I have a program that accepts data from a socket, does some quality control and assorted other conditioning to it, then writes it out to a named pipe. I ran valgrind on it and fixed all the memory leaks that originally existed. I then created a 'demo' environment on a system where I had 32 instances of this program running, each being fed unique data and each outputting to it's own pipe. We tested it and everything looked to be fine. Then I tried stress testing it by boosting the rate at which data is sent in to an absurd rate and things looked to be good at first...but my programs kept consuming more and more memory until I had no resources left.
I turned to valgrind and ran the exact same setup except with each program running inside valgrind using leak-check=full. A few odd things happened. First, the memory did leak, but only to the point where each program had consumed .9 % of my memory (previously the largest memory hog had a full 6% of my memory). With valgrind running the CPU cost of the programs shot up and I was now at 100% cpu with a huge load-average, so it's possible the lack of available CPU caused the programs to all run slowly enough that the leak took too long to manifest. When I tried stopping these programs valgrind showed no direct memory leaks, it showed some potential memory leaks but I checked them and I don't think any of them represent real memory leaks; and besides which the possible memory leak only showed as a few kilobytes while the program was consuming over 100 MB. The reachable (non-leaked) memory reported by valgrind was also in the KB range, so valgrind seems to believe that my programs are consuming a fraction of the memory that Top says they are using.
I've run a few other tests and got odd results. A single program, even running at triple the rate my original memory-leak was detected at, never seems to consume more than .9% memory, two programs leak up to 1.9 and 1.3% memory respectively but no more etc, it's as if the amount of memory leaked, and the rate at which it leaks, is somehow dependent on how many instances of my program are running at one time; which makes no sense, each instance should be 100% independent of the others.
I also found if I run 32 instances with only one instance running in valgrind the valgrinded instance (that's a word if I say it is!) leaks memory, but at a slower rate than the ones running outside of valgrind. The valgrind instance will still say I have no direct leaks and reports far less memory consumption then Top shows.
I'm rather stumped as to what could be causing this result, and why valgrind refuses to be aware of the memory leak. I thought it might be an outside library, but I don't really use any external libraries; just basic C++ functions/objects. I also considered it could be the data written to the output pipe to fast causing the buffer to grow indefinitely, but 1) there should be an upper limit that such a buffer can grow and 2) once memory has been leaked if I drop the data input rate to nothing the memory stays consumed rather then slowly dropping back to a reasonable amount.
Can anyone give me a hint as to where I should look from here? I'm totally stumped as to why the memory is behaving this way.