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I have a test harness (written in Python) that needs to shut down the program under test (written in C) by sending it ^C. On Unix,


works perfectly. On Windows, that throws an error ("signal 2 is not supported" or something like that). I am using Python 2.7 for Windows, so I have the impression that I should be able to do instead


but this doesn't do anything at all. What do I have to do? This is the code that creates the subprocess:

# Windows needs an extra argument passed to subprocess.Popen,
# but the constant isn't defined on Unix.
try: kwargs['creationflags'] = subprocess.CREATE_NEW_PROCESS_GROUP
except AttributeError: pass
proc = subprocess.Popen(argv,
                        stdin=open(os.path.devnull, "r"),
share|improve this question
This might be the only way -… with win32api oh or ctypes. – arunkumar Aug 16 '11 at 22:05
subprocess.kill will call TerminateProcess for me just fine, but that doesn't generate ^C. I specifically need to fake the behavior of typing ^C at the console. – zwol Aug 16 '11 at 22:12
try this - . apparently SendKeys.SendKeys("^c") should do it. – arunkumar Aug 16 '11 at 22:22
That's not going to work; it communicates with the active window, which may not be the console window in which the process is running -- and if it does happen to be the active window, it would generate a ^C event for every process running in there, including the test harness itself. The effect I want is that of GenerateConsoleCtrlEvent (and that is what subprocess.send_signal(signal.CTRL_C_EVENT) is documented to do in Python 2.7...) – zwol Aug 16 '11 at 22:25

3 Answers 3

There is a solution by using a wrapper (as described in the link Vinay provided) which is started in a new console window with the Windows start command.

Code of the wrapper:
import subprocess, time, signal, sys, os

def signal_handler(signal, frame):
  print 'Ctrl+C received in'

signal.signal(signal.SIGINT, signal_handler)
print " started"
time.sleep(3) #Replace with your IPC code here, which waits on a fire CTRL-C request
os.kill(signal.CTRL_C_EVENT, 0)

Code of the program catching CTRL-C:

import signal, sys, time

def signal_handler(signal, frame):
  print 'Ctrl+C received in'

signal.signal(signal.SIGINT, signal_handler)
print ' started'
#signal.pause() # does not work under Windows

Launch the wrapper like e.g.:

PythonPrompt> import subprocess
PythonPrompt> subprocess.Popen("start python", shell=True)

You need to add some IPC code which allows you to control the wrapper firing the os.kill(signal.CTRL_C_EVENT, 0) command. I used sockets for this purpose in my application.



  • send_signal(CTRL_C_EVENT) does not work because CTRL_C_EVENT is only for os.kill. [REF1]
  • os.kill(CTRL_C_EVENT) sends the signal to all processes running in the current cmd window [REF2]
  • Popen(..., creationflags=CREATE_NEW_PROCESS_GROUP) does not work because CTRL_C_EVENT is ignored for process groups. [REF2] This is a bug in the python documentation [REF3]

Implemented solution

  1. Let your program run in a different cmd window with the Windows shell command start.
  2. Add a CTRL-C request wrapper between your control application and the application which should get the CTRL-C signal. The wrapper will run in the same cmd window as the application which should get the CTRL-C signal.
  3. The wrapper will shutdown itself and the program which should get the CTRL-C signal by sending all processes in the cmd window the CTRL_C_EVENT.
  4. The control program should be able to request the wrapper to send the CTRL-C signal. This might be implemnted trough IPC means, e.g. sockets.

Helpful posts were:

I had to remove the http in front of the links because I'm a new user and are not allowed to post more than two links.

Update: IPC based CTRL-C Wrapper

Here you can find a selfwritten python module providing a CTRL-C wrapping including a socket based IPC. The syntax is quite similiar to the subprocess module.


>>> import winctrlc
>>> p1 = winctrlc.Popen("python")
>>> p2 = winctrlc.Popen("python")
>>> p3 = winctrlc.Popen("python")
>>> p2.send_ctrl_c()
>>> p1.send_ctrl_c()
>>> p3.send_ctrl_c()


import socket
import subprocess
import time
import random
import signal, os, sys

class Popen:
  _port = random.randint(10000, 50000)
  _connection = ''

  def _start_ctrl_c_wrapper(self, cmd):
    cmd_str = "start \"\" python "+"\""+cmd+"\""+" "+str(self._port)
    subprocess.Popen(cmd_str, shell=True)

  def _create_connection(self):
    self._connection = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
    self._connection.connect(('localhost', self._port))

  def send_ctrl_c(self):

  def __init__(self, cmd):

class Wrapper:
  TERMINATION_REQ = "Terminate with CTRL-C"

  def _create_connection(self, port):
    s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
    s.bind(('localhost', port))
    conn, addr = s.accept()
    return conn

  def _wait_on_ctrl_c_request(self, conn):
    while True:
      data = conn.recv(1024)
      if data == self.TERMINATION_REQ:
        ctrl_c_received = True
        ctrl_c_received = False
    return ctrl_c_received

  def _cleanup_and_fire_ctrl_c(self, conn):
    os.kill(signal.CTRL_C_EVENT, 0)

  def _signal_handler(self, signal, frame):

  def __init__(self, cmd, port):
    signal.signal(signal.SIGINT, self._signal_handler)
    conn = self._create_connection(port)
    ctrl_c_req_received = self._wait_on_ctrl_c_request(conn)
    if ctrl_c_req_received:

if __name__ == "__main__":
  command_string = sys.argv[1]
  port_no = int(sys.argv[2])
  Wrapper(command_string, port_no)
share|improve this answer
This technique (of the parent sending Ctrl+C to itself and its related processes) really works! I arrived at it independently, but I found that one should wait in the parent until SIGINT is handled, to avoid the signal interrupting e.g. system calls once it arrives. – aknuds1 Jul 16 '14 at 11:39

Try calling the GenerateConsoleCtrlEvent function using ctypes. As you are creating a new process group, the process group ID should be the same as the pid. So, something like

import ctypes

ctypes.windll.kernel32.GenerateConsoleCtrlEvent(0, # 0 => Ctrl-C

should work.

Update: You're right, I missed that part of the detail. Here's a post which suggests a possible solution, though it's a bit kludgy. More details are in this answer.

share|improve this answer
This didn't work either, so I reread the MSDN page and realized that it specifically says "you cannot send CTRL_C_EVENT to a process group, it has no effect". Sending CTRL_BREAK_EVENT instead does work (without ctypes even), and does precisely what I want in a toy test program, but when I use it on my real program-under-test I get the "has encountered a problem and needs to close" dialog box over and over again. Any ideas? – zwol Aug 16 '11 at 23:22

I have been trying this but for some reason ctrl+break works, and ctrl+c does not. So using os.kill(signal.CTRL_C_EVENT, 0) fails, but doing os.kill(signal.CTRL_C_EVENT, 1) works. I am told this has something to do with the create process owner being the only one that can pass a ctrl c? Does that make sense?

To clarify, while running fio manually in a command window it appears to be running as expected. Using the CTRL + BREAK breaks without storing the log as expected and CTRL + C finishes writing to the file also as expected. The problem appears to be in the signal for the CTRL_C_EVENT.

It almost appears to be a bug in Python but may rather be a bug in Windows. Also one other thing, I had a cygwin version running and sending the ctrl+c in python there worked as well, but then again we aren't really running native windows there.


import subprocess, time, signal, sys, os
command = '"C:\\Program Files\\fio\\fio.exe" --rw=randrw --bs=1M --numjobs=8 --iodepth=64 --direct=1 ' \
    '--sync=0 --ioengine=windowsaio --name=test --loops=10000 ' \
    '--size=99901800 --rwmixwrite=100 --do_verify=0 --filename=I\\:\\test ' \
    '--thread --output=C:\\output.txt'
def signal_handler(signal, frame):
  print 'Ctrl+C received in'

signal.signal(signal.SIGINT, signal_handler)
print 'command Starting'
print 'command started'
print 'Timeout Completed'
os.kill(signal.CTRL_C_EVENT, 0)
share|improve this answer

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