Many times, these kinds of errors are the result of a "perfect storm" of circumstances (i.e. race conditions, infrequent tasks running at just the "right" time, etc.), and often the kind of circumstances that you just cannot anticipate; if you knew how to reproduce it reliably, you'd probably also know how to fix it. The next best thing you can hope for is to try and increase your statistical odds of reproducing it in an environment (the debugger) where you could hopefully make sense of what's happening.
See this post: iOS Development: How can I induce low memory warnings on device?. By simulating memory warnings programmatically, you can (for example) use a repeating timer to cause a memory warning 1/sec (much faster than that and you may run into other issues, which will have you chasing your tail more than solving your original problem), eliminating the need to do it by hand repeatedly.
Before actually running the test, you can also set breakpoints at the following locations:
Symbol Module
====== ======
objc_exception_throw libobjc.A.dylib
-[NSException raise] CoreFoundation
Additionally, set breakpoints on all Objective-C exceptions. Setting a breakpoint will allow you to inspect the contents of memory before the exception actually gets thrown by the runtime, which will give you a much better chance of understanding the problem when it happens. When (and if) you capture the crash, inspect pid
, pid.UTF8String
and sql_stmt
, as those look like the most likely culprits.
Run your app and start the timer firing. This will not necessarily or directly cause the crash you're looking for, but it will probably make it much more likely to occur over time without having to hand-hold; you can fire off the timer and wait (i.e. do something more productive) until you actually see the crash.