I am to implement a (hopefully) robust asynchronious serial rs232 data transmission (via USB) - for both windows and linux, including esp. that nice embedded system called beagle bone black.

In the end I just want to be able to (compatibly) talk rs232 with robust deadline-timeouts, cancel() reset() etc. to not crash/hang when e.g. the tx or rx line disconnects accidently. So sure, I could simply copy/paste/adopt existing examples. But I also would like to become more enlightened ;-)

I decided to use boost:asio::serial_port. Now while reading the docs, I am confused about this two classes (well three with the typedef serial_port):

serial_port_service - Default service implementation for a serial port.

class serial_port_service : public io_service::service

basic_serial_port - Provides serial port functionality.

template< typename SerialPortService = serial_port_service>
class basic_serial_port :
  public basic_io_object< SerialPortService >,
  public serial_port_base

So faar I see, that I need a boost::asio::io_service to construct either boost::asio::serial_port or serial_port_service. I think I have understand the basic approach how asio does the job, like bespoken in e.g. this examples .

OK serial_port_service derives from io_service, its ctor takes an io_service, and its interface also offers those memberfuncs of basic_serial_port.

For me it looks like it's a io_service that also implements a basic_serial_port - what is the reason for having both classes? When to use the one when the other? Not sure about possible usecases, and what about this serial_port typedef. Maybe (well obviously) I am missing something - someone can give me more light?

1 Answer 1


Often, the application should use the I/O object. In this case, that would be boost::asio::serial_port.

The various classes are used to separate responsibilities and abstractions. The similarity in names can be confusing, so the documentation is very careful in its naming. The documentation states:

Class io_service implements an extensible, type-safe, polymorphic set of I/O services, indexed by service type. An object of class io_service must be initialised before I/O objects such as sockets, resolvers and timers can be used. These I/O objects are distinguished by having constructors that accept an io_service& parameter.

I/O services exist to manage the logical interface to the operating system on behalf of the I/O objects. In particular, there are resources that are shared across a class of I/O objects. For example, timers may be implemented in terms of a single timer queue. The I/O services manage these shared resources.

To explain this in context of serial ports:

  • The io_service provides an event processing loop and manages I/O services, such as serial_port_service.
  • The serial_port is an I/O object that provides an interface to perform serial port related operations. The implementation is very basic:
    • Determines how information is to be returned to the caller: throw if an error occurs, populate a std::future, suspend a coroutine, etc.
    • Defers the actual work to the serial_port_service, its I/O service.
    • Provides RAII semantics. When the serial_port is destroyed, it will cancel outstanding asynchronous operations and close the serial_port.
  • The serial_port_service is an I/O service:
    • It provides an abstraction and implements the platform specific API.
    • It is shared amongst serial_ports that use the same io_service. When the serial_port is created with an io_service, the serial_port will use an existing serial_port_service registered to the io_service or create and register a new serial_port_service with the io_service.
    • It functions as an factory for an I/O object's implementation. For a serial_port, this is likely a basic file descriptor or handle.
  • Hm.. so serial_ports sharing the same io_service also share the same serial_port_service. One cancel() will also cancel all other serial_ports of that io_service then, right? So when I want to read/write to different ports (e.g. com3 com4) I use different io_services in serial_port ctors - otherwise they would interfere from each other? I would do something like: serial_port serial1(io_stream1); serial1.open("com3", ec); serial_port serial2(io_stream2); serial2.open("com4", ec); Then serial2.cancel() would not cancel serial1? Commented Oct 27, 2014 at 14:11
  • When doing async_read_some - is there any chance to use a deadline-timer which cancelS only the overdue read operation it is related - I mean without canceling also the ongoing write operations? Until now I only found serial_port.cancel() - and no way to cancel individual async_read_some operations... Commented Oct 27, 2014 at 14:18
  • @tverrbjelke Calling cancel() on an I/O object will cancel all outstanding operations on that distinct I/O object and should have no observable affect on any other I/O object, even those that use the same io_service and I/O service. Commented Oct 28, 2014 at 2:02
  • So do I correctly understand you? When I have opened two serial ports s1(Com3) and s2(com4) with different io_services. Then a async_read_some timeout handler does s1.cancel() it would cancel all ongoing read and write operations on com3, but it would not bother com4. Is there any way to let an related timeout handler watching async_read_some() kill only it's (s1) read operations? Without also killing any parallel async_write_some() operations on s1? How to asynchroniously check for "data ready to be read" without deadline_timer canceling everything? Commented Oct 28, 2014 at 12:23
  • 1
    @tverrbjelke The statements are correct, but I want to stress that canceling a distinct I/O object (s1) will have no affect on another distinct I/O object (s2), regardless of which io_service they use. There is no way to cancel a specific type of operations on an I/O object. To be asynchronously informed of when data is ready without actually reading it, try using reactor-style operations. Also, the async_write_some() handler could initiate another async_write_some() operation if canceled. Commented Oct 28, 2014 at 17:57

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