You should consider using boost asio. It is a cross platform networking library which simplifies many of the tasks you may have to do.
You can find the example source code you seek here.
About the 64 limit:
There is no hard 64 connection limit that you will experience with a good design. Basically if you use some kind of threading model you will not experience this limitation.
Here's some information on the limit you heard about:
4.9 - What are the "64 sockets" limitations?
There are two 64-socket limitations:
The Win32 event mechanism (e.g.
WaitForMultipleObjects()) can only
wait on 64 event objects at a time.
Winsock 2 provides the
WSAEventSelect() function which lets
you use Win32's event mechanism to
wait for events on sockets. Because it
uses Win32's event mechanism, you can
only wait for events on 64 sockets at
a time. If you want to wait on more
than 64 Winsock event objects at a
time, you need to use multiple
threads, each waiting on no more than
64 of the sockets.
The select() function is also limited
in certain situations to waiting on 64
sockets at a time. The FD_SETSIZE
constant defined in winsock.h
determines the size of the fd_set
structures you pass to select(). It's
defined by default to 64. You can
define this constant to a higher value
before you #include winsock.h, and
this will override the default value.
Unfortunately, at least one
non-Microsoft Winsock stack and some
Layered Service Providers assume the
default of 64; they will ignore
sockets beyond the 64th in larger
You can write a test program to try
this on the systems you plan on
supporting, to see if they are not
limited. If they are, you can get
around this with threads, just as you
would with event objects.