I would like to step through some LLVM IR code I have generated. The code is syntactically and type valid as far as the llc and lli are concerned, but the results are not what I expected.

The chunks are large enough that I have been unsuccessful in simply reading out the bug, and I am having a hard time producing a smaller example with the same bug.

I figured that I could use something like a debugger, but for LLVM IR. In other words, I want to be able to step through the llvm code, examine the "infinite" registers (given the names in the LLVM IR file)and memory locations, set breakpoints, until I find where my code went wrong.

I looked into lli and lldb, but neither seems to be the tool I am looking for. lli will run my code but not let me go step by step. lldb seems to assume the code was generated by C frontends.

Am I wrong about lldb and lli? Does anyone know of a tool that does even 50% of what I want?

  • 1
    As a wild guess - you can debug lli and look how it interprets every instrucion. You'd have to do some hacking to set a breakpoint, though. – arrowd Aug 13 '15 at 10:03

I am not aware of such a thing (I suspect it does not exist). Though I will gladly share my points on llvm produced code debugging.

  1. Debug the generated code itself (step though it in gdb).
  2. Make use of the debugtrap intrinsic (which simply generates int3 or whatever equivalent on your architecture). You can make assertions with this thing and see which of them fails.
  3. Give your instructions names (so they are not %0, %1 but meaningful %names) -- they appear as comments in llc output.
  4. Build a CFG (control flow graph) for your function: opt --dot-cfg 1.ll; dot cfg.funcname.dot -Tpng > 1.png
  5. Don't forget to disable llvm optimizations (you can have backend -O3 optimization level, but IR transformation passes can make it harder to debug).

So the workflow I am suggesting is as follows. Build a CFG (4.) and assembly (via llc). Break to the generated code in gdb and step through it (or let it trap on one of your asserions). Correlate the point at which you stopped in gdb to llc output, read the comment, corellate to the CFG. Grok.

You can also build CFG representation out of the generated code. Of the tools I know IDA Pro (a very expensive way to build CFGs) and Saga offer such functionality.

P.S.: This was initially a comment, but it grew too long.


I am looking for the same thing, and I found this : Debugging JIT-ed Code With GDB.

1) compile with clang and emit bytecode

clang++ -emit-llvm -D_GNU_SOURCE -D__STDC_LIMIT_MACROS -DDEBUG  -O0  -m64 -fomit-frame-pointer -c a.cpp -g -fno-use-cxa-atexit
clang++ -emit-llvm -D_GNU_SOURCE -D__STDC_LIMIT_MACROS -DDEBUG  -O0  -m64 -fomit-frame-pointer -c b.cpp -g -fno-use-cxa-atexit

2) link with llvm-link

llvm-link -o all.bc a.bc b.bc

3) debug with gdb and lli, using jit

gdb --quiet --args lli -jit-kind=mcjit all.bc

(gdb) b initCloneLookups
Function "initCloneLookups" not defined.
Make breakpoint pending on future shared library load? (y or [n]) y
Breakpoint 1 (initCloneLookups) pending.

(gdb) r
Starting program: lli -jit-kind=mcjit all.bc
[Thread debugging using libthread_db enabled]
Using host libthread_db library "/lib/x86_64-linux-gnu/libthread_db.so.1".

Breakpoint 1, initCloneLookups () at a.cpp:66
66              clone_lookups = new BitBoard64[61];

Answer 'y' on set breakpoint.

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