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I am new to the python language, so please bear with me. Also English isn't my native language so sorry for any misspelled words.

I have a question about updating a Django app from a daemon that runs locally on my server. I have a server setup which has 8 hot-swappable bays. Users can plug-in there hard disk(s) into the server and, after the server has detected that a new hard disk is plugged-in, it starts copying the contents of the hard disk to a location on the network. The current setup displays information about the process on an LCD screen.

The current setup works fine but I need to change it in a way that the whole process is displayed on a website (since this is more user friendly). So I need to display to the user when a disk is inserted into the server, the progress of the copy task etc.

My idea it to create a Django app that gets updated when a task in process is completed, but I can't seem to find any information about updating a Django app from a locally running daemon. It this even possible? Or is Django not the right way to go? Any ideas are welcome.

Below is my script used to copy content of disk to a location on the network. Hopefully it give some more information about what I doing/tying to do.

Many thanks in advance!

Script:

#!/usr/bin/env python

import os 
import sys
import glob
import re
import time
import datetime
import pyudev
import thread
import Queue
import gobject
import getopt

from pyudev import Context
from subprocess import Popen, PIPE
from subprocess import check_call
from lcdproc.server import Server
from pyudev.glib import GUDevMonitorObserver
from gobject import MainLoop
from threading import Thread

#used to show progress info
from progressbar import ProgressBar, Percentage, Bar, RotatingMarker, ETA,     FileTransferSpeed

# used to set up screens
lcd = Server("localhost", 13666, debug=False)
screens = []
widgets = []

#Used for threading
disk_work_queue = Queue.Queue()

# used to store remote nfs folders
remote_dirs = ['/mnt/nfs/', '/mnt/nfs1/', '/mnt/nfs2/']

#Foldername on remote server (NFS Share name)
REMOTE_NFS_SHARE = ''

# a process that runs infinity, it starts disk processing
# functions. 
class ProcessThread(Thread):
    def __init__(self):
    Thread.__init__(self)

def run(self):
while 1:
    try:
    disk_to_be_processed = disk_work_queue.get(block=False)
    set_widget_text(disk_to_be_processed[1], "Removed from queue..", "info", "on")
    process_disk(disk_to_be_processed[0], disk_to_be_processed[1])
    except Queue.Empty:
    time.sleep(10)
    set_main_widget_text("Please insert disks ")

# used to set message on the lcdscreen, message are set by disk
def set_widget_text(host, message, priority, blacklight):
    if host == "host4":
    screen_disk1 = screens[1]
    screen_disk1.clear()
    screen_disk1.set_priority(priority)
    screen_disk1.set_backlight(blacklight)
    widgets[1].set_text(str(message))
    elif host == "host5":
    screen_disk2 = screens[2]
    screen_disk2.clear()
    screen_disk2.set_priority(priority)
    screen_disk2.set_backlight(blacklight)
    widgets[2].set_text(str(message))
    elif host == "host6":
    screen_disk3 = screens[3]
    screen_disk3.clear()
    screen_disk3.set_priority(priority)
    screen_disk3.set_backlight(blacklight)
    widgets[3].set_text(str(message))
    elif host == "host7":
    screen_disk4 = screens[4]
    screen_disk4.clear()
    screen_disk4.set_priority(priority)
    screen_disk4.set_backlight(blacklight)
    widgets[4].set_text(str(message))                            

# used to set a message for all hosts
def set_widget_text_all(hosts, message, priority, blacklight):
    for host in hosts:
    set_widget_text(host, message, priority, blacklight)

def set_main_widget_text(message):
screen_disk1 = screens[0]
screen_disk1.clear()
screen_disk1.set_priority("info")
screen_disk1.set_backlight("on")
widgets[0].set_text(str(message))

# mounts, find logs files and copy image files to destionation
def process_disk(disk, host):
    datadisk = mount_disk(disk, host)
    source = datadisk + "/images"
    set_widget_text(host, "Processing, hold on ", "info", "on")
    cases = find_log(source)
    upload(source, cases, host)
    time.sleep(5)
umount_disk(host)
set_widget_text(host, "Disk can be removed", "info", "blink")
time.sleep(10)

# search the datadisk for logfiles containing information
# about cases and images
def find_log(src):
    inf = ""
    case = []
    for root,dirs,files in os.walk(src):
    for f in files:
        if f.endswith(".log"):
        log = open(os.path.join(root,f), 'r')
        lines = log.readlines()[2:5]
        for l in lines:
            inf += re.sub("\n","",l[11:]) + ":"
        log.close()
        print inf
        case.append(inf)
        inf = ""
    return case

def get_directory_size(dir):
    dir_size = 0
    for(path, dirs, files) in os.walk(dir):
    for file in files:
        filename = os.path.join(path, file)
        dir_size+=os.path.getsize(filename)
    return dir_size

# copies the image files to the destination location, dc3dd is used
# to copy the files in a forensicly correct way.
def upload(src, cases, host):
    remotedir = ''
    while len(cases) > 0:
    count = 0
        nfs_share_found = False
    case = cases.pop()
    onderzoek = case.split(':')[0];
    #verwijder de _ uit de naam van het object
    object = case.split(':')[1];
    #image = case.split(':')[2];
    localdir = src + '/' + onderzoek + '/' + object +'/'
    total_files = len(os.listdir(localdir))
    folder_size = get_directory_size(localdir)

for d in remote_dirs:
    if os.path.exists(d + onderzoek + '/B/' + object.replace('_',' ') + '/Images/'):
    nfs_share_found = True
            remotedir = d + onderzoek + '/B/' + object.replace('_', ' ') + '/Images/'
    break

    if nfs_share_found == False:
       set_widget_text(host, " Onderzoek onbekend ", "info", "flash")
       time.sleep(30)
       return

for root,dirs,files in os.walk(localdir):
    for uploadfile in files:
    currentfile = os.path.join(root, uploadfile)
    file_size = os.stat(currentfile).st_size
    copy_imagefile(currentfile, onderzoek, object, remotedir)
    count += 1
    percentage = int(count*file_size*100/folder_size)
    message = onderzoek + " Obj: " + object + "..%d%%" % percentage
    set_widget_text(host, message, "info", "on")
    set_widget_text(host, "  Copy Succesfull!  ", "info", "flash")

# the actualy function to copy the files, using dc3dd
def copy_imagefile(currentfile, onderzoek, object, remotedir):
    currentfilename = os.path.basename(currentfile)
    dc3dd = Popen(["dc3dd", "if=" + currentfile, "hash=md5", "log=/tmp/"+ onderzoek + "_" + object + ".log", "hof=" + remotedir + currentfilename,"verb=on", "nwspc=on"],stdin=PIPE,stdout=PIPE, stderr=PIPE)
    dc3dd_stdout = dc3dd.communicate()[1]
    awk = Popen([r"awk", "NR==13 { print $1 }"],stdin=PIPE, stdout=PIPE) 
    awk_stdin = awk.communicate(dc3dd_stdout)[0]
    output = awk_stdin.rstrip('\n')
    if output == "[ok]":
    return False
    else:
    return True

# when a disk gets inserted into the machine this function is called to prepare the disk
# for later use.
def device_added_callback(self, device):
    position = device.sys_path.find('host')
    host = device.sys_path[(position):(position+5)]
    set_widget_text(host, " New disk inserted! ", "info", "on")
    time.sleep(2)
    disk = "/dev/" + device.sys_path[-3:] + "1"
    disk_work_queue.put((disk, host))
    set_widget_text(host, " Placed in queue... ", "info", "on")

# gets called when the disk is removed form the machine  
def device_removed_callback(self, device):
    position = device.sys_path.find('host')
    host = device.sys_path[(position):(position+5)]
    #message = 'Slot %s : Please remove drive' % host[4:]
    set_widget_text(host, "    Replace disk    ", "info", "on")

# mounts the partition on the datadisk
def mount_disk(disk, host):
    #device = "/dev/" + disk + "1"
    mount_point = "/mnt/" + host
    if not os.path.exists(mount_point):
    os.mkdir(mount_point)
    cmd = ['mount', '-o', 'ro,noexec,noatime,nosuid', str(disk), str(mount_point)]
    check_call(cmd)
    set_widget_text(host, "    Disk mounted    ", "info", "on")
    return mount_point

# umounts the partition datadisk
def umount_disk(host):
    mount_point = "/mnt/" + host
    cmd = ['umount', str(mount_point)]
    check_call(cmd)
    os.removedirs(mount_point)

def build_screens():

screen_main = lcd.add_screen("MAIN")
screen_main.set_heartbeat("off")
screen_main.set_duration(3)
screen_main.set_priority("background")
widget0_1 = screen_main.add_string_widget("screen0Widget1", "  Welcome to AFFC   ", x=1, y=1)
widget0_2 = screen_main.add_string_widget("screen0Widget2", "Please insert disks ", x=1, y=2)
widgets.append(widget0_2)
screens.append(screen_main)

screen_disk1 = lcd.add_screen("DISK1")
screen_disk1.set_heartbeat("off")
screen_disk1.set_duration(3)
screen_disk1.clear()
widget_disk1_1 = screen_disk1.add_string_widget("disk1Widget1", "       Slot 1       ", x=1, y=1)
widget_disk1_2 = screen_disk1.add_string_widget("disk1Widget2", " Please insert disk ", x=1, y=2)
widgets.append(widget_disk1_2)
screens.append(screen_disk1)

screen_disk2 = lcd.add_screen("DISK2")
screen_disk2.set_heartbeat("off")
screen_disk2.set_duration(3)
widget_disk2_1 = screen_disk2.add_string_widget("disk2Widget1", "       Slot 2       ", x=1, y=1)
widget_disk2_2 = screen_disk2.add_string_widget("disk2Widget2", " Please insert disk ", x=1, y=2)
widgets.append(widget_disk2_2)
screens.append(screen_disk2)

screen_disk3 = lcd.add_screen("DISK3")
screen_disk3.set_heartbeat("off")
screen_disk3.set_duration(3)
widget_disk3_1 = screen_disk3.add_string_widget("disk3Widget1", "       Slot 3       ", x=1, y=1)
widget_disk3_2 = screen_disk3.add_string_widget("disk3Widget2", " Please insert disk ", x=1, y=2)
widgets.append(widget_disk3_2)
screens.append(screen_disk3)

screen_disk4 = lcd.add_screen("DISK4")
screen_disk4.set_heartbeat("off")
screen_disk4.set_duration(3)
widget_disk4_1 = screen_disk4.add_string_widget("disk4Widget1", "       Slot 4       ", x=1, y=1)
widget_disk4_2 = screen_disk4.add_string_widget("disk4Widget2", " Please insert disk ", x=1, y=2)
widgets.append(widget_disk4_2)
screens.append(screen_disk4)

def restart_program():
"""Restarts the current program.
   Note: this function does not return. Any cleanup action (like
   saving data) must be done before calling this function."""
python = sys.executable
os.execl(python, python, * sys.argv)

def main():

try:
    opts, args = getopt.getopt(sys.argv[1:], "hd:v", ["help", "destination="])
except getopt.GetoptError, err:
    # print help information and exit:
    print str(err) # will print something like "option -a not recognized"
    usage()
    sys.exit(2)
verbose = False
for o, a in opts:
    if o == "-v":
        verbose = True
    elif o in ("-h", "--help"):
        usage()
        sys.exit()
    elif o in ("-d", "--destination"):
        REMOTE_NFS_SHARE = a
    else:
        assert False, "unhandled option"

lcd.start_session()
build_screens()

#t = Thread(target=loop_disks_process())
#t.start();

context = pyudev.Context()
monitor = pyudev.Monitor.from_netlink(context)
observer = GUDevMonitorObserver(monitor)
observer.connect('device-added', device_added_callback)
observer.connect('device-removed', device_removed_callback)
monitor.filter_by(subsystem='block', device_type='disk')
monitor.enable_receiving()
mainloop = MainLoop()
gobject.threads_init()


t = ProcessThread()
t.start()

mainloop.run()

raw_input("Hit <enter>")
t.running = False
t.join()

if __name__ == "__main__":
try:
    main()
except Exception, e:
    restart_program()
share|improve this question

4 Answers 4

up vote 0 down vote accepted

Take a look at Django Piston. You can implement a RESTful API on your django app and call those apis from your demon. I use it on one of my project in which some worker processes need to communicate to frontend django apps periodically.

share|improve this answer
    
Thx you for your awnser! It seems that piston, from what I quickly –  Martijn van Leeuwen Jan 8 '12 at 13:01

Sorry, much too much code to read there.

I'm not sure what you mean by "updating" a Django app. Do you mean adding some data into the database? This is easy to do, either by getting your script to write directly into the DB, or by using something like a custom Django management command which can use the ORM.

share|improve this answer
    
aaah well it wasn't clear to my that you could update the database outside of Django without corrupting it in someway. I will have a look at the link you provided. tnks!! –  Martijn van Leeuwen Jan 5 '12 at 12:34
    
It also could be done inside Django app and I would be for that method :) –  demalexx Jan 5 '12 at 12:45

It could be done like this:

  • Daemon shares its disk information/copy progress using some inter-process communication method like simple text file or some memory objects;
  • Django view could then read this info and display it to the user;

Or daemon could call Django management command (@Daniel Roseman) and that command will then update app DB to represent current state.

share|improve this answer
    
tnx for your reply, would something like RabbitMQ be of any solution? Like daemon places messages into a queue, Django app processes these messages and send messages back to the daemon to do some additional work...our is this overkill? –  Martijn van Leeuwen Jan 5 '12 at 14:00
    
RabbitMQ could be used too, but IMHO it's too much :) It depends though, may be if you have many daemons on different machines and many Django app instances, RabbitMQ would fit well. I'm not familiar with IPC, may be there are simple solutions already to do things like yours (packages/snippets). –  demalexx Jan 5 '12 at 14:30

Consider using something like Memcached as a shared area to store the state of the drives.

As the drives are added or removed, the daemon should write those changes to Memcached, and on each page load the Django web app should read the state from Memcached. You could use a management command and a SQL database, but that seems like too many moving parts for such simple problem: you're only storing a handful boolean flags.

You might even try a micro-framework like Flask instead of Django, to reduce the complexity even more.

share|improve this answer

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