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| author | Michael Pratt <mpratt@google.com> | 2025-05-30 17:05:41 -0400 |
|---|---|---|
| committer | Gopher Robot <gobot@golang.org> | 2025-09-25 10:22:54 -0700 |
| commit | d7abfe4f0dc91568648a66495b9f5d7ebc0f22b5 (patch) | |
| tree | 68658c34ec0f3f744b7cb24878109198adb94a51 /src/runtime/string_test.go | |
| parent | 393d91aea060e5b379e7913e524026d0672a96a7 (diff) | |
| download | go-d7abfe4f0dc91568648a66495b9f5d7ebc0f22b5.tar.xz | |
runtime: acquire/release C TSAN lock when calling cgo symbolizer/tracebacker
When calling into C via cmd/cgo, the generated code calls
_cgo_tsan_acquire / _cgo_tsan_release around the C call to report a
dummy lock to the C/C++ TSAN runtime. This is necessary because the
C/C++ TSAN runtime does not understand synchronization within Go and
would otherwise report false positive race reports. See the comment in
cmd/cgo/out.go for more details.
Various C functions in runtime/cgo also contain manual calls to
_cgo_tsan_acquire/release where necessary to suppress race reports.
However, the cgo symbolizer and cgo traceback functions called from
callCgoSymbolizer and cgoContextPCs, respectively, do not have any
instrumentation [1]. They call directly into user C functions with no
TSAN instrumentation.
This means they have an opportunity to report false race conditions. The
most direct way is via their argument. Both are passed a pointer to a
struct stored on the Go stack, and both write to fields of the struct.
If two calls are passed the same pointer from different threads, the C
TSAN runtime will think this is a race.
This is simple to achieve for the cgo symbolizer function, which the
new regression test does. callCgoSymbolizer is called on the standard
goroutine stack, so the argument is a pointer into the goroutine stack.
If the goroutine moves Ms between two calls, it will look like a race.
On the other hand, cgoContextPCs is called on the system stack. Each M
has a unique system stack, so for it to pass the same argument pointer
on different threads would require the first M to exit, free its stack,
and the same region of address space to be used as the stack for a new
M. Theoretically possible, but quite unlikely.
Both of these are addressed by providing a C wrapper in runtime/cgo that
calls _cgo_tsan_acquire/_cgo_tsan_release around calls to the symbolizer
and traceback functions.
There is a lot of room for future cleanup here. Most runtime/cgo
functions have manual instrumentation in their C implementation. That
could be removed in favor of instrumentation in the runtime. We could
even theoretically remove the instrumentation from cmd/cgo and move it
to cgocall. None of these are necessary, but may make things more
consistent and easier to follow.
[1] Note that the cgo traceback function called from the signal handler
via x_cgo_callers _does_ have manual instrumentation.
Fixes #73949.
Cq-Include-Trybots: luci.golang.try:gotip-freebsd-amd64,gotip-linux-amd64-longtest,gotip-windows-amd64-longtest
Change-Id: I6a6a636c9daa38f7fd00694af76b75cb93ba1886
Reviewed-on: https://go-review.googlesource.com/c/go/+/677955
Reviewed-by: Michael Knyszek <mknyszek@google.com>
Auto-Submit: Michael Pratt <mpratt@google.com>
Reviewed-by: Ian Lance Taylor <iant@golang.org>
LUCI-TryBot-Result: Go LUCI <golang-scoped@luci-project-accounts.iam.gserviceaccount.com>
Diffstat (limited to 'src/runtime/string_test.go')
0 files changed, 0 insertions, 0 deletions