A Zombie is created when a parent process does not use the wait system call after a child dies to read its exit status, and an orphan is child process that is reclaimed by init when the original parent process terminates before the child.

In terms of memory management and the process table how are these processes handled differently, specifically in UNIX?

What is an example or extreme case when the creation of zombies or orphans can be detrimental to the greater application or system?

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    create a lot of zombies and watch your system ssssllooooowwww – dbarnes Dec 19 '13 at 18:26
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    There's no reason for a zombie process to consume (a non trivial amount of) memory... it's dead. It's basically a placeholder so that the parent can still read the exit status at some point in the future. – FatalError Dec 19 '13 at 18:28
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    The zombie isn't occupying any significant memory or resources, it's (effectively) only an exit status waiting to be delivered. An orphan is a live, running process just like any other -- it just has a peculiar name. – Clinton Pierce Dec 19 '13 at 18:30
  • @clintp but an orphan cannot become a zombie process since the OS will handle it once it completes? – MarkAWard Dec 19 '13 at 18:37
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    If there's a bug in the init process, or a kernel bug that prevents init from working properly, an orphaned process could become a zombie. Otherwise no. But looking at it another way, every process that exits is a zombie until the parent cleans it up, so yes they do become zombies, but not for long. – Wumpus Q. Wumbley Dec 19 '13 at 18:52
up vote 60 down vote accepted

When a child exits, some process must wait on it to get its exit code. That exit code is stored in the process table until this happens. The act of reading that exit code is called "reaping" the child. Between the time a child exits and is reaped, it is called a zombie. (The whole nomenclature is a bit gruesome when you think about it; I recommend not thinking about it too much.)

Zombies only occupy space in the process table. They take no memory or CPU. However, the process table is a finite resource, and excessive zombies can fill it, meaning that no other processes can launch. Beyond that, they are bothersome clutter, and should be strongly avoided.

If a process exits with children still running (and doesn't kill its children; the metaphor continues to be bizarre), those children are orphans. Orphaned children are immediately "adopted" by init (actually, I think most people call this "reparenting," but "adoption" seems to carry the metaphor better). An orphan is just a process. It will use whatever resources it uses. It is reasonable to say that it is not an "orphan" at all since it has a parent, but I've heard them called that often.

init automatically reaps its children (adopted or otherwise). So if you exit without cleaning up your children, then they will not become zombies (at least not for more than a moment).

But long-lived zombies exist. What are they? They're the former children of an existing process that hasn't reaped them. The process may be hung. Or it may be poorly written and forgets to reap its children. Or maybe it's overloaded and hasn't gotten around to it. Or whatever. But for some reason, the parent process continues to exist (so they aren't orphans), and they haven't been waited on, so they live on as zombies in the process table.

So if you see zombies for longer than a moment, then it means that there is something wrong with the parent process, and something should be done to improve that program.

When a process terminates, its resources are deallocated by the operating system. However, its entry in the process table must remain there until the parent calls wait(), because the process table contains the process’s exit status. A process that has terminated, but whose parent has not yet called wait(), is known as a zombie process. All processes transition to this state when they terminate, but generally they exist as zombies only briefly. Once the parent calls wait(), the process identifier of the zombie process and its entry in the process table are released.

Now consider what would happen if a parent did not invoke wait() and instead terminated, thereby leaving its child processes as orphans. Linux and UNIX address this scenario by assigning the init process as the new parent to orphan processes. The init process periodically invokes wait(), thereby allowing the exit status of any orphaned process to be collected and releasing the orphan’s process identifier and process-table entry.

Source: Operating System Concepts by Abraham, Peter, Greg

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    Really liked this short and crisp answer. – Azim Nov 11 '16 at 18:57
  • So in fact there are no orphans, as they get adopted. – alk Jan 7 '17 at 12:56

An orphan process is a computer process whose parent process has finished or terminated, though it (child process) remains running itself.
A zombie process or defunct process is a process that has completed execution but still has an entry in the process table as its parent process didn't invoke an wait() system call.

  1. There are no orphans but the process using PID 1.

    From the running process' point of view it makes no difference whether it was started directly and therefore has PID 1 as parent or got inherited by PID 1 because its original parent (being different from PID 1) ended. It is handled like any other process.

  2. Each process goes through some sort of zombie state, when ending, namely the phase between announcing its end by issuing SIGCHLD and having its processing (delivery or ignorance) acknowledged.

When the zombie state had been entered the process is just an entry in the system's process list.

The only significant resource a zombie is exclusively using is a valid PID.

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