I'm writing a Python program for running user-uploaded arbitrary (and thus, at the worst case, unsafe, erroneous and crashing) code on a Linux server. The security questions aside, my objective is to determine, if the code (that might be in any language, compiled or interpreted) writes the correct things to
stderr and other files on given input fed into the program's
stdin. After this, I need to display the results to the user.
The current solution
Currently, my solution is to spawn the child process using
subprocess.Popen(...) with file handles for the
stdin. The file behind the
stdin handle contains the inputs that the program reads during operation, and after the program has terminated, the
stderr files are read and checked for correctness.
This approach works otherwise perfectly, but when I display the results, I can't combine the given inputs and outputs so that the inputs would appear in the same places as they would when running the program from a terminal. I.e. for a program like
print "Hello." name = raw_input("Type your name: ") print "Nice to meet you, %s!" % (name)
the contents of the file containing the program's
stdout would, after running, be:
Hello. Type your name: Nice to meet you, Anonymous!
given that the contents the file containing the
Anonymous<LF>. So, in short, for the given example code (and, equivalently, for any other code) I want to achieve a result like:
Hello. Type your name: Anonymous Nice to meet you, Anonymous!
Thus, the problem is to detect when the program is waiting for input.
I've tried the following methods for solving the problem:
This allows the parent process to separately send data along a pipe, but can only be called once, and is therefore not suitable for programs with multiple outputs and inputs - just as can be inferred from the documentation.
Directly reading from Popen.stdout and Popen.stderr and writing to Popen.stdin
select.select(...) to see if the file handles are ready for I/O
This doesn't seem to improve anything. Apparently the pipes are always ready for reading or writing, so
select.select(...) doesn't help much here.
Using a different thread for non-blocking reading
As suggested in this answer, I have tried creating a separate Thread() that stores results from reading from the
stdout into a Queue(). The output lines before a line demanding user input are displayed nicely, but the line on which the program starts to wait for user input (
"Type your name: " in the example above) never gets read.
Using a PTY slave as the child process' file handles
As directed here, I've tried
pty.openpty() to create a pseudo terminal with master and slave file descriptors. After that, I've given the slave file descriptor as an argument for the
stdin parameters. Reading through the master file descriptor opened with
os.fdopen(...) yields the same result as using a different thread: the line demanding input doesn't get read.
Edit: Using @Antti Haapala's example of
pty.fork() for child process creation instead of
subprocess.Popen(...) seems to allow me also read the output created by
I've also tried the
readline() methods (documented here) of a process spawned with pexpect, but the best result, which I got with
is the same as before: the line with outputs before wanting the user to enter something doesn't get read. is the same as with a PTY created with
pty.fork(): the line demanding input does get read.
Edit: By using
sys.stdout.flush() instead of
I've also tried
select.poll(...), but it seemed that the pipe or PTY master file descriptors are always ready for writing.
- What also crossed my mind is to try feeding the input when some time has passed without new output having been generated. This, however, is risky, because there's no way to know if the program is just in the middle of doing a heavy calculation.
- As @Antti Haapala mentioned in his answer, the
read()system call wrapper from glibc could be replaced to communicate the inputs to the master program. However, this doesn't work with statically linked or assembly programs. (Although, now that I think of it, any such calls could be intercepted from the source code and replaced with the patched version of
read()- could be painstaking to implement still.)
- Modifying the Linux kernel code to communicate the
read()syscalls to the program is probably insane...
I think the PTY is the way to go, since it fakes a terminal and interactive programs are run on terminals everywhere. The question is, how?