I've been drilling through the source code of the
QTcpServer can work in two modes: synchronous and asynchronous.
In synchronous mode after calling
listen() the caller can call
waitForNewConnection() which is a blocking method (the thread will sleep until someone connects to the listening port). This way
QTcpServer can work in a thread without an event loop.
In asynchronous mode
QTcpServer will emit the
newConnection() signal when a new connection was accepted. But to be able to do this there must be an event loop runing. Underlying the
QCoreApplication are the
QAbstractEventDispatcher (an abstract class, concrete type is dependent on the OS, for example
QEventDispatcherUNIX). This event dispatcher can monitor for conditions on sockets (represented by file descriptors). It has a method
registerSocketNotifier(QSocketNotifier*). This method is called by the constructor of the
QSocketNotifier class, which
QTcpServer creates an instance of every time
listen() is called. The only system call that is called when the
QTcpServer::listen() is invoked is, of course,
listen() which just returns imidietly, all the real magic happens when the event loop starts running. The event loop (using the dispatcher) will monitor if there is a certain condition on sockets that have been registered. It calls the
select() system call which recives one or more file descriptors to be monitored (by the kernel) for certain conditions (if there is data to be read, if data can be written, or if an error has occurred). The call can block the thread until the conditions on sockets are met, or it can return after some amount of time passes and the conditions on sockets were not met. I am not sure if Qt is calling
select() with a waiting time supplied or without (to block indefinitely), I hink it is determined in some complicated way and changeable. So when finally the condition on socket has been met, the event dispatcher will notify the
QSocketNotifier for that socket, which will, in tern, notify the
QTcpServer who is listening to the socket, which will accept the connection, and emit the
QTcpServer does not itself call into the event-loop/socket-monitoring system, but it is dependent upon it via the
QSocketNotifier which it uses for asynchronous recieving of connections.
When synchronous method
waitForNewConnection() is called it just bypasses all the
QSocketNotifier stuff and calls
accept() which blocks the thread until there is an incoming connection.