I am following socket tutorial where it is given the following code for client:
import socket
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
print('The OS assigned the address {} to me'.format(s.getsockname()))
> Instead of explicitly binding the socket to a given port and IP as we did previously, we can let the OS take care of it. Remember ephemeral ports? Yes, the OS will bind the socket to a port dynamically. So all we really need is to create a UDP socket (line 3).
But instead I get the error:
> print("The OS assigned the address {} to me".format(s.getsockname())) OSError: [WinError 10022] An invalid argument was supplied
how can i use dynamic port in this case for client program
stackoverflow.com/questions/43330897/… suggests you have to bind the socket, and as mentioned on my MacOS the code also does not bind the socket automatically.
Use a port of 0 when binding to get a free port assigned dynamically.
@jeea If another program is already using the port you try to bind to, the bind fails. If another program tries to use the port you already bound to, that program fails. So it's a good idea not to use a port known to be used by another program.
@MisterMiyagi I didn't know this either :o but wait, if you assign it dynamically, how would the other side eg: in a client-server implementation using this, would it find the port it can connect to?
ah, nevermind, I think I know what you mean:
tcpSocket.connect(('0.0.0.0', 8000)) would do what you meant here...
this looks like a dict comprehension if I'm not wrong (since it use {})
@Mehdi if you want to understand how this works, try this link. (although it's about list comprehension instead of dict, it's basically the same thing except it's a different type)
@NordineLotfi A dynamic port is not really suitable for disconnected client-server setups. Instead you would have some means of discovery, e.g. writing the port to a file so that local clients can connect or announcing it at some third service that has a well-defined address.
For example, our distributed compute and storage services work like the latter: There are a few services at well-known addresses that clients and compute/data services connect to.
Interesting. I guess one could use more complex method, like sending the address through a packet and doing packet sniffing on a specific port (eg: could be useful on offline clusters connected through ethernet cables)
btw, I finally managed to fix 99% of bugs in a project I'm trying to port to py3...except I now also managed to hit the last 1% which is already reported on the official bug tracker :D
It's the first time I actually find a real python bug or at least related to the main codebase
(and while it's marked as resolved, mind you it's actually not, at least not on 3.8 which is what I use on my end)
but even after reading that, I still have a lingering feeling that heappush is faster here because it doesn't keep the order of the elements...probably just a feeling but it would make sense if so