Since this standalone build configuration uses the runtime libraries that
are being built just now, we need to ensure that e.g. the TSan unit tests
depend on the tsan runtime library. Also fix TSAN_DEPS being overridden
to not include the tsan runtime (commit .....).
This change fixes a build race seen in the CI checks for
TsanRtlTest-x86_64-Test in https://github.com/llvm/llvm-project/pull/83088.
Reviewed By: vitalybuka
Pull Request: https://github.com/llvm/llvm-project/pull/83650
All these unit tests already include ${COMPILER_RT_GTEST_SOURCE} as an
input source file and the target llvm_gtest does not exist for
standalone builds. Currently the DEPS argument is ignored for standalone
builds so the missing target is not a problem, but as part of fixing a
build race for standalone builds I am planning to include those
dependencies in COMPILER_RT_TEST_STANDALONE_BUILD_LIBS configurations.
Reviewed By: vitalybuka
Pull Request: https://github.com/llvm/llvm-project/pull/83649
D135716 introduced -ftrivial-auto-var-init=pattern where supported.
Unfortunately this introduces unwanted memset() for large stack arrays,
as shown by the new tests added for asan and msan (tsan already had this
test).
In general, the problem of compiler-inserted memintrinsic calls
(memset/memcpy/memmove) is not new to compiler-rt, and has been a
problem before.
To avoid introducing unwanted memintrinsic calls, we redefine
memintrinsics as __sanitizer_internal_mem* at the assembly level for
most source files automatically (where sanitizer_common_internal_defs.h
is included).
In few cases, redefining a symbol in this way causes issues for
interceptors, namely the memintrinsic interceptor themselves. For such
source files we have to selectively disable the redefinition.
Other alternatives have been considered, but simply do not work well in
the context of compiler-rt:
1. Linker --wrap: this does not work because --wrap only
applies to the final link, and would not apply when building
sanitizer static libraries.
2. Changing references to memset() via objcopy: this may work,
but due to the complexities of the build system, introducing
such a post-processing step for the right object files (in
particular object files defining memset cannot be touched)
seems infeasible.
The chosen solution works well (as shown by the tests). Other libraries
have chosen the same solution where nothing else works (see e.g. glibc's
"symbol-hacks.h").
v4:
- Add interface attribute to __sanitizer_internal_mem* declarations as
well, as otherwise some compilers (MSVC) will complain.
- Add SANITIZER_COMMON_NO_REDEFINE_BUILTINS to source files using
C++STL, since this could lead to ODR violations (see added comment).
v3:
- Don't use ALIAS() to alias internal_mem*() functions to
__sanitizer_internal_mem*() functions, but just define them as
ALWAYS_INLINE functions instead. This will work on darwin and windows.
v2:
- Fix ubsan_minimal build where compiler decides to insert
memset/memcpy: ubsan_minimal has work without RTSanitizerCommonLibc,
therefore do not redefine the builtins.
- Fix definition of internal_mem* functions with compilers that want the
aliased function to already be defined before.
- Fix definition of __sanitizer_internal_mem* functions with compilers
more pedantic about attribute placement around extern "C".
Reviewed By: vitalybuka, dvyukov
Differential Revision: https://reviews.llvm.org/D151152
This fills in a gap in the tsan_shadow_test coverage:
it is possible that the meta regions are aliased
(e.g., the heap meta region overlaps the high app meta
region). Indeed, the Aarch64_39 mapping has been
silently broken in this way for quite some time.
This CL checks whether the individual meta regions
(for low/mid/high/heap) overlap. Note that
(!kBrokenAliasedMetas && !kBrokenLinearity) implies
that MemToMeta is invertible; we cannot directly
test MetaToMem because that function does not exist.
Differential Revision: https://reviews.llvm.org/D141445
When trying to debug some `compiler-rt` unittests, I initially had a hard
time because
- even in a `Debug` build one needs to set `COMPILER_RT_DEBUG` to get
debugging info for some of the code and
- even so the unittests used a hardcoded `-O2` which often makes debugging
impossible.
This patch addresses this by instead using `-O0` if `COMPILER_RT_DEBUG`.
Changes relative to the previous commit:
- Use `string(APPEND)` for `COMPILER_RT_TEST_COMPILER_CFLAGS`.
- Omit `-O3` from `COMPILER_RT_TEST_COMPILER_CFLAGS` in non-debug builds for now.
- Provide `__sanitizer::integral_constant<bool, true>::value` instantiation
for `sanitizer_type_traits_test.cpp` in debug builds.
- Disable subtests of `tsan/tests/unit/tsan_trace_test.cpp` that deadlock
in debug builds.
- `XFAIL` `tsan/Linux/check_memcpy.c` in debug builds.
Tested on `sparcv9-sun-solaris2.11`, `amd64-pc-solaris2.11`, and
`x86_64-pc-linux-gnu`.
Differential Revision: https://reviews.llvm.org/D91620
We used to deduplicate based on the race address to prevent lots
of repeated reports about the same race.
But now we clear the shadow for the racy address in DoReportRace:
// This prevents trapping on this address in future.
for (uptr i = 0; i < kShadowCnt; i++)
StoreShadow(&shadow_mem[i], i == 0 ? Shadow::kRodata : Shadow::kEmpty);
It should have the same effect of not reporting duplicates
(and actually better because it's automatically reset when the memory is reallocated).
So drop the address deduplication code. Both simpler and faster.
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D130240
We already link libunwind explicitly so avoid trying to link toolchain's
default libunwind which may be missing. This matches what we already do
for libcxx and libcxxabi.
Differential Revision: https://reviews.llvm.org/D129472
Callers of TraceSwitchPart expect that TraceAcquire will always succeed
after the call. It's possible that TryTraceFunc/TraceMutexLock in TraceSwitchPart
that restore the current stack/mutexset filled the trace part exactly up
to the TracePart::kAlignment gap and the next TraceAcquire won't succeed.
Skip the alignment gap after writing initial stack/mutexset to avoid that.
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D129777
This is a follow up to D118200 which applies a similar cleanup to
headers when using in-tree libc++ to avoid accidentally picking up
the system headers.
Differential Revision: https://reviews.llvm.org/D128035
This is a follow up to D118200 which applies a similar cleanup to
headers when using in-tree libc++ to avoid accidentally picking up
the system headers.
Differential Revision: https://reviews.llvm.org/D128035
While investigating another issue, I noticed that `MaybeReexec()` never
actually "re-executes via `execv()`" anymore. `DyldNeedsEnvVariable()`
only returned true on macOS 10.10 and below.
Usually, I try to avoid "unnecessary" cleanups (it's hard to be certain
that there truly is no fallout), but I decided to do this one because:
* I initially tricked myself into thinking that `MaybeReexec()` was
relevant to my original investigation (instead of being dead code).
* The deleted code itself is quite complicated.
* Over time a few other things were mushed into `MaybeReexec()`:
initializing `MonotonicNanoTime()`, verifying interceptors are
working, and stripping the `DYLD_INSERT_LIBRARIES` env var to avoid
problems when forking.
* This platform-specific thing leaked into `sanitizer_common.h`.
* The `ReexecDisabled()` config nob relies on the "strong overrides weak
pattern", which is now problematic and can be completely removed.
* `ReexecDisabled()` actually hid another issue with interceptors not
working in unit tests. I added an explicit `verify_interceptors`
(defaults to `true`) option instead.
Differential Revision: https://reviews.llvm.org/D129157
Many tests for the `UBSan-Standalone-iossim-x86_64` fail with this.
Reverting so I can investigate.
This reverts commit 0a9667b0f56b1b450abd02f74c6175bea54f832e.
While investigating another issue, I noticed that `MaybeReexec()` never
actually "re-executes via `execv()`" anymore. `DyldNeedsEnvVariable()`
only returned true on macOS 10.10 and below.
Usually, I try to avoid "unnecessary" cleanups (it's hard to be certain
that there truly is no fallout), but I decided to do this one because:
* I initially tricked myself into thinking that `MaybeReexec()` was
relevant to my original investigation (instead of being dead code).
* The deleted code itself is quite complicated.
* Over time a few other things were mushed into `MaybeReexec()`:
initializing `MonotonicNanoTime()`, verifying interceptors are
working, and stripping the `DYLD_INSERT_LIBRARIES` env var to avoid
problems when forking.
* This platform-specific thing leaked into `sanitizer_common.h`.
* The `ReexecDisabled()` config nob relies on the "strong overrides weak
pattern", which is now problematic and can be completely removed.
* `ReexecDisabled()` actually hid another issue with interceptors not
working in unit tests. I added an explicit `verify_interceptors`
(defaults to `true`) option instead.
Differential Revision: https://reviews.llvm.org/D129157
After cd0a5889d71, unittest would run in shard mode where many tests
share a single process. Need to clear some global state to make the test
results stable.
Reviewed By: thetruestblue, rsundahl
Differential Revision: https://reviews.llvm.org/D124591
The upstream project ships CMake rules for building vanilla gtest/gmock which conflict with the names chosen by LLVM. Since LLVM's build rules here are quite specific to LLVM, prefixing them to avoid collision is the right thing (i.e. there does not appear to be a path to letting someone *replace* LLVM's googletest with one they bring, so co-existence should be the goal).
This allows LLVM to be included with testing enabled within projects that themselves have a dependency on an official gtest release.
Reviewed By: mehdi_amini
Differential Revision: https://reviews.llvm.org/D120789
When using the in-tree libc++, we should be using the full path to
ensure that we're using the right library and not accidentally pick up
the system library.
Differential Revision: https://reviews.llvm.org/D118200
These tests are now green:
```
Trace.MultiPart
Trace.RestoreAccess
Trace.RestoreMutexLock
TraceAlloc.FinishedThreadReuse
TraceAlloc.FinishedThreadReuse2
TraceAlloc.SingleThread
```
rdar://82107856
SlotPairLocker calls SlotLock under ctx->multi_slot_mtx.
SlotLock can invoke global reset DoReset if we are out of slots/epochs.
But DoReset locks ctx->multi_slot_mtx as well, which leads to deadlock.
Resolve the deadlock by removing SlotPairLocker/multi_slot_mtx
and only lock one slot for which we will do RestoreStack.
We need to lock that slot because RestoreStack accesses the slot journal.
But it's unclear why we need to lock the current slot.
Initially I did it just to be on the safer side (but at that time
we dit not lock the second slot, so it was easy just to lock the current slot).
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D116040
This change switches tsan to the new runtime which features:
- 2x smaller shadow memory (2x of app memory)
- faster fully vectorized race detection
- small fixed-size vector clocks (512b)
- fast vectorized vector clock operations
- unlimited number of alive threads/goroutimes
Depends on D112602.
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D112603
This change switches tsan to the new runtime which features:
- 2x smaller shadow memory (2x of app memory)
- faster fully vectorized race detection
- small fixed-size vector clocks (512b)
- fast vectorized vector clock operations
- unlimited number of alive threads/goroutimes
Depends on D112602.
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D112603
This change switches tsan to the new runtime which features:
- 2x smaller shadow memory (2x of app memory)
- faster fully vectorized race detection
- small fixed-size vector clocks (512b)
- fast vectorized vector clock operations
- unlimited number of alive threads/goroutimes
Depends on D112602.
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D112603
This change switches tsan to the new runtime which features:
- 2x smaller shadow memory (2x of app memory)
- faster fully vectorized race detection
- small fixed-size vector clocks (512b)
- fast vectorized vector clock operations
- unlimited number of alive threads/goroutimes
Differential Revision: https://reviews.llvm.org/D112603
This change switches tsan to the new runtime which features:
- 2x smaller shadow memory (2x of app memory)
- faster fully vectorized race detection
- small fixed-size vector clocks (512b)
- fast vectorized vector clock operations
- unlimited number of alive threads/goroutimes
Depends on D112602.
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D112603
This change switches tsan to the new runtime which features:
- 2x smaller shadow memory (2x of app memory)
- faster fully vectorized race detection
- small fixed-size vector clocks (512b)
- fast vectorized vector clock operations
- unlimited number of alive threads/goroutimes
Depends on D112602.
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D112603
Gtest's EXPECT calls whole lot of libc functions
(mem*, malloc) even when EXPECT does not fail.
This does not play well with tsan runtime unit tests
b/c e.g. we call some EXPECTs with runtime mutexes locked.
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D112601
Instead of creating real threads for trace tests
create a new ThreadState in the main thread.
This makes the tests more unit-testy and will also
help with future trace tests that will need
more than 1 thread. Creating more than 1 real thread and
dispatching test actions across multiple threads in the
required deterministic order is painful.
This is resubmit of reverted D110546 with 2 changes:
1. The previous version patched ImitateTlsWrite to not
expect ThreadState to be allocated in TLS (the CHECK
failed for the fake test threads).
This added an ugly hack into production code and was still
logically wrong because we imitated write to the main
thread TLS/stack when we started the fake test thread
(which has nothing to do with the main thread TLS/stack).
This version uses ThreadType::Fiber instead of ThreadType::Regular
for the fake threads. This naturally makes ThreadStart skip
obtaining stack/tls and imitating writes to them.
2. This version still skips the tests on Darwin and PowerPC
to be on the safer side. Build bots reported failures for PowerPC
for the previous version.
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D111156
The trace tests crashed on darwin because of some thread
initialization issues (thread initialization is somewhat
different on darwin).
Instead of starting real threads, create a new ThreadState
in the main thread. This makes the tests more unit-testy
and hopefully won't crash on darwin (there is almost no
platform-specific code involved now).
This will also help with future trace tests that will need
more than 1 thread. Creating more than 1 real thread and
dispatching test actions across multiple threads in the
required deterministic order is painful.
Depends on D110539.
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D110546
Currently the shadow stack is located in the trace memory mapping.
The new tsan runtime will remove the trace memory mapping.
Move the shadow stack into ThreadState as a preparation step.
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D110519
Pass -msse4.2 flag to the tests the same way we do for the runtime.
Layout of some structs in the runtime headers depends on the flag
(TSAN_VECTORIZE), so we need it to be consistent across the runtime
and tests.
Reviewed By: vitalybuka
Differential Revision: https://reviews.llvm.org/D110192
According to comments at https://reviews.llvm.org/D107911,
Trace.MemoryAccessSize fails on Mac buildbots.
Because this test is newly introduced, and is the only user of the code
added in that patch, disable the test on Mac till the problem is
resolved.
Differential Revision: https://reviews.llvm.org/D108294
Some compilers started complaining about the test:
tsan_trace_test.cpp:128:21: error: missing field 'type' initializer
Fix it by initializing all 5 fields, even though the type field will be
reset in the for loop.
Differential Revision: https://reviews.llvm.org/D108207
Add structures for the new trace format,
functions that serialize and add events to the trace
and trace replaying logic.
Differential Revision: https://reviews.llvm.org/D107911
New tsan runtime will need to compress addresses/PCs to fewer bits.
Add CompressAddr/RestoreAddr functions that compress/restore
addresses to 44 bits.
Depends on D107744.
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D107745
Move the mapping checking logic from startup to unit tests
and test all mapping instead of just the active one.
This makes it much more feasible to make any global changes
to the mappings since we have 17 of them.
Depends on D107740.
Reviewed By: vitalybuka, melver
Differential Revision: https://reviews.llvm.org/D107741
