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I can't get the following code for Detecting USB Device Insertion to work on my Windows 10 (64 bit) computer with Python 3.7.
import win32serviceutil
import win32service
import win32event
import servicemanager
import win32gui
import win32gui_struct
struct = win32gui_struct.struct
pywintypes = win32gui_struct.pywintypes
import win32con
GUID_DEVINTERFACE_USB_DEVICE = "{A5DCBF10-6530-11D2-901F-00C04FB951ED}"
DBT_DEVICEARRIVAL = 0x8000
DBT_DEVICEREMOVECOMPLETE = 0x8004
import ctypes
#
# Cut-down clone of UnpackDEV_BROADCAST from win32gui_struct, to be
# used for monkey-patching said module with correct handling
# of the "name" param of DBT_DEVTYPE_DEVICEINTERFACE
#
def _UnpackDEV_BROADCAST (lparam):
if lparam == 0: return None
hdr_format = "iii"
hdr_size = struct.calcsize (hdr_format)
hdr_buf = win32gui.PyGetMemory (lparam, hdr_size)
size, devtype, reserved = struct.unpack ("iii", hdr_buf)
# Due to x64 alignment issues, we need to use the full format string over
# the entire buffer. ie, on x64:
# calcsize('iiiP') != calcsize('iii')+calcsize('P')
buf = win32gui.PyGetMemory (lparam, size)
extra = {}
if devtype == win32con.DBT_DEVTYP_DEVICEINTERFACE:
fmt = hdr_format + "16s"
_, _, _, guid_bytes = struct.unpack (fmt, buf[:struct.calcsize(fmt)])
extra['classguid'] = pywintypes.IID (guid_bytes, True)
extra['name'] = ctypes.wstring_at (lparam + struct.calcsize(fmt))
else:
raise NotImplementedError("unknown device type %d" % (devtype,))
return win32gui_struct.DEV_BROADCAST_INFO(devtype, **extra)
win32gui_struct.UnpackDEV_BROADCAST = _UnpackDEV_BROADCAST
class DeviceEventService (win32serviceutil.ServiceFramework):
_svc_name_ = "DevEventHandler"
_svc_display_name_ = "Device Event Handler"
_svc_description_ = "Handle device notification events"
def __init__(self, args):
win32serviceutil.ServiceFramework.__init__ (self, args)
self.hWaitStop = win32event.CreateEvent (None, 0, 0, None)
#
# Specify that we're interested in device interface
# events for USB devices
#
filter = win32gui_struct.PackDEV_BROADCAST_DEVICEINTERFACE (
GUID_DEVINTERFACE_USB_DEVICE
)
self.hDevNotify = win32gui.RegisterDeviceNotification (
self.ssh, # copy of the service status handle
filter,
win32con.DEVICE_NOTIFY_SERVICE_HANDLE
)
#
# Add to the list of controls already handled by the underlying
# ServiceFramework class. We're only interested in device events
#
def GetAcceptedControls(self):
rc = win32serviceutil.ServiceFramework.GetAcceptedControls (self)
rc |= win32service.SERVICE_CONTROL_DEVICEEVENT
return rc
#
# Handle non-standard service events (including our device broadcasts)
# by logging to the Application event log
#
def SvcOtherEx(self, control, event_type, data):
if control == win32service.SERVICE_CONTROL_DEVICEEVENT:
info = win32gui_struct.UnpackDEV_BROADCAST(data)
#
# This is the key bit here where you'll presumably
# do something other than log the event. Perhaps pulse
# a named event or write to a secure pipe etc. etc.
#
if event_type == DBT_DEVICEARRIVAL:
servicemanager.LogMsg (
servicemanager.EVENTLOG_INFORMATION_TYPE,
0xF000,
("Device %s arrived" % info.name, '')
)
elif event_type == DBT_DEVICEREMOVECOMPLETE:
servicemanager.LogMsg (
servicemanager.EVENTLOG_INFORMATION_TYPE,
0xF000,
("Device %s removed" % info.name, '')
)
#
# Standard stuff for stopping and running service; nothing
# specific to device notifications
#
def SvcStop(self):
self.ReportServiceStatus (win32service.SERVICE_STOP_PENDING)
win32event.SetEvent (self.hWaitStop)
def SvcDoRun(self):
win32event.WaitForSingleObject (self.hWaitStop, win32event.INFINITE)
servicemanager.LogMsg (
servicemanager.EVENTLOG_INFORMATION_TYPE,
servicemanager.PYS_SERVICE_STOPPED,
(self._svc_name_, '')
)
if __name__=='__main__':
win32serviceutil.HandleCommandLine (DeviceEventService)
I start the script with the following command: python main.py start
Then the following error messages appear in the command prompt:
Starting service DevEventHandler
Error starting service: Access denied
I then ran the script with administrator privileges: runas /user:administrator "python main.py start"
Another error messages appear in the command prompt:
Starting service DevEventHandler
Error starting service: The specified service does not exist as an installed service.
How can the 'The specified service does not exist as an installed service' error be fixed?
I tested with Python 3.8.2 x64.
Install pywin32 (pip install pywin32)
Install the current/last version (1.5) of the WMI module from https://github.com/tjguk/wmi (pip install -e git+https://github.com/tjguk/wmi.git#egg=wmi)
run a script (test.py in my case), like:
import wmi
raw_wql = "SELECT * FROM __InstanceCreationEvent WITHIN 2 WHERE TargetInstance ISA \'Win32_USBHub\'"
c = wmi.WMI ()
watcher = c.watch_for(raw_wql=raw_wql)
while 1:
usb = watcher ()
print(usb)
plug in a USB device. Output looks like:
(wmi-py) C:\Users\USER\Source\wmi-py>py test.py
instance of Win32_USBHub
{
Caption = "USB Composite Device";
ConfigManagerErrorCode = 0;
ConfigManagerUserConfig = FALSE;
CreationClassName = "Win32_USBHub";
Description = "USB Composite Device";
...
Many thanks to the WMI module author, and the Windows nerds' discussion here Detecting USB drive insertion and removal using windows service and c#
I tried to run the script with debug argument and a message saying that service is not installed appeared.
Try first to type
python main.py install
then
python main.py start
The Problem:
Every time I restart my computer my Windows 8 power settings go back to default and puts my computer to sleep after an hour. I don't want my computer to ever go to sleep unless I say so... I have to go in Control Panel > System and Security > Power Options > Edit Plan Settings and manually edit the put the computer to sleep setting to Never.
What I want:
A Python script to edit the Power Options in Windows 8. I will set it to run every time I reboot.
I've searched for a Python module to edit Windows settings but couldn't find what I was looking for. I've played with win32api to control my courser a while back but couldn't find Power Options in its documentation.
Julius Caesar's hint about using powercfg command-line options was perfect.
Here is the simple script I ended up using:
import subprocess
subprocess.call("powercfg -change -standby-timeout-ac 0")
The -standby-timeout-ac option is set to zero so my computer will Never go to sleep
I think You should look into powercfg Windows' command and set whatever You like with python's subprocess.call, for example:
import subprocess
subprocess.call("powercfg -change -monitor-timeout-ac 666")
I guess it is pretty self-explanatory: change '-ac' to '-dc' for battery setting, value is in minutes and zero stands for infinity, obviously.
I had a solution which heavily involve with win32com.client
It is work on windows 10
import win32com.client
class PowerPlan(Computer):
def __init__(self, mk="//./root/cimv2/power"):
super(PowerPlan, self).__init__(mk)
self.power_info = None
self.power_plan = None
def get_active_power_plan(self) -> str:
power_plans = self.wmi.InstancesOf("Win32_powerplan")
for plan in power_plans:
if plan.IsActive:
match = re.search(r'\{(.+?)\}', plan.InstanceID)
self.power_plan = plan
return match.group(1)
def get_power_plan_index(self, guid_id):
unknown_list = []
current_power_plan_index = {"AC": {}, "DC": {}}
power_index = self.wmi.InstancesOf("Win32_powersettingdataindex")
for power_value in power_index:
# print(type(power_value))
# print(dir(power_value))
match = re.search(guid_id, power_value.InstanceID)
if match is not None:
match = re.search(guid_id + r'\}\\(\w{2})\\\{(.+?)\}', power_value.InstanceID)
power_mode = match.group(1)
power_tag = match.group(2)
try:
power_word = PowerPlanGUID(power_tag).name
except Exception as Err:
# print("Unknown Tag GUID: " + power_tag)
if power_tag not in unknown_list:
unknown_list.append(power_tag)
continue
# power_info = {power_word : power_value.settingindexvalue}
current_power_plan_index[power_mode][power_word] = power_value.settingindexvalue
self.power_info = current_power_plan_index
self._json_dump(self.power_info)
def set_power_plan_value(self, act_plan_guid, power_mode, power_plan_value_guid, value):
power_index = self.wmi.InstancesOf("Win32_powersettingdataindex")
for power_setting in power_index:
match = re.search(act_plan_guid + r'\}\\' + power_mode + r'\\\{' + power_plan_value_guid + r'\}',
power_setting.InstanceID)
# match = re.search(power_plan_value_guid, power_setting.InstanceID)
if match is not None:
print(power_setting.InstanceID)
print(power_setting.settingindexvalue)
# Properties_
power_setting.Properties_("SettingIndexValue").Value = value
# How to make the changed value work
power_setting.Put_()
act_method = self.power_plan.Methods_("Activate")
self.power_plan.ExecMethod_("Activate")
else:
pass
I know it's a bit late, but there has been a new module published named "powerplan".
pip install powerplan
Then import the module:
import powerplan
To get your current power plan scheme use:
print(powerplan.get_current_scheme_name())
print(powerplan.get_current_scheme_guid())
To change your power plan scheme use:
powerplan.change_current_scheme_to_powersaver()
powerplan.change_current_scheme_to_balanced()
powerplan.change_current_scheme_to_high()
I apologise if the question is so stupid but I am new in linux and python.
The point is that I need to write a python script which will detect connected usb stick and write a file to it. I use opensuse(but script shoild work with any linux distro. in ideal case). Current version can detect usb and write a file if that usb is mounted. But on my machine usb is mounted only if I browse it in file manager. Until that usb detected as a partion but without mount point. So, how can I force the system to mount usb or how can I write a file using devname or devpath or another information what I can get from hal manager. I can not use "mount" command because it requires a root permission
Simplified Source code:
import dbus, gobject, os
class DeviceAddedListener:
def __init__(self):
self.bus = dbus.SystemBus()
self.hal_manager_obj = self.bus.get_object( "org.freedesktop.Hal", "/org/freedesktop/Hal/Manager")
self.hal_manager = dbus.Interface(self.hal_manager_obj, "org.freedesktop.Hal.Manager")
self.hal_manager.connect_to_signal("DeviceAdded", self.added)
def show(self, name, udi):
d_object = self.bus.get_object('org.freedesktop.Hal', udi)
d_interface = dbus.Interface(d_object,'org.freedesktop.Hal.Device')
if d_interface.QueryCapability("volume"):
print name
props = [ "block.device", "volume.label", "volume.is_mounted", "volume.mount_point", "volume.size"]
for p in props:
print '\t', p, " = ",
try:
print d_interface.GetProperty(p)
except:
print "Fail"
def added(self, udi):
self.show("DeviceAdded", udi)
self.bus.add_signal_receiver(self.property_modified,
"PropertyModified",
"org.freedesktop.Hal.Device",
"org.freedesktop.Hal",
udi,
path_keyword = "sending_device" )
def property_modified(self, numupdates, updates, sending_device = None):
self.show("PropertyModified", sending_device)
if __name__ == '__main__':
from dbus.mainloop.glib import DBusGMainLoop
DBusGMainLoop(set_as_default=True)
loop = gobject.MainLoop()
DeviceAddedListener()
print "running"
loop.run()
The output when usb plugged in
DeviceAdded
block.device = /dev/sdb1
volume.label = #
volume.is_mounted = 0
volume.mount_point =
volume.size = 4009722368
The output when usb plugged in and mounted
block.device = /dev/sdb1
volume.label = #
volume.is_mounted = 1
volume.mount_point = /media/#
volume.size = 4009722368
Thanks for any help!
You will have to use mount because the kernel controls mounting partitions within the operating system for security reasons. You can use mount without superuser/administrator privileges. Try something like this:
Make sure that the directory (/mnt/usb1/) you are mounting to already exists, and then
mount /dev/sdb1 /mnt/usb1 -o noauto,users,rw,umask=0
There's also something called autofs that does allow automatic mounting:
http://linuxconfig.org/automatically-mount-usb-external-drive-with-autofs
The HAL it's discontinued, I think so better use UDisks to work with pen USB. Then, you can use methods FilesystemMount and FilesystemUnmount, I create one example here (https://gist.github.com/3037221) and have oficial documantation here (http://hal.freedesktop.org/docs/udisks/Device.html#Device.FilesystemMount).
I have a log file being written by another process which I want to watch for changes. Each time a change occurs I'd like to read the new data in to do some processing on it.
What's the best way to do this? I was hoping there'd be some sort of hook from the PyWin32 library. I've found the win32file.FindNextChangeNotification function but have no idea how to ask it to watch a specific file.
If anyone's done anything like this I'd be really grateful to hear how...
[Edit] I should have mentioned that I was after a solution that doesn't require polling.
[Edit] Curses! It seems this doesn't work over a mapped network drive. I'm guessing windows doesn't 'hear' any updates to the file the way it does on a local disk.
Did you try using Watchdog?
Python API library and shell utilities to monitor file system events.
Directory monitoring made easy with
A cross-platform API.
A shell tool to run commands in response to directory changes.
Get started quickly with a simple example in Quickstart...
If polling is good enough for you, I'd just watch if the "modified time" file stat changes. To read it:
os.stat(filename).st_mtime
(Also note that the Windows native change event solution does not work in all circumstances, e.g. on network drives.)
import os
class Monkey(object):
def __init__(self):
self._cached_stamp = 0
self.filename = '/path/to/file'
def ook(self):
stamp = os.stat(self.filename).st_mtime
if stamp != self._cached_stamp:
self._cached_stamp = stamp
# File has changed, so do something...
If you want a multiplatform solution, then check QFileSystemWatcher.
Here an example code (not sanitized):
from PyQt4 import QtCore
#QtCore.pyqtSlot(str)
def directory_changed(path):
print('Directory Changed!!!')
#QtCore.pyqtSlot(str)
def file_changed(path):
print('File Changed!!!')
fs_watcher = QtCore.QFileSystemWatcher(['/path/to/files_1', '/path/to/files_2', '/path/to/files_3'])
fs_watcher.connect(fs_watcher, QtCore.SIGNAL('directoryChanged(QString)'), directory_changed)
fs_watcher.connect(fs_watcher, QtCore.SIGNAL('fileChanged(QString)'), file_changed)
It should not work on windows (maybe with cygwin ?), but for unix user, you should use the "fcntl" system call. Here is an example in Python. It's mostly the same code if you need to write it in C (same function names)
import time
import fcntl
import os
import signal
FNAME = "/HOME/TOTO/FILETOWATCH"
def handler(signum, frame):
print "File %s modified" % (FNAME,)
signal.signal(signal.SIGIO, handler)
fd = os.open(FNAME, os.O_RDONLY)
fcntl.fcntl(fd, fcntl.F_SETSIG, 0)
fcntl.fcntl(fd, fcntl.F_NOTIFY,
fcntl.DN_MODIFY | fcntl.DN_CREATE | fcntl.DN_MULTISHOT)
while True:
time.sleep(10000)
Check out pyinotify.
inotify replaces dnotify (from an earlier answer) in newer linuxes and allows file-level rather than directory-level monitoring.
For watching a single file with polling, and minimal dependencies, here is a fully fleshed-out example, based on answer from Deestan (above):
import os
import sys
import time
class Watcher(object):
running = True
refresh_delay_secs = 1
# Constructor
def __init__(self, watch_file, call_func_on_change=None, *args, **kwargs):
self._cached_stamp = 0
self.filename = watch_file
self.call_func_on_change = call_func_on_change
self.args = args
self.kwargs = kwargs
# Look for changes
def look(self):
stamp = os.stat(self.filename).st_mtime
if stamp != self._cached_stamp:
self._cached_stamp = stamp
# File has changed, so do something...
print('File changed')
if self.call_func_on_change is not None:
self.call_func_on_change(*self.args, **self.kwargs)
# Keep watching in a loop
def watch(self):
while self.running:
try:
# Look for changes
time.sleep(self.refresh_delay_secs)
self.look()
except KeyboardInterrupt:
print('\nDone')
break
except FileNotFoundError:
# Action on file not found
pass
except:
print('Unhandled error: %s' % sys.exc_info()[0])
# Call this function each time a change happens
def custom_action(text):
print(text)
watch_file = 'my_file.txt'
# watcher = Watcher(watch_file) # simple
watcher = Watcher(watch_file, custom_action, text='yes, changed') # also call custom action function
watcher.watch() # start the watch going
Well after a bit of hacking of Tim Golden's script, I have the following which seems to work quite well:
import os
import win32file
import win32con
path_to_watch = "." # look at the current directory
file_to_watch = "test.txt" # look for changes to a file called test.txt
def ProcessNewData( newData ):
print "Text added: %s"%newData
# Set up the bits we'll need for output
ACTIONS = {
1 : "Created",
2 : "Deleted",
3 : "Updated",
4 : "Renamed from something",
5 : "Renamed to something"
}
FILE_LIST_DIRECTORY = 0x0001
hDir = win32file.CreateFile (
path_to_watch,
FILE_LIST_DIRECTORY,
win32con.FILE_SHARE_READ | win32con.FILE_SHARE_WRITE,
None,
win32con.OPEN_EXISTING,
win32con.FILE_FLAG_BACKUP_SEMANTICS,
None
)
# Open the file we're interested in
a = open(file_to_watch, "r")
# Throw away any exising log data
a.read()
# Wait for new data and call ProcessNewData for each new chunk that's written
while 1:
# Wait for a change to occur
results = win32file.ReadDirectoryChangesW (
hDir,
1024,
False,
win32con.FILE_NOTIFY_CHANGE_LAST_WRITE,
None,
None
)
# For each change, check to see if it's updating the file we're interested in
for action, file in results:
full_filename = os.path.join (path_to_watch, file)
#print file, ACTIONS.get (action, "Unknown")
if file == file_to_watch:
newText = a.read()
if newText != "":
ProcessNewData( newText )
It could probably do with a load more error checking, but for simply watching a log file and doing some processing on it before spitting it out to the screen, this works well.
Thanks everyone for your input - great stuff!
Check my answer to a similar question. You could try the same loop in Python. This page suggests:
import time
while 1:
where = file.tell()
line = file.readline()
if not line:
time.sleep(1)
file.seek(where)
else:
print line, # already has newline
Also see the question tail() a file with Python.
This is another modification of Tim Goldan's script that runs on unix types and adds a simple watcher for file modification by using a dict (file=>time).
usage: whateverName.py path_to_dir_to_watch
#!/usr/bin/env python
import os, sys, time
def files_to_timestamp(path):
files = [os.path.join(path, f) for f in os.listdir(path)]
return dict ([(f, os.path.getmtime(f)) for f in files])
if __name__ == "__main__":
path_to_watch = sys.argv[1]
print('Watching {}..'.format(path_to_watch))
before = files_to_timestamp(path_to_watch)
while 1:
time.sleep (2)
after = files_to_timestamp(path_to_watch)
added = [f for f in after.keys() if not f in before.keys()]
removed = [f for f in before.keys() if not f in after.keys()]
modified = []
for f in before.keys():
if not f in removed:
if os.path.getmtime(f) != before.get(f):
modified.append(f)
if added: print('Added: {}'.format(', '.join(added)))
if removed: print('Removed: {}'.format(', '.join(removed)))
if modified: print('Modified: {}'.format(', '.join(modified)))
before = after
Here is a simplified version of Kender's code that appears to do the same trick and does not import the entire file:
# Check file for new data.
import time
f = open(r'c:\temp\test.txt', 'r')
while True:
line = f.readline()
if not line:
time.sleep(1)
print 'Nothing New'
else:
print 'Call Function: ', line
Well, since you are using Python, you can just open a file and keep reading lines from it.
f = open('file.log')
If the line read is not empty, you process it.
line = f.readline()
if line:
// Do what you want with the line
You may be missing that it is ok to keep calling readline at the EOF. It will just keep returning an empty string in this case. And when something is appended to the log file, the reading will continue from where it stopped, as you need.
If you are looking for a solution that uses events, or a particular library, please specify this in your question. Otherwise, I think this solution is just fine.
Simplest solution for me is using watchdog's tool watchmedo
From https://pypi.python.org/pypi/watchdog I now have a process that looks up the sql files in a directory and executes them if necessary.
watchmedo shell-command \
--patterns="*.sql" \
--recursive \
--command='~/Desktop/load_files_into_mysql_database.sh' \
.
As you can see in Tim Golden's article, pointed by Horst Gutmann, WIN32 is relatively complex and watches directories, not a single file.
I'd like to suggest you look into IronPython, which is a .NET python implementation.
With IronPython you can use all the .NET functionality - including
System.IO.FileSystemWatcher
Which handles single files with a simple Event interface.
This is an example of checking a file for changes. One that may not be the best way of doing it, but it sure is a short way.
Handy tool for restarting application when changes have been made to the source. I made this when playing with pygame so I can see effects take place immediately after file save.
When used in pygame make sure the stuff in the 'while' loop is placed in your game loop aka update or whatever. Otherwise your application will get stuck in an infinite loop and you will not see your game updating.
file_size_stored = os.stat('neuron.py').st_size
while True:
try:
file_size_current = os.stat('neuron.py').st_size
if file_size_stored != file_size_current:
restart_program()
except:
pass
In case you wanted the restart code which I found on the web. Here it is. (Not relevant to the question, though it could come in handy)
def restart_program(): #restart application
python = sys.executable
os.execl(python, python, * sys.argv)
Have fun making electrons do what you want them to do.
Seems that no one has posted fswatch. It is a cross-platform file system watcher. Just install it, run it and follow the prompts.
I've used it with python and golang programs and it just works.
ACTIONS = {
1 : "Created",
2 : "Deleted",
3 : "Updated",
4 : "Renamed from something",
5 : "Renamed to something"
}
FILE_LIST_DIRECTORY = 0x0001
class myThread (threading.Thread):
def __init__(self, threadID, fileName, directory, origin):
threading.Thread.__init__(self)
self.threadID = threadID
self.fileName = fileName
self.daemon = True
self.dir = directory
self.originalFile = origin
def run(self):
startMonitor(self.fileName, self.dir, self.originalFile)
def startMonitor(fileMonitoring,dirPath,originalFile):
hDir = win32file.CreateFile (
dirPath,
FILE_LIST_DIRECTORY,
win32con.FILE_SHARE_READ | win32con.FILE_SHARE_WRITE,
None,
win32con.OPEN_EXISTING,
win32con.FILE_FLAG_BACKUP_SEMANTICS,
None
)
# Wait for new data and call ProcessNewData for each new chunk that's
# written
while 1:
# Wait for a change to occur
results = win32file.ReadDirectoryChangesW (
hDir,
1024,
False,
win32con.FILE_NOTIFY_CHANGE_LAST_WRITE,
None,
None
)
# For each change, check to see if it's updating the file we're
# interested in
for action, file_M in results:
full_filename = os.path.join (dirPath, file_M)
#print file, ACTIONS.get (action, "Unknown")
if len(full_filename) == len(fileMonitoring) and action == 3:
#copy to main file
...
Since I have it installed globally, my favorite approach is to use nodemon. If your source code is in src, and your entry point is src/app.py, then it's as easy as:
nodemon -w 'src/**' -e py,html --exec python src/app.py
... where -e py,html lets you control what file types to watch for changes.
Here's an example geared toward watching input files that write no more than one line per second but usually a lot less. The goal is to append the last line (most recent write) to the specified output file. I've copied this from one of my projects and just deleted all the irrelevant lines. You'll have to fill in or change the missing symbols.
from PyQt5.QtCore import QFileSystemWatcher, QSettings, QThread
from ui_main_window import Ui_MainWindow # Qt Creator gen'd
class MainWindow(QMainWindow, Ui_MainWindow):
def __init__(self, parent=None):
QMainWindow.__init__(self, parent)
Ui_MainWindow.__init__(self)
self._fileWatcher = QFileSystemWatcher()
self._fileWatcher.fileChanged.connect(self.fileChanged)
def fileChanged(self, filepath):
QThread.msleep(300) # Reqd on some machines, give chance for write to complete
# ^^ About to test this, may need more sophisticated solution
with open(filepath) as file:
lastLine = list(file)[-1]
destPath = self._filemap[filepath]['dest file']
with open(destPath, 'a') as out_file: # a= append
out_file.writelines([lastLine])
Of course, the encompassing QMainWindow class is not strictly required, ie. you can use QFileSystemWatcher alone.
Just to put this out there since no one mentioned it: there's a Python module in the Standard Library named filecmp which has this cmp() function that compares two files.
Just make sure you don't do from filecmp import cmp to not overshadow the built-in cmp() function in Python 2.x. That's okay in Python 3.x, though, since there's no such built-in cmp() function anymore.
Anyway, this is how its use looks like:
import filecmp
filecmp.cmp(path_to_file_1, path_to_file_2, shallow=True)
The argument shallow defaults to True. If the argument's value is True, then only the metadata of the files are compared; however, if the argument's value is False, then the contents of the files are compared.
Maybe this information will be useful to someone.
watchfiles (https://github.com/samuelcolvin/watchfiles) is a Python API and CLI that uses the Notify (https://github.com/notify-rs/notify) library written in Rust.
The rust implementation currently (2022-10-09) supports:
Linux / Android: inotify
macOS: FSEvents or kqueue, see features
Windows: ReadDirectoryChangesW
FreeBSD / NetBSD / OpenBSD / DragonflyBSD: kqueue
All platforms: polling
Binaries available on PyPI (https://pypi.org/project/watchfiles/) and conda-forge (https://github.com/conda-forge/watchfiles-feedstock).
You can also use a simple library called repyt, here is an example:
repyt ./app.py
related #4Oh4 solution a smooth change for a list of files to watch;
import os
import sys
import time
class Watcher(object):
running = True
refresh_delay_secs = 1
# Constructor
def __init__(self, watch_files, call_func_on_change=None, *args, **kwargs):
self._cached_stamp = 0
self._cached_stamp_files = {}
self.filenames = watch_files
self.call_func_on_change = call_func_on_change
self.args = args
self.kwargs = kwargs
# Look for changes
def look(self):
for file in self.filenames:
stamp = os.stat(file).st_mtime
if not file in self._cached_stamp_files:
self._cached_stamp_files[file] = 0
if stamp != self._cached_stamp_files[file]:
self._cached_stamp_files[file] = stamp
# File has changed, so do something...
file_to_read = open(file, 'r')
value = file_to_read.read()
print("value from file", value)
file_to_read.seek(0)
if self.call_func_on_change is not None:
self.call_func_on_change(*self.args, **self.kwargs)
# Keep watching in a loop
def watch(self):
while self.running:
try:
# Look for changes
time.sleep(self.refresh_delay_secs)
self.look()
except KeyboardInterrupt:
print('\nDone')
break
except FileNotFoundError:
# Action on file not found
pass
except Exception as e:
print(e)
print('Unhandled error: %s' % sys.exc_info()[0])
# Call this function each time a change happens
def custom_action(text):
print(text)
# pass
watch_files = ['/Users/mexekanez/my_file.txt', '/Users/mexekanez/my_file1.txt']
# watcher = Watcher(watch_file) # simple
if __name__ == "__main__":
watcher = Watcher(watch_files, custom_action, text='yes, changed') # also call custom action function
watcher.watch() # start the watch going
The best and simplest solution is to use pygtail:
https://pypi.python.org/pypi/pygtail
from pygtail import Pygtail
import sys
while True:
for line in Pygtail("some.log"):
sys.stdout.write(line)
import inotify.adapters
from datetime import datetime
LOG_FILE='/var/log/mysql/server_audit.log'
def main():
start_time = datetime.now()
while True:
i = inotify.adapters.Inotify()
i.add_watch(LOG_FILE)
for event in i.event_gen(yield_nones=False):
break
del i
with open(LOG_FILE, 'r') as f:
for line in f:
entry = line.split(',')
entry_time = datetime.strptime(entry[0],
'%Y%m%d %H:%M:%S')
if entry_time > start_time:
start_time = entry_time
print(entry)
if __name__ == '__main__':
main()
The easiest solution would get the two instances of the same file after an interval and Compare them. You Could try something like this
while True:
# Capturing the two instances models.py after certain interval of time
print("Looking for changes in " + app_name.capitalize() + " models.py\nPress 'CTRL + C' to stop the program")
with open(app_name.capitalize() + '/filename', 'r+') as app_models_file:
filename_content = app_models_file.read()
time.sleep(5)
with open(app_name.capitalize() + '/filename', 'r+') as app_models_file_1:
filename_content_1 = app_models_file_1.read()
# Comparing models.py after certain interval of time
if filename_content == filename_content_1:
pass
else:
print("You made a change in " + app_name.capitalize() + " filename.\n")
cmd = str(input("Do something with the file?(y/n):"))
if cmd == 'y':
# Do Something
elif cmd == 'n':
# pass or do something
else:
print("Invalid input")
If you're using windows, create this POLL.CMD file
#echo off
:top
xcopy /m /y %1 %2 | find /v "File(s) copied"
timeout /T 1 > nul
goto :top
then you can type "poll dir1 dir2" and it will copy all the files from dir1 to dir2 and check for updates once per second.
The "find" is optional, just to make the console less noisy.
This is not recursive. Maybe you could make it recursive using /e on the xcopy.
I don't know any Windows specific function. You could try getting the MD5 hash of the file every second/minute/hour (depends on how fast you need it) and compare it to the last hash. When it differs you know the file has been changed and you read out the newest lines.
I'd try something like this.
try:
f = open(filePath)
except IOError:
print "No such file: %s" % filePath
raw_input("Press Enter to close window")
try:
lines = f.readlines()
while True:
line = f.readline()
try:
if not line:
time.sleep(1)
else:
functionThatAnalisesTheLine(line)
except Exception, e:
# handle the exception somehow (for example, log the trace) and raise the same exception again
raw_input("Press Enter to close window")
raise e
finally:
f.close()
The loop checks if there is a new line(s) since last time file was read - if there is, it's read and passed to the functionThatAnalisesTheLine function. If not, script waits 1 second and retries the process.
I have a log file being written by another process which I want to watch for changes. Each time a change occurs I'd like to read the new data in to do some processing on it.
What's the best way to do this? I was hoping there'd be some sort of hook from the PyWin32 library. I've found the win32file.FindNextChangeNotification function but have no idea how to ask it to watch a specific file.
If anyone's done anything like this I'd be really grateful to hear how...
[Edit] I should have mentioned that I was after a solution that doesn't require polling.
[Edit] Curses! It seems this doesn't work over a mapped network drive. I'm guessing windows doesn't 'hear' any updates to the file the way it does on a local disk.
Did you try using Watchdog?
Python API library and shell utilities to monitor file system events.
Directory monitoring made easy with
A cross-platform API.
A shell tool to run commands in response to directory changes.
Get started quickly with a simple example in Quickstart...
If polling is good enough for you, I'd just watch if the "modified time" file stat changes. To read it:
os.stat(filename).st_mtime
(Also note that the Windows native change event solution does not work in all circumstances, e.g. on network drives.)
import os
class Monkey(object):
def __init__(self):
self._cached_stamp = 0
self.filename = '/path/to/file'
def ook(self):
stamp = os.stat(self.filename).st_mtime
if stamp != self._cached_stamp:
self._cached_stamp = stamp
# File has changed, so do something...
If you want a multiplatform solution, then check QFileSystemWatcher.
Here an example code (not sanitized):
from PyQt4 import QtCore
#QtCore.pyqtSlot(str)
def directory_changed(path):
print('Directory Changed!!!')
#QtCore.pyqtSlot(str)
def file_changed(path):
print('File Changed!!!')
fs_watcher = QtCore.QFileSystemWatcher(['/path/to/files_1', '/path/to/files_2', '/path/to/files_3'])
fs_watcher.connect(fs_watcher, QtCore.SIGNAL('directoryChanged(QString)'), directory_changed)
fs_watcher.connect(fs_watcher, QtCore.SIGNAL('fileChanged(QString)'), file_changed)
It should not work on windows (maybe with cygwin ?), but for unix user, you should use the "fcntl" system call. Here is an example in Python. It's mostly the same code if you need to write it in C (same function names)
import time
import fcntl
import os
import signal
FNAME = "/HOME/TOTO/FILETOWATCH"
def handler(signum, frame):
print "File %s modified" % (FNAME,)
signal.signal(signal.SIGIO, handler)
fd = os.open(FNAME, os.O_RDONLY)
fcntl.fcntl(fd, fcntl.F_SETSIG, 0)
fcntl.fcntl(fd, fcntl.F_NOTIFY,
fcntl.DN_MODIFY | fcntl.DN_CREATE | fcntl.DN_MULTISHOT)
while True:
time.sleep(10000)
Check out pyinotify.
inotify replaces dnotify (from an earlier answer) in newer linuxes and allows file-level rather than directory-level monitoring.
For watching a single file with polling, and minimal dependencies, here is a fully fleshed-out example, based on answer from Deestan (above):
import os
import sys
import time
class Watcher(object):
running = True
refresh_delay_secs = 1
# Constructor
def __init__(self, watch_file, call_func_on_change=None, *args, **kwargs):
self._cached_stamp = 0
self.filename = watch_file
self.call_func_on_change = call_func_on_change
self.args = args
self.kwargs = kwargs
# Look for changes
def look(self):
stamp = os.stat(self.filename).st_mtime
if stamp != self._cached_stamp:
self._cached_stamp = stamp
# File has changed, so do something...
print('File changed')
if self.call_func_on_change is not None:
self.call_func_on_change(*self.args, **self.kwargs)
# Keep watching in a loop
def watch(self):
while self.running:
try:
# Look for changes
time.sleep(self.refresh_delay_secs)
self.look()
except KeyboardInterrupt:
print('\nDone')
break
except FileNotFoundError:
# Action on file not found
pass
except:
print('Unhandled error: %s' % sys.exc_info()[0])
# Call this function each time a change happens
def custom_action(text):
print(text)
watch_file = 'my_file.txt'
# watcher = Watcher(watch_file) # simple
watcher = Watcher(watch_file, custom_action, text='yes, changed') # also call custom action function
watcher.watch() # start the watch going
Well after a bit of hacking of Tim Golden's script, I have the following which seems to work quite well:
import os
import win32file
import win32con
path_to_watch = "." # look at the current directory
file_to_watch = "test.txt" # look for changes to a file called test.txt
def ProcessNewData( newData ):
print "Text added: %s"%newData
# Set up the bits we'll need for output
ACTIONS = {
1 : "Created",
2 : "Deleted",
3 : "Updated",
4 : "Renamed from something",
5 : "Renamed to something"
}
FILE_LIST_DIRECTORY = 0x0001
hDir = win32file.CreateFile (
path_to_watch,
FILE_LIST_DIRECTORY,
win32con.FILE_SHARE_READ | win32con.FILE_SHARE_WRITE,
None,
win32con.OPEN_EXISTING,
win32con.FILE_FLAG_BACKUP_SEMANTICS,
None
)
# Open the file we're interested in
a = open(file_to_watch, "r")
# Throw away any exising log data
a.read()
# Wait for new data and call ProcessNewData for each new chunk that's written
while 1:
# Wait for a change to occur
results = win32file.ReadDirectoryChangesW (
hDir,
1024,
False,
win32con.FILE_NOTIFY_CHANGE_LAST_WRITE,
None,
None
)
# For each change, check to see if it's updating the file we're interested in
for action, file in results:
full_filename = os.path.join (path_to_watch, file)
#print file, ACTIONS.get (action, "Unknown")
if file == file_to_watch:
newText = a.read()
if newText != "":
ProcessNewData( newText )
It could probably do with a load more error checking, but for simply watching a log file and doing some processing on it before spitting it out to the screen, this works well.
Thanks everyone for your input - great stuff!
Check my answer to a similar question. You could try the same loop in Python. This page suggests:
import time
while 1:
where = file.tell()
line = file.readline()
if not line:
time.sleep(1)
file.seek(where)
else:
print line, # already has newline
Also see the question tail() a file with Python.
This is another modification of Tim Goldan's script that runs on unix types and adds a simple watcher for file modification by using a dict (file=>time).
usage: whateverName.py path_to_dir_to_watch
#!/usr/bin/env python
import os, sys, time
def files_to_timestamp(path):
files = [os.path.join(path, f) for f in os.listdir(path)]
return dict ([(f, os.path.getmtime(f)) for f in files])
if __name__ == "__main__":
path_to_watch = sys.argv[1]
print('Watching {}..'.format(path_to_watch))
before = files_to_timestamp(path_to_watch)
while 1:
time.sleep (2)
after = files_to_timestamp(path_to_watch)
added = [f for f in after.keys() if not f in before.keys()]
removed = [f for f in before.keys() if not f in after.keys()]
modified = []
for f in before.keys():
if not f in removed:
if os.path.getmtime(f) != before.get(f):
modified.append(f)
if added: print('Added: {}'.format(', '.join(added)))
if removed: print('Removed: {}'.format(', '.join(removed)))
if modified: print('Modified: {}'.format(', '.join(modified)))
before = after
Here is a simplified version of Kender's code that appears to do the same trick and does not import the entire file:
# Check file for new data.
import time
f = open(r'c:\temp\test.txt', 'r')
while True:
line = f.readline()
if not line:
time.sleep(1)
print 'Nothing New'
else:
print 'Call Function: ', line
Well, since you are using Python, you can just open a file and keep reading lines from it.
f = open('file.log')
If the line read is not empty, you process it.
line = f.readline()
if line:
// Do what you want with the line
You may be missing that it is ok to keep calling readline at the EOF. It will just keep returning an empty string in this case. And when something is appended to the log file, the reading will continue from where it stopped, as you need.
If you are looking for a solution that uses events, or a particular library, please specify this in your question. Otherwise, I think this solution is just fine.
Simplest solution for me is using watchdog's tool watchmedo
From https://pypi.python.org/pypi/watchdog I now have a process that looks up the sql files in a directory and executes them if necessary.
watchmedo shell-command \
--patterns="*.sql" \
--recursive \
--command='~/Desktop/load_files_into_mysql_database.sh' \
.
As you can see in Tim Golden's article, pointed by Horst Gutmann, WIN32 is relatively complex and watches directories, not a single file.
I'd like to suggest you look into IronPython, which is a .NET python implementation.
With IronPython you can use all the .NET functionality - including
System.IO.FileSystemWatcher
Which handles single files with a simple Event interface.
This is an example of checking a file for changes. One that may not be the best way of doing it, but it sure is a short way.
Handy tool for restarting application when changes have been made to the source. I made this when playing with pygame so I can see effects take place immediately after file save.
When used in pygame make sure the stuff in the 'while' loop is placed in your game loop aka update or whatever. Otherwise your application will get stuck in an infinite loop and you will not see your game updating.
file_size_stored = os.stat('neuron.py').st_size
while True:
try:
file_size_current = os.stat('neuron.py').st_size
if file_size_stored != file_size_current:
restart_program()
except:
pass
In case you wanted the restart code which I found on the web. Here it is. (Not relevant to the question, though it could come in handy)
def restart_program(): #restart application
python = sys.executable
os.execl(python, python, * sys.argv)
Have fun making electrons do what you want them to do.
Seems that no one has posted fswatch. It is a cross-platform file system watcher. Just install it, run it and follow the prompts.
I've used it with python and golang programs and it just works.
ACTIONS = {
1 : "Created",
2 : "Deleted",
3 : "Updated",
4 : "Renamed from something",
5 : "Renamed to something"
}
FILE_LIST_DIRECTORY = 0x0001
class myThread (threading.Thread):
def __init__(self, threadID, fileName, directory, origin):
threading.Thread.__init__(self)
self.threadID = threadID
self.fileName = fileName
self.daemon = True
self.dir = directory
self.originalFile = origin
def run(self):
startMonitor(self.fileName, self.dir, self.originalFile)
def startMonitor(fileMonitoring,dirPath,originalFile):
hDir = win32file.CreateFile (
dirPath,
FILE_LIST_DIRECTORY,
win32con.FILE_SHARE_READ | win32con.FILE_SHARE_WRITE,
None,
win32con.OPEN_EXISTING,
win32con.FILE_FLAG_BACKUP_SEMANTICS,
None
)
# Wait for new data and call ProcessNewData for each new chunk that's
# written
while 1:
# Wait for a change to occur
results = win32file.ReadDirectoryChangesW (
hDir,
1024,
False,
win32con.FILE_NOTIFY_CHANGE_LAST_WRITE,
None,
None
)
# For each change, check to see if it's updating the file we're
# interested in
for action, file_M in results:
full_filename = os.path.join (dirPath, file_M)
#print file, ACTIONS.get (action, "Unknown")
if len(full_filename) == len(fileMonitoring) and action == 3:
#copy to main file
...
Since I have it installed globally, my favorite approach is to use nodemon. If your source code is in src, and your entry point is src/app.py, then it's as easy as:
nodemon -w 'src/**' -e py,html --exec python src/app.py
... where -e py,html lets you control what file types to watch for changes.
Here's an example geared toward watching input files that write no more than one line per second but usually a lot less. The goal is to append the last line (most recent write) to the specified output file. I've copied this from one of my projects and just deleted all the irrelevant lines. You'll have to fill in or change the missing symbols.
from PyQt5.QtCore import QFileSystemWatcher, QSettings, QThread
from ui_main_window import Ui_MainWindow # Qt Creator gen'd
class MainWindow(QMainWindow, Ui_MainWindow):
def __init__(self, parent=None):
QMainWindow.__init__(self, parent)
Ui_MainWindow.__init__(self)
self._fileWatcher = QFileSystemWatcher()
self._fileWatcher.fileChanged.connect(self.fileChanged)
def fileChanged(self, filepath):
QThread.msleep(300) # Reqd on some machines, give chance for write to complete
# ^^ About to test this, may need more sophisticated solution
with open(filepath) as file:
lastLine = list(file)[-1]
destPath = self._filemap[filepath]['dest file']
with open(destPath, 'a') as out_file: # a= append
out_file.writelines([lastLine])
Of course, the encompassing QMainWindow class is not strictly required, ie. you can use QFileSystemWatcher alone.
Just to put this out there since no one mentioned it: there's a Python module in the Standard Library named filecmp which has this cmp() function that compares two files.
Just make sure you don't do from filecmp import cmp to not overshadow the built-in cmp() function in Python 2.x. That's okay in Python 3.x, though, since there's no such built-in cmp() function anymore.
Anyway, this is how its use looks like:
import filecmp
filecmp.cmp(path_to_file_1, path_to_file_2, shallow=True)
The argument shallow defaults to True. If the argument's value is True, then only the metadata of the files are compared; however, if the argument's value is False, then the contents of the files are compared.
Maybe this information will be useful to someone.
watchfiles (https://github.com/samuelcolvin/watchfiles) is a Python API and CLI that uses the Notify (https://github.com/notify-rs/notify) library written in Rust.
The rust implementation currently (2022-10-09) supports:
Linux / Android: inotify
macOS: FSEvents or kqueue, see features
Windows: ReadDirectoryChangesW
FreeBSD / NetBSD / OpenBSD / DragonflyBSD: kqueue
All platforms: polling
Binaries available on PyPI (https://pypi.org/project/watchfiles/) and conda-forge (https://github.com/conda-forge/watchfiles-feedstock).
You can also use a simple library called repyt, here is an example:
repyt ./app.py
related #4Oh4 solution a smooth change for a list of files to watch;
import os
import sys
import time
class Watcher(object):
running = True
refresh_delay_secs = 1
# Constructor
def __init__(self, watch_files, call_func_on_change=None, *args, **kwargs):
self._cached_stamp = 0
self._cached_stamp_files = {}
self.filenames = watch_files
self.call_func_on_change = call_func_on_change
self.args = args
self.kwargs = kwargs
# Look for changes
def look(self):
for file in self.filenames:
stamp = os.stat(file).st_mtime
if not file in self._cached_stamp_files:
self._cached_stamp_files[file] = 0
if stamp != self._cached_stamp_files[file]:
self._cached_stamp_files[file] = stamp
# File has changed, so do something...
file_to_read = open(file, 'r')
value = file_to_read.read()
print("value from file", value)
file_to_read.seek(0)
if self.call_func_on_change is not None:
self.call_func_on_change(*self.args, **self.kwargs)
# Keep watching in a loop
def watch(self):
while self.running:
try:
# Look for changes
time.sleep(self.refresh_delay_secs)
self.look()
except KeyboardInterrupt:
print('\nDone')
break
except FileNotFoundError:
# Action on file not found
pass
except Exception as e:
print(e)
print('Unhandled error: %s' % sys.exc_info()[0])
# Call this function each time a change happens
def custom_action(text):
print(text)
# pass
watch_files = ['/Users/mexekanez/my_file.txt', '/Users/mexekanez/my_file1.txt']
# watcher = Watcher(watch_file) # simple
if __name__ == "__main__":
watcher = Watcher(watch_files, custom_action, text='yes, changed') # also call custom action function
watcher.watch() # start the watch going
The best and simplest solution is to use pygtail:
https://pypi.python.org/pypi/pygtail
from pygtail import Pygtail
import sys
while True:
for line in Pygtail("some.log"):
sys.stdout.write(line)
import inotify.adapters
from datetime import datetime
LOG_FILE='/var/log/mysql/server_audit.log'
def main():
start_time = datetime.now()
while True:
i = inotify.adapters.Inotify()
i.add_watch(LOG_FILE)
for event in i.event_gen(yield_nones=False):
break
del i
with open(LOG_FILE, 'r') as f:
for line in f:
entry = line.split(',')
entry_time = datetime.strptime(entry[0],
'%Y%m%d %H:%M:%S')
if entry_time > start_time:
start_time = entry_time
print(entry)
if __name__ == '__main__':
main()
The easiest solution would get the two instances of the same file after an interval and Compare them. You Could try something like this
while True:
# Capturing the two instances models.py after certain interval of time
print("Looking for changes in " + app_name.capitalize() + " models.py\nPress 'CTRL + C' to stop the program")
with open(app_name.capitalize() + '/filename', 'r+') as app_models_file:
filename_content = app_models_file.read()
time.sleep(5)
with open(app_name.capitalize() + '/filename', 'r+') as app_models_file_1:
filename_content_1 = app_models_file_1.read()
# Comparing models.py after certain interval of time
if filename_content == filename_content_1:
pass
else:
print("You made a change in " + app_name.capitalize() + " filename.\n")
cmd = str(input("Do something with the file?(y/n):"))
if cmd == 'y':
# Do Something
elif cmd == 'n':
# pass or do something
else:
print("Invalid input")
If you're using windows, create this POLL.CMD file
#echo off
:top
xcopy /m /y %1 %2 | find /v "File(s) copied"
timeout /T 1 > nul
goto :top
then you can type "poll dir1 dir2" and it will copy all the files from dir1 to dir2 and check for updates once per second.
The "find" is optional, just to make the console less noisy.
This is not recursive. Maybe you could make it recursive using /e on the xcopy.
I don't know any Windows specific function. You could try getting the MD5 hash of the file every second/minute/hour (depends on how fast you need it) and compare it to the last hash. When it differs you know the file has been changed and you read out the newest lines.
I'd try something like this.
try:
f = open(filePath)
except IOError:
print "No such file: %s" % filePath
raw_input("Press Enter to close window")
try:
lines = f.readlines()
while True:
line = f.readline()
try:
if not line:
time.sleep(1)
else:
functionThatAnalisesTheLine(line)
except Exception, e:
# handle the exception somehow (for example, log the trace) and raise the same exception again
raw_input("Press Enter to close window")
raise e
finally:
f.close()
The loop checks if there is a new line(s) since last time file was read - if there is, it's read and passed to the functionThatAnalisesTheLine function. If not, script waits 1 second and retries the process.