Now i spent a few hours reading and experimenting (i need more boost::asio functionality for work as well) and it turns out: Kind of.
But it is not as straightforward or readable as one might hope.
Under the hood (well, under the outermost hood) io_service has a bunch of other services registered, which do the work
async_ operations of their respective fields require.
These are the "Services" described in the reference.
Now sadly, the services stay registered, wether there is work to do or not. For example if your io_service has a udp socket, it will still have all the corresponding services, even if the socket itself is inactive.
But you can ask your io_service which services it has. Lets say you want to know wether your io_service called
m_io_service has an udp
datagram_socket_service. Then you can call something like:
if (boost::asio::has_service<boost::asio::datagram_socket_service<boost::asio::ip::udp> >(m_io_service))
That does not help a lot, because it will be true no matter wether the socket is active or not. But after you know, that you have that service, you can get a ref to it using
use_service instead of
has_service but with the same elegant amount of <>.
And now you can inspect the service to see what it is up to. Sadly, it will not tell you what the outstanding handlers names are (probably partly because it does not know them) but if it is a socket, you can get its
implemention_type and with that check whether it currently
is_open or find either the
local_endpoint as well as the
In case of a
deadline_timer_service you can, among other stuff, find out when it
See the reference for more information what the service is and is not willing to tell you.
This information should then hopefully allow you to determine which
async_ operation did not return.
And if not, at the very least you can
cancel any unexpectedly active services.