valgrind/valgrind.spec

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#
# spec file for package valgrind
#
# Copyright (c) 2016 SUSE LINUX GmbH, Nuernberg, Germany.
#
# All modifications and additions to the file contributed by third parties
# remain the property of their copyright owners, unless otherwise agreed
# upon. The license for this file, and modifications and additions to the
# file, is the same license as for the pristine package itself (unless the
# license for the pristine package is not an Open Source License, in which
# case the license is the MIT License). An "Open Source License" is a
# license that conforms to the Open Source Definition (Version 1.9)
# published by the Open Source Initiative.
# Please submit bugfixes or comments via http://bugs.opensuse.org/
#
# during building the major version of glibc is built into the suppression file
%define glibc_main_version %(getconf GNU_LIBC_VERSION | cut -d' ' -f2 | cut -d. -f1)
%define glibc_major_version %(getconf GNU_LIBC_VERSION | cut -d' ' -f2 | cut -d. -f2)
%if 0%{?suse_version} > 1100
%define building_docs 1
%else
%define building_docs 0
%endif
Name: valgrind
Version: 3.11.0
Release: 0
Summary: Memory Management Debugger
License: GPL-2.0+
Group: Development/Tools/Debuggers
Url: http://valgrind.org/
Source0: http://valgrind.org/downloads/%{name}-%{version}.tar.bz2
# svn di svn://svn.valgrind.org/valgrind/tags/VALGRIND_3_5_0 svn://svn.valgrind.org/valgrind/branches/VALGRIND_3_5_BRANCH > 3_5_BRANCH.diff
# svn di svn://svn.valgrind.org/vex/tags/VEX_3_5_0 svn://svn.valgrind.org/vex/branches/VEX_3_5_BRANCH > VEX_3_5_BRANCH.diff
Patch1: jit-register-unregister.diff
Patch2: armv6-support.diff
Patch3: glibc-version.patch
Patch4: gcc5.patch
Patch5: svn-r15766.patch
BuildRequires: automake
BuildRequires: docbook-xsl-stylesheets
BuildRequires: docbook_4
BuildRequires: gcc-c++
BuildRequires: glibc-devel-32bit
BuildRequires: libxslt
BuildRequires: pkgconfig
Requires: glibc >= %{glibc_main_version}.%{glibc_major_version}
Requires: glibc < %{glibc_main_version}.%{lua:print(rpm.expand("%{glibc_major_version}")+1)}
Provides: callgrind = %{version}
Obsoletes: callgrind < %{version}
BuildRoot: %{_tmppath}/%{name}-%{version}-build
ExclusiveArch: aarch64 %ix86 x86_64 ppc ppc64 ppc64le s390x armv7l armv7hl armv6l armv6hl
%ifarch x86_64 ppc64
BuildRequires: gcc-32bit
BuildRequires: glibc-devel-32bit
%endif
%if 0%{?suse_version} <= 1100
Provides: valgrind-devel = %{version}
%endif
%description
Valgrind checks all memory operations in an application, like read,
write, malloc, new, free, and delete. Valgrind can find uses of
uninitialized memory, access to already freed memory, overflows,
illegal stack operations, memory leaks, and any illegal
new/malloc/free/delete commands. Another program in the package is
"cachegrind," a profiler based on the valgrind engine.
To use valgrind you should compile your application with "-g -O0"
compiler options. Afterwards you can use it with:
valgrind --tool=memcheck --sloppy-malloc=yes --leak-check=yes
--db-attach=yes my_application, for example.
More valgrind options can be listed via "valgrind --help". There is
also complete documentation in the %{_docdir}/valgrind/
directory. A debugged application runs slower and needs much more
memory, but is usually still usable. Valgrind is still in development,
but it has been successfully used to optimize several KDE applications.
%if 0%{?suse_version} > 1100
%package devel
Summary: Memory Management Debugger
Group: Development/Tools/Debuggers
Requires: %{name} = %{version}
%description devel
Valgrind checks all memory operations in an application, like read,
write, malloc, new, free, and delete. Valgrind can find uses of
uninitialized memory, access to already freed memory, overflows,
illegal stack operations, memory leaks, and any illegal
new/malloc/free/delete commands. Another program in the package is
"cachegrind," a profiler based on the valgrind engine.
To use valgrind you should compile your application with "-g -O0"
compiler options. Afterwards you can use it with:
valgrind --tool=memcheck --sloppy-malloc=yes --leak-check=yes
--db-attach=yes my_application, for example.
More valgrind options can be listed via "valgrind --help". There is
also complete documentation in the %{_docdir}/valgrind/
directory. A debugged application runs slower and needs much more
memory, but is usually still usable. Valgrind is still in development,
but it has been successfully used to optimize several KDE applications.
%endif
%prep
%setup -q
# needs porting to 3.11
##%patch1
%patch2
%patch3 -p1
%patch4
%patch5
%build
export FLAGS="%{optflags}"
%ifarch %arm
# Valgrind doesn't support compiling for Thumb yet. Remove when it gets
# native thumb support.
FLAGS=${FLAGS/-mthumb/-mthumb-interwork -marm}
%endif
# not a good idea to build valgrind with fortify, as it does not link glibc
FLAGS="${FLAGS/-D_FORTIFY_SOURCE=2/}"
FLAGS="${FLAGS/-fstack-protector/}"
export CFLAGS="$FLAGS"
export CXXFLAGS="$FLAGS"
export FFLAGS="$FLAGS"
%if 0%{?suse_version} > 1100
autoreconf -fi
2013-11-07 12:51:10 +01:00
%endif
export GDB=%{_bindir}/gdb
%configure \
%ifarch aarch64
--enable-only64bit
%endif
make %{?_smp_mflags}
%if %{building_docs}
- update to 3.6.0 snapshot: - Valgrind runs much faster when the --smc-check=all option is given. - Cachegrind has a new processing script, cg_diff, which finds the difference between two profiles. It's very useful for evaluating the performance effects of a change in a program. Related to this change, the meaning of cg_annotate's (rarely-used) --threshold option has changed; this is unlikely to affect many people, if you do use it please see the user manual for details. - Callgrind now can do branch prediction simulation, similar to Cachegrind. In addition, it optionally can count the number of executed global bus events. Both can be used for a better approximation of a "Cycle Estimation" as derived event (you need to update the event formula in KCachegrind yourself). - Cachegrind and Callgrind now refer to the LL (last-level) cache rather than the L2 cache. This is to accommodate machines with three levels of caches -- if Cachegrind/Callgrind auto-detects the cache configuration of such a machine it will run the simulation as if the L2 cache isn't present. This means the results are less likely to match the true result for the machine, but Cachegrind/Callgrind's results are already only approximate, and should not be considered authoritative. The results are still useful for giving a general idea about a program's locality. - Massif has a new option, --pages-as-heap, which is disabled by default. When enabled, instead of tracking allocations at the level of heap blocks (as allocated with malloc/new/new[]), it instead tracks memory allocations at the level of memory pages (as mapped by mmap, brk, etc). Each mapped page is treated as its own block. Interpreting the page-level output is harder than the heap-level output, but this option is useful if you want to account for every byte of memory used by a program. - Added new memcheck command-line option --show-possibly-lost. OBS-URL: https://build.opensuse.org/package/show/devel:tools/valgrind?expand=0&rev=17
2010-10-13 13:43:20 +02:00
pushd docs
#make all-docs
# building the docs needs network access at the moment :-(
- update to 3.6.0 snapshot: - Valgrind runs much faster when the --smc-check=all option is given. - Cachegrind has a new processing script, cg_diff, which finds the difference between two profiles. It's very useful for evaluating the performance effects of a change in a program. Related to this change, the meaning of cg_annotate's (rarely-used) --threshold option has changed; this is unlikely to affect many people, if you do use it please see the user manual for details. - Callgrind now can do branch prediction simulation, similar to Cachegrind. In addition, it optionally can count the number of executed global bus events. Both can be used for a better approximation of a "Cycle Estimation" as derived event (you need to update the event formula in KCachegrind yourself). - Cachegrind and Callgrind now refer to the LL (last-level) cache rather than the L2 cache. This is to accommodate machines with three levels of caches -- if Cachegrind/Callgrind auto-detects the cache configuration of such a machine it will run the simulation as if the L2 cache isn't present. This means the results are less likely to match the true result for the machine, but Cachegrind/Callgrind's results are already only approximate, and should not be considered authoritative. The results are still useful for giving a general idea about a program's locality. - Massif has a new option, --pages-as-heap, which is disabled by default. When enabled, instead of tracking allocations at the level of heap blocks (as allocated with malloc/new/new[]), it instead tracks memory allocations at the level of memory pages (as mapped by mmap, brk, etc). Each mapped page is treated as its own block. Interpreting the page-level output is harder than the heap-level output, but this option is useful if you want to account for every byte of memory used by a program. - Added new memcheck command-line option --show-possibly-lost. OBS-URL: https://build.opensuse.org/package/show/devel:tools/valgrind?expand=0&rev=17
2010-10-13 13:43:20 +02:00
make FAQ.txt man-pages html-docs
popd
%endif
%install
make DESTDIR=%{buildroot} install %{?_smp_mflags}
mkdir -p %{buildroot}/%{_defaultdocdir}
if test -d %{buildroot}%{_datadir}/doc/valgrind; then
mv %{buildroot}%{_datadir}/doc/valgrind %{buildroot}/%{_defaultdocdir}
fi
mkdir -p %{buildroot}%{_docdir}/%{name}
cp -a README* NEWS AUTHORS COPYING COPYING.DOCS %{buildroot}/%{_defaultdocdir}/%{name}
%files
%defattr(-,root,root)
%{_bindir}/*
%doc %{_defaultdocdir}/%{name}
%doc %{_mandir}/*/*
%dir %{_libdir}/valgrind
%ifarch aarch64
%{_libdir}/valgrind/*-arm64-linux
%endif
%ifarch x86_64
%{_libdir}/valgrind/*-amd64-linux
%endif
%ifarch %ix86 x86_64
%{_libdir}/valgrind/*-x86-linux
%endif
%ifarch ppc ppc64
%{_libdir}/valgrind/*-ppc32-linux
%endif
%ifarch ppc64
%{_libdir}/valgrind/*-ppc64be-linux
%endif
%ifarch ppc64le
%{_libdir}/valgrind/*-ppc64le-linux
%endif
%ifarch s390x
%{_libdir}/valgrind/*-s390x-linux
%endif
%ifarch %arm
%{_libdir}/valgrind/*-arm-linux
%endif
%{_libdir}/valgrind/*-linux.so
%{_libdir}/valgrind/*.supp
%{_libdir}/valgrind/32bit-core.xml
%{_libdir}/valgrind/32bit-linux.xml
%{_libdir}/valgrind/32bit-sse.xml
%{_libdir}/valgrind/64bit-core.xml
%{_libdir}/valgrind/64bit-linux.xml
%{_libdir}/valgrind/64bit-sse.xml
%{_libdir}/valgrind/32bit-core-valgrind-s*.xml
%{_libdir}/valgrind/32bit-linux-valgrind-s*.xml
%{_libdir}/valgrind/32bit-sse-valgrind-s*.xml
%{_libdir}/valgrind/64bit-core-valgrind-s*.xml
%{_libdir}/valgrind/64bit-linux-valgrind-s*.xml
%{_libdir}/valgrind/64bit-sse-valgrind-s*.xml
%{_libdir}/valgrind/amd64-coresse-valgrind.xml
%{_libdir}/valgrind/amd64-linux-valgrind.xml
%{_libdir}/valgrind/arm-core-valgrind-s*.xml
%{_libdir}/valgrind/arm-core.xml
%{_libdir}/valgrind/arm-vfpv3-valgrind-s*.xml
%{_libdir}/valgrind/arm-vfpv3.xml
%{_libdir}/valgrind/arm-with-vfpv3-valgrind.xml
%{_libdir}/valgrind/arm-with-vfpv3.xml
%{_libdir}/valgrind/i386-coresse-valgrind.xml
%{_libdir}/valgrind/i386-linux-valgrind.xml
%{_libdir}/valgrind/power-altivec-valgrind-s*.xml
%{_libdir}/valgrind/power-altivec.xml
%{_libdir}/valgrind/power-core.xml
%{_libdir}/valgrind/power-fpu-valgrind-s*.xml
%{_libdir}/valgrind/power-fpu.xml
%{_libdir}/valgrind/power-linux-valgrind-s*.xml
%{_libdir}/valgrind/power-linux.xml
%{_libdir}/valgrind/power64-core-valgrind-s*.xml
%{_libdir}/valgrind/power64-core.xml
%{_libdir}/valgrind/power64-linux-valgrind-s*.xml
%{_libdir}/valgrind/power64-linux.xml
%{_libdir}/valgrind/powerpc-altivec32l-valgrind.xml
%{_libdir}/valgrind/powerpc-altivec32l.xml
%{_libdir}/valgrind/powerpc-altivec64l-valgrind.xml
%{_libdir}/valgrind/powerpc-altivec64l.xml
%{_libdir}/valgrind/64bit-avx-valgrind-s*.xml
%{_libdir}/valgrind/64bit-avx.xml
%{_libdir}/valgrind/amd64-avx-coresse-valgrind.xml
%{_libdir}/valgrind/amd64-avx-coresse.xml
%{_libdir}/valgrind/amd64-avx-linux-valgrind.xml
%{_libdir}/valgrind/amd64-avx-linux.xml
%{_libdir}/valgrind/mips-cp0-valgrind-s*.xml
%{_libdir}/valgrind/mips-cp0.xml
%{_libdir}/valgrind/mips-cpu-valgrind-s*.xml
%{_libdir}/valgrind/mips-cpu.xml
%{_libdir}/valgrind/mips-fpu-valgrind-s*.xml
%{_libdir}/valgrind/mips-fpu.xml
%{_libdir}/valgrind/mips-linux-valgrind.xml
%{_libdir}/valgrind/mips-linux.xml
%{_libdir}/valgrind/mips64-cp0-valgrind-s*.xml
%{_libdir}/valgrind/mips64-cp0.xml
%{_libdir}/valgrind/mips64-cpu-valgrind-s*.xml
%{_libdir}/valgrind/mips64-cpu.xml
%{_libdir}/valgrind/mips64-fpu-valgrind-s*.xml
%{_libdir}/valgrind/mips64-fpu.xml
%{_libdir}/valgrind/mips64-linux-valgrind.xml
%{_libdir}/valgrind/mips64-linux.xml
%{_libdir}/valgrind/power-core-valgrind-s*.xml
%{_libdir}/valgrind/s390-acr-valgrind-s*.xml
%{_libdir}/valgrind/s390-acr.xml
%{_libdir}/valgrind/s390-fpr-valgrind-s*.xml
%{_libdir}/valgrind/s390-fpr.xml
%{_libdir}/valgrind/s390x-core64-valgrind-s*.xml
%{_libdir}/valgrind/s390x-core64.xml
%{_libdir}/valgrind/s390x-generic-valgrind.xml
%{_libdir}/valgrind/s390x-generic.xml
%{_libdir}/valgrind/s390x-linux64-valgrind-s*.xml
%{_libdir}/valgrind/s390x-linux64.xml
%if 0%{?suse_version} > 1100
%files devel
%defattr(-,root,root)
%endif
%{_libdir}/valgrind/lib*.a
%{_includedir}/valgrind
%{_libdir}/pkgconfig/valgrind.pc
%changelog