Boost.Asio does not provide a higher-level abstraction for flushing a serial port's buffers. However, this can often be accomplished by having platform specific calls, such as
PurgeComm(), operate on a serial port's native_handle().
Each serial port has a receive and transmit buffer, and flushing operates on one or both of the buffers. For example, if two serial ports are connected (
/dev/pts/4), and program
A opens and writes to
/dev/pts/3, then it can only flush the buffers associated with
/dev/pts/3 (data received on
/dev/pts/3 but not read, and data written to
/dev/pts/3 but not transmitted). Therefore, if program
B starts, opens
/dev/pts/4, and wants to read non-stale data, then program
B needs to flush the receive buffer for
/dev/pts/4 after opening the serial port.
Here is a complete example running on CentOs. When the example runs as a writer, it will write a sequentially increasing number to the serial port once a second. When the example runs as a writer, it will read five numbers, sleep for 5 seconds and flush its read buffer every other iteration:
/// @brief Different ways a serial port may be flushed.
flush_receive = TCIFLUSH,
flush_send = TCIOFLUSH,
flush_both = TCIOFLUSH
/// @brief Flush a serial port's buffers.
/// @param serial_port Port to flush.
/// @param what Determines the buffers to flush.
/// @param error Set to indicate what error occurred, if any.
if (0 == ::tcflush(serial_port.lowest_layer().native_handle(), what))
error = boost::system::error_code();
error = boost::system::error_code(errno,
/// @brief Reads 5 numbers from the serial port, then sleeps for 5 seconds,
/// flushing its read buffer every other iteration.
void read_main(boost::asio::serial_port& serial_port)
std::vector<unsigned char> buffer(5);
for (bool flush = false;; flush = !flush)
std::size_t bytes_transferred =
for (std::size_t i = 0; i < bytes_transferred; ++i)
std::cout << static_cast<unsigned int>(buffer[i]) << " ";
flush_serial_port(serial_port, flush_receive, error);
std::cout << "flush: " << error.message() << std::endl;
std::cout << "noflush" << std::endl;
/// @brief Write a sequentially increasing number to the serial port
/// every second.
void write_main(boost::asio::serial_port& serial_port)
for (unsigned char i = 0; ; ++i)
write(serial_port, boost::asio::buffer(&i, sizeof i));
int main(int argc, char* argv)
boost::asio::serial_port serial_port(io_service, argv);
if (!strcmp(argv, "read"))
else if (!strcmp(argv, "write"))
Create virtual serial ports with
$ socat -d -d PTY: PTY:
2014/03/23 16:22:22 socat N PTY is /dev/pts/3
2014/03/23 16:22:22 socat N PTY is /dev/pts/4
2014/03/23 16:22:22 socat N starting data transfer loop with
FDs [3,3] and [5,5]
Starting both the read and write examples:
$ ./a.out read /dev/pts/3 & ./a.out write /dev/pts/4
0 1 2 3 4 noflush
5 6 7 8 9 flush: Success
14 15 16 17 18 noflush
19 20 21 22 23 flush: Success
28 29 30 31 32 noflush
33 34 35 36 37 flush: Success
As demonstrating in the output, numbers are only skipped in the sequence when the reader flushes its read buffer:
3 4 noflush 5 6 7 8 9 flush 14 15.