I'm creating new processes using System.Diagnostics.Process class from my application. I want this processes to be killed when/if my application is crashed. But if I kill my application from Task Manager, child processes are not killed. Is there any way to make child processes dependent on parent process?
From this forum, credit to 'Josh'.
Application.Quit() and Process.Kill() are possible solutions, but have proven to be unreliable. When your main application dies, you are still left with child processes running. What we really want is for the child processes to die as soon as the main process dies.
The solution is to use "job objects" http://msdn.microsoft.com/en-us/library/ms682409(VS.85).aspx.
The idea is to create a "job object" for your main application, and register your child processes with the job object. If the main process dies, the OS will take care of terminating the child processes.
Looking at the constructor ...
The key here is to setup the job object properly. In the constructor I'm setting the "limits" to 0x2000, which is the numeric value for
MSDN defines this flag as:
Once this class is setup...you just have to register each child process with the job. For example:
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This post is intended as an extension to @Matt Howells' answer, specifically for those who run into problems with using Job Objects under Vista or Win7, especially if you get an access denied error ('5') when calling AssignProcessToJobObject.
To ensure compatibility with Vista and Win7, add the following manifest to the .NET parent process:
Note that when you add new manifest in Visual Studio 2012 it will contain the above snippet already so you do not need to copy it from hear. It will also include a node for Windows 8.
Your job association will fail with an access denied error if the process you're starting is already associated with another job. Enter Program Compatibility Assistant, which, starting in Windows Vista, will assign all kinds of processes to its own jobs.
In Vista you can mark your application to be excluded from PCA by simply including an application manifest. Visual Studio seems to do this for .NET apps automatically, so you're fine there.
A simple manifest no longer cuts it in Win7.  There, you have to specifically specify that you're compatible with Win7 with the tag in your manifest. 
This led me to worry about Windows 8. Will I have to change my manifest once again? Apparently there's a break in the clouds, as Windows 8 now allows a process to belong to multiple jobs.  So I haven't tested it yet, but I imagine that this madness will be over now if you simply include a manifest with the supportedOS information.
Tip 1: If you're developing a .NET app with Visual Studio, as I was, here  are some nice instructions on how to customize your application manifest.
Tip 2: Be careful with launching your application from Visual Studio. I found that, after adding the appropriate manifest, I still had problems with PCA when launching from Visual Studio, even if I used Start without Debugging. Launching my application from Explorer worked, however. After manually adding devenv for exclusion from PCA using the registry, starting applications that used Job Objects from VS started working as well. 
Tip 3: If you ever want to know if PCA is your problem, try launching your application from the command line, or copy the program to a network drive and run it from there. PCA is automatically disabled in those contexts.
 http://msdn.microsoft.com/en-us/library/windows/desktop/ms681949(v=vs.85).aspx: "A process can be associated with more than one job in Windows 8"
One way is to pass PID of parent process to the child. The child will periodically poll if the process with the specified pid exists or not. If not it will just quit.
You can also use Process.WaitForExit method in child method to be notified when the parent process ends but it might not work in case of Task Manager.
Here's an alternative that may work for some when you have control of the code the child process runs. The benefit of this approach is it doesn't require any native Windows calls.
The basic idea is to redirect the child's standard input to a stream whose other end is connected to the parent, and use that stream to detect when the parent has gone away. When you use
And then, on the child process, take advantage of the fact that
Caveats to this approach:
I see two options: