- Extract build metadata for some external dependencies from bazel
build. This is achieved by letting extract_metadata_from_bazel_xml.py
analyze some external libraries and sources. The logic is basically the
same as for internal libraries, I only needed to teach
extract_metadata_from_bazel_xml.py which external libraries it is
allowed to analyze.
* currently, the list of source files is automatically determined for
`z`, `upb`, `re2` and `gtest` dependencies (at least for the case where
we're building in "embedded" mode - e.g. mostly native extensions for
python, php, ruby etc. - cmake has the ability to replace some of these
dependencies by actual cmake dependency.)
- Eliminate the need for manually written gen_build_yaml.py for some
dependencies.
- Make the info on target dependencies in build_autogenerated.yaml more
accurate and complete. Until now, there were some depdendencies that
were allowed to show up in build_autogenerated.yaml and some that were
being skipped. This made generating the CMakeLists.txt and Makefile
quite confusing (since some dependencies are being explicitly mentioned
and some had to be assumed by the build system).
- Overhaul the Makefile
* the Makefile is currently only used internally (e.g. for ruby and PHP
builds)
* until now, the makefile wasn't really using the info about which
targets depend on what libraries, but it was effectively hardcoding the
depedendency data (by magically "knowing" what is the list of all the
stuff that e.g. "grpc" depends on).
* After the overhaul, the Makefile.template now actually looks at the
library dependencies and uses them when generating the makefile. This
gives a more correct and easier to maintain makefile.
* since csharp is no longer on the master branch, remove all mentions of
"csharp" targets in the Makefile.
Other notable changes:
- make extract_metadata_from_bazel_xml.py capable of resolving workspace
bind() rules (so that it knows the real name of the target that is
referred to as e.g. `//external:xyz`)
TODO:
- [DONE] ~~pkgconfig C++ distribtest~~
- [DONE} ~~update third_party/README to reflect changes in how some deps
get updated now.~~
Planned followups:
- cleanup naming of some targets in build metadata and buildsystem
templates: libssl vs boringssl, ares vs cares etc.
- further cleanup of Makefile
- further cleanup of CMakeLists.txt
- remote the need from manually hardcoding extra metadata for targets in
build_autogenerated.yaml. Either add logic that determines the
properties of targets automatically, or use metadata from bazel BUILD.
* Support pre-built binaries for Ruby 3.1
* use 3.1.0
* use 3.1.0 and install 3.1 in build files
* fix
* update gemspec template
* fix naming of variable
* Fix ruby 3.1 link
Co-authored-by: Jan Tattermusch <jtattermusch@users.noreply.github.com>
* ruby: use squiggly heredoc for rake-compiler-dock commands
* ruby: use `bundler exec` when building native gems
* ruby: clean .{bundle,so} from src/ruby/lib when building native gems
Failing to remove these files between native builds leads
rake-compiler to establish circular dependencies (which may be a bug
in rake-compiler, but this feels like an easy and good thing to do,
anyway).
* ruby: extract linux and darwin RUBY_PLATFORM checks into variables
There were already "windows" and "bsd" flags, so let's improve
consistency and readability, and set a clear pattern for subsequent
flags.
* ruby: rely on rake-compiler-dock v1.1.0 to set no_native correctly
As of v1.1.0 there's no need to set this explicitly anymore; it will
be true whenever the extension is being built in a RCD container.
See https://github.com/rake-compiler/rake-compiler-dock/commit/362890d
* ruby: add "x86_64-darwin" platform gem
Using RCD for this platform unifies the Darwin native gem build
process with the Linux native gems, which should help avoid
inconsistencies in packaging that result in issues like the missing
Ruby 3.0 binaries in #25060.
Please note that this change leaves the "universal-darwin" platform
native gem untouched, but provides a path forward if the project ever
decides to drop "universal" binary support.
Related to:
- #25429
- #25756
With rake-compiler-dock-1.0.1 there's no need to use a derived Dockerfile.
The standard RCD image can be used instead.
The only issue is with conflicting declarations of gettimeofday(), which can be easily worked around by patching win32.h before the build.
Fixes#21514
When pre-compiled assets are missing for the current platform, and you run gem install, the compiled native extensions are placed in the first require paths folder. This differs from rake-compiler task, where they are always placed in lib.
Setting the lib path as the first require path will ensure the compiled library is placed in the correct folder.