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This change makes the checklocks analyzer considerable more powerful, adding:
* The ability to traverse complex structures, e.g. to have multiple nested
fields as part of the annotation.
* The ability to resolve simple anonymous functions and closures, and perform
lock analysis across these invocations. This does not apply to closures that
are passed elsewhere, since it is not possible to know the context in which
they might be invoked.
* The ability to annotate return values in addition to receivers and other
parameters, with the same complex structures noted above.
* Ignoring locking semantics for "fresh" objects, i.e. objects that are
allocated in the local frame (typically a new-style function).
* Sanity checking of locking state across block transitions and returns, to
ensure that no unexpected locks are held.
Note that initially, most of these findings are excluded by a comprehensive
nogo.yaml. The findings that are included are fundamental lock violations.
The changes here should be relatively low risk, minor refactorings to either
include necessary annotations to simplify the code structure (in general
removing closures in favor of methods) so that the analyzer can be easily
track the lock state.
This change additional includes two changes to nogo itself:
* Sanity checking of all types to ensure that the binary and ast-derived
types have a consistent objectpath, to prevent the bug above from occurring
silently (and causing much confusion). This also requires a trick in
order to ensure that serialized facts are consumable downstream. This can
be removed with https://go-review.googlesource.com/c/tools/+/331789 merged.
* A minor refactoring to isolation the objdump settings in its own package.
This was originally used to implement the sanity check above, but this
information is now being passed another way. The minor refactor is preserved
however, since it cleans up the code slightly and is minimal risk.
PiperOrigin-RevId: 382613300
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This is a suite of changes intended to dramatically speed up nogo speed.
First, there are minor changes that help efficiency significantly.
* Gob-based encoding is used internally, and JSON only used for the final
set of findings. This is done to preserve the existing format (which is
consumed by external tooling), and to facilitate manual debugging.
* Unnecessary regex compilation is elided in the configuration, and care is
taken for merges to prevent redundant entries. I'm not sure quite sure how,
but it turns out that this was consumed a significant amount of time,
presumably compiling the same regexes over and over again.
Second, this change enables bazel workers for nogo analyzers.
Workers enable persistent processes instead of creating and tearing down a
sandbox every invocation. A library is introduced to abstraction these details,
and allow the tools to still be written using standard flags, etc.
The key here is that these binaries and the core of nogo become aware of
caches with worker.Cache. This allows us to save significant time loading the
same set of files and findings over and over again. These caches are keyed by
the digests that are provided by bazel, and are capped in overall size.
Note that the worker package attempts to capture output during each run, but
tools are no longer permitted to write to stdout. This necessitated dropping
some spurious output from checklocks.
PiperOrigin-RevId: 370505732
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This will fix debian packaging.
Updates #5510
PiperOrigin-RevId: 359563378
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This change works around an issue in rules_pkg, described here:
https://github.com/bazelbuild/rules_pkg/pull/263
PiperOrigin-RevId: 350869030
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PiperOrigin-RevId: 349616845
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PiperOrigin-RevId: 346496532
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PiperOrigin-RevId: 341732791
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Using the newer bazel rules necessitates a transition from proto1 to
proto2. In order to resolve the incompatibility between proto2 and
gogoproto, the cri runtimeoptions proto must be vendored.
Further, some of the semantics of bazel caching changed during the
transition. It is now necessary to:
- Ensure that :gopath depends only on pure library targets, as the
propagation of go_binary build attributes (pure, static) will
affected the generated files (though content remains the same,
there are conflicts with respect to the gopath).
- Update bazel.mk to include the possibility of binaries in the
bazel-out directory, as it will now put runsc and others there.
This required some refinements to the mechanism of extracting
paths, since some the existing regex resulted in false positives.
- Change nogo rules to prevent escape generation on binary targets.
For some reason, the newer version of bazel attempted to run the
nogo analysis on the binary targets, which fails due to the fact
that objdump does not work on the final binary. This must be due
to a change in the semantics of aspects in bazel3.
PiperOrigin-RevId: 337958324
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PiperOrigin-RevId: 325280924
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PiperOrigin-RevId: 323454998
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PiperOrigin-RevId: 312529859
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This upgrades the Kokoro images, bazel toolchains used by RBE runners, and
rules_go, gazelle, and go toolchain versions.
PiperOrigin-RevId: 312522097
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PiperOrigin-RevId: 308901116
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The name 'bazel' also doesn't work because bazel will treat it specially.
Fixes #1807
PiperOrigin-RevId: 294321221
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