Summary: FuzzerInterceptors.cpp includes <sanitizer/common_interface_defs.h>, and this patch adds a missing include_directories to make sure the included file is found.
Reviewers: morehouse, hctim, dmajor
Subscribers: mgorny, #sanitizers
Tags: #sanitizers
Differential Revision: https://reviews.llvm.org/D84474
It's sort of tricky to hit this in practice, but not impossible. I have
a synthetic C testcase if anyone is interested.
The implementation is identical to the equivalent NEON register copies.
Differential Revision: https://reviews.llvm.org/D84373
This patch makes ownership of the JITLinkMemoryManager by ObjectLinkingLayer
optional: the layer can still own the memory manager but no longer has to.
Evevntually we want to move to a state where ObjectLinkingLayer never owns its
memory manager. For now allowing optional ownership makes it easier to develop
classes that can dynamically use either RTDyldObjectLinkingLayer, which owns
its memory managers, or ObjectLinkingLayer (e.g. LLJIT).
These tests were previously duplicates of the
unfolded_gep_negative_offset tests, and this change updates them to
test what they were meant to test.
Differential Revision: https://reviews.llvm.org/D84365
This patch aims to implement the low order vector multiply, divide and modulo
instructions available on Power10.
The patch involves legalizing the ISD nodes MUL, UDIV, SDIV, UREM and SREM for
v2i64 and v4i32 vector types in order to utilize the following instructions:
- Vector Multiply Low Doubleword: vmulld
- Vector Modulus Word/Doubleword: vmodsw, vmoduw, vmodsd, vmodud
- Vector Divide Word/Doubleword: vdivsw, vdivsd, vdivuw, vdivud
Differential Revision: https://reviews.llvm.org/D82510
This guarantees that we will detect a buffer overflow or underflow
that overwrites an adjacent block. This spatial guarantee is similar
to the temporal guarantee that we provide for immediate use-after-free.
Enabling odd/even tags involves a tradeoff between use-after-free
detection and buffer overflow detection. Odd/even tags make it more
likely for buffer overflows to be detected by increasing the size of
the guaranteed "red zone" around the allocation, but on the other
hand use-after-free is less likely to be detected because the tag
space for any particular chunk is cut in half. Therefore we introduce
a tuning setting to control whether odd/even tags are enabled.
Differential Revision: https://reviews.llvm.org/D84361
Rather than handling zlib handling manually, use find_package from CMake
to find zlib properly. Use this to normalize the LLVM_ENABLE_ZLIB,
HAVE_ZLIB, HAVE_ZLIB_H. Furthermore, require zlib if LLVM_ENABLE_ZLIB is
set to YES, which requires the distributor to explicitly select whether
zlib is enabled or not. This simplifies the CMake handling and usage in
the rest of the tooling.
This is a reland of abb0075 with all followup changes and fixes that
should address issues that were reported in PR44780.
Differential Revision: https://reviews.llvm.org/D79219
Support fast16labels in `dfsan_has_label`, and print an error for all
other API functions. For `dfsan_dump_labels` we return silently rather
than crashing since it is also called from the atexit handler where it
is undefined behavior to call exit() again.
Reviewed By: kcc
Differential Revision: https://reviews.llvm.org/D84215
This patch adds the ability to peel off iterations of the first loop in loop
fusion. This can allow for both loops to have the same trip count, making it
legal for them to be fused together.
Here is a simple scenario peeling can be used in loop fusion:
for (i = 0; i < 10; ++i)
a[i] = a[i] + 3;
for (j = 1; j < 10; ++j)
b[j] = b[j] + 5;
Here is we can make use of peeling, and then fuse the two loops together. We
can peel off the 0th iteration of the loop i, and then combine loop i and j for
i = 1 to 10.
a[0] = a[0] +3;
for (i = 1; i < 10; ++i) {
a[i] = a[i] + 3;
b[i] = b[i] + 5;
}
Currently peeling with loop fusion is only supported for loops with constant
trip counts and a single exit point. Both unguarded and guarded loops are
supported.
Reviewed By: bmahjour (Bardia Mahjour), MaskRay (Fangrui Song)
Differential Revision: https://reviews.llvm.org/D82927
Similar to 8fa824d7a3 but this time for MLA patterns, this selects
predicated vmlav/vmlava/vmlalv/vmlava instructions from
vecreduce.add(select(p, mul(x, y), 0)) nodes.
Differential Revision: https://reviews.llvm.org/D84102
ConstString is essentially trivially copyable yet it has a user defined
copy constructor that copies its one member pointer. Remove it so it
qualifies as trivial in the eyes of the compiler.
This also fixes two unused variable warnings now that the compiler knows
that the constructor has no side-effects.
Differential revision: https://reviews.llvm.org/D84440
Summary:
The upgrading path from old ModuleFlag based linker options to the new
NamedMetadata based linker option in in materializeMetadata() which gets
called once for the module and once for every GV. The linker options are
getting dup'ed every time and it can create massive amount of the linker
options in the object file that gets created from old bitcode. Fix the
problem by checking if the new option exists or not before upgrade
again.
rdar://64543389
Reviewers: pcc, t.p.northover, dexonsmith, arphaman
Reviewed By: arphaman
Subscribers: hiraditya, jkorous, ributzka, llvm-commits
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D83688
If the operand index exceeded the limit of unsigned char, it wrapped
and would point to the wrong operand. Increase the size of the operand
index field to avoid this, and also don't bother trying to fold into
implicit operands.
This adds the llvm.abs(), llvm.umin(), llvm.umax(), llvm.smin(),
and llvm.smax() intrinsics specified in D81829. For SelectionDAG,
the ISD opcodes and all the legalization and lowering already exist,
so this just wires them up to the intrinsic in the SDAG builder and
adds rudimentary tests. For GlobalISel only the min/max intrinsics
are wired up, as llvm.abs() will require the addition of a G_ABS op,
and corresponding legalization support.
Differential Revision: https://reviews.llvm.org/D84125
Non-feasible control-flow edges are currently removed by replacing
the branch condition with a constant and then calling
ConstantFoldTerminator. This happens in a rather roundabout manner,
by inspecting the users (effectively: predecessors) of unreachable
blocks, and further complicated by the need to explicitly materialize
the condition for "forced" edges. I would like to extend SCCP to
discard switch conditions that are non-feasible based on range
information, but this is incompatible with the current approach
(as there is no single constant we could use.)
Instead, this patch explicitly removes non-feasible edges. It
currently only needs to handle the case where there is a single
feasible edge. The llvm_unreachable() branch will need to be
implemented for the aforementioned switch improvement.
Differential Revision: https://reviews.llvm.org/D84264
The `makeTiledViews` did not use the sizes of the tiled views based on
the result of the loop bound inference computation. This manifested as
an error in computing tile sizes with convolution where not all the
result expression of concatenated affine maps are simple
AffineDimExpr.
Differential Revision: https://reviews.llvm.org/D84366
This avoids issues when building the dylib for deployment targets that
don't support aligned allocation, where Clang normally triggers an
error to warn users their code would break at runtime when back-deployed.
Since we're building the dylib itself, which contains the aligned
allocation functions, we don't want to trigger that error.
Differential Revision: https://reviews.llvm.org/D84418
As long as RenamedOp is not guaranteed to be accurate, we cannot
assert here and should just return false. This was already done
for the other conditions in this function.
Fixes https://bugs.llvm.org/show_bug.cgi?id=46814.
Summary: libFuzzer's interceptor support added in 831ae45e3d currently only works on Linux. This patch disables the test cases added as part of that commit on non-Linux platforms.
Reviewers: morehouse, hctim
Subscribers: #sanitizers
Tags: #sanitizers
Differential Revision: https://reviews.llvm.org/D84434
Summary:
The `string_escape` encoding used here was removed in Python 3 which makes the
test crash during tearDown:
```
File "lldb/third_party/Python/module/unittest2/unittest2/case.py", line 386, in run
self.tearDown()
File "lldb/packages/Python/lldbsuite/test/tools/lldb-server/gdbremote_testcase.py", line 124, in tearDown
self._pump_queues.verify_queues_empty()
File "lldb/packages/Python/lldbsuite/test/tools/lldb-server/socket_packet_pump.py", line 55, in verify_queues_empty
_dump_queue(self.packet_queue())
File "lldb/packages/Python/lldbsuite/test/tools/lldb-server/socket_packet_pump.py", line 28, in _dump_queue
print(codecs.encode(the_queue.get(True), "string_escape"))
LookupError: unknown encoding: string_escape
```
Just replace it with `repr` which should work in both Python versions.
Reviewers: labath, JDevlieghere
Reviewed By: labath, JDevlieghere
Subscribers: JDevlieghere
Differential Revision: https://reviews.llvm.org/D84017
Summary:
FormattersContainer.h has two containers: FormatMap and FormattersContainer
itself. FormatMap is essentially just a SetVector with a listener interface that
is aspiring to be thread-safe as most of its functions lock its member mutex.
FormattersContainer is for the most part just calling the matching functions of
internal FormatMap instance and essentially acts as a wrapper class with some
minor formatter search functionality on top. The only difference is that the
FormattersContainer's public `Get` function is actually searching formatters in
the list of formatters (and for example doing regex-matching) while FormatMap's
`Get` function is just looking up a a format by the type matcher string.
This patch deletes `FormatMap` by just renaming it to `FormattersContainer` and
pulling in the two `Get` functions from the original `FormattersContainer`
class.
The only other user of `FormatMap` was the `NamedSummariesMap` in the
`FormatManager` which I migrated by just making it also a `FormattersContainer`
and replaced the only call to the `Get` function (which now has new semantics)
with `GetExact` (which is FormattersContainer's function that has the semantics
of FormatMap's `Get`). As `NamedSummariesMap` only stores non-regex-based
formatters, both `Get` and `GetExact` would have worked, so this was mostly to
clarify that this is supposed to be NFC.
I also added the missing mutex lock in the `GetCount` function which was
previously missing in the `FormatMap` implementation. Technically not "NFC" but
I anyway had to change the function...
Reviewers: labath, mib
Reviewed By: labath
Subscribers: abidh, JDevlieghere
Differential Revision: https://reviews.llvm.org/D84296
Mitch Phillips