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What made it hard to find? How did you track it down?

Not close enough to close but see also


locked by Robert Harvey Oct 5 '11 at 2:27

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closed as not constructive by Kev Aug 18 '11 at 22:24

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73 Answers 73

Had a bug on a platform with a very bad on device debugger. We would get a crash on the device if we added a printf to the code. It then would crash at a different spot than the location of the printf. If we moved the printf, the crash would ether move or disappear. In fact, if we changed that code by reordering some simple statements, the crash would happen some where unrelated to the code we did change.

This looks like a classic Heisenbug. The minute you recognize it, you immediately go looking for uninitialized variables or stack boundary trashing.


In two words: memory leaks.


I once uninstalled PHP. Manually. Lots of bugs fixed with one move...


It was a tiny bug in Rhino (Javascript interpreter in Java) that was causing one script to fail. It was hard because I knew little about how the interpreter would work, but I had to jump in there to fix the bug as quickly as possible, for the sake of another project.

First I tracked down which call in the Javascript was failing, so I could reproduce the problem. I stepped through the running interpreter in debug mode, initially quite lost, but slowly learning bits of how it worked. (Reading the docs helped a little.) I added printlns/logging at points I thought might be relevant.

I diffed the (cleaned up) logfile of a working run against a breaking run, to see at what point they first started to diverge. By re-running and adding lots of breakpoints, I found my way to the chain of events that lead up to the failure. Somewhere in there was a line of code that, if written slightly differently, solved the problem! (It was something very simple, like nextNode() should return null instead of IndexOutOfBounds.)

Two weeks after that I realised my fix broke scripts in certain other situations, and I changed the line to work well for all the cases.

I was in an unfamiliar environment. So I just tried a lot of different things, until one of them worked, or at least helped to make some progress/understanding. It did take a while, but I was pleased to get there in the end!

If I was doing it again now, I would look for the project's IRC channel (not only its mailing list), to ask a few polite questions and seek pointers.


I can't imagine how did they code this: You can't assign IP address to the loopback adapter, because it is a reserved address for loopback devices --Microsoft(r) WindowsXP PROFESSIONAL


I had a piece of delphi code that ran a long processing routine updating a progress bar as it went. The code ran fine in 16bit Delphi 1 however when we upgraded to delphi 2 a process that was taking 2 minutes suddenly took about an hour.

After weeks of pulling the routine apart it turns out it was the line that updated the progress bar that caused the issue, for every itteration we were checking the record count using table1.recordcount, in delphi 1 this worked fine but it seems in later versions of delphi calling table.recordcount on a dbase table takes a copy of the table counts the records and returns the amount, calling this on every itteration of our progress was causing the table to be downloaded from the network with every ittteration and counted. The solution was to count the records before the processing started and stored the amount in a variable.

Took ages to find but turned out to be so simple.


A crash happening in a DLL, loaded from a service. Triggered by shutting the system down.

The bug was simple to fix, but it took about a week - and a lot of frustration - to locate.


Years ago I spent several days trying to track down and fix a small bug in dbx, the text-based debugger on AIX. I don't remember the exact bug. What made it tough was I was using the installed dbx to debug the dev version of dbx I was working on. It was very tough to keep track of where I was. More than once, I prepared to leave for the day and exited dbx twice (the dev version and the installed version) only to see that I was still running inside dbx, sometimes two or more levels "deep".



A Heisenbug where the main difficulty was not realizing it wasn't my bug at all.

The problem was an API interface. Calling any real function (as opposed to the setup stuff) had a very high probability of crashing with a protection violation. Single-stepping through the function (to the extent possible, it would hit an interrupt and you couldn't trace past that point--this was back when you used interrupts to talk to the system) produced the correct output, no crash.

After a long search in vain for what I was doing wrong I finally dug through the RTL routines to try to understand what I was doing wrong. What I was doing wrong was believing the routines worked--all the routines that bombed were manipulating a real-mode pointer with a protected-mode pointer type. Unless the real-mode segment value happened to be valid in protected mode this went boom.

However, something about the debugger's manipulation of the program caused correct operation while single-stepping, I never bothered to figure out why.


We had an RMI server running on a DOS prompt Someone "selected" the window - which paused the process

The fix was quite enter.

It was quite an agonizing day...


Unexplained SQL Server Timeouts and Intermittent Blocking

We had a problem where our users would timeout for apparently no reason. I monitored the SQL Server for a while and found that every once in a while there would be a lot of blocking going on. So I need to find the cause of this and fix it.

If there was blocking going on, than there must have been exclusive locks somewhere in the chain of stored proc calls…. Right?

I walked thru the full list of stored procs that were called, and all of the subsequent stored procs, functions and views. Sometimes this hierarchy was deep and even recursive.

I was looking for any UPDATE or INSERT statements…. There weren’t any (except on temporary tables that only had the scope of the stored proc so they didn’t count.)

On further research I found the locking is caused by the following:

A. If you use a SELECT INTO to create your temp table then SQL Sever places locks on system objects. The following was in our getUserPrivileges proc:

            --get all permissions for the specified user
            select   permissionLocationId,
                contactDescr as contactName,
                l.locationId, description, siteNodeId, roleId
            into #tmpPLoc
            from vw_PermissionLocationUsers vplu
                inner join vw_ContactAllTypes vcat on vplu.contactId = vcat.contactId
                inner join Location l on vplu.locationId = l.locationId
            where  isSelected = 1 and
                contactStatusId = 1 and
                vplu.contactId = @contactId

The getUserPrivileges proc is called with every page request (it is in the base pages.) It was not cached like you might expect. It doesn’t look like it, but the SQL above references 23 tables in the FROM or JOIN clauses. None of these table have the “with(nolock)” hint on it so it is taking longer than it should. If I remove the WHERE clause to get an idea of the number of rows involved it returns 159,710 rows and takes 3 to 5 seconds to run (after hours with no one else on the server.)

So if this stored proc can only be run one-at-a-time because of the lock, and it is being called once per page, and it holds the locks on the system tables for the duration of the select and temp table creation, you can see how it might be affecting the performance of the whole application.

The fix for this would be: 1. Use session level caching so this is only called once per session. 2. Replace the SELECT INTO with code that creates the table using standard Transact-SQL DDL statements, and then use INSERT INTO to populate the table. 3. Put “with(nolock)” on everything involved with this call.

B. If the stored proc getUserPrivileges didn’t have enough problems for you, then let me add: it probably gets recompiled on each call. So SQL Server acquires a COMPILE lock on each call.

The reason it gets recompiled is because the temp table gets created and then a lot of rows are deleted from it (if a @locationId or @permissionLocationId are passed in). This will cause the stored proc to be recompiled on the SELECT that follows (yes, in the middle of running the stored proc.) In other procs I’ve noticed a DECLARE CURSOR statement whose SELECT statement references a temporary table – this will force a recompile too.

For more info on recompilation see:

The fix for this would be: 1. Again, hit this stored proc far fewer times by using caching. 2. Have the @locationId or @permissionLocationId filtering applied in the WHERE clause while the table is being created. 3. Replace the temp tables with table variables – they result in fewer recompilations.

If things don’t work like you expect them to then you can spend a lot of time staring at something without every figuring out what is wrong.


I fixes someone's bug with the code below :

private void foo(Bar bar) {
    bar = new Bar();

He was expecting bar will be changed outside foo!


the toughest bug i ever had was not caused by me, although it caused my code to crash! this was TurboPascal on DOS. The TurboPascal compiler compiler had a minor upgrade and all of a sudden my binary started crashing. turned out that in the new version, memory was allocated starting on segment boundaries only. of course my program never checked for such things because why? how would a programmer know such things? someone on the old compuserve special interest groups posted this clue and the workaround:

since segments were 4 words long the fix was to always do a mod(4) to calculate the size of memory to allocate.


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