I know you can use driver.quit() and driver.close() but how to close nicely when executed multiple processes?
IDEAS:
Use process ID?
Using Selenium to end the WebDriver and Web Browser session graciously you should invoke the quit() method within the tearDown() {}. Invoking quit() deletes the current browsing session through sending quit command with {"flags":["eForceQuit"]} and finally sends the GET request on /shutdown endpoint. Here is the relevant log:
1503397488598 webdriver::server DEBUG -> DELETE /session/8e457516-3335-4d3b-9140-53fb52aa8b74
1503397488607 geckodriver::marionette TRACE -> 37:[0,4,"quit",{"flags":["eForceQuit"]}]
1503397488821 webdriver::server DEBUG -> GET /shutdown
So on invoking quit() method the Web Browser session and the WebDriver instance gets killed completely.
References
You can find a couple of relevant detailed discussions in:
Selenium : How to stop geckodriver process impacting PC memory, without calling driver.quit()?
PhantomJS web driver stays in memory
I'm running a combination of BeautifulSoup and Selenium for the following scenario:
Open Webdriver (Chrome) with Selenium, waiting for commands.
Infinite loop of BeautifulSoup in the background to check website for changes every few seconds
If a certain change is detected, use Selenium to open/load website and click a few buttons to render content I want to scrape.
I am tracking changes on two different websites. I could just test the two websites in the same script, but I need to track the changes as soon as possible. Therefore, I'm also opening Selenium at the beginning of the scripts to save time before changes are detected so that I don't have to wait for Chrome to first boot up as soon as a change is detected.
I need the cookies of my Chrome default profile to access the website (Two-factor login), so I copied my User Data folder to load two sessions of Chrome. If I don't do that, I get an error in the second instance, saying that the profile is being in use, can't edit the files yada yada...
Opening one instance/list/website is fine, my script runs without any issues.
When I open a second instance of the script, checking a different website in a new window of Chrome, the first script gives me the following error whenever the second script initiates driver.close() or driver.quit().
[22384:16640:0909/170836.278:ERROR:socket_stream.cc(219)] Closing stream with result -2
This doesn't shut down my first script, it seems to keep working fine. So I'm not even thinking this has any detrimental impact on what I am trying to do, but I wonder what is happening here and why are the two instances seemingly interacting with each other when they shouldn't really?
I'm using two different copies of chromedriver.exe for each script as well, not even sure if that is necessary.
Anyway, would appreciate if someone could enlighten me about what is going on.
This error message...
ERROR:socket_stream.cc(219)] Closing stream with result -2
...implies that the ChromeDriver was an error while invoking CloseStream().
This error is coming from void SocketInputStream::CloseStream() function defined in socket_stream.cc which is defined as:
void SocketInputStream::CloseStream(net::Error error,
const base::Closure& callback) {
DCHECK_LT(error, net::ERR_IO_PENDING);
ResetInternal();
last_error_ = error;
LOG(ERROR) << "Closing stream with result " << error;
if (!callback.is_null())
callback.Run();
}
I've created a web scraper with python (3.6) and a selenium, firefox web driver. I've set up a cronjob to run this scraper every few minutes, and it seems to all be working, except that over time (like a few days), the memory on my Ubuntu VPS (8GB RAM, Ubuntu 18.04.4) fills up and it crashes.
When I check HTOP, I can see lots (as in, hundreds) of firefox processes like "/usr/lib/firefox -marionette" and "/usr/lib/firefox -contentproc", all taking up about 3 or 4mb of memory each.
I've put a
browser.stop_client()
browser.close()
browser.quit()
In every function that uses the web driver, but I suspect the script is sometimes leaving web drivers open when it hits an error, and not closing them properly, and these firefox processes just accumulate until my system crashes.
I'm working on finding the root cause of this, but in the meantime, is there a quick way I can kill/clean up all these processes?
e.g. a cronjob that kills all matching processes (older than 10 minutes)?
Thanks.
I suspect the script is sometimes leaving web drivers open when it hits an error, and not closing them properly
This is most likely the issue. We fix this issue by using try except finally blocks.
browser = webdriver.Firefox()
try:
# Your code
except Exception as e:
# Log or print error
finally:
browser.close()
browser.quit()
And if you still face the same issue, you can force kill the driver as per this answer, or this answer for Ubuntu.
import os
os.system("taskkill /im geckodriver.exe /f")
I have a script that uses a selenium webdriver (geckodriver) and loads various webpages.
The scripts works fine at the beginning, but than at a random point it stops working without raising any error (the program sorts of hangs without really doing anything).
I added some logging statement to check when it hangs, and this is caused by the WebDriverWait statement (see below).
The last thing that is printed in the log is "get_records - Loaded".
The expected behavior to me would be to either print "get_records - Acquired pager", or to raise a TimeoutException after 10 seconds.
[...]
logging.info("get_records - Getting url: {}".format(url))
driver.get(url)
logging.info("get_records - Loaded")
# Get records number and result pages
elem = WebDriverWait(driver, 10).until(ec.element_to_be_clickable(
(By.XPATH, "//td[#align='right']/span[#class='pager']"))
)
logging.info("get_records - Acquired pager")
[...]
Python version: 3.7.3
Selenium version: 3.141.0
Firefox version: 70.0.1
It seems like a similar bug happened with previous version (Selenium WebDriver (2.25) Timeout Not Working), but that bug was closed.
Is anyone having the same issue?
Update:
It seems like adding time.sleep(0.5) before elem prevents the script from freezing (either "get_records - Acquired pager" is printed, or the timeoutException is raised).
Even though this is a turnaround for the issue, I would rather not put any forced wait.
I actually have the exactly same experience when the script works fine at first but hangs forever after some time. The '10 seconds' timeout is that webdriver/browser tries to open a page in 10 seconds. But the timeout that python script sends request to webdriver/browser is not defined. And it's none by default meaning request will wait infinitely.
Short answer:
driver.command_executor.set_timeout(10)
driver.get(url)
Explain:
Chromedriver as example. Whenever you run a selenium script. A process named 'chromedriver' starts as well. Let's call it 'control process'. It opens the browser and controls it. And it also acts as a http server which you can get the address and port by driver.command_executor._url. It receives http request, processes it, tells the browser to do something(maybe open a url) and returns. Details here.
When you call
elem = WebDriverWait(driver, 10).until(ec.element_to_be_clickable(
(By.XPATH, "//td[#align='right']/span[#class='pager']"))
)
you are actually sending a request to the 'control process' which is a http server and tell it to do something(find some elements in current page). The timeout '10' means that 'control process' tells browser to open a page in 10 seconds before it cancels and returns timeout status to the python script.
But what really happens here is the 'control process' is receiving request but not responding. I don't really know what's happening in the 'control process'.
Python selenium package is using urllib3.request to send request and socket._GLOBAL_DEFAULT_TIMEOUT as timeout. It is none by default that makes a request wait infinitely. So you can set it by using driver.command_executor.set_timeout(10). Now if 'control process' brokes you will get a timeout exception and maybe recreate webdriver.
Background
I'm using Selenium and Python to automate display and navigation of a website in Chromium on Ubuntu MATE 16.04 on a Raspberry Pi 3. (Think unattended digital signage.) This combination was working great until today when the newest version of Chromium (with matching ChromeDriver) installed via automatic updates.
Because Chromium needed to perform some upgrade housekeeping tasks the next time it started up, it took a little longer than usual. Keep in mind that this is on a Raspberry Pi, so I/O is severely bottlenecked by the SD card. Unfortunately, it took long enough that my Python script failed because the ChromeDriver gave up on Chromium ever starting:
Traceback (most recent call last):
File "call-tracker-start", line 15, in <module>
browser = webdriver.Chrome(executable_path=chromedriver_path, options=chrome_options)
File "/home/pi/.local/lib/python3.5/site-packages/selenium/webdriver/chrome/webdriver.py", line 75, in __init__
desired_capabilities=desired_capabilities)
File "/home/pi/.local/lib/python3.5/site-packages/selenium/webdriver/remote/webdriver.py", line 154, in __init__
self.start_session(desired_capabilities, browser_profile)
File "/home/pi/.local/lib/python3.5/site-packages/selenium/webdriver/remote/webdriver.py", line 243, in start_session
response = self.execute(Command.NEW_SESSION, parameters)
File "/home/pi/.local/lib/python3.5/site-packages/selenium/webdriver/remote/webdriver.py", line 312, in execute
self.error_handler.check_response(response)
File "/home/pi/.local/lib/python3.5/site-packages/selenium/webdriver/remote/errorhandler.py", line 242, in check_response
raise exception_class(message, screen, stacktrace)
selenium.common.exceptions.WebDriverException: Message: chrome not reachable
(Driver info: chromedriver=2.35 (0),platform=Linux 4.4.38-v7+ armv7l)
Of course, when the script dies after throwing this exception, the Chromium instance is killed before it can finish its housekeeping, which means that next time it has to start over, so it takes just as long as the last time and fails just as hard.
If I then manually intervene and run Chromium as a normal user, I just... wait... a minute... or two, for Chromium to finish its upgrade housekeeping, then it opens its browser window, and then I cleanly quit the application. Now that the housekeeping is done, Chromium starts up the next time at a more normal speed, so all of the sudden my Python script runs without any error because the ChromeDriver sees Chromium finish launching within its accepted timeout window.
Everything will likely be fine until the next automatic update comes down, and then this same problem will happen all over again. I don't want to have to manually intervene after every update, nor do I want to disable automatic updates.
The root of the question
How can I tell ChromeDriver not to give up so quickly on launching Chromium?
I looked for some sort of timeout value that I could set, but I couldn't find any in the ChromeDriver or Selenium for Python documentation.
Interestingly, there is a timeout argument that can be passed to the Firefox WebDriver, as shown in the Selenium for Python API documentation:
timeout – Time to wait for Firefox to launch when using the extension connection.
This parameter is also listed for the Internet Explorer WebDriver, but it's notably absent in the Chrome WebDriver API documentation.
I also wouldn't mind passing something directly to ChromeDriver via service_args, but I couldn't find any relevant options in the ChromeDriver docs.
Update: found root cause of post-upgrade slowness
After struggling with finding a way to reproduce this problem in order to test solutions, I was able to pinpoint the reason Chromium takes forever to launch after an upgrade.
It seems that, as part of its post-upgrade housekeeping, Chromium rebuilds the user's font cache. This is a CPU & I/O intensive process that is especially hard on a Raspberry Pi and its SD card, hence the extreme 2.5 minute launch time whenever the font cache has to be rebuilt.
The problem can be reproduced by purposely deleting the font cache, which forces a rebuild:
pi#rpi-dev1:~$ killall chromium-browser
pi#rpi-dev1:~$ time chromium-browser --headless --disable-gpu --dump-dom 'about:blank'
[0405/132706.970822:ERROR:gpu_process_transport_factory.cc(1019)] Lost UI shared context.
<html><head></head><body></body></html>
real 0m0.708s
user 0m0.340s
sys 0m0.200s
pi#rpi-dev1:~$ rm -Rf ~/.cache/fontconfig
pi#rpi-dev1:~$ time chromium-browser --headless --disable-gpu --dump-dom 'about:blank'
[0405/132720.917590:ERROR:gpu_process_transport_factory.cc(1019)] Lost UI shared context.
<html><head></head><body></body></html>
real 2m9.449s
user 2m8.670s
sys 0m0.590s
You are right, there is no option to explicitly set the timeout of the initial driver creation. I would recommend visiting their git page HERE and creating a new issue. It also has the links for the direct ChromeDriver site in case you want to create a bug there. Currently, there is no option to set timeout that I could find.
You could try something like this in the meantime though:
import webbrowser
from selenium import webdriver
from selenium.common.exceptions import WebDriverException
try:
driver = webdriver.Chrome()
except WebDriverException:
webbrowser.open_new('http://www.Google.com')
# Let this try and get Chrome open, then go back and use webdriver
Here is the documentation on webbrowser:
https://docs.python.org/3/library/webbrowser.html
As per your question without your code trial it would be tough to analyze the reason behind the error which you are seeing as :
selenium.common.exceptions.WebDriverException: Message: chrome not reachable
Perhaps a more details about the version info of the binaries you are using would have helped us in someway.
Factually, asking ChromeDriver to wait longer for Chrome to launch before giving up won't help us as the default configuration of ChromeDriver takes care of the optimum needs.
However WebDriverException: Message: chrome not reachable is pretty common issue when the binary versions are incompatible. You can find a detailed discussion about this issue at org.openqa.selenium.WebDriverException: chrome not reachable - when attempting to start a new session
The bad news
It turns out that not only is there no timeout option for Selenium to pass to ChromeDriver, but short of recompiling your own custom ChromeDriver, there is currently no way to change this value programmatically whatsoever. Sadly, looking at the source code shows that Google has hard-coded a timeout value of 60 seconds!
from chromium /src/chrome/test/chromedriver/chrome_launcher.cc#208:
std::unique_ptr<DevToolsHttpClient> client(new DevToolsHttpClient(
address, context_getter, socket_factory, std::move(device_metrics),
std::move(window_types), capabilities->page_load_strategy));
base::TimeTicks deadline =
base::TimeTicks::Now() + base::TimeDelta::FromSeconds(60);
Status status = client->Init(deadline - base::TimeTicks::Now());
Until this code is changed to allow custom deadlines, the only option is a workaround.
The workaround
I ended up taking an approach that "primed" Chromium before having Selenium call ChromeDriver. This gets that one-time, post-upgrade slow start out of the way before ChromeDriver ever begins its countdown. The answer #PixelEinstein gave helped lead me down the right path, but this solution differs in two ways:
The call to open standalone Chromium here is blocking, while webbrowser.open_new() is not.
Standalone Chromium is always launched before ChromeDriver whether it is needed or not. I did this because waiting one minute for ChromeDriver to timeout, then waiting another 2.5 minutes for Chromium to start, then trying ChromeDriver again created a total delay of just over 3.5 minutes. Launching Chromium as the first action brings the total wait time down to about 2.5 minutes, as you skip the initial ChromeDriver timeout. On occasions when the long startup time doesn't occur, then this "double loading" of Chromium is negligible, as the whole process finishes in a matter of seconds.
Here's the code snippet:
#!/usr/bin/env python3
import subprocess
from selenium import webdriver
some_site = 'http://www.google.com'
chromedriver_path = '/usr/lib/chromium-browser/chromedriver'
# Block until Chromium finishes launching and self-terminates
subprocess.run(['chromium-browser', '--headless', '--disable-gpu', '--dump-dom', 'about:blank'])
browser = webdriver.Chrome(executable_path=chromedriver_path)
browser.get(some_site)
# Continue on with your Selenium business...
Before instantiating a webdriver.Chrome() object, this waits for Chromium to finish its post-upgrade housekeeping no matter how long it takes. Chromium is launched in headless mode where --dump-dom is a one-shot operation that writes the requested web page (in this case about:blank) to stdout, which is ignored. Chromium self-terminates after completing the operation, which then returns from the subprocess.run() call, unblocking program flow. After that, it's safe to let ChromeDriver start its countdown, as Chromium will launch in a matter of seconds.