On Wed, Jun 24, 2020 at 2:15 PM Peter Zijlstra [off-list ref] wrote:
On Wed, Jun 24, 2020 at 01:31:38PM -0700, Sami Tolvanen wrote:
quoted
This patch series adds support for building x86_64 and arm64 kernels
with Clang's Link Time Optimization (LTO).
In addition to performance, the primary motivation for LTO is to allow
Clang's Control-Flow Integrity (CFI) to be used in the kernel. Google's
Pixel devices have shipped with LTO+CFI kernels since 2018.
Most of the patches are build system changes for handling LLVM bitcode,
which Clang produces with LTO instead of ELF object files, postponing
ELF processing until a later stage, and ensuring initcall ordering.
Note that first objtool patch in the series is already in linux-next,
but as it's needed with LTO, I'm including it also here to make testing
easier.
I'm very sad that yet again, memory ordering isn't addressed. LTO vastly
increases the range of the optimizer to wreck things.
Hi Peter, could you expand on the issue for the folks on the thread?
I'm happy to try to hack something up in LLVM if we check that X does
or does not happen; maybe we can even come up with some concrete test
cases that can be added to LLVM's codebase?
--
Thanks,
~Nick Desaulniers
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