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# CodeQ: an online programming tutor.
# Copyright (C) 2015,2016 UL FRI
#
# This program is free software: you can redistribute it and/or modify it under
# the terms of the GNU Affero General Public License as published by the Free
# Software Foundation, either version 3 of the License, or (at your option) any
# later version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for more
# details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from fcntl import fcntl, F_GETFL, F_SETFL
import io
import multiprocessing
import os
import pickle
import selectors
import signal
import subprocess
import sys
import threading
import time
from db.models import Problem
import server
import server.user_session
from server.problems import get_facts, load_language, load_problem
__all__ = ['PythonSession']
class PythonSession(server.LanguageSession):
"""Abstracts a Python session.
Only public methods are available to the outside world due to the use of multiprocessing managers.
Therefore prefix any private methods with an underscore (_).
No properties are accessible; use getters and setters instead.
Values are passed by value instead of by reference (deep copy!).
"""
def __init__(self, output_cb=None):
self._access_lock = threading.Lock()
self._sent_hints = []
self._notifier, receiver = multiprocessing.Pipe()
self._interpreter = threading.Thread(target=_interpreter,
kwargs={'control': receiver, 'callback': output_cb})
self._interpreter.start()
def run(self, code=None, inputs=None, timeout=1.0):
# Launch processes.
futures = []
for expr, stdin in inputs:
p = subprocess.Popen(proc_args + ['run'],
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.DEVNULL)
data = pickle.dumps((code, expr, stdin))
p.stdin.write(data)
futures.append(p)
# Wait for results.
results = []
start = time.monotonic()
for proc in futures:
now = time.monotonic()
real_timeout = max(0, timeout - (now - start))
try:
stdout, _ = proc.communicate(timeout=real_timeout)
result = pickle.loads(stdout)
results.append(result)
except subprocess.TimeoutExpired:
results.append((None, '', '', 'timed out'))
except EOFError:
results.append((None, '', '', 'sandbox violation'))
if proc.poll() is None:
try:
proc_kill(proc, signal.SIGKILL)
except:
pass
return results
def exec(self, program, problem_id):
problem = Problem.get(id=problem_id)
problem_module = load_problem(problem.language, problem.group, problem.identifier, 'common')
aux_code = get_facts(problem.language, problem_module)
self._notifier.send(('exec', aux_code+program))
def push(self, stdin):
self._notifier.send(('push', stdin))
def stop(self):
self._notifier.send(('stop', None))
def destroy(self):
self._notifier.send(('done', None))
def __del__(self):
self.destroy()
# TODO remove this
def hint(self, sid, problem_id, program):
return []
def test(self, sid, problem_id, program):
session = server.user_session.get_session_by_id(sid)
p = Problem.get(id=problem_id)
language_module = load_language(p.language, 'common')
problem_module = load_problem(p.language, p.group, p.identifier, 'common')
aux_code = get_facts(p.language, problem_module)
# experiment support for allowing none/automatic/manual/all hints
# descriptor: {'id': 'hints', 'group': 'none|automatic|manual|all'}
allowed_hints = 'all'
for experiment in session.get_experiments():
if experiment.get('id') == 'hints':
allowed_hints = experiment.get('group')
break
# check if the program is correct
passed, msgs = problem_module.test(self.run, program, aux_code)
if passed:
session.update_solution(problem_id, solution=program, done=True)
else:
hints = []
# manually defined problem-specific hints
if not hints and hasattr(language_module, 'hint'):
hints = language_module.hint(self.run, program, aux_code)
# generic language hints (style etc.)
if not hints and hasattr(problem_module, 'hint') and \
allowed_hints in ('all', 'manual'):
hints = problem_module.hint(self.run, program, aux_code)
if hints:
msgs.extend(hints)
self._instantiate_and_save_hints(language_module, problem_module, msgs)
return msgs
# Add hint parameters (such as message index) based on hint class. Append
# the finalized hints to the list of sent hints.
def _instantiate_and_save_hints(self, language_mod, problem_mod, hints):
with self._access_lock:
for hint in hints:
for mod in [language_mod, problem_mod]:
if hasattr(mod, 'hint_type') and hint['id'] in mod.hint_type:
hint_type = mod.hint_type[hint['id']]
hint_type.instantiate(hint, self._sent_hints)
self._sent_hints.extend(hints)
# If the sandbox wrapper exists, use it to switch to user "nobody" and enforce
# additional limits. Unless the daemon is running as root we are not able to
# signal nobody's PIDs, so switch user again for the killing.
_basedir = os.path.split(os.path.dirname(os.path.realpath(__file__)))[0]
_script = os.path.join(_basedir, 'python', 'runner', 'interpreter.py')
_sandbox = os.path.join(_basedir, 'python', 'runner', 'sandbox')
if os.path.exists(_sandbox):
newuser = 'nobody' # TODO make this configurable
proc_args = [_sandbox, newuser, _script]
proc_kill = lambda proc, sig: subprocess.call([_sandbox, newuser, 'kill', '-{}'.format(sig), str(proc.pid)])
else:
proc_args = [_script]
proc_kill = lambda proc, sig: proc.send_signal(sig)
def _interpreter(control, callback):
done = False
proc = None
# Remember how much text and how many newlines we received this second; if
# it is too much, kill the interpreter.
# TODO this is a hack to prevent the JS console from becoming unresponsive,
# it should be fixed there.
now = 0
length = newlines = 0
selector = selectors.DefaultSelector()
def command(conn):
nonlocal proc, done
# Get a control command.
try:
cmd, data = conn.recv()
if cmd == 'exec':
exec_str = 'exec("""\\\n{}\n""")\n'.format(data.replace('"', '\\"'))
proc.stdin.write(exec_str.encode('utf-8'))
proc.stdin.flush()
elif cmd == 'push':
proc.stdin.write(data.encode('utf-8'))
proc.stdin.flush()
elif cmd == 'stop':
proc_kill(proc, signal.SIGINT)
elif cmd == 'done':
done = True
except:
pass
def communicate(conn):
nonlocal proc, callback, now, length, newlines
if time.monotonic() - now > 1.0:
length = newlines = 0
now = time.monotonic()
# Communicate with child process.
data = proc.stdout.read1(1024)
if data and length < 100000 and newlines < 1000:
# NOTE this might fail if read() stops in the middle of utf8 sequence
text = data.decode('utf-8')
if text:
callback(text)
length += len(text)
newlines += text.count('\n')
else:
selector.unregister(conn)
if proc.poll() is None:
# Process has not terminated yet, make sure it does.
proc_kill(proc, signal.SIGKILL)
proc = None
length = newlines = 0
callback('Interpreter restarted.\n')
selector.register(control, selectors.EVENT_READ, command)
while not done:
# Ensure the interpreter process is running.
if proc is None:
proc = subprocess.Popen(proc_args,
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
# Set the non-blocking flag for stdout.
flags = fcntl(proc.stdout.fileno(), F_GETFL)
fcntl(proc.stdout.fileno(), F_SETFL, flags | os.O_NONBLOCK)
selector.register(proc.stdout, selectors.EVENT_READ, communicate)
events = selector.select()
for key, mask in events:
if mask & selectors.EVENT_READ:
try:
key.data(key.fileobj)
except:
pass
# We are done, kill the child.
selector.close()
if proc is not None:
proc_kill(proc, signal.SIGKILL)
server.language_session_handlers['python'] = lambda user_session, problem_id, language_identifier, group_identifier, problem_identifier: PythonSession(lambda text: user_session.send({'event': 'terminal_output', 'text': text}))
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