These are known as Heisenbugs.
Different programming languages will have their own flavour of bugs.
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.
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.
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?
Exit extraneous applications, kill background tasks, stop all scheduled events (cron jobs), eliminate plug-ins, and uninstall browser add-ons.
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 file descriptors?
- 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?
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.
Use liberal amounts of logging to correlate the time events happened. Examine logs for any obvious errors, timing issues, etc.
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?
And mostly for embedded:
- Insufficient supply bypassing?
- Board contamination?
- Bad solder joints / bad reflow?
- CPU not reset when supply voltages are out of tolerance?
- Bad resets because supply rails are back-powered from I/O ports and don't fully discharge?
- Floating input pins?
- Insufficient (sometimes negative) noise margins on logic levels?
- Insufficient (sometimes negative) timing margins?
- Tin whiskers?
- ESD damage?
- ESD upsets?
- Chip errata?
- Interface misuse (e.g. I2C off-board or in the presence of high-power signals)?
- Race conditions?
- Counterfeit components?
Network vs. Local
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?
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.
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?
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.
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.
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.
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.
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 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.
Infrequent but it happens, especially for niche tools (e.g. a C micro-controller compiler suffering from a symbol table overflow).