This is both for future proofing (fetches could move any time although
they likely won't), and to fix the path on the future Windows PGO
cross builds, where the fetches path is not under $WORKSPACE.
Differential Revision: https://phabricator.services.mozilla.com/D66358
--HG--
extra : moz-landing-system : lando
The remaining uses all need adjustements to in-tree mozconfigs, so they
all need to be done at once.
However, to make things slightly more intelligible, we do this in two
steps. This is step 1: we modify the use_toolchain transform to take care of
the transformation, while keeping the task definitions intact, so that
we only deal with mozconfig and build script adjustements here.
Differential Revision: https://phabricator.services.mozilla.com/D41890
We need a fix from `cctools-port` master for cross-language LTO builds
to work properly on the Mac. Rather than cherry-picking yet another
commit, which would have to deal with a updated `ld64` upstream, we've
opted to go ahead and update directly to upstream.
This choice brings about some significant build changes, as TAPI support
has moved to a different library that is not easily buildable directly.
Differential Revision: https://phabricator.services.mozilla.com/D36636
--HG--
extra : moz-landing-system : lando
Our current OS X builds use `--target=x86_64-darwin11` (which
corresponds to OS X 10.7). This target is problematic for two reasons:
* We're actually targeting for OS X 10.9 (`MACOSX_DEPLOYMENT_TARGET`);
* It's slightly different from the default Rust target.
Let's address these problems in reverse order: differences from the Rust
target are bad, because the `--target` we provide to `clang` and the
Rust target find their way into LLVM bitcode files and the linker will
refuse to link together bitcode files that have incompatible targets.
Why are the two incompatible? The current `--target` doesn't have a
"vendor" in triple-speak, whereas the Rust one has "apple" as the
vendor (`x86_64-apple-darwin`) We therefore need to change the
`--target` we pass to `clang` to have a vendor of "apple".
This need is behind the {init,toolchain}.configure changes,
but it has ramifications elsewhere, because `clang` looks for
`--target`-prefixed build tools. So we have to change the `--target`
for cctools to get the right tool prefixes and we have to change the
`--target` for building clang ourselves so that *those* builds can find
the newly renamed cctools.
Once we've done, that's really enough; we don't *need to address the
first problem: While the `--target` might be `x86_64-apple-darwin11`,
both `clang` and `rustc` will dynamically choose the target triple that
eventually lands in LLVM bitcode files based on
`MACOSX_DEPLOYMENT_TARGET`, which we set in all builds. But the current
target is slightly misleading, and the cctools don't need to be prefixed
with a particular Darwin version, since they work for all Darwin
targets. Let's just drop the "11" from the `--target` and eliminate a
little bit of confusion.
Differential Revision: https://phabricator.services.mozilla.com/D31128
--HG--
extra : moz-landing-system : lando
Our current OS X builds use `--target=x86_64-darwin11` (which
corresponds to OS X 10.7). This target is problematic for two reasons:
* We're actually targeting for OS X 10.9 (`MACOSX_DEPLOYMENT_TARGET`);
* It's slightly different from the default Rust target.
Let's address these problems in reverse order: differences from the Rust
target are bad, because the `--target` we provide to `clang` and the
Rust target find their way into LLVM bitcode files and the linker will
refuse to link together bitcode files that have incompatible targets.
Why are the two incompatible? The current `--target` doesn't have a
"vendor" in triple-speak, whereas the Rust one has "apple" as the
vendor (`x86_64-apple-darwin`) We therefore need to change the
`--target` we pass to `clang` to have a vendor of "apple".
This need is behind the {init,toolchain}.configure changes,
but it has ramifications elsewhere, because `clang` looks for
`--target`-prefixed build tools. So we have to change the `--target`
for cctools to get the right tool prefixes and we have to change the
`--target` for building clang ourselves so that *those* builds can find
the newly renamed cctools.
Once we've done, that's really enough; we don't *need to address the
first problem: While the `--target` might be `x86_64-apple-darwin11`,
both `clang` and `rustc` will dynamically choose the target triple that
eventually lands in LLVM bitcode files based on
`MACOSX_DEPLOYMENT_TARGET`, which we set in all builds. But the current
target is slightly misleading, and the cctools don't need to be prefixed
with a particular Darwin version, since they work for all Darwin
targets. Let's just drop the "11" from the `--target` and eliminate a
little bit of confusion.
Differential Revision: https://phabricator.services.mozilla.com/D31128
--HG--
extra : moz-landing-system : lando
Our current OS X builds use `--target=x86_64-darwin11` (which
corresponds to OS X 10.7). This target is problematic for two reasons:
* We're actually targeting for OS X 10.9 (`MACOSX_DEPLOYMENT_TARGET`);
* It's slightly different from the default Rust target.
Let's address these problems in reverse order: differences from the Rust
target are bad, because the `--target` we provide to `clang` and the
Rust target find their way into LLVM bitcode files and the linker will
refuse to link together bitcode files that have incompatible targets.
Why are the two incompatible? The current `--target` doesn't have a
"vendor" in triple-speak, whereas the Rust one has "apple" as the
vendor (`x86_64-apple-darwin`) We therefore need to change the
`--target` we pass to `clang` to have a vendor of "apple".
This need is behind the {init,toolchain}.configure changes,
but it has ramifications elsewhere, because `clang` looks for
`--target`-prefixed build tools. So we have to change the `--target`
for cctools to get the right tool prefixes and we have to change the
`--target` for building clang ourselves so that *those* builds can find
the newly renamed cctools.
Once we've done, that's really enough; we don't *need to address the
first problem: While the `--target` might be `x86_64-apple-darwin11`,
both `clang` and `rustc` will dynamically choose the target triple that
eventually lands in LLVM bitcode files based on
`MACOSX_DEPLOYMENT_TARGET`, which we set in all builds. But the current
target is slightly misleading, and the cctools don't need to be prefixed
with a particular Darwin version, since they work for all Darwin
targets. Let's just drop the "11" from the `--target` and eliminate a
little bit of confusion.
Differential Revision: https://phabricator.services.mozilla.com/D31128
--HG--
extra : moz-landing-system : lando
The only place we'd need the compat libraries would be for host
binaries, and those shouldn't be a problem given that our system images
are new enough.
Differential Revision: https://phabricator.services.mozilla.com/D22873
--HG--
extra : moz-landing-system : lando
A newer clang may require newer binutils than the system provides, so we
should ensure that we provide just such a binutils.
Differential Revision: https://phabricator.services.mozilla.com/D23393
--HG--
extra : moz-landing-system : lando
CPP/HOST_CPP were probably not necessary already, but now that we leave
it to configure to figure out the appropriate compiler flags, we don't
need to set HOST_CC/HOST_CXX to remove the flags from CC/CXX.
Differential Revision: https://phabricator.services.mozilla.com/D14382
Rather than manually passing -isysroot to clang. Ideally, we shouldn't
need to fill BINDGEN_CFLAGS from the mozconfig, but we're not quite
there yet.
Differential Revision: https://phabricator.services.mozilla.com/D14381
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
We're always setting -dead_strip on mac builds, per
cross-mozconfig.common, we might as well not do that and revert bug
638149, which disabled adding -dead_strip with LTO: that is apparently
not a problem anymore.
Differential Revision: https://phabricator.services.mozilla.com/D14373
We need to sign parts of the contents of the archives, so the mar's that we
ship get built as part of the repackage task. Thus, there is no reason to also
create and upload as part of the build, just to throw them away.
Differential Revision: https://phabricator.services.mozilla.com/D6213
--HG--
extra : moz-landing-system : lando
Last time it was updated is bug 1436208, and the crashes we patched it
for back then has been fixed upstream a few months later.
For some reason, they renamed the executable from llvm-dsymutil to
dsymutil.
Differential Revision: https://phabricator.services.mozilla.com/D4741
--HG--
extra : moz-landing-system : lando
We add a wrapper for llvm-dsymutil for macosx CI builds such that when
it crashes, we attempt to get a reduced test case and upload it as a
build artifact. This will allow to more easily report such crashes
upstream.
--HG--
extra : rebase_source : be208e6a46b60659a4e51acbe2bd7c4081189d1c
With all of our builds in Taskcluster now, we should never be uploading
symbols from build tasks. Unfortunately Windows builds were still doing so.
This patch removes MOZ_AUTOMATION_UPLOAD_SYMBOLS from all the in-tree
mozconfigs and a few other places so that it should always default off
(per moz-automation.mk). The rest of the uploadsymbols bits will be
removed once Thunderbird fixes their automation.
This patch was mostly autogenerated by running:
rg --files-with-matches UPLOAD_SYMBOLS browser/config/mozconfigs/ mobile/android/config/mozconfigs/ | xargs sed -ri '/.*UPLOAD_SYMBOLS.*/d'
sed -ri '/.*UPLOAD_SYMBOLS.*/d' build/unix/mozconfig.linux build/mozconfig.win-common build/macosx/local-mozconfig.common build/mozconfig.automation
Then mobile/android/config/mozconfigs/common and
taskcluster/scripts/builder/build-linux.sh were hand-edited.
MozReview-Commit-ID: Cy8kSEodSg4
--HG--
extra : rebase_source : 01caf1651b4eb428313e1f371aa585f8f34c4151
LLVM_CONFIG, per the contents of toolkit/moz.configure, is tied to
--enable-stylo, but it currently is set on all types of builds. It
currently happens to work, but it's actually not meant to, and sure
enough, the fix for bug 1374727 exacerbates that.
So we create a new mozconfig.stylo file that enables stylo and sets
LLVM_CONFIG, such that only build types that do enable stylo have
LLVM_CONFIG set.
--HG--
extra : rebase_source : 01277a79951888046c0b8e29c61cfc3b049ee0f0
Enable stylo in Firefox Nightly builds for macOS so we can
get testing feedback until we have addressed issues blocking
enabling it for developer builds.
MozReview-Commit-ID: 3y0QT4oiBpt
--HG--
extra : rebase_source : 531162da334a6d124dcd7328f45d677cb4933551
When cross-compiling, rust-bindgen needs the -isysroot
flag we pass to the C++ compiler to find the correct
headers. Add a new BINDGEN_CFLAGS environment variable
for passing this and other relevant options, and reformat
its contents in toolchain.configure so we can use autoconf-
style template substitution to poke it into a bindgen.toml
file to be read by build scripts like build_gecko.rs.
Set this variable from the macosx/cross-mozconfig.common
to the same extra flags we pass to CXX so automation
builds work correctly with --enable-stylo.
MozReview-Commit-ID: 7wabObiFtVb
--HG--
extra : rebase_source : eeba30e3d64112da65e2e6830ef5fc1b54965529