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The question says it all. If you have a bug that multiple users report, but there is no record of the bug occurring in the log, nor can the bug be repeated, no matter how hard you try, how do you fix it? Or even can you?

I am sure this has happened to many of you out there. What did you do in this situation, and what was the final outcome?


Edit: I am more interested in what was done about an unfindable bug, not an unresolvable bug. Unresolvable bugs are such that you at least know that there is a problem and have a starting point, in most cases, for searching for it. In the case of an unfindable one, what do you do? Can you even do anything at all?

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@tharkun: THe one you mention is definitely not a dupe of this. –  balpha Aug 12 '09 at 20:03
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@balpha: correct, this is definitely a dupe of the other... –  markus Aug 12 '09 at 20:05
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@tharkun: Okay, +1 for smartassing :-) Anyway, this is about reproducability, the other is about resolvability. –  balpha Aug 12 '09 at 20:15
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is this a duplicate of the one given? It doesn't look like it. –  marcgg Aug 12 '09 at 20:18
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Call it a feature and move on –  Antony Aug 19 '09 at 0:51

16 Answers 16

up vote 35 down vote accepted

These are known as Heisenbugs.

Language

Different programming languages will have their own flavour of bugs.

C

Adding debug statements can make the problem impossible to duplicate because the debug statement itself shifts pointers (far enough to avoid a SEGFAULT). Pointer issues are a nightmare to track and replicate, but there are debuggers (such as GDB and DDD) that can help.

Java

An application that has multiple threads might only show its bugs with a very specific timing or sequence of events. Improper concurrency implementations can cause deadlocks in situations that are difficult to replicate.

JavaScript

Some web browsers are notorious for memory leaks. JavaScript code that runs fine in one browser might cause incorrect behaviour in another browser. Using third-party libraries that have been rigorously tested by thousands of users can be advantageous to avoid certain obscure bugs.

Environment

Depending on the complexity of the environment in which the application (that has the bug) is running, the only recourse might be to simplify the environment. Does the application run:

  • on a server?
  • on a desktop?
  • in a web browser?

In what environment does the application produce the problem?

  • development?
  • test?
  • production?

Exit extraneous applications, kill background tasks, stop all scheduled events (cron jobs), eliminate plug-ins, and uninstall browser add-ons.

Networking

As networking is essential to so many applications:

  • Ensure stable network connections, including wireless signals.
  • Does the software reconnect after network failures robustly?
  • Do all connections get closed properly so as to release memory?
  • Are people using the machine who shouldn't be?
  • Are rogue devices interacting with the machine's network?
  • Are there factories or radio towers nearby that can cause interference?
  • Do packet sizes and frequency fall within nominal ranges?
  • Are all network devices adequate for heavy bandwidth usage?

Consistency

Eliminate as many unknowns as possible:

  • Isolate architectural components.
  • Remove non-essential, or possibly problematic (conflicting), elements.
  • Deactivate different application modules.

Remove all differences between production, test, and development. Use the same hardware. Follow the exact same steps, perfectly, to setup the computers. Consistency is key.

Logging

Use liberal amounts of logging to correlate the time events happened. Examine logs for any obvious errors, timing issues, etc.

Hardware

If the software seems okay, consider hardware faults:

  • Are the physical network connections solid?
  • Are there any loose cables?
  • Are chips seated properly?
  • Do all cables have clean connections?
  • Is the working environment clean and free of dust?
  • Have any hidden devices or cables been damaged by rodents or insects?
  • Are there bad blocks on drives?
  • Are the CPU fans working?
  • Can the motherboard power all components? (CPU, network card, video card, drives, etc.)
  • Could electromagnetic interference be the culprit?

What happens when you run the application locally (i.e., not across the network)? Are other servers experiencing the same issues? Is the database remote? Can you use a local database?

Firmware

In between hardware and software is firmware.

  • Is the computer BIOS up-to-date?
  • Is the BIOS battery working?
  • Are the BIOS clock and system clock synchronized?

Time and Statistics

Timing issues are difficult to track:

  • When does the problem happen?
  • How frequently?
  • What other systems are running at that time?
  • Is the application time-sensitive (e.g., will leap days or leap seconds cause issues)?

Gather hard numerical data on the problem. A problem that might, at first, appear random, might actually have a pattern.

Change Management

Sometimes problems appear after a system upgrade.

  • When did the problem first start?
  • What changed in the environment (hardware and software)?
  • What happens after rolling back to a previous version?
  • What differences exist between the problematic version and good version?

Library Management

Different operating systems have different ways of distributing conflicting libraries:

  • Windows has DLL Hell.
  • Unix can have numerous broken symbolic links.
  • Java library files can be equally nightmarish to resolve.

Perform a fresh install of the operating system, and include only the supporting software required for your application.

Java

Make sure every library is used only once. Sometimes application containers have a different version of a library than the application itself. This might not be possible to replicate in the development environment.

Use a library management tool such as Maven or Ivy.

Debugging

Code a detection method that triggers a notification (e.g., log, e-mail, pop-up, pager beep) when the bug happens. Use automated testing to submit data into the application. Use random data. Use data that covers known and possible edge cases. Eventually the bug should reappear.

Sleep

It is worth reiterating what others have mentioned: sleep on it. Spend time away from the problem, finish other tasks (like documentation). Be physically distant from computers and get some exercise.

Code Review

Walk through the code, line-by-line, and describe what every line does to yourself, a co-worker, or a rubber duck. This may lead to insights on how to reproduce the bug.

Cosmic Radiation

Cosmic Rays can flip bits. This is not as big as a problem in the past due to modern error checking of memory. Software for hardware that leaves Earth's protection is subject to issues that simply cannot be replicated due to the randomness of cosmic radiation.

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If it's a GUI app, it's invaluable to watch the customer generate the error (or try to). They'll no doubt being doing something you'd never have guessed they were doing (not wrongly, just differently).

Otherwise, concentrate your logging in that area. Log most everything (you can pull it out later) and get your app to dump its environment as well. e.g. machine type, VM type, encoding used.

Does your app report a version number, a build number, etc.? You need this to determine precisely which version you're debugging (or not!).

If you can instrument your app (e.g. by using JMX if you're in the Java world) then instrument the area in question. Store stats e.g. requests+parameters, time made, etc. Make use of buffers to store the last 'n' requests/responses/object versions/whatever, and dump them out when the user reports an issue.

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Sometimes I just have to sit and study the code until I find the bug. Try to prove that the bug is impossible, and in the process you may figure out where you might be mistaken. If you actually succeed in convincing yourself it's impossible, assume you messed up somewhere.

It may help to add a bunch of error checking and assertions to confirm or deny your beliefs/assumptions. Something may fail that you'd never expect to.

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It can be difficult, and sometimes near impossible. But my experience is, that you will sooner or later be able to reproduce and fix the bug, if you spend enough time on it (if that spent time is worth it, is another matter).

General suggestions that might help in this situation.

  • Add more logging, if possible, so that you have more data the next time the bug appears.
  • Ask the users, if they can replicate the bug. If yes, you can have them replicate it while watching over their shoulder, and hopefully find out, what triggers the bug.
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Yeah--not 10 minutes ago I got a call, it looks like someone has finally managed to reproduce a bug that I have only suspected but not been sure of for many years. It's been something that showed up maybe twice a year, never could be reproduced and the observed behavior could always have been due to silently-loaded price changes in the past. –  Loren Pechtel Aug 12 '09 at 22:55

If you can't replicate it, you may fix it, but can't know that you've fixed it.

I've made my best explanation about how the bug was triggered (even if I didn't know how that situation could come about), fixed that, and made sure that if the bug surfaced again, our notification mechanisms would let a future developer know the things that I wish I had known. In practice, this meant adding log events when the paths which could trigger the bug were crossed, and metrics for related resources were recorded. And, of course, making sure that the tests exercised the code well in general.

Deciding what notifications to add is a feasability and triage question. So is deciding on how much developer time to spend on the bug in the first place. It can't be answered without knowing how important the bug is.

I've had good outcomes (didn't show up again, and the code was better for it), and bad (spent too much time not fixing the problem, whether the bug ended up fixed or not). That's what estimates and issue priorities are for.

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I did that once. I managed to determine where the bug was right down to the line of code, fixed it, only to have it not be fixed because there was a second instance of the bug 500 lines away. –  Joshua Aug 20 '09 at 16:47

Ask my last boss. He seemed to be convinced I was supposed to be able to fix irreproducible bugs.

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Is this an answer? –  Akash Kava Aug 12 '09 at 20:06
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It's not bad, to be honest! –  Brian Agnew Aug 12 '09 at 20:08
    
@Dinah. Give us his email address and we'll ask him :-) –  Stephen C Aug 15 '09 at 13:59
    
Once had a boss who didn't want bugs in his software. To be fair it was the president of the company (so he didn't know much about programming) but still. :) –  Philippe Carriere Aug 16 '09 at 17:23
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The sentiment is that bug free software isn't really practically attainable (at least outside of maybe small, mathematically provable algorithms), not that somehow anyone wants bugs in software. The rest of the sentiment is that there isn't much one can do about unrealistic expectations from PMs. –  MatthewMartin Sep 7 '11 at 17:16

modify the code where you think the problem is happening, so extra debug info is recorded somewhere. when it happens next time, you will have what your need to solve the problem.

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Assuming you have already added all the logging that you think would help and it didn't... two things spring to mind:

  1. Work backwards from the reported symptom. Think to yourself.. "it I wanted to produce the symptom that was reported, what bit of code would I need to be executing, and how would I get to it, and how would I get to that?" D leads to C leads to B leads to A. Accept that if a bug is not reproducible, then normal methods won't help. I've had to stare at code for many hours with these kind of thought processes going on to find some bugs. Usually it turns out to be something really stupid.

  2. Remember Bob's first law of debugging: if you can't find something, it's because you're looking in the wrong place :-)

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There are two types of bugs you can't replicate. The kind you discovered, and the kind someone else discovered.

If you discovered the bug, you should be able to replicate it. If you can't replicate it, then you simply haven't considered all of the contributing factors leading towards the bug. This is why whenever you have a bug, you should document it. Save the log, get a screenshot, etc. If you don't, then how can you even prove the bug really exists? Maybe it's just a false memory?

If someone else discovered a bug, and you can't replicate it, obviously ask them to replicate it. If they can't replicate it, then you try to replicate it. If you can't replicate it quickly, ignore it.

I know that sounds bad, but I think it is justified. The amount of time it will take you to replicate a bug that someone else discovered is very large. If the bug is real, it will happen again naturally. Someone, maybe even you, will stumble across it again. If it is difficult to replicate, then it is also rare, and probably won't cause too much damage if it happens a few more times.

You can be a lot more productive if you spend your time actually working, fixing other bugs and writing new code, than you will be trying to replicate a mystery bug that you can't even guarantee actually exists. Just wait for it to appear again naturally, then you will be able to spend all your time fixing it, rather than wasting your time trying to reveal it.

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Depends on the severity of the consequences. A bug that silently shifts money values 1 decimal place for a bank that happens about once a year will definitely cause a lot of problems regardless of how rare it is. –  Davy8 Aug 15 '09 at 14:22

Start by looking at what tools you have available to you. For example crashes on a Windows platform go to WinQual, so if this is your case you now have crash dump information. Do you can static analysis tools that spot potential bugs, runtime analysis tools, profiling tools?

Then look at the input and output. Anything similar about the inputs in situations when users report the error, or anything out of place in the output? Compile a list of reports and look for patterns.

Finally, as David stated, stare at the code.

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Ask user to give you a remote access for his computer and see everything yourself. Ask user to make a small video of how he reproduces this bug and send it to you.

Sure both are not always possible but if they are it may clarify some things. The common way of finding bugs are still the same: separating parts that may cause bug, trying to understand what`s happening, narrowing codespace that could cause the bug.

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Discuss the problem, read code, often quite a lot of it. Often we do it in pairs, because you can usually eliminate the possibilities analytically quite quickly.

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There are tools like gotomeeting.com, which you can use to share screen with your user and observe the behaviour. There could be many potential problems like number of softwares installed on their machines, some tools utility conflicting with your program. I believe gotomeeting, is not the only solution, but there could be timeout issues, slow internet issue.

Most of times I would say softwares do not report you correct error messages, for example, in case of java and c# track every exceptions.. dont catch all but keep a point where you can catch and log. UI Bugs are difficult to solve unless you use remote desktop tools. And most of time it could be bug in even third party software.

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Make random changes until something works :-)

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If you do that you might end up introducing new bugs... –  SZH May 8 '13 at 21:35

If you work on a real significant sized application, you probably have a queue of 1,000 bugs, most of which are definitely reproducible.

Therefore, I'm afraid I'd probably close the bug as WORKSFORME (Bugzilla) and then get on fixing some more tangible bugs. Or doing whatever the project manager decides to do.

Certainly making random changes is a bad idea, even if they're localised, because you risk introducing new bugs.

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Think. Hard. Lock yourself away, admit no interuptions.

I once had a bug where the evidence was a hex dump of a corrupt database. The chains of pointers were systematically screwed up. All the user's programs, and our database software, worked faultlessly in testing. I stared at it for a week (it was an important customer), and after eliminating dozens of possible ideas, I realised that the data was spread across two physical files and the corruption occurred where the chains crossed file boundaries. I realized that if a backup/restore operation failed at a critical point, the two files could end up "out of sync", restored to different time points. If you then ran one of the customer's programs on the already-corrupt data, it would produce exactly the knotted chains of pointers I was seeing. I then demonstrated a sequence of events that reproduced the corruption exactly.

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