Exemplo n.º 1
0
def run():
    mythreads = list()
    for _ in range(threads):
        t = threading.Thread(target=dir_bruter, args=(words, ))
        t.start()
    for thread in mythreads:
        threading.join()
Exemplo n.º 2
0
def stop_thread():
    MyThread.STOP = True  # ask self threads to stop
    try:
        threading.join()
    except:
        pass
    MyLogger.log(modulename, 'WARNING', "Stopped thread.")
    return
Exemplo n.º 3
0
 def stop_thread(self):
     self.STOP = True  # ask self threads to stop
     if not self.inSync:
         self.lock.acquire()
         self.condition.notify()
         self.lock.release()
         for thrd in threading.enumerate():
             try:
                 threading.join()
             except:
                 pass
         if self.debug: print("Stopped threads.")
     self.RGBstop()
     return
Exemplo n.º 4
0
def stop_thread():
    global STOP, DisplayLock
    STOP = True        # ask self threads to stop
    try:
      with DisplayLock: DisplayLock.notify()
      for thrd in threading.enumerate():
        try:
            threading.join()
        except:
            pass
    except: return
    if debug:
        print("Stopped threads.")
    return
Exemplo n.º 5
0
 def stop_thread(self):
     self.STOP = True  # ask self threads to stop
     #self.sleepCond.acquire()
     with self.sleepCond:
         self.sleepCond.notify()
     #self.sleepCond.release()
     for thrd in threading.enumerate():
         try:
             threading.join()
         except:
             pass
     if self.DEBUG:
         print("Stopped threads.")
     return
Exemplo n.º 6
0
def main():
    global t_arpspoof, t_tcpkill
    if os.name != 'posix':
        kout.error('Only support on GNU/Linux system.\n')
        os._exit(1)

    parse_args()
    kout.info('arpkill is running.\n')
    kout.info('attack information:\n')
    kout.out('\tinterface: %s\n' % INTERFACE)
    kout.out('\tgateway  : %s\n' % GATEWAY)
    kout.out('\ttarget   : %s\n' % TARGET)
    cmd_arpspoof = 'arpspoof -i %s -t %s %s -r' % (INTERFACE, GATEWAY, TARGET)
    cmd_tcpkill = 'tcpkill -i %s net %s' % (INTERFACE, TARGET)
    run_arpspoof = lambda: sp.Popen(
        cmd_arpspoof.split(), stdout=sp.PIPE, stderr=sp.PIPE, shell=False)
    run_tcpkill = lambda: sp.Popen(
        cmd_tcpkill.split(), stdout=sp.PIPE, stderr=sp.PIPE, shell=False)

    kout.info('arpspoof is running\n')
    t_arpspoof = threading.Thread(target=run_arpspoof).start()
    kout.info('tcpkill is running\n')
    t_tcpkill = threading.Thread(target=run_tcpkill).start()

    try:
        while True:
            time.sleep(1000)
    except KeyboardInterrupt:
        kout.info('waiting for all threads to stop.\n')
        os.system('killall arpspoof tcpkill >/dev/null')
        t_main = threading.current_thread()
        for thread in threading.enumerate():
            if thread != t_main:
                threading.join(thread)
        kout.info('all threads are stopped.\n')
        return
import threading
from threading import Thread

f = open("prime.txt", "wt")


class PrimeThread(Thread):
    def __init__(self, num):
        Thread.__init__(self)
        self.num = num

    def run(self):
        for n in range(2, self.num // 2):
            if self.num % n == 0:
                f.write(f"\n{self.num} is not a prime number")
                break
        else:
            f.write(f"\n{self.num} is a prime number")


for n in range(1, 101):
    t = PrimeThread(n)
    t.start()

for i in threading.enumerate():
    if i != threading.current_thread():
        threading.join()

f.close()
        """
        Retorna si se esta descargando actualmente o no.
        """
        return self.descargando

    def mensajeEmergente(self, mensaje):
        win = tk.Toplevel()
        win.wm_title("Tiempo transcurrido")
        lbtiempo = tk.Label(win, text=mensaje)
        lbtiempo.grid(row=0, column=0)
        quit = tk.Button(win, text="Close", fg="red", command=win.destroy)
        quit.grid(row=2, column=0)

    def terminar(self):
        cerrarConexion(self)
        root.destroy()

    def finalizarDescarga(self):
        self.sdetener.set("-")
        self.descargando = 0


if __name__ == '__main__':
    """
    Si se llama este metodo, se crea la interfaz con la clase Application y se inicia
    """
    root = tk.Tk()
    app = Application(master=root)
    app.mainloop()
    threading.join(1)
Exemplo n.º 9
0
try:
    from run import main
    main.current_dir = os.path.split(os.path.abspath(sys.argv[0]))[0]
    main.init();
    main.start();
except KeyboardInterrupt, e:
    main_thread = threading.current_thread();
    if config.http_server("server.error.beep") == "enable":
        kout.error("\a");
    else:
        kout.error("");
    kout.cyan("kps"); kout.out(": shutting down server: ");
    try:
        for t in threading.enumerate():
            if t != main_thread:
                t.join();
                threading.join(timeout=5);
        kps_server.shutdown(socket.SHUT_WR)
    except RuntimeError:
        kout.red("\tFAILED\n");
        if config.http_server("server.error.beep") == "enable":
            kout.error("\a");
        else:
            kout.error("");
        kout.cyan("kps"); kout.out(": force shutting down server.\n");
        sys.exit(1);
    else:
        kout.cyan("\tOK\n");
        kout.info(""); kout.cyan("kps"); kout.out(": exiting.\n");
        sys.exit(0);
Exemplo n.º 10
0
    try:
        while True:
            time.sleep(1000)
    except KeyboardInterrupt:
        kout.info('waiting for all threads to stop.\n')
        os.system('killall arpspoof tcpkill >/dev/null')
        t_main = threading.current_thread()
        for thread in threading.enumerate():
            if thread != t_main:
                threading.join(thread)
        kout.info('all threads are stopped.\n')
        return


if __name__ == "__main__":
    try:
        main()
    except KeyboardInterrupt:
        if t_tcpkill or t_arpspoof:
            kout.info('Waiting for all threads to stop.')
            os.system('killall arpspoof tcpkill >/dev/null')
            t_main = threading.current_thread()
            for thread in threading.enumerate():
                if thread != t_main:
                    threading.join(thread)
        kout.error('user quit.\n')
        os._exit(1)
    else:
        kout.info('exitting.\n')
Exemplo n.º 11
0
    threads.append(
        th.Thread(target=find,
                  args=(
                      pre_p_min + (i * per_one_core),
                      pre_p_min + ((i + 1) * per_one_core),
                  )))
    # # print([pre_p_min + (i*per_one_core), pre_p_min + ((i+1)*per_one_core)])

# print("Calculating...")

for th in threads:
    th.run()

for th in threads:
    if th.is_alive():
        th.join()

wyn = 20000000000000.0
act_ratio = 1
th_lck.acquire()
for a_r in wyniki:
    temp = d_in
    for _ in range(k):
        temp *= (1.0 - a_r)
    r = abs(d_out - temp)
    if r < wyn:
        act_ratio = a_r
        wyn = r

# def wyswietl(rati):
# 	temp = d_in
Exemplo n.º 12
0
    def stop(self):
        """

        """
        print('Stop thread')
        threading.join(10)
Exemplo n.º 13
0
Arquivo: main.py Projeto: MarcMDE/LASO
def finalitzar():
    global th
    if th is not None:
        th.join()
    print()
    sys.exit()