From 70819a18bf9c452d229e587e03b26bfa44f10686 Mon Sep 17 00:00:00 2001 From: Mohammad Akhlaghi Date: Thu, 8 Aug 2019 14:17:25 +0100 Subject: Static PatchELF only built when static C library exists Until now, when building PatchELF, we would always require that it be done statically. However, some systems don't have a static C library available for linking. This cause a crash in the static building of PatchELF. But a static PatchELF is necessary for correcting RPATH in GCC's outputs. With this commit, in the configure script we check if a static C library is linkable for the compiler. If it isn't then `host_cc' will be set to 1 and GCC won't be built. We also pass the result of this test to `basic.mk' (through `good_static_lib'), so if a static C library isn't available, it builds a dynamically linked PatchELF. This bug was reported by Elham Saremi. --- reproduce/software/bash/configure.sh | 66 ++++++++++++++++++++++++++++++++---- reproduce/software/make/basic.mk | 17 ++++++---- 2 files changed, 69 insertions(+), 14 deletions(-) (limited to 'reproduce') diff --git a/reproduce/software/bash/configure.sh b/reproduce/software/bash/configure.sh index be9c635..14268d9 100755 --- a/reproduce/software/bash/configure.sh +++ b/reproduce/software/bash/configure.sh @@ -866,11 +866,11 @@ fi # example `/usr/include/x86_64-linux-gnu/') that are automatically included # in an installed GCC. HOWEVER during the build of GCC, all those other # directories are ignored. So even if they exist, they are useless. -warningsleep=0 +gccwarning=0 if [ $host_cc = 0 ]; then if ! [ -f /usr/include/sys/cdefs.h ]; then host_cc=1 - warningsleep=1 + gccwarning=1 cat <" > $testsource + echo "#include " >> $testsource + echo "int main(void){printf(\"...yes\");" >> $testsource + echo " return EXIT_SUCCESS;}" >> $testsource + if gcc $testsource -o$testprog -static -lc && $testprog; then + good_static_libc=1 + rm $testsource $testprog + else + good_static_libc=0 + rm $testsource + gccwarning=1 + host_cc=1 + cat < $@ -# Patchelf has to be built statically because it links with the C++ -# standard library. Therefore while fixing rpath in `libstdc++' with -# Patchelf we can have a segmentation fault. Note that Patchelf is only for -# GNU/Linux systems, so there is no problem with having the `-static' flag -# in LDFLAGS. +# When we have a static C library, PatchELF will be built statically. This +# is because PatchELF links with the C++ standard library. But we need to +# run PatchELF later on `libstdc++'! This circular dependency can cause a +# crash, so when PatchELF can't be built statically, we won't build GCC +# either, see the `configure.sh' script where we define `good_static_libc' +# for more. $(ibidir)/patchelf: $(tdir)/patchelf-$(patchelf-version).tar.gz \ $(ibidir)/make - export LDFLAGS="$$LDFLAGS -static"; \ + if [ $(good_static_libc) = 1 ]; then \ + export LDFLAGS="$$LDFLAGS -static"; \ + fi; \ $(call gbuild, $<, patchelf-$(patchelf-version), static) \ && echo "PatchELF $(patchelf-version)" > $@ @@ -595,7 +598,7 @@ needpatchelf = $(ibidir)/patchelf endif $(ibidir)/bash: $(tdir)/bash-$(bash-version).tar.lz \ $(ibidir)/readline \ - $(needpatchelf) + | $(needpatchelf) # Delete the (possibly) existing Bash executable. rm -f $(ibdir)/bash -- cgit v1.2.1