.. Copyright (C) 2014-2020 Free Software Foundation, Inc. Originally contributed by David Malcolm This is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . Internals ========= Working on the JIT library -------------------------- Having checked out the source code (to "src"), you can configure and build the JIT library like this: .. code-block:: bash mkdir build mkdir install PREFIX=$(pwd)/install cd build ../src/configure \ --enable-host-shared \ --enable-languages=jit,c++ \ --disable-bootstrap \ --enable-checking=release \ --prefix=$PREFIX nice make -j4 # altering the "4" to however many cores you have This should build a libgccjit.so within jit/build/gcc: .. code-block:: console [build] $ file gcc/libgccjit.so* gcc/libgccjit.so: symbolic link to `libgccjit.so.0' gcc/libgccjit.so.0: symbolic link to `libgccjit.so.0.0.1' gcc/libgccjit.so.0.0.1: ELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, not stripped Here's what those configuration options mean: .. option:: --enable-host-shared Configuring with this option means that the compiler is built as position-independent code, which incurs a slight performance hit, but it necessary for a shared library. .. option:: --enable-languages=jit,c++ This specifies which frontends to build. The JIT library looks like a frontend to the rest of the code. The C++ portion of the JIT test suite requires the C++ frontend to be enabled at configure-time, or you may see errors like this when running the test suite: .. code-block:: console xgcc: error: /home/david/jit/src/gcc/testsuite/jit.dg/test-quadratic.cc: C++ compiler not installed on this system c++: error trying to exec 'cc1plus': execvp: No such file or directory .. option:: --disable-bootstrap For hacking on the "jit" subdirectory, performing a full bootstrap can be overkill, since it's unused by a bootstrap. However, when submitting patches, you should remove this option, to ensure that the compiler can still bootstrap itself. .. option:: --enable-checking=release The compile can perform extensive self-checking as it runs, useful when debugging, but slowing things down. For maximum speed, configure with ``--enable-checking=release`` to disable this self-checking. Running the test suite ---------------------- .. code-block:: console [build] $ cd gcc [gcc] $ make check-jit RUNTESTFLAGS="-v -v -v" A summary of the tests can then be seen in: .. code-block:: console jit/build/gcc/testsuite/jit/jit.sum and detailed logs in: .. code-block:: console jit/build/gcc/testsuite/jit/jit.log The test executables are normally deleted after each test is run. For debugging, they can be preserved by setting :envvar:`PRESERVE_EXECUTABLES` in the environment. If so, they can then be seen as: .. code-block:: console jit/build/gcc/testsuite/jit/*.exe which can be run independently. You can compile and run individual tests by passing "jit.exp=TESTNAME" to RUNTESTFLAGS e.g.: .. code-block:: console [gcc] $ PRESERVE_EXECUTABLES= \ make check-jit \ RUNTESTFLAGS="-v -v -v jit.exp=test-factorial.c" and once a test has been compiled, you can debug it directly: .. code-block:: console [gcc] $ PATH=.:$PATH \ LD_LIBRARY_PATH=. \ LIBRARY_PATH=. \ gdb --args \ testsuite/jit/test-factorial.c.exe Running under valgrind ********************** The jit testsuite detects if :envvar:`RUN_UNDER_VALGRIND` is present in the environment (with any value). If it is present, it runs the test client code under `valgrind `_, specifcally, the default `memcheck `_ tool with `--leak-check=full `_. It automatically parses the output from valgrind, injecting XFAIL results if any issues are found, or PASS results if the output is clean. The output is saved to ``TESTNAME.exe.valgrind.txt``. For example, the following invocation verbosely runs the testcase ``test-sum-of-squares.c`` under valgrind, showing an issue: .. code-block:: console $ RUN_UNDER_VALGRIND= \ make check-jit \ RUNTESTFLAGS="-v -v -v jit.exp=test-sum-of-squares.c" (...verbose log contains detailed valgrind errors, if any...) === jit Summary === # of expected passes 28 # of expected failures 2 $ less testsuite/jit/jit.sum (...other results...) XFAIL: jit.dg/test-sum-of-squares.c: test-sum-of-squares.c.exe.valgrind.txt: definitely lost: 8 bytes in 1 blocks XFAIL: jit.dg/test-sum-of-squares.c: test-sum-of-squares.c.exe.valgrind.txt: unsuppressed errors: 1 (...other results...) $ less testsuite/jit/test-sum-of-squares.c.exe.valgrind.txt (...shows full valgrind report for this test case...) When running under valgrind, it's best to have configured gcc with :option:`--enable-valgrind-annotations`, which automatically suppresses various known false positives. Environment variables --------------------- When running client code against a locally-built libgccjit, three environment variables need to be set up: .. envvar:: LD_LIBRARY_PATH `libgccjit.so` is dynamically linked into client code, so if running against a locally-built library, ``LD_LIBRARY_PATH`` needs to be set up appropriately. The library can be found within the "gcc" subdirectory of the build tree: .. code-block:: console $ file libgccjit.so* libgccjit.so: symbolic link to `libgccjit.so.0' libgccjit.so.0: symbolic link to `libgccjit.so.0.0.1' libgccjit.so.0.0.1: ELF 64-bit LSB shared object, x86-64, version 1 (GNU/Linux), dynamically linked, not stripped .. envvar:: PATH The library uses a driver executable for converting from .s assembler files to .so shared libraries. Specifically, it looks for a name expanded from ``${target_noncanonical}-gcc-${gcc_BASEVER}${exeext}`` such as ``x86_64-unknown-linux-gnu-gcc-5.0.0``. Hence ``PATH`` needs to include a directory where the library can locate this executable. The executable is normally installed to the installation bindir (e.g. /usr/bin), but a copy is also created within the "gcc" subdirectory of the build tree for running the testsuite, and for ease of development. .. envvar:: LIBRARY_PATH The driver executable invokes the linker, and the latter needs to locate support libraries needed by the generated code, or you will see errors like: .. code-block:: console ld: cannot find crtbeginS.o: No such file or directory ld: cannot find -lgcc ld: cannot find -lgcc_s Hence if running directly from a locally-built copy (without installing), ``LIBRARY_PATH`` needs to contain the "gcc" subdirectory of the build tree. For example, to run a binary that uses the library against a non-installed build of the library in LIBGCCJIT_BUILD_DIR you need an invocation of the client code like this, to preprend the dir to each of the environment variables: .. code-block:: console $ LD_LIBRARY_PATH=$(LIBGCCJIT_BUILD_DIR):$(LD_LIBRARY_PATH) \ PATH=$(LIBGCCJIT_BUILD_DIR):$(PATH) \ LIBRARY_PATH=$(LIBGCCJIT_BUILD_DIR):$(LIBRARY_PATH) \ ./jit-hello-world hello world Packaging notes --------------- The configure-time option :option:`--enable-host-shared` is needed when building the jit in order to get position-independent code. This will slow down the regular compiler by a few percent. Hence when packaging gcc with libgccjit, please configure and build twice: * once without :option:`--enable-host-shared` for most languages, and * once with :option:`--enable-host-shared` for the jit For example: .. code-block:: bash # Configure and build with --enable-host-shared # for the jit: mkdir configuration-for-jit pushd configuration-for-jit $(SRCDIR)/configure \ --enable-host-shared \ --enable-languages=jit \ --prefix=$(DESTDIR) make popd # Configure and build *without* --enable-host-shared # for maximum speed: mkdir standard-configuration pushd standard-configuration $(SRCDIR)/configure \ --enable-languages=all \ --prefix=$(DESTDIR) make popd # Both of the above are configured to install to $(DESTDIR) # Install the configuration with --enable-host-shared first # *then* the one without, so that the faster build # of "cc1" et al overwrites the slower build. pushd configuration-for-jit make install popd pushd standard-configuration make install popd Overview of code structure -------------------------- The library is implemented in C++. The source files have the ``.c`` extension for legacy reasons. * ``libgccjit.c`` implements the API entrypoints. It performs error checking, then calls into classes of the gcc::jit::recording namespace within ``jit-recording.c`` and ``jit-recording.h``. * The gcc::jit::recording classes (within ``jit-recording.c`` and ``jit-recording.h``) record the API calls that are made: .. literalinclude:: ../../jit-common.h :start-after: /* Recording types. */ :end-before: /* End of recording types. */ :language: c++ * When the context is compiled, the gcc::jit::playback classes (within ``jit-playback.c`` and ``jit-playback.h``) replay the API calls within langhook:parse_file: .. literalinclude:: ../../jit-common.h :start-after: /* Playback types. */ :end-before: /* End of playback types. */ :language: c++ .. literalinclude:: ../../notes.txt :lines: 1- Here is a high-level summary from ``jit-common.h``: .. include:: ../../jit-common.h :start-after: This comment is included by the docs. :end-before: End of comment for inclusion in the docs. */ .. _example-of-log-file: Another way to understand the structure of the code is to enable logging, via :c:func:`gcc_jit_context_set_logfile`. Here is an example of a log generated via this call: .. literalinclude:: test-hello-world.exe.log.txt :lines: 1- Design notes ------------ It should not be possible for client code to cause an internal compiler error. If this *does* happen, the root cause should be isolated (perhaps using :c:func:`gcc_jit_context_dump_reproducer_to_file`) and the cause should be rejected via additional checking. The checking ideally should be within the libgccjit API entrypoints in libgccjit.c, since this is as close as possible to the error; failing that, a good place is within ``recording::context::validate ()`` in jit-recording.c. Submitting patches ------------------ Please read the contribution guidelines for gcc at https://gcc.gnu.org/contribute.html. Patches for the jit should be sent to both the gcc-patches@gcc.gnu.org and jit@gcc.gnu.org mailing lists, with "jit" and "PATCH" in the Subject line. You don't need to do a full bootstrap for code that just touches the ``jit`` and ``testsuite/jit.dg`` subdirectories. However, please run ``make check-jit`` before submitting the patch, and mention the results in your email (along with the host triple that the tests were run on). A good patch should contain the information listed in the gcc contribution guide linked to above; for a ``jit`` patch, the patch shold contain: * the code itself (for example, a new API entrypoint will typically touch ``libgccjit.h`` and ``.c``, along with support code in ``jit-recording.[ch]`` and ``jit-playback.[ch]`` as appropriate) * test coverage * documentation for the C API * documentation for the C++ API A patch that adds new API entrypoints should also contain: * a feature macro in ``libgccjit.h`` so that client code that doesn't use a "configure" mechanism can still easily detect the presence of the entrypoint. See e.g. ``LIBGCCJIT_HAVE_SWITCH_STATEMENTS`` (for a category of entrypoints) and ``LIBGCCJIT_HAVE_gcc_jit_context_set_bool_allow_unreachable_blocks`` (for an individual entrypoint). * a new ABI tag containing the new symbols (in ``libgccjit.map``), so that we can detect client code that uses them * Support for :c:func:`gcc_jit_context_dump_reproducer_to_file`. Most jit testcases attempt to dump their contexts to a .c file; ``jit.exp`` then sanity-checks the generated c by compiling them (though not running them). A new API entrypoint needs to "know" how to write itself back out to C (by implementing ``gcc::jit::recording::memento::write_reproducer`` for the appropriate ``memento`` subclass). * C++ bindings for the new entrypoints (see ``libgccjit++.h``); ideally with test coverage, though the C++ API test coverage is admittedly spotty at the moment * documentation for the new C entrypoints * documentation for the new C++ entrypoints * documentation for the new ABI tag (see ``topics/compatibility.rst``). Depending on the patch you can either extend an existing test case, or add a new test case. If you add an entirely new testcase: ``jit.exp`` expects jit testcases to begin with ``test-``, or ``test-error-`` (for a testcase that generates an error on a :c:type:`gcc_jit_context`). Every new testcase that doesn't generate errors should also touch ``gcc/testsuite/jit.dg/all-non-failing-tests.h``: * Testcases that don't generate errors should ideally be added to the ``testcases`` array in that file; this means that, in addition to being run standalone, they also get run within ``test-combination.c`` (which runs all successful tests inside one big :c:type:`gcc_jit_context`), and ``test-threads.c`` (which runs all successful tests in one process, each one running in a different thread on a different :c:type:`gcc_jit_context`). .. note:: Given that exported functions within a :c:type:`gcc_jit_context` must have unique names, and most testcases are run within ``test-combination.c``, this means that every jit-compiled test function typically needs a name that's unique across the entire test suite. * Testcases that aren't to be added to the ``testcases`` array should instead add a comment to the file clarifying why they're not in that array. See the file for examples. Typically a patch that touches the .rst documentation will also need the texinfo to be regenerated. You can do this with `Sphinx 1.0 `_ or later by running ``make texinfo`` within ``SRCDIR/gcc/jit/docs``. Don't do this within the patch sent to the mailing list; it can often be relatively large and inconsequential (e.g. anchor renumbering), rather like generated "configure" changes from configure.ac. You can regenerate it when committing to svn.