
{
// log message to journal if we fail to push message to queue
Logger::getLoggerInstance()->logMessage(i_message);
}
}
void AsyncFileLogger::fileWorker() noexcept
{
// create lock object on mutex
std::unique_lock<std::mutex> l_lock(m_mutex);
// infinite loop
while (true)
{
// check for exit conditions
if (!m_fileStream.is_open() || m_stopLogging)
{
break;
}
// wait for notification from log producer
m_cv.wait(l_lock,
[this] { return m_stopLogging || !m_messageQueue.empty(); });
// flush the queue
while (!m_messageQueue.empty())
{
// read the first message in queue
const auto l_logMessage = m_messageQueue.front();
try
{
// pop the message from queue
m_messageQueue.pop();
// unlock mutex on queue
l_lock.unlock();
// flush the message to file
m_fileStream << l_logMessage << std::endl;
// lock mutex on queue
l_lock.lock();
}
catch (const std::exception& l_ex)
{
// log message to journal if we fail to push message to queue
Logger::getLoggerInstance()->logMessage(l_logMessage);
// check if we need to reacquire lock before continuing to flush
// queue
if (!l_lock.owns_lock())
{
l_lock.lock();
}
}
} // queue flush loop
} // thread loop
}
void ILogFileHandler::rotateFile(
[[maybe_unused]] const unsigned i_numEntriesToDelete)
{
/* TODO:
- delete specified number of oldest entries from beginning of file
- rewrite file to move existing logs to beginning of file
*/
m_currentNumEntries = m_maxEntries - i_numEntriesToDelete;
}
namespace logging
{
void logMessage(std::string_view message, const std::source_location& location)
{
std::ostringstream log;
log << "FileName: " << location.file_name() << ","
<< " Line: " << location.line() << " " << message;
std::cout << log.str() << std::endl;
}
} // namespace logging
} // namespace vpd