rtlog-cpp
is a logging library designed specifically for logging messages from the real-time thread. This is particularly useful in the audio and embedded industries, where hard real-time requirements must be met, and logging in traditional ways from your real-time threads is unacceptable.
If you're looking for a general use logger, this probably isn't the library for you!
The design behind this logger was presented at ADCx 2023. Check out that presentation here
- Ability to log messages of any type and size from the real-time thread
- Statically allocated memory at compile time, no allocations in the real-time thread
- Support for printf-style format specifiers (using a version of the printf family that doesn't hit the
localeconv
lock) - Efficient thread-safe logging using a lock free queue
- A C++17 compatible compiler
- The C++17 standard library
- moodycamel::ReaderWriterQueue (will be downloaded via cmake if not provided)
- stb's vsnprintf (will be downloaded via cmake if not provided)
In CMakeLists.txt
include(FetchContent)
FetchContent_Declare(rtlog-cpp
GIT_REPOSITORY https://github.com/cjappl/rtlog-cpp
)
FetchContent_MakeAvailable(rtlog-cpp)
add_executable(audioapp ${SOURCES})
target_link_libraries(audioapp
PRIVATE
rtlog::rtlog
)
To use formatlib, set the variable, either on the command line or in cmake:
cmake .. -DRTLOG_USE_FMTLIB=ON
For more fleshed out fully running examples check out examples/
and test/
After including via cmake:
- Include the
rtlog/rtlog.h
header file in your source code - Create a
rtlog::Logger
object with the desired template parameters: - Process the log messages on your own thread, or via the provided
rtlog::LogProcessingThread
#include <rtlog/rtlog.h>
struct ExampleLogData
{
ExampleLogLevel level;
ExampleLogRegion region;
};
constexpr auto MAX_LOG_MESSAGE_LENGTH = 256;
constexpr auto MAX_NUM_LOG_MESSAGES = 100;
std::atomic<int> gSequenceNumber{0};
using RealtimeLogger = rtlog::Logger<ExampleLogData, MAX_NUM_LOG_MESSAGES, MAX_LOG_MESSAGE_LENGTH, gSequenceNumber>;
...
RealtimeLogger logger;
void SomeRealtimeCallback()
{
logger.Log({ExampleLogLevel::Debug, ExampleLogRegion::Audio}, "Hello, world! %i", 42);
logger.LogFmt({ExampleLogData::Debug, ExampleLogRegion::Audio, FMT_STRING("Hello, world! {}", 42);
}
...
To process the logs in another thread, call PrintAndClearLogQueue
with a function to call on the output data.
static auto PrintMessage = [](const ExampleLogData& data, size_t sequenceNumber, const char* fstring, ...) __attribute__ ((format (printf, 4, 5)))
{
std::array<char, MAX_LOG_MESSAGE_LENGTH> buffer;
va_list args;
va_start(args, fstring);
vsnprintf(buffer.data(), buffer.size(), fstring, args);
va_end(args);
printf("{%lu} [%s] (%s): %s\n",
sequenceNumber,
rtlog::test::to_string(data.level),
rtlog::test::to_string(data.region),
buffer.data());
};
...
void LogProcessorThreadMain()
{
while (running)
{
if (logger.PrintAndClearLogQueue(PrintMessage) == 0)
std::this_thread::sleep_for(std::chrono::milliseconds(10);
}
}
Or alternatively spin up a rtlog::LogProcessingThread
rtlog::LogProcessingThread thread(logger, PrintMessage, std::chrono::milliseconds(10));