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I need a log of all the memory locations a C program modifies during its execution. The problem is a bit more involved than watching a region of memory using gdb/valgrind, because I do not have the start or end addresses for the memory region. Basically, whenever and wherever the program does a memory update (in the form of a push, move to a memory operand, etc), I need that memory address as well as the value written at that address.

Does anyone have any suggestions or advice?


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have you tried adding breakpoints every time virtual memory is allocated then watch those addresses? –  DanZimm Sep 5 '12 at 0:44
have you tried soldering wires to your ram chips and connecting them to a logic analyzer? –  TJD Sep 5 '12 at 0:45
@DanZimm No. One reason I didn't do that because I believe that using breakpoints would be slow, especially if we have a lot of memory updates. Secondly, I don't know if the memory updates by instructions like push can be captured this way. –  shigoel Sep 5 '12 at 4:33

2 Answers 2

up vote 3 down vote accepted

You can monitor memory stores, reads, contents of registers, etc. with Pin, a tool created by Intel. Here is a project from MIT that simulates a processor cache (instruction and/or data). Pin is used to create a detailed instruction trace, and the trace is then used as input to the cache simulator.

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Thanks! An example (pinatrace in /source/tools/ManualExamples) that comes bundled with the Pin library does a good part of what I want. I can edit it easily to suit my needs. Also, instrumentation using Pintools doesn't seem too slow, which is always a plus. –  shigoel Sep 5 '12 at 4:36
You're welcome, I'm glad you found it useful. –  amdn Sep 5 '12 at 5:15

If you can run your program under an emulator you can instrument the emulator to record the data you want. You can find several X86 emulators listed on Wikipedia including Bochs and QEMU.

I can think of half a solution using mprotect() and a SIGSEGV handler: The protected memory will generate signals when you access it. If the handler records the address and re-enables access the faulting instruction will resume (and succeed). I don't see how you get the segment protected again, though.

You could write your own debugger (take a look at the ptrace() manual page, it's not that complicated) which exists only to PT_STEP its way through your program. You'd probably have to parse the instruction you paused on to determine if it's a memory access and then compute the effective address yourself (getting any necessary registers with PT_ GETREGS).

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Thanks for the suggestion about writing my own debugger using ptrace. Eventually, I think that is what I would want to do. –  shigoel Sep 5 '12 at 4:40

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