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The other day, when doing testing on a Linux server, we observed that under some conditions, one process could die and then started again. After checking the code, we found it was caused by an infinite loop.

This aroused my curiosity how the process went dead and then got started? Is it the OS who detects and determines the abnormal process and get it restarted? If yes, how does that work?

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does your program have system call in the loop? –  tristan Apr 27 '13 at 8:20
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Not sure if you care, but a very similar problem is the famous Halting Problem: en.wikipedia.org/wiki/Halting_problem. There are two common proofs that are exceptionally similar, one uses contradiction and the other is just a direct proof. The contradiction one is slightly easier to understand and basically goes "say we can figure out whether a program will 'halt'... what happens if I run it on [some special program]?" It turns out you reach a contradiction and so it has to be impossible. –  roliu Apr 27 '13 at 8:21
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I...don't think so? Do your processes interact with each other? Perhaps the calling process has some logic that does this somewhere? –  Kyle Strand Apr 27 '13 at 8:24
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It may be possible that you have set some resource limits on the process. Check the man page for setrlimit/getrlimit - RLIMIT_CPU –  Alexandru C. Apr 27 '13 at 8:39
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Your question lacks a lot of information and people will end up guessing what happened. We don't know how your program is written - does it include a watchdog program to restart itself when the program is not responsive? We don't know about the set up of your test server - is it set up to restart your program when your program dies? –  nhahtdh Apr 27 '13 at 16:11

2 Answers 2

Let's assume you won't be able to fix your code... And let's ignore all crazy options like attaching gdb via script or so.

You can either check CPU usage (most accidental infinite loops that I've done used 100% of CPU for hours :) ), or (more likely option) use strace to check what the software is doing right now and implement your own signature tracing (if those 20 APIs repeats 20 times let's assume infinite loop or so).

For example:

#!/bin/bash
strace -p`cat your_app.pid` | ./your_signature_evaluator
# Or
strace -p12345 | ./your_signature_evaluator

As for automatic system recognition... It seems normal that program crashes after calling things in loop uncontrollably (for example malloc() until you deplete memory, opening files...), but I've (and correct me in comment if I'm wrong) never seen system (kernel) restarting the app. I think you've either:

  • have conditions (signal handling, whatever) inside program that helps to recover
  • you're running a watchdog (check every 20 seconds that <pid> is running and if not start new instance)
  • you're running distribution that provides service/program configuration with restart if stopped

But I really doubt that Linux would be so nice to your application on it's own.

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I think you may have misunderstood the OP's question, which is whether or not the behavior he observed (i.e. the process being stopped and restarted automatically) might have been caused by the operating system. –  Kyle Strand Apr 27 '13 at 8:23

If it could the person that wrote that kernel will have solved the halting problem

PS: Vytor - Web servers are in an infinite loop and do not use 100% CPU.

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I don't think OP is asking if the operating system is capable of catching every infinite loop--just if it's capable of noticing that a process is stuck in one. This is not equivalent to the halting problem, because the halting problem has to do with looking at code and determining in advance whether it will halt rather than running the code and waiting to see if it gets caught in an infinite loop. –  Kyle Strand Apr 27 '13 at 8:26
    
Hh, I meant accidental infinite loops... And AFAIK webservers do have terminal conditions (e.g. triggered by apache2ctl stop or net stop ...) so they are not infinite loops in this exact meaning. But point taken ;) –  Vyktor Apr 27 '13 at 8:35
    
@KyleStrand - Halting problem and the OP are the same. Your comment about in advance is wrong as (I hate to point this out) computers are deterministic. –  Ed Heal Apr 27 '13 at 8:40
    
@EdHeal, the halting problem is NOT equivalent to the problem of detecting an infinite loop at run-time. Moreover, the fact that computers are deterministic has nothing to do with whether a loop can (or cannot) be detected at run-time or earlier than that; the entire reason the halting problem is unsolvable is because for any algorithm that attempts to detect non-halting code, there will exist instances of non-halting code such that the algorithm itself does not halt. –  Kyle Strand Apr 27 '13 at 8:49
    
(Or, to use Turing's explanation, no Turing machine can determine the behavior of every other Turing machine without simply emulating it, i.e., running its "code.") –  Kyle Strand Apr 27 '13 at 8:50

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