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I want to add harmless unconditional branches after every jmp-like instruction in the binary to ensure that the fall through branch can be observed when we keep a record of branch instructions executed using Intel's Last Branch Record. Like in this code :


When the else part is executed, a jne instruction might be executed. But, there is no jmp-related instruction to observe that the if part is executed.

  • Is there a tool to statically add these unconditional jmp instructions for conditional statements at the binary level or at source level ?
  • I tried using TestCocoon like this : csgcc --cs-branch -g test.c But, the instrumentation overhead is quite high (around 3X the original executable). I think I am not using the right compiler options. It would be great if you could provide some pointers for adding harmless unconditional branches with low instrumentation overhead.
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2 Answers 2

Pin is a good binary instrumentation tool for X86. You can easily achieve with it what you intend.

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Yes, there is a tool to do this statically, although it requires source code producer cooperation. Here is a video where some developers used llvm to try and find race conditions. However the advised PIN tool can do precisely what you want (or at least as described).

A good question I think you should ask yourself is whether or not this is profiling is something that must be done statically. For that matter, I point you toward dynamic analysis. Another question to ask is whether or not you should really be doing this from the ground up; the availablility of tools that the community has made is rather extensive. Here's a good profiler, but I'm not sure that this exact one suits your needs because you haven't described your needs so well...

Also, about overhead-I think that just about any instrumentation tool is going to add a lot of overhead. To address this, what I would say is that the effort required to produce highly efficient profiling is generally not worth it. Unless you are making a profiling library, I would advise against it, since all you want are the results of the instrumentation.

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