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As the Enterprise Linux 6 platform has now essentially reached it's end of life for what it's worth (the Fedora EPEL6 distribution is not maintained anymore) nothing ties us to using C++03 only anymore. So, I think it makes sense to move the code base to the C++11 standard. Why C++11 and not, say, C++14 or more? Well, the more direct reason I see is that we need to support long life cycle platforms, the older one being Enterprise Linux 7 currently. This is the Fedora EPEL7 distribution, in concrete terms. And in that distribution, the compiler is GCC 4.8.x. And it supports C++11. In practise, nothing changes in the code that is already there. The new code however can use C++11 constructs just fine. I have updated the CONTRIBUTING file to write down some of the unwritten cultural biases of the current code base. Hopefully these few lines will help to shed some light on the choices made so far. The update to that file also enacts the use of C++11 and sets some limits to what we expects in terms of what the code base would look like. configure.ac is modified to unconditionally pass -std=c++11 to the compiler and express that in the configuration text displayed at the end of the configuration stage. Some Makefile.am files are updated accordingly. * CONTRIBUTING: Enact use of c++11. Also, we favor those who read/debug/maintain the code as opposed to those who write it ;-) * configure.ac: Switch to c++11 unconditionally. * src/Makefile.am: Adjust. * tests/Makefile.am: Adjust. Signed-off-by: Dodji Seketeli <dodji@redhat.com>
288 lines
11 KiB
Plaintext
288 lines
11 KiB
Plaintext
Contact
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=======
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The project homepage is at https://sourceware.org/libabigail
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The current libabigail source code can be checked out with:
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git clone git://sourceware.org/git/libabigail
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The mailing list to send messages and patches to is
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libabigail@sourceware.org.
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The archives of that list are available at http://sourceware.org/ml/libabigail.
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File bugs
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=========
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Bugs are to be filled in bugzilla at
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https://sourceware.org/bugzilla/enter_bug.cgi?product=libabigail
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Writing and sending patches
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============================
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Please supply patches using git format-patch and git send-email. If
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you don't know how to use git, send-email, fine. Just use your
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favorite email client, attach the patch to a nice message, and send us
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the message.
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Patches have to be sent by email to libabigail@sourceware.org.
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Please read the file COMMIT-LOG-GUIDELINES in the source tree to learn
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about how to write the commit log accompanying the patch.
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If you are adding a new public header file to the project, or if you
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are defining a new entry point to the API of libabigail, please take
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some time to read the file VISIBILITY about how you need to handle the
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visibility of symbols that are part of the API and ABI of libabigail.
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Make sure you sign your patch. To learn about signing, please read
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the "Sign your work" chapter below.
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One important thing to do before sending your patch is to launch the
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regression tests.
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Regression tests
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================
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Regression tests are under the directory 'tests'. They are usually
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written in C++ and are especially designed to be easy to debug. The
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idea is that if the test fails, the programmer should just have to
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launch them under GDB and debug them right away. No-bullshit style.
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Regression tests are launched by doing:
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make check
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If you have N processor cores on your machine, you can launch the
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tests in parallel to make whole thing go faster by doing:
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make -jN -lN check
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If you want to test the fabrication of the distribution tarball (this
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is important, because that is how we do to actually release the
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tarball of the project that you can download from the internet) then
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you can do:
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make distcheck
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This actually builds the tarball, then untars it, configure/compile
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the untarred source code and launches the regression checks from
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there.
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You can also launch this in parallel by doing:
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make -jN -lN distcheck
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with N being the number of processor core you have on your system.
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Please make sure you always launch "make distcheck" before sending a
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patch, so that you are sure that we can always build a tarball after
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your patch is applied to the source tree.
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A variant of distcheck is "make distcheck-fast". It's like "make
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distcheck" but it's faster. You can just use that one.
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A complementary regression checking target is "check-self-compare".
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You invoke it by doing "make check-self-compare". That target
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analyzes the ABI of the libabigail.so shared object, serializes it
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into the ABIXML format and then compares the ABI internal
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representation gathered from the libabigail.so binary against the one
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gathered from the ABIXML format. The two should be equal if
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everything goes right. This is an important regression test. The
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problem is that it can takes twice as much time as make distcheck. So
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we've put it into its own separate target.
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So, to be complete the regression checking command to run against your
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patch should be: "make check-self-compare distcheck -j16", if you have
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a machine with a 16 threads processors, for instance.
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Coding language and style
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==========================
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The coding style is self evident when reading the source code. So
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please, stick to and mimic what is already in there for the sake of
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consistency at very least. Just for history, it's derived from the
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style of the C++ standard library from the GNU project.
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As of libabigail 2.0, the language we use is C++ 11. The level
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supported is the one supported by the GCC 4.8.x series of compilers.
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This should be old and well tested enough to be supported by your
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current favorite compiler.
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Initially, the code base of the project was written in C++03, with the
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TR1 extensions. That heritage is well visible in the code base as it
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is today.
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Please do not rush and send gazillions of patches that just re-write
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tons of code into your favorite C++ 11 flavour du jour. We will
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likely reject those patches. We want to keep the history of the code
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base in such a way that tools like "git blame <sourcefile> are still
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useful.
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So we'll accept patches changing parts of the code base to more recent
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C++ 11 constructs only if you happen to add functionality or fix
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things in that area. If it makes "cultural common" sense to adopt
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those constructs. What I mean by "cultural" is that must make sense
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in relative to the culture of the project. And yes, that is
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subjective. Sorry.
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As a generic rule, we tend to favor the lowest possible level of
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abstraction that makes sense without requiring future maintainers of
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the project to have a PhD in design patterns. We are not impressed by
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design patterns. We use them where they make clear sense, but we
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don't idolize them. Put it another way, we will always favor the one
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who *READS* and debug the code over the one who writes it. To put
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things in a hypothetical perspective, we'll rather accept a repetitive
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code that stays simple to read and debug over a highly abstract one
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using meta programming to save a few lines of repetitive code located
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in a very small number of places.
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Really, in this project, we care about low level binary analysis
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stuff. Issues in that area can be hard to reproduce and quite
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challenging to debug. So having tons of abstraction layers in the
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code base have proven to be a maintenance burden over the years, from
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our experience in working on similar projects. So please help us
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avoid those mistakes that we make just for the pleasure of writing
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what can look as "pleasant code" at a first naive sight.
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That being said, we also love cleanly designed APIs that are fairly
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re-usable and well documented. And we also praise abstraction and
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modularisation that we recognize as being the most basic tools of any
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engineer. So we like to think about ourselves as well rounded people
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who care about maintaining things for a long time to come :-)
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Launching regression tests in Valgrind
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--------------------------------------
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To detect memory management errors, the tests of the regression test
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suite can be run using Valgrind tools, essentially memcheck and
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helgrind.
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To do so, please do:
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make check-valgrind
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This runs the tests under the control of Valgrind memcheck and
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helgrind tools.
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But then, if you want Valgrind to check the libabigail command line
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tools that are *forked* by some of the tests then type:
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make check-valgrind-recursive
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This one takes a long time. On my system for instance, it takes an
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hour. But then it checks *everything*. If you don't have that time,
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then "make check-valgrind" is enough, as the regression tests that use
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the libabigail *library* directly (as opposed to forking libabigail
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command line tools) will be verified.
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How tests are organized
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-----------------------
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There are two kinds of regression tests. Those that use the
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libabigail *library* directly, and those that spawn one of the
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libabigail command line tools.
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Generally, both are usually made of a loop that churns through a set of input
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binaries to compare. Once the comparison is done, the resulting
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report is compared against a reference report that is provided.
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Test executable have names that starts with 'runtest*'. For instance,
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under <build-directory>/tests/ you can find tests named
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runtestdiffdwarf, runtestabidiff, etc...
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If a test executable is named
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<build-directory>/tests/runtestdiffdwarf, then its source code is
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tests/test-diff-dwarf.cc. Similarly, the source code of the test
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<build-directory>/tests/runtestabidiff is tests/test-abidiff.cc.
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The data provided for each test (for instance the input binaries to
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compare and the reference report that should result from the
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comparison) is to be found under tests/data. So data for the test
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runtestdiffdwarf is to be found under tests/data/test-diff-dwarf.
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Data for the test runtestabidiff is to be found under
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tests/data/test-abidiff.cc.
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So adding your own tests usually just amounts to adding the input
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right input into the right sub-directory of tests/data/. To do so,
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look at several tests/test-*.cc to see which one you'd like to add
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some input binaries to be compared in.
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Then once you know which tests/test-*.cc you'd like to extend, and if
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you added your input binaries and reference reports (maybe other
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things too) to the right sub-director of tests/data/, you just need to
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extend the array of input binaries/reference reports that the test
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walks to perform the comparisons. It's generally a global variable
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before the main() function of the test. In test-diff-dwarf.cc, for
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instance, the variable name is "in_out_specs". You just have to add a
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new entry to that array; that new entry contains the paths to your new
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input binaries and reference reports. Just read the code in there and
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use your brains. It should be straight forward.
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Ah, also, if you added new files for the tests, then the build system
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needs to be told that those files have to be added to the distribution
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tarball when we do "make dist" (or make distcheck). To do so, please
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make sure to add your new test input files to the
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tests/data/Makefile.am file, in the EXTRA_DIST variable. Look at how
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things are organized in that file, and please do things similarly.
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Sign your work
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==============
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To facilitate tracking of who did what, we've adopted a "sign-off"
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procedure for patches based on the procedure used by the Linux kernel
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project.
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The sign-off is a simple line at the end of the explanation for the
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patch, which certifies that you wrote it or otherwise have the right
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to pass it on as a patch under an appropriate license. The rules are
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pretty simple: if you can certify the below:
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Developer's Certificate of Origin
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By making a contribution to this project, I certify that:
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(a) The contribution was created in whole or in part by me,
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and I have the right to submit the contribution under the
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license indicated in, or otherwise designated as being
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applicable to, the file.
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(b) The contribution was provided directly to me by some other
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person who certified (a), and I have not modified it.
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(c) I understand and agree that the project and the
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contribution are public and that a record of the
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contribution (including all personal information I submit
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with it, including my sign-off) is maintained indefinitely
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and may be redistributed.
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then you just add a line saying
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Signed-off-by: Random J Developer <random@developer.example.org>
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using your real name (sorry, no pseudonyms or anonymous contributions.)
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git commit --signoff will add such a Signed-off-by line at the end of
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the commit log message for you.
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Modifying the website
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=====================
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The source code of the website of libabigail is stored in CVS (sigh,
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yeah, that is so old school). You can check out that web source code
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by doing:
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CVS_RSH=ssh cvs -z9 -d :ext:user@sourceware.org:/cvs/libabigail/ co htdocs
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where 'user' is your username on the sourceware system.
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Alternatively, you can check out the the web source code anonymously,
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if you don't have any user account on the sourceware system by doing:
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export CVSROOT=:pserver:anoncvs@cygwin.com:/cvs/libabigail
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cvs login
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(the CVS anonymous password to use is "anoncvs")
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cvs checkout htdocs
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Happy Hacking!
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