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I am using boost::asio::io_service to manage some asynchronous TCP communication. That means I create a boost::asio::ip::tcp::socket and give the io_service to it. When I start the communication it goes schematically like this:

Async Resolve -> Callback -> Async Connect -> Callback -> Async Write -> Callback -> Async Read

I ommitted parts like resolve and bind. Just assume the Socket has been bound to a port and the hostname is resolved ( so connect meaning establishing the real connection to the endpoint )

Now the point is that I may start several Async Connections with the same io_service object. This means for example, that while in my io_service thread the program is about to Async Write some data, the main thread will call Async Resolve with on Socket ( but with the same io_service ). This means that my io_service now has some parallel work to do - what I'd like to know is how it will prioritize the work?

For example it go like this

Main Thread              |      io_service Thread
-------------------------+-----------------------------------------------
SocketA->Async Connect   |
//Some other Stuff       |     SocketA->Callback from Async Connect
                         |     SocketA->Async Write
SocketB->Async Connect   |      
                         |     --> ?

Now at this point I have to admit I am not quite sure how the io_service works. In the fourth line there are now two different asynchronous functions which needs to be executed.

Is io_service capable of doing the Async Connect and the Async Write simultaneously? If that is the case it is clear that always the callback from the function which is finished first will be called.

If the io_service is not capable of doing so, in which order will it do the work? If SocketA Async Write will be called first, it's callback will also be called first. Actually there will be always work until the whole operation on SocketA is finished.

EDIT :

According to ereOns comment I try to make my question a bit more precise:

From the view of the io_service thread - is the SocketA Async Connect call asynchronous or synchronous? From the view of my main thread it is of course asynchronous ( it just dispatches the command and then goes on ). But in the io_service thread will this specific Connect call block other operations?

In other words: Is one single io_service capable of Connecting to one Socket while it is reading on another?

Another example would be if I just call 2 Async Connect in my main function right after each other:

SocketA->AsyncConnect();
SocketB->AsyncConnect();

Let's say the Host from SocketA is a bit slow and it takes it two seconds to answer. So while SocketA is trying to connect would SocketB in the meanwhile also connect or would it have to wait until SocketA is done /timed out?

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1  
I'm not sure to completely get your question but I would say Asio will raise events as soon as possible, either the connect or the write, whichever comes first, in an unspecified order. If I may ask, why do you think the order matters ? –  ereOn May 10 '12 at 9:12
    
@ereOn I added some content to the question to make it a bit more precise –  Toby May 10 '12 at 9:38

2 Answers 2

up vote 3 down vote accepted

All the work is done in the thread where io_service.run() runs.

However, the call to any async_ method won't block this specific thread: it behaves exactly like if io_service.run() called select() on several events, and "returns" (calls a callback) whenever such an event is raised. That is, if you call:

socketA->async_connect();
socketB->async_connect();

socketB may as well connect before socketA and the associated callback would then be called first, still in the thread io_service.run() runs.

That's all the beauty of Boost Asio: it takes a very good care about polling, waiting and raising events when it is more appropriate, leaving you with the "easy" part.

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Okay so this is "really" asynchronous, meaning that the async_ methods work parallel. Which callback will be called first depends on which of the async_ fnunctions "returns" first? Did I get this right? –  Toby May 10 '12 at 12:42
    
@Toby: Exactly. –  ereOn May 10 '12 at 13:05
    
Because of the new answer from "this" I need to ask again: We are speaking from the point of view from the IO_Service Thread here. I am quite aware that the async_call in the Main Thread will return immediatly. The callbacks however will be called in the io_service thread...right?! –  Toby May 10 '12 at 13:10
1  
@Toby: See it as the connect call is non-blocking in the io_service thread. When you call async_connect() on your socket, it really just pushes the call to a list which will be emptied by io_service::run(). This guarantees that you can call async_connect from any thread. However, that doesn't mean that the call be blocking. async_connect() will create an event, io_service::run() will then wait on all events he knows of and if the connection succeeds, the operating system will signal it to run() which will then call the adequate callback in its own thread. –  ereOn May 10 '12 at 14:47
    
Okay I get it! Thank you!!! –  Toby May 11 '12 at 6:54

You shouldn't try to predict order of execution for asynchronous operations here. async_connect just signals to io_service and returns immediately. The real work gets done in io_service object's event processing loop (io_service::run), but you don't know exact specifics. It most likely uses OS-specific asynchronous IO functions.

It's not clear what you're trying to achieve. Maybe you should use synchronous operations. Maybe you should use thread synchronization functionality. Maybe io_service::run_one will help you (it executes at most one handler).

Maybe you'll want to call io_service::run multiple times in separate threads, creating a thread pool. That way one long completion handler won't block all the others.

boost::asio::io_service service;
const size_t ASIO_THREAD_COUNT = 3;
boost::thread_group threadGroup;
for (size_t i = 0; i < ASIO_THREAD_COUNT; ++i)
        threadGroup.create_thread(boost::bind(&boost::asio::io_service::run,
            &service, boost::system::error_code()));
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This is wrong. If io_service::run() was just doing blocking calls in a deported thread, what would be the point of Boost Asio ? You don't need to create several threads for that, let alone a thread pool. You are building an horror to fix a problem that never existed. –  ereOn May 10 '12 at 19:11
    
Maybe I assumed too much while trying to say that one shouldn't assume too much. But it is known that handlers are called from run-thread. I'm not sure what you don't like about thread pool though, it's all nice and neat with Boost.Asio: quoting the doc: Multiple threads may call io_service::run() to set up a pool of threads from which completion handlers may be invoked –  Vsevolod Golovanov May 10 '12 at 19:21
    
Nothing wrong with a thread pool when needed. But for the specific case here, it is way overkill as Boost Asio is designed to handle asynchronous events concurently. –  ereOn May 11 '12 at 8:28

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