This matches more closely cross toolchains prefixes (as can be seen in
e.g. media/libvpx/libvpx/README for x86_64-darwin*-gcc), and leaves it
to the build system to figure out the right --target to pass to clang on
its own.
Differential Revision: https://phabricator.services.mozilla.com/D14376
This removes several patches that have been upstreamed.
--HG--
extra : rebase_source : 8462b42b8342935cfb5ecb912fac06c67b9165b9
extra : amend_source : 271b5d4a5b37fa74555ef87cb0c4444f8f7468f0
This patch is based on the cmake cache files for Android checked in to the
clang repo.
Differential Revision: https://phabricator.services.mozilla.com/D14004
--HG--
extra : moz-landing-system : lando
Bug 1492663 upgraded those builds to clang 7, and bug 1503330 brought
them back to clang 6 because of speedometer regressions.
With the previous change, the regression doesn't happen any more,
allowing to upgrade again.
Depends on D12394
Differential Revision: https://phabricator.services.mozilla.com/D12395
--HG--
extra : moz-landing-system : lando
The cctools-port linker links against libraries from clang (for LTO),
which have different SONAMEs depending on the clang version. Which means
the linker needs to be used along the same version of clang it was built
against. Thus we also make it depend on linux64-clang-7.
But changing the dependency is not enough, cf. bug 1471905, so also
touch its build script, which it turns out, we need to do anyways
because llvm-dsymutil was renamed to dsymutil.
Relatedly, all toolchains that are built using cctools-port need to use
linux64-clang-7 too.
Building compiler-rt 7 with the OSX 10.11 SDK fails because of some
newer APIs being used in compiler-rt for xray, but this is not a feature
we use, so disable that.
Differential Revision: https://phabricator.services.mozilla.com/D6766
The cctools-port linker links against libraries from clang (for LTO),
which have different SONAMEs depending on the clang version. Which means
the linker needs to be used along the same version of clang it was built
against. Thus we also make it depend on linux64-clang-7.
But changing the dependency is not enough, cf. bug 1471905, so also
touch its build script, which it turns out, we need to do anyways
because llvm-dsymutil was renamed to dsymutil.
Relatedly, all toolchains that are built using cctools-port need to use
linux64-clang-7 too.
Building compiler-rt 7 with the OSX 10.11 SDK fails because of some
newer APIs being used in compiler-rt for xray, but this is not a feature
we use, so disable that.
Differential Revision: https://phabricator.services.mozilla.com/D6766
With libLLVM being a shared library exporting many symbols, all internal
calls using those symbols default to go through the PLT, which is
unnecessary (and costly) overhead. Using -Bsymbolic-functions makes
internal calls go directly to the right place without going through the
PLT.
Differential Revision: https://phabricator.services.mozilla.com/D7029
With libLLVM being a shared library exporting many symbols, all internal
calls using those symbols default to go through the PLT, which is
unnecessary (and costly) overhead. Using -Bsymbolic-functions makes
internal calls go directly to the right place without going through the
PLT.
Differential Revision: https://phabricator.services.mozilla.com/D7029
The cctools-port linker links against libraries from clang (for LTO),
which have different SONAMEs depending on the clang version. Which means
the linker needs to be used along the same version of clang it was built
against. Thus we also make it depend on linux64-clang-7.
But changing the dependency is not enough, cf. bug 1471905, so also
touch its build script, which it turns out, we need to do anyways
because llvm-dsymutil was renamed to dsymutil.
Relatedly, all toolchains that are built using cctools-port need to use
linux64-clang-7 too.
Building compiler-rt 7 with the OSX 10.11 SDK fails because of some
newer APIs being used in compiler-rt for xray, but this is not a feature
we use, so disable that.
Differential Revision: https://phabricator.services.mozilla.com/D6766
--HG--
rename : build/build-clang/clang-6-macosx64.json => build/build-clang/clang-7-macosx64.json
rename : taskcluster/scripts/misc/build-clang-6-linux-macosx-cross.sh => taskcluster/scripts/misc/build-clang-7-linux-macosx-cross.sh
extra : moz-landing-system : lando
The ASan runtime wasn't designed to be unloaded, so pin it in memory.
Differential Revision: https://phabricator.services.mozilla.com/D6943
--HG--
extra : rebase_source : 843fc91b3150f3b264e321ab89bf723a01fc8b3c
Doing so changes the size of the compressed toolchain archive from ~280M
to ~120M, and the decompressed size from ~1500M to ~675M. This will
reduce the overhead of decompression during builds.
As we ship llvm-symbolizer as part of ASan builds, we do need it to
still statically link against LLVM, which we do with a small patch.
With LLVM as a shared library, libLTO, which is used by cctools-port for
the linker, is dynamically linked to LLVM, and the cctools-port
configure script fails to link against libLTO. So we add a -rpath-link
to make it find the LLVM library. This happens to force a rebuild of
cctools-port, but for future cases where we might need a rebuild because
of some clang changes, we add a comment to ease the process, and avoid
a newer cctools-port taking the cache spot of an older one.
Ideally, mac cctools-port would need something similar, but it needs a
mac libLTO.dylib, which is not there anyways (and the mac cctools-port
thus already didn't support LTO).
Also, with LLVM built as a shared library, all its symbols are exported
with a LLVM_x.y version. Combined with -static-libstdc++ that is used
during the clang build, this causes problems (see
https://bugzilla.mozilla.org/show_bug.cgi?id=1492037#c7). But it turns
out things have evolved since -static-libstdc++ has been added to the
clang build script, and things work without now, so remove it (as well
as -static-libgcc).
Differential Revision: https://phabricator.services.mozilla.com/D6117
Doing so changes the size of the compressed toolchain archive from ~280M
to ~120M, and the decompressed size from ~1500M to ~675M. This will
reduce the overhead of decompression during builds.
As we ship llvm-symbolizer as part of ASan builds, we do need it to
still statically link against LLVM, which we do with a small patch.
With LLVM as a shared library, libLTO, which is used by cctools-port for
the linker, is dynamically linked to LLVM, and the cctools-port
configure script fails to link against libLTO. So we add a -rpath-link
to make it find the LLVM library. This happens to force a rebuild of
cctools-port, but for future cases where we might need a rebuild because
of some clang changes, we add a comment to ease the process, and avoid
a newer cctools-port taking the cache spot of an older one.
Ideally, mac cctools-port would need something similar, but it needs a
mac libLTO.dylib, which is not there anyways (and the mac cctools-port
thus already didn't support LTO).
Also, with LLVM built as a shared library, all its symbols are exported
with a LLVM_x.y version. Combined with -static-libstdc++ that is used
during the clang build, this causes problems (see
https://bugzilla.mozilla.org/show_bug.cgi?id=1492037#c7). But it turns
out things have evolved since -static-libstdc++ has been added to the
clang build script, and things work without now, so remove it (as well
as -static-libgcc).
Differential Revision: https://phabricator.services.mozilla.com/D6117
Doing so changes the size of the compressed toolchain archive from ~280M
to ~120M, and the decompressed size from ~1500M to ~675M. This will
reduce the overhead of decompression during builds.
As we ship llvm-symbolizer as part of ASan builds, we do need it to
still statically link against LLVM, which we do with a small patch.
CCTools-port needs to be rebuilt in some cases of clang changes, which
this one of, so touch the script so that it happens.
Differential Revision: https://phabricator.services.mozilla.com/D6117
Not waiting for rc3 or final from llvm because the issue is pretty severe
Differential Revision: https://phabricator.services.mozilla.com/D5124
--HG--
extra : moz-landing-system : lando
As much as it's tempting to use LLD for LTO, it still causes some
subtle problems with the build, and it's still better to keep using
BFD ld for the time being. Doing so requires the gold plugin, which
only requires to pass cmake the directory where the binutils headers
are, and they are part of the gcc toolchain headers.
Differential Revision: https://phabricator.services.mozilla.com/D4896
As much as it's tempting to use LLD for LTO, it still causes some
subtle problems with the build, and it's still better to keep using
BFD ld for the time being. Doing so requires the gold plugin, which
only requires to pass cmake the directory where the binutils headers
are, and they are part of the gcc toolchain headers.
Differential Revision: https://phabricator.services.mozilla.com/D4896