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

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73 Answers 73

The toughest bug I ever had to fix was one I'd raised myself - I contracted as a tester for a large telco, testing another company's product. Several years later, I had a contract with the other company and the first thing they gave me were the bugs I'd raised myself.

It was a kernel race condition in am embedded operating system written in 6809 assembler and BCPL. The debugging environment consisted of a special printf which wrote to a serial device; no fancy IDE stuff in this setup.

Took quite a while to fix but it was a huge satisfaction boost when I finally nutted it out.


That was an access violation crash.
from the crash dump I could only figure out a parameter on the call stack was corrupted.
The reason was this code:

n = strlen(p->s) - 1;
if (p->s[n] == '\n')
   p->s[n] = '\0';

if the string length was 0, and the parameter on the stack above happen to be on address 0x0Axxxxxxx
==> stack corruption
Fortunately this code was close enough to the actuall crash location, so browsing the (ugly) source code was the way to find the culrpit


Designed a realtime multithreaded (shudder) system once which polled images from mutliple network surveilance cameras and did all kinds of magic on the images.

The bug simply made the system crash, some critical section being mistreated ofcourse. I had no idea how to trigger the failure directly, but had to wait for it to occur, which was about once in three or four days (odds: about 1 in 15000000 on 30 fps).

I had to prepare everything I could, debug output messages soiling the code, trace tools, remote debugging tools on the camera and the list goes on. Then I just had to wait two-three days and hope to catch all info for locating the failing mutex or whatever. It took four of these runs before I tracked it down, four weeks!. One more run and I would have broken the customer deadline..


Thanks to a flash of inspiration this didn't take too long to track down but was a bit odd nonetheless. Small application, only used by other people in the IT department. It is connecting in turn to all of the desktop PC's in the domain. Many are turned off and the connection takes AGES to time out, so it runs on the threadpool. It just scans AD and queues thousands of work items to the thread pool. All worked fine. Some years later I was talking to another member of staff that actually uses this appliacation and he mentioned it made the PC un-usable. While it was running trying to open web pages or browse a network drive would take minutes, or just never happen.
the problem turned out to be XP's half open tcp limit. The original PC's were dual processor, so .NET allocates 50 (or 100, not sure) threads to the pool, no problem. Now we have dual processor dual core, we now have more threads in the thread pool than you can have half open connections, so other network activity becomes impossable while the application is running.

It is now fixed, it pings machines before attempting to connect to them so the timeout is much shorter and uses a small fixed number of threads to do the actual work.


I work for a large community college and we switched over from Blackboard to Moodle last year. Moodle uses the nomenclature of "courses" and "groups". A course might be Microeconomics ECO-150, for example, and groups are what we would call sections (OL1, OL2, 01, 14, W09 as examples).

Anyway we are primitive. We don't even have LDAP. Everything is text files, excel spreadsheets and GD microsoft Access databases. My job is to create a web application that takes all of the above as input and produces still more text files than can then be uploaded into Moodle to create courses, groups in courses and users and put users into courses and groups. The whole setup is positively byzantine, with about 17 individual steps that must be done in order. But the thing works and replaces a process that previously took days during the busiest time of the semester.

But there was one problem. Sometimes we got what I dubbed "Crazy Groups". So instead of creating a course with 4 groups of 20 students each it would create a course with 80 groups of 1 student each. The worst part, there is no way programmatically short of getting into cpanel(which I don't have access to) to delete a group once it is created. It is a manual process that takes about 5 button clicks. So every time a course with Crazy Groups got created I either had to delete the course, which is preferable but not an option if the teacher had already started putting content in the course, or I had to spend an hour repetitively following the same pattern: Select group, display group, edit group, delete group, Are you sure you want to delete group? Yes for godsake!

And there was no way to know if crazy groups had occured unless you manually opened up each course and looked (with hundreds of courses) or until you got a complaint. Crazy Groups seemed to happen randomly and Google and the Moodle forums were no help, it seems everyone else uses this thing called LDAP or a REAL database so they've never encountered the problem.

Finally, after I don't know how much investigating and more time deleting crazy groups than I ever want to admit I figured it out. It was a bug in Moodle not my code! This gave me not a little pleasure. You see the way to create a group is just try to enroll someone into the group and if the group does not already exist then Moodle creates it. And this worked fine for groups named OL1 or W12 or even SugarCandyMountain but if you tried to create a group with a number as the name, say 01 or 14 THAT is when crazy groups would occur. Moodle does not properly compare numbers as strings. No matter how many groups named 01 inside a course there are it will always think that group does not exist yet and will therefore create it. That is how you end up with 80 groups with 1 person in each.

Proud of my discovery I went to the Moodle forum and posted my findings complete with steps to reproduce the problem at will. That was about a year ago and the problem still exists inside of Moodle to my knowledge, no one seems motivated to fix it because no one but us primitives uses the text file enrollment. My solution, simply to make sure that all our group names contained at least 1 non-numeric character. Crazy groups are gone forever at least for us but I feel for that guy who works at a community college in outer Mongolia who just uploaded a semester's worth of courses and is about to have a rude awakening. At least this time Google may help him because I've written him this message in a bottle on the tides of cyberspace.


In CS435 back at Purdue, we had to write a raytracer for our final project. Everything mine produced had a strong orange tint to it, but I could see every one of the objects in my scene. I finally gave up and submitted it as is, and had the professor look over my code to find the bug, and when he couldn't find it, I spent most of the summer digging to find just what the hell was wrong.

Buried deep in the code, as part of a color calculation function, I finally realized I was dividing an int and passing it to an OpenGL function that expected a float value. One of the color components was just low enough throughout most of the scene that it would round down to 0, causing the orange tint. Casting it to a float in just one place (before the division) fixed the bug.

Always check your inputs and expected types.


A multi-threaded applications where running in debug is fine but as soon as you run in release it goes wrong because of slightly different timing. Even adding Console.WriteLine calls to product basic debugging outpit caused enough of a change in timing for it to work and not show the issue. Tool a week to find and fix a couple of lines of code that needed changing.


Just before the internet caught on, we were working on a modem-based home banking application (The first in North America).

Three days before release, we were (almost) on schedule, and were planning to use the remaining time to exhaustivly test the system. We had a test plan, and next on the list was modem communications.

Right about then, our client came rushing in wanting a last minute feature upgrade. Of course, I was completely against this, but I was overruled. We burned the midnight oil for three days adding the stupid thing, and got it working by release date. We made the deadline, and delivered over 2000 floppy disks to the customers.

The day after release, I got back to my testing schedule, and resumed testing the modem communication module. Much to my suprise, I found that the modem would randomly fail to connect. Just about then, our phones started ringing off the hook, with angry customers not being able use their application.

After much knashing of teeth and pulling of hair, I traced the problem to the serial port initialization. A junior programmer had commented out a write to one of the control registers. The register remained uninitialized, and there was about a 10% chance that it would contain an invalid value - depending upon the user's configuration, and what applications he had run beforehand.

When asked about it, the programmer claimed that it made it work on his machine.

So we had to re-burn those 2000+ floppies, and track down each and every customer to recall them. Not a fun thing to do, especially with an already burnt-out team.

We took a big hit on that one. Our client claimed that because it was our bug, we should have to absorb the cost of the recall. Our schedule for the next release was put back a month. And our relationship with the client was tarnished.

Nowadays, I am much less flexible with last-minute feature additions, and I try to communicate better with my team.


In a game I was working on, a particular sprite would not display anymore in Release mode, but worked fine in Debug mode, and only in one particular edition. Another programmer tried to find this bug for 2 days, then left for vacation. It ended up on my shoulders to try to find the bug ~5 hours before release.

Since the Debug build worked, I had to debug with the release build. Visual Studio supports some debugging in the Release build, but you can't rely on everything the debugger tells you to be correct (especially with the aggressive optimization settings we were using). Therefore, I had to step through half code listings and half assembler listings, sometimes looking at objects directly in the hex dump instead of in the nicely formatted debugger view.

After spending a while making sure that all the correct draw calls were being made, I found out that the material color of the sprite was incorrect - it was supposed to be full opacity orange, but instead was set to black and completely transparent. The color was grabbed from a palette residing in a const array in our EditionManager class. It was setup initially as the correct orange color, but when the actual color was retrieved from the sprite drawing code, it was that transparent black again. I set a memory breakpoint, which was triggered in the EditionManager constructor. A write to a different array caused the value in the palette array to change.

As it turns out, the other programmer changed an essential enum of the system:

enum {
    EDITION_A = 0,


He put EDITION_DEMO right after EDITION_MAX, and the array that was being written to was indexed with EDITION_DEMO so it overflowed into the palette and set the wrong values there. I couldn't change the enum back, however, since the edition numbers couldn't change anymore (they were being used in binary transmission). Therefore, I ended up making a EDITION_REAL_MAX entry in the enum and using that as the array size.


long ago, i wrote an object-oriented language using C and a (character-based) forms library; each form was an object, forms could contain subforms, and so on. The complex invoicing application written using this would work fine for about 20 minutes, then random garbage characters would appear every now and then on the screen. After a few more minutes of using the app, the machine would reboot, hang, or something drastic.

this turned out to be a bad deallocation resulting from a misdirected delegation in the message-processing engine; mis-routed messages were being delegated up the containment tree when we ran out of superclasses, and sometimes the parent objects would have methods with the same name so it would appear to work most of the time. The rest of the time it would deallocate a small buffer (8 bytes or so) in the wrong context. The pointer being deallocated incorrectly was actually dead memory used by an intermediate counter for another operation, so its value tended to converge on zero after time.

yes, the bad pointer would cross through the memory-map area of the screen on its way to the zero page, where it eventually overwrote an interrupt vector and killed the PC

this was way before modern debugging tools, so figuring out what was happening took a couple of weeks...


Not one of mine, but a colleague at a previous place of employment spent 3 days debugging his JavaScript popout editor control (this was quite a while ago, before the joys of frameworks), only to find that it was missing a single semicolon halfway down one of its huge core files.

We dubbed it "the world's most expensive semicolon", but I'm sure there's been far worse throughout history!


This is a little off-topic (which is why I made it community).

But The Bug by Ellen Ullman is a fantastic fictional book about this very topic.


There was a code that sets some expiry date to current date plus one year by adding 1 to the current year and keeping the day and month as the same. This failed big time on Feb 29, 2008 because the database refused to accept Feb 29, 2009 !!

Don't know whether that qualifies for being 'tough', but it was a weird code which was rewritten immediately of course !


When I first started at the company I work for I did a lot of CPR to learn the products.

This embedded product written in HC11 assembly had a feature that occurred every eight hours. Turns out the interrupt that decremented the value was firing during the code that was checking the counter. Slapped some CLI/STI around the code and it was fine. I tracked it down by hacking the event to happen twice a second rather than every eight hours.

The lesson I learned from this was when debugging code that fails infrequently I should check the variables used by interrupts first.


Not sure this is the toughest, but several years ago I had a Java program which made use of XMLEncoder in order to save/load a particular class. For some reason the class wasn't working properly. I did a simple binary search for error and discovered that the error was happening after one function call but before another call, which should have been impossible. 2 hours later I had not figured it out, though the moment I took a break (and was leaving) I realized the problem. It turned out the XMLEncoder was creating a default-constructed instance of the class instead of having both the class and the reference to the class refer to the same object. So, while I thought the two function calls where both on members of the same instance of a particular class, one was actually on a default-constructed copy.

Was tough to find since I knew they were both references to the same class.

-1 for confusing "object" and "class". –  finnw Oct 4 '08 at 11:02

DevExpress XPO talking to an Oracle database crashing hard (as in: program exits silently) if directory path that the application is installed to does not contain at least one space, and the data dictionary XPO checks for isn't 100% correctly cased in the database.

Problem described here.

I can tell you this: I was this >< close to crying when we figured out how to circumvent the problem. I still don't know what the actual, real, cause of the problem is, but our product is not going to support Oracle in future version so I'm actually not giving a .... any more.


I had a bug with a custom synchronization program once. It used the date/time stamp of files/folders to compare what was modified to synchronize data from a flash key to a network share in windows, with some extra integrity and business logic built in it.

One day, an operator reported that his sync was taking forever...after reviewing the logs, for some reason, the software thought every file on the stick (or the server) was 3 hours older than it should be, refreshing all 8 gigs of data! I was using UTC, how the heck could this be?

It turns out, this particular operator did indeed set his time zone to Pacific time instead of Eastern, causing the problem, but it shouldn't have, because all the code was using UTC - good god what could it be?! It worked when testing it on my local system...what gives?

At this point, we requested all operators ensure that their laptops were set to eastern time before they synced, and the bug stayed in the queue until we had more time to investigate.

Then, October came around and BOOM! Daylight savings time! What the heck!? Now everyone was complaining syncing was taking forever! Had to be fixed, and fast!

I tracked it down by modifying the test case to run off a stick instead of off my local hard drive, and sure enough, it failed...phew, must a a memory stick thing - wait a sec, is it formatted FAT32... AH HA! FAT32 uses localtime when recording the timestamp of a file!


So, the software was rewritten so that when writing to FAT32 media, we programatically set it to UTC...


A deadlock in a Java Server Application. But not a simple deadlock with two threads. I tracked down a deadlock involving eight threads. Thread 1 waits for thread 2 that waits for thread 3, etc, and finally thread 8 waits for thread 1.

It took me about one entire day to understand what was going on and then just 15 minutes to fix it. I use eclipse to monitor about 40 threads till I discovered the deadlock.


The toughest bug would have to be when a programmer output to a log "General Error!". After looking through the code, it was scattered everywhere with the text "General Error!". Try nailing that one down.

At least writing a macro to output __LINE__ or __FUNCTION__ would have been a little more helpful to add to the debug output.


A race between Oracle's OracleDecimal class's ToString method (which P/Invokes the native version of the same functionality) and the garbage collector caused by a missing GC.KeepAlive call which can cause OracleDecimal.ToString() to return essentially arbitrary junk if its heap space happens to be overwritten before the call finishes.

I wrote a detailed bug report and never heard back, for all I know this is still out there. I even had a test harness that did nothing but create new OracleDecimal representations of the number 1, call ToString on them, and compare the result with "1". It would fail every ten-millionth time or so with crazy gibberish (huge numbers, negative numbers, and even alphanumeric junk strings).

Be careful out there with your P/Invoke calls! It is legal for the .NET garbage collector to collect your instance while a call to an instance method on that instance is still pending, as long as the instance method has finished using the this reference.

Reflector is an absolute lifesaver for stuff like this.


In Python, I had a thread doing something like this:

while True:
    with some_mutex:

clock.tick(60) suspends the thread so that it runs no more than 60 times per second. The problem was that most of the time the program just showed a black screen. If I let it run for some time, it finally showed the game screen.

It's because the thread was doing the pause while maintaining the mutex. Thus it rarely let other threads acquire the mutex. It may seem obvious here, but I took me two days to figure it out. The solution is simply to remove an indent level:

while True:
    with some_mutex:


might seem funny but when i was learing i spent an entire afternoon trying to figure out why an if statment always evaluate to true i used = instead of == :d i ve rewritten everything twice on an other computer :)


A box had crashed at a big customer's site, and we had to connect via a WebX session to an IT guy's computer, which was connected to our box. I poked around for about an hour, grabbing stack traces, register dumps, statistics, counters, and dumping sections of memory that seemed relevant.

Their IT guys then emailed me a transcript of my session, and I got to work.

After a few hours, I'd traced it back to an array of structures which contained packet metadata followed by packet data. One of the packet's metadata was corrupt, and it looked like it had been overwritten by a few bytes of packet data. Bugzilla had no record of anything similar.

Delving into the code, I checked all the obvious things. The code that copied packet data into the buffer was meticulous about not exceeding its bounds: the buffer was the MTU size for the interface, and the copy routine checked that the data didn't exceed the MTU size. My memory dumps allowed me to validate that, yes, foo->bar was indeed 4 when the crash happened. Nothing added up. Nothing was wrong in a way that should have caused the problem. There were what looked like 16 bytes of packet data in the next header.

A couple days later, I started checking anything and everything that I could think of.

I noticed that the length of the data buffer was actually correct. That is, the number of bytes from start of data until end of data was an MTU, even though the next header started at MTU-16.

When these structs were malloc'd, pointers to each element were placed in an array, and I'd dumped that array. I started measuring distance between these pointers. 6888... 6888... 6888... 6872... 6904... 6880... 6880...

Wait, what?

I started looking at the internal pointers and offsets in both structures. Everything added up. It just looked like my one bad structure - the one that'd been partially clobbered - was just 16 bytes too soon in memory.

The allocation routine malloc'd these guys as a chunk, and then carved them up in a loop:

   for (i = 0; i < NUM_ELEMS; i++) {
      array[i] = &head[i*sizeof(foo)];

(with allowances for alignment, etc.).

When the array was filled the value for my corrupt pointer must have been read as 0x8a112**8**ac instead of 0x8a112**9**ac.

I came to the conclusion that I'd been the victim of a 1-bit memory error during allocation (I know, I know! I didn't believe it either, but we'd seen them before on this hardware -- NULL values that were read as 0x00800000). In any case, I managed to convince my boss and co-workers that there was no other reasonable explanation, and that my explanation exactly explained what we were seeing.

So, box RMA'd.


A legacy database based application (with only part of the source avaliable) crashed when one particular user accessed a certain inventory feature. It worked perfectly for all other users. The user profile right? Nope. When logging in as a different user (even as admin) the same user had the same problem.

Computer problem? Nope. Same user, different PC (under her login or any other login) still crashed.

The problem: when logging in the program displayed a copyright splash screen that could be closed either by clicking the "X" to close the window, or by pressing any key. When logging in this user always clicked the "X" where other users always pressed a key. This resulted in a memory leak that caused but only when the inventory lookup was accessed.

Fix: Don't click the X.


The toughest bugs I ever fixed actually came quite early in my career. I was working on a real-time system for a power station that used pairs of GEC 2050 computers with shared memory.

2050 RTOS had a main scheduling table which consisted of one slot per process, the contents of which were either an add 1,X instruction for an inactive process or a jump for an executable process. Executing this table with X set to zero meant that the first runnable process automatically got entered with the X register being the process number. Whoever designed this obviously felt he was being very clever!

The 2050 architecture also had a security feature where an unrecognised opcode always caused a halt. Since the 2050 had a full-blown front panel, you could then use that to try and work out what had crashed. Since the X register always held the current process ID, this was usually fairly straight-forward.

There was no memory segmentation or protection, so it was perfectly possible for a process to corrupt either any other process currently in memory or indeed anything in the system area.

So far so consistent for the era (late 70s).

Since this particular system had shared memory between the two CPUs, the system configuration placed the system tables in the shared memory, to allow one CPU to start and stop processes in the other without having to go through any namby pamby secure interface.

Unfortunately this also allowed one CPU's wild process to corrupt the tables for the other CPU, so one CPU could happily crash the other. If this happened, what was running in the crashed CPU bore no relationship at all to the actual fault. Meanwhile the other CPU had happily carried on so there was no way to tell if it had caused the problem.

Needless to say, this provided a few hard to fix issues!

After a little bit of hair tearing, I ended up writing a fairly substantial patch to the O/S which looked for corruption in the scheduler table for the other CPU and crashed the CPU it was running on. This was hooked into a regular interrupt so while not being perfectly synchronised, at least it had a good chance of catching the offending process.

This helped me clear up quite a few mutual-CPU issues...


I'm currently attending university and the hardest bug I encountered was from a programming class there. In the previous two semesters, we simply wrote all of our own code. But for the third semester, the professor and TA would write half the code, and we were to write the other half. This was to help us learn to read code.

Our first assignment for that semester was to write a program that simulates DNA gene splitting. Basically, we just had to find a substring in a larger one and process the results. Apparently, the professor and TA were both busy that week and gave us their half of the code without having their own full implementation finished yet. They hadn't had time to write the other half to act as a solution. Their half would compile, but without a full solution coded, there wasn't a way for them to test it. We were told not to alter the professors code. Everyone in the class had the exact same bug, but we all still assumed we were just all making the same mistake.

The program was gobbling gigabytes of memory and then running out and crashed. We (the students) all assumed that our half the code must have some obscure memory leak in it. Everyone in the class was scouring the code for two weeks and running it through a debugger over and over again. Our input file was a 5.7 MB string and we were finding hundreds of substrings in it and storing them. The professor/TA's code used this.

myString = myString.substr(0,pos);

See the problem? When you assign a string variable to its own substring, the memory is not reallocated. That's a tidbit of information nobody (not even the professor or TA) knew. So myString had 5.7 MB of allocated memory only to hold a few bytes of actual data. This was repeated hundreds of times; thus the massive memory usage. I spent two weeks on this problem. I spent the first week checking my own code for memory leaks. In my frustration I finally concluded the professor/TA's half must have the leak, so I spent the second week checking their code. But even then, it took me so long to find because this wasn't technically a leak. All allocations were eventually being freed and the program worked fine when our input data was only a dozen kilobytes. The only reason I found it was because I sent psycho crazy and decided to analyze every single last variable; even the temporary throw-away stuff. I was also spending a lot of time checking how many chars the string actually had, not how much was allocated. I assumed the string class was taking care of this. Here was the solution, a one line change that fixed weeks of frustrated and earned me an A on the assignment for finding/fixing the teacher's code.


The swap method, does force a reallocation.


I once had a bug in a .NET app that would cause the CLR to crash - yes the CLR would just exit with a non-zero result and there'd be no debug info.

I peppered the code with console trace messages trying to find out where the issue was (the error would occur at startup) and eventually found the few lines causing the problem. I tried isolating the issue but every time I did the isolated case would work!

In the end I changed the code from:

int value = obj.CalculateSomething();


int value;
value = obj.CalculateSomething();

Don't ask me why, but this worked.


A nasty crash in a GUI app written in Turbo Pascal. Three days plus before i discovered, by single stepping in the debugger, at a machine code level, over simple and obviously correct code, that i was putting a 16-bit integer on the call stack for a function expecting 32-bit (or some such mismatch)

Now i am wise to that, although modern compilers don't allow that kind of trouble any more.


A heap memory violation in a text edit control that I used. After many months (...) looking for it, I found the solution working with another programmer, peer debugging the problem. This very instance convinced me of the value of working in teams and Agile in general. Read more about it at my blog


There are a couple of those I can recollect, most of them caused by me :). Almost evey one of these needed lots of head scratching.

  1. I was part of a java project (rich client), the java code used to work well on vanilla builds or new machines without problem, but when installed on the presentation laptops,it suddenly stopped working and started throwing stackdump. Further investigation showed that the the code relied on a custom dll which has conflicting with cygwin. Thats not the end of the story, we were supposed to install it on 5 other machies and guess what, on one of the machines it again crashed! This time the culprit was the jvm, the code we gave was for built using Sun microsystems jdk and the machine had ibm's jvm.

  2. Another instance I can recollect has to do with a custom event handler code, The code was unit tested and verified, finally when I removed the print() statements, BOOM!!. When we debugged, the code ran perfectly adding to our owes. I had to resort to zen meditation (a nap on the desk) and it occured that there might be a temporal anamoly! The event we were delegating was triggering the function even before the condition was set, the print statements & debug mode gave enough time for the condition to be set and so worked properly. A sigh of relief and some refactoring solved the issue.

  3. One fine day I decided that some of the domain objects needed to implement Clonable interface, things were fine. After some weeks, we observed that the application started behaving wierdly. Guess what? we were adding these shallow copies to the collection classes and the remove() methods were not actually clearing the contents properly, (due to duplicate references pointing to the same object). This caused some serious model review and a couple of raised browes.


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