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67b774212d
With the new PM imminent, bugpoint will diverge from opt, meaning it may not reproduce a crash with the same arguments passed to opt. We need to specify alternatives to bugpoint for reducing crashes. I looked at the rest of the document to see if anything could be improved. Major highlights: * Run -Xclang -disable-llvm-passes instead of -O0 for skipping IR passes * Mention the files that clang dumps on a crash * Remove outdated reference to `delta` and plug `creduce` instead * Mention llvm-reduce on top of bugpoint * Mention --print-before-all --print-module-scope * Mention sanitizers in addition to valgrind * Mention opt-bisect for miscompiles Reviewed By: fhahn, MaskRay Differential Revision: https://reviews.llvm.org/D95578
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================================
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How to submit an LLVM bug report
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================================
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Introduction - Got bugs?
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========================
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If you're working with LLVM and run into a bug, we definitely want to know
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about it. This document describes what you can do to increase the odds of
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getting it fixed quickly.
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🔒 If you believe that the bug is security related, please follow :ref:`report-security-issue`. 🔒
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Basically you have to do two things at a minimum. First, decide whether the
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bug `crashes the compiler`_ or if the compiler is `miscompiling`_ the program
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(i.e., the compiler successfully produces an executable, but it doesn't run
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right). Based on what type of bug it is, follow the instructions in the
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linked section to narrow down the bug so that the person who fixes it will be
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able to find the problem more easily.
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Once you have a reduced test-case, go to `the LLVM Bug Tracking System
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<https://bugs.llvm.org/enter_bug.cgi>`_ and fill out the form with the
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necessary details (note that you don't need to pick a category, just use
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the "new-bugs" category if you're not sure). The bug description should
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contain the following information:
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* All information necessary to reproduce the problem.
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* The reduced test-case that triggers the bug.
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* The location where you obtained LLVM (if not from our Git
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repository).
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Thanks for helping us make LLVM better!
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.. _crashes the compiler:
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Crashing Bugs
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=============
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More often than not, bugs in the compiler cause it to crash---often due to
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an assertion failure of some sort. The most important piece of the puzzle
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is to figure out if it is crashing in the Clang front-end or if it is one of
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the LLVM libraries (e.g. the optimizer or code generator) that has
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problems.
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To figure out which component is crashing (the front-end, middle-end
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optimizer, or backend code generator), run the ``clang`` command line as you
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were when the crash occurred, but with the following extra command line
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options:
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* ``-emit-llvm -Xclang -disable-llvm-passes``: If ``clang`` still crashes when
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passed these options (which disable the optimizer and code generator), then
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the crash is in the front-end. Jump ahead to :ref:`front-end bugs
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<frontend-crash>`.
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* ``-emit-llvm``: If ``clang`` crashes with this option (which disables
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the code generator), you found a middle-end optimizer bug. Jump ahead to
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:ref:`middle-end bugs <middleend-crash>`.
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* Otherwise, you have a backend code generator crash. Jump ahead to :ref:`code
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generator bugs <backend-crash>`.
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.. _frontend-crash:
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Front-end bugs
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--------------
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On a ``clang`` crash, the compiler will dump a preprocessed file and a script
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to replay the ``clang`` command. For example, you should see something like
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.. code-block:: text
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PLEASE ATTACH THE FOLLOWING FILES TO THE BUG REPORT:
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Preprocessed source(s) and associated run script(s) are located at:
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clang: note: diagnostic msg: /tmp/foo-xxxxxx.c
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clang: note: diagnostic msg: /tmp/foo-xxxxxx.sh
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The `creduce <https://github.com/csmith-project/creduce>`_ tool helps to
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reduce the preprocessed file down to the smallest amount of code that still
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replicates the problem. You're encouraged to use creduce to reduce the code
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to make the developers' lives easier. The
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``clang/utils/creduce-clang-crash.py`` script can be used on the files
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that clang dumps to help with automating creating a test to check for the
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compiler crash.
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`cvise <https://github.com/marxin/cvise>`_ is an alternative to ``creduce``.
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.. _middleend-crash:
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Middle-end optimization bugs
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----------------------------
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If you find that a bug crashes in the optimizer, compile your test-case to a
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``.bc`` file by passing "``-emit-llvm -O1 -Xclang -disable-llvm-passes -c -o
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foo.bc``". The ``-O1`` is important because ``-O0`` adds the ``optnone``
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function attribute to all functions and many passes don't run on ``optnone``
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functions. Then run:
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.. code-block:: bash
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opt -O3 foo.bc -disable-output
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If this doesn't crash, please follow the instructions for a :ref:`front-end
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bug <frontend-crash>`.
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If this does crash, then you should be able to debug this with the following
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:doc:`bugpoint <Bugpoint>` command:
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.. code-block:: bash
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bugpoint foo.bc -O3
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Run this, then file a bug with the instructions and reduced .bc
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files that bugpoint emits.
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If bugpoint doesn't reproduce the crash, ``llvm-reduce`` is an alternative
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way to reduce LLVM IR. Create a script that repros the crash and run:
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.. code-block:: bash
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llvm-reduce --test=path/to/script foo.bc
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which should produce reduced IR that reproduces the crash. Be warned the
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``llvm-reduce`` is still fairly immature and may crash.
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If none of the above work, you can get the IR before a crash by running the
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``opt`` command with the ``--print-before-all --print-module-scope`` flags to
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dump the IR before every pass. Be warned that this is very verbose.
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.. _backend-crash:
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Backend code generator bugs
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---------------------------
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If you find a bug that crashes clang in the code generator, compile your
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source file to a .bc file by passing "``-emit-llvm -c -o foo.bc``" to
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clang (in addition to the options you already pass). Once your have
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foo.bc, one of the following commands should fail:
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#. ``llc foo.bc``
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#. ``llc foo.bc -relocation-model=pic``
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#. ``llc foo.bc -relocation-model=static``
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If none of these crash, please follow the instructions for a :ref:`front-end
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bug<frontend-crash>`. If one of these do crash, you should be able to reduce
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this with one of the following :doc:`bugpoint <Bugpoint>` command lines (use
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the one corresponding to the command above that failed):
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#. ``bugpoint -run-llc foo.bc``
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#. ``bugpoint -run-llc foo.bc --tool-args -relocation-model=pic``
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#. ``bugpoint -run-llc foo.bc --tool-args -relocation-model=static``
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Please run this, then file a bug with the instructions and reduced .bc file
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that bugpoint emits. If something goes wrong with bugpoint, please submit
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the "foo.bc" file and the option that llc crashes with.
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.. _miscompiling:
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Miscompilations
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===============
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If clang successfully produces an executable, but that executable doesn't run
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right, this is either a bug in the code or a bug in the compiler. The first
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thing to check is to make sure it is not using undefined behavior (e.g.
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reading a variable before it is defined). In particular, check to see if the
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program is clean under various `sanitizers
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<https://github.com/google/sanitizers>`_ (e.g. ``clang
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-fsanitize=undefined,address``) and `valgrind <http://valgrind.org/>`_. Many
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"LLVM bugs" that we have chased down ended up being bugs in the program being
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compiled, not LLVM.
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Once you determine that the program itself is not buggy, you should choose
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which code generator you wish to compile the program with (e.g. LLC or the JIT)
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and optionally a series of LLVM passes to run. For example:
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.. code-block:: bash
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bugpoint -run-llc [... optzn passes ...] file-to-test.bc --args -- [program arguments]
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bugpoint will try to narrow down your list of passes to the one pass that
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causes an error, and simplify the bitcode file as much as it can to assist
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you. It will print a message letting you know how to reproduce the
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resulting error.
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The :doc:`OptBisect <OptBisect>` page shows an alternative method for finding
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incorrect optimization passes.
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Incorrect code generation
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=========================
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Similarly to debugging incorrect compilation by mis-behaving passes, you
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can debug incorrect code generation by either LLC or the JIT, using
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``bugpoint``. The process ``bugpoint`` follows in this case is to try to
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narrow the code down to a function that is miscompiled by one or the other
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method, but since for correctness, the entire program must be run,
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``bugpoint`` will compile the code it deems to not be affected with the C
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Backend, and then link in the shared object it generates.
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To debug the JIT:
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.. code-block:: bash
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bugpoint -run-jit -output=[correct output file] [bitcode file] \
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--tool-args -- [arguments to pass to lli] \
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--args -- [program arguments]
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Similarly, to debug the LLC, one would run:
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.. code-block:: bash
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bugpoint -run-llc -output=[correct output file] [bitcode file] \
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--tool-args -- [arguments to pass to llc] \
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--args -- [program arguments]
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**Special note:** if you are debugging MultiSource or SPEC tests that
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already exist in the ``llvm/test`` hierarchy, there is an easier way to
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debug the JIT, LLC, and CBE, using the pre-written Makefile targets, which
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will pass the program options specified in the Makefiles:
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.. code-block:: bash
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cd llvm/test/../../program
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make bugpoint-jit
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At the end of a successful ``bugpoint`` run, you will be presented
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with two bitcode files: a *safe* file which can be compiled with the C
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backend and the *test* file which either LLC or the JIT
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mis-codegenerates, and thus causes the error.
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To reproduce the error that ``bugpoint`` found, it is sufficient to do
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the following:
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#. Regenerate the shared object from the safe bitcode file:
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.. code-block:: bash
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llc -march=c safe.bc -o safe.c
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gcc -shared safe.c -o safe.so
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#. If debugging LLC, compile test bitcode native and link with the shared
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object:
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.. code-block:: bash
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llc test.bc -o test.s
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gcc test.s safe.so -o test.llc
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./test.llc [program options]
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#. If debugging the JIT, load the shared object and supply the test
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bitcode:
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.. code-block:: bash
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lli -load=safe.so test.bc [program options]
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