This removes the need for us to manually rebuild these amalgamation files. I
added the "manual" tag to the corresponding staleness tests so that we won't
get presubmit errors if the amalgamation files are out of date. I also had to
tweak the Ruby BUILD.bazel file to make sure it uses Bazel-generated
amalgamations instead of relying on the checked-in files.
I added deliberate errors to the Ruby and PHP amalgamation files to test that
everything is working. We should not see any CI errors, and the files should
quickly be auto-updated after the change lands on main.
PiperOrigin-RevId: 561187352
This test validates that upb Python targets can be built successfully even if
Python is not installed locally.
I also updated our pinned upb version to pull in some recent fixes needed for
this test run.
PiperOrigin-RevId: 559504790
This will be used to seed feature resolution, which becomes just an edition lookup followed by proto merges. Runtime and generators that need to resolve their own features will be able to leverage this to avoid reimplementing all of the reflective logic that goes into the default calculation.
PiperOrigin-RevId: 559271634
This change moves the upb Fastbuild, Optimized, and FastTable test runs over to
the protobuf repo CI in preparation for moving the upb codebase itself. There
are a bunch more test runs to move, but this initial change handles the easy
ones first.
I also updated our pinned upb version to the current head to pick up some
recent fixes.
PiperOrigin-RevId: 557486174
https://github.com/protocolbuffers/protobuf/pull/13204 refactored the Ruby object cache to use a key of `LL2NUM(key_val)` instead of `LL2NUM(key_val >> 2)`. On 32-bit systems, `LL2NUM(key_val)` returns inconsistent results because a large value has to be stored as a Bignum on the heap. This causes cache lookups to fail.
This commit restores the previous behavior of using `ObjectCache_GetKey`, which discards the lower 2 bits, which are zero. This enables a key to be stored as a Fixnum on both 32 and 64-bit platforms.
As https://patshaughnessy.net/2014/1/9/how-big-is-a-bignum describes, a Fixnum uses:
* 1 bit for the `FIXNUM_FLAG`.
* 1 bit for the sign flag.
Therefore the largest possible Fixnum value on a 64-bit value is 4611686018427387903 (2^62 - 1). On a 32-bit system, the largest value is 1073741823 (2^30 - 1).
For example, a possible VALUE pointer address on a 32-bit system:
0xff5b4af8 => 4284173048
Dropping the lower 2 bits makes up for the loss of range to these flags. In the example above, we see that shifting by 2 turns the value into a 30-bit number, which can be represented as a Fixnum:
(0xff5b4af8 >> 2) => 1071043262
This bug can also manifest on a 64-bit system if the upper bits are 0xff.
Closes#13481Closes#13494
COPYBARA_INTEGRATE_REVIEW=https://github.com/protocolbuffers/protobuf/pull/13494 from stanhu:sh-fix-ruby-protobuf-32bit d63122a6fc
PiperOrigin-RevId: 557211768
Fixes a class of flaky test failures observed only in the FFI implementation due to garbage collection in between calls to an accessors for a frozen field.
Closes#13420
COPYBARA_INTEGRATE_REVIEW=https://github.com/protocolbuffers/protobuf/pull/13420 from protocolbuffers:rub 0ea91165fb
PiperOrigin-RevId: 552602026
This will be used for tracking the unresolved feature sets from the original proto file. Notable use-cases for this include:
* Code generators that need to validate their own features
* Runtimes that need to be able to accurately round-trip the original protos
PiperOrigin-RevId: 547610367
Unblocks execution of these tests on JRuby FFI.
Automated reformatting of WORKSPACE with documentary comment to ease future debugging of JRuby tests locally.
Closes#13293
COPYBARA_INTEGRATE_REVIEW=https://github.com/protocolbuffers/protobuf/pull/13293 from JasonLunn:object_cache_test_update 7db211a342
PiperOrigin-RevId: 547614702
This will be used for tracking the unresolved feature sets from the original proto file. Notable use-cases for this include:
* Code generators that need to validate their own features
* Runtimes that need to be able to accurately round-trip the original protos
PiperOrigin-RevId: 547610367
This represents the future direction of protobuf, replacing proto2/proto3 syntax with editions. These will enable more incremental evolution of protobuf APIs through features, which are individual behaviors (such as whether field presence is explicit or implicit). For more details see https://protobuf.dev/editions/overview/.
This PR contains a working implementation of editions for the protoc frontend and C++ code generation, along with various infrastructure improvements to support it. It gives early access for anyone who wants to a preview of editions, but has no effect on proto2/proto3 syntax. It is flag-guarded behind the `--experimental_editions` flag, and is an experimental feature with no guarantees.
PiperOrigin-RevId: 544805690