Summary:
This matches llvm::VectorType.
It moves the size from the type bitfield into VectorType, increasing size by 8
bytes (including padding of 4). This is OK as we don't expect to create terribly
many of these types.
c.f. D77313 which enables large power-of-two sizes without growing VectorType.
Reviewers: efriedma, hokein
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D77335
Summary:
MSan not implementing COMMON_INTERCEPTOR_NOTHING_IS_INITIALIZED looks
like an omission - this macro makes it possible for those intercepted
functions, which libc needs very early, to work before interceptors are
initialized (i.e. before REAL() is usable).
While currently there are no observable practical problems in this
area, changes in libc or in MSan runtime may provoke them. Therefore,
change MSan to work like ASan and TSan already do - use internal
functions in certain interceptors when initialization is not complete.
Reviewers: eugenis, vitalybuka
Reviewed By: eugenis
Subscribers: #sanitizers
Tags: #sanitizers
Differential Revision: https://reviews.llvm.org/D76969
This test regressed with 5ade17e0ca, but we never noticed it because
.pass.mm tests were skipped due to a bug in our Lit config. This commit
fixes is_pointer (by essentially reverting tha part of 5ade17e0ca) and
also adds .pass.mm tests to the list of supported test suffixes.
We can explore how to support __is_pointer with Objective-C++ qualifiers
as a follow-up -- the main goal of this commit is to fix the regression
quickly and make sure all tests of the suite are run.
A PC-relative relocation referencing a non-preemptible absolute symbol
(due to STT_TLS) is not representable in -pie/-shared mode.
Differential Revision: https://reviews.llvm.org/D77021
Summary:
For current architect, we always require setContainingCsect to be
called on every MCSymbol got used in XCOFF context.
This is very hard to achieve because symbols gets created everywhere
and other MCSymbol types(ELF, COFF) do not have similar rules.
It's very easy to miss setting the containing csect, and we would
need to add a lot of XCOFF specialized code around some common code area.
This patch intendeds to do
1. Rely on getFragment().getParent() to get csect from labels.
2. Only use get/setRepresentedCsect (was get/setContainingCsect)
if symbol itself represents a csect.
Reviewers: DiggerLin, hubert.reinterpretcast, daltenty
Differential Revision: https://reviews.llvm.org/D77080
1. It's redundant to explicitly check that string does not contain `PAUSE_MM`
token if check that the `PAUSE` token is followed by an angle bracket.
2. The removed `CHECK-NOT` directives do not have trailing colons.
Summary:
C++ defines a number of keywords that are regular identifiers in
JavaScript, e.g. `concept`:
const concept = 1; // legit JS
This change expands the existing `IsJavaScriptIdentifier(Tok)` function
to return false for C++ keywords that aren't keywords in JS.
Reviewers: krasimir
Subscribers: jfb, cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D77311
In the near future llvm-mc will resolve the fixups that generate
R_ARM_THUMB_PC8 and R_ARM_THUMB_PC12 at assembly time (see comments in
D72892), and forbid inter-section references. Change the LLD tests for
these relocations to use .inst and .reloc to avoid LLD tests failing when
this happens. The tests generate the same instructions, relocations
and symbols.
I will need to make equivalent changes for D75349 Arm equivalent
relocations, but this is still in review so these don't need changing
before llvm-mc.
Differential Revision: https://reviews.llvm.org/D77200
Summary: I think it would be better to require the alignment to be >= 1. It is currently confusing to allow both values.
Reviewers: courbet
Subscribers: hiraditya, llvm-commits
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D77372
This pass replaces each indirect call/jump with a direct call to a thunk that looks like:
lfence
jmpq *%r11
This ensures that if the value in register %r11 was loaded from memory, then
the value in %r11 is (architecturally) correct prior to the jump.
Also adds a new target feature to X86: +lvi-cfi
("cfi" meaning control-flow integrity)
The feature can be added via clang CLI using -mlvi-cfi.
This is an alternate implementation to https://reviews.llvm.org/D75934 That merges the thunk insertion functionality with the existing X86 retpoline code.
Differential Revision: https://reviews.llvm.org/D76812
The old name was a bit misleading because the functions actually return
contributions to the corresponding sections.
Differential revision: https://reviews.llvm.org/D77302
Summary:
This patch adds parsing and dumping DWARFv5 .debug_macro section in llvm-dwarfdump,
it does not introduce any new switch. Existing switch "--debug-macro"
should be used to dump macinfo or macro section.
Reviewed By: dblaikie, ikudrin, jhenderson
Differential Revision: https://reviews.llvm.org/D73086
isGCValue should detect whether the deopt value is a GC pointer.
Currently it checks by finding the value in SI.Bases and SI.Ptrs.
However these data structures contain only those values which
have corresponding gc.relocate call. So we can miss GC value if it
does not have gc.relocate call (dead after the call).
Check GC strategy whether pointer is GC one or consider any pointer
to be GC one conservatively.
Reviewers: reames, dantrushin
Reviewed By: reames
Subscribers: hiraditya, llvm-commits
Differential Revision: https://reviews.llvm.org/D77130
D49116 was using clang-format-diff because at the time of its writing,
it needed to handle the subversion repo as well.
Differential Revision: https://reviews.llvm.org/D77363
Summary:
Add mapping from exp2 math functions
to corresponding SVML calls.
This is a follow up and extension for llvm diff
https://reviews.llvm.org/D19544
Test Plan:
- update test case and run ninja check.
- run tests locally
Reviewers: wenlei, hoyFB, mmasten, mzolotukhin, spatel
Reviewed By: spatel
Subscribers: llvm-commits
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D77114
Summary:
A recent change in the instruction simplifier enables a call to a function that just returns one of its parameter to be simplified as simply loading the parameter. This exposes a bug in the inliner where double inlining may be involved which in turn may cause compiler ICE when an already-inlined callsite is reused for further inlining.
To put it simply, in the following-like C program, when the function call second(t) is inlined, its code t = third(t) will be reduced to just loading the return value of the callsite first(). This causes the inliner internal data structure to register the first() callsite for the call edge representing the third() call, therefore incurs a double inlining when both call edges are considered an inline candidate. I'm making a fix to break the inliner from reusing a callsite for new call edges.
```
void top()
{
int t = first();
second(t);
}
void second(int t)
{
t = third(t);
fourth(t);
}
void third(int t)
{
return t;
}
```
The actual failing case is much trickier than the example here and is only reproducible with the legacy inliner. The way the legacy inliner works is to process each SCC in a bottom-up order. That means in reality function first may be already inlined into top, or function third is either inlined to second or is folded into nothing. To repro the failure seen from building a large application, we need to figure out a way to confuse the inliner so that the bottom-up inlining is not fulfilled. I'm doing this by making the second call indirect so that the alias analyzer fails to figure out the right call graph edge from top to second and top can be processed before second during the bottom-up. We also need to tweak the test code so that when the inlining of top happens, the function body of second is not that optimized, by delaying the pass of function attribute deducer (i.e, which tells function third has no side effect and just returns its parameter). Since the CGSCC pass is iterative, additional calls are added to top to postpone the inlining of second to the second round right after the first function attribute deducing pass is done. I haven't been able to repro the failure with the new pass manager since the processing order of ininlined callsites is a bit different, but in theory the issue could happen there too.
Note that this fix could introduce a side effect that blocks the simplification of inlined code, specifically for a call site that can be folded to another call site. I hope this can probably be complemented by subsequent inlining or folding, as shown in the attached unit test. The ideal fix should be to separate the use of VMap. However, in reality this failing pattern shouldn't happen often. And even if it happens, there should be a good chance that the non-folded call site will be refolded by iterative inlining or subsequent simplification.
Reviewers: wenlei, davidxl, tejohnson
Reviewed By: wenlei, davidxl
Subscribers: eraman, nikic, hiraditya, llvm-commits
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D76248
Summary:
This patch comes from H.J.'s 2bd54ce7fa
**This patch fix the failed llvm unit tests which running on CET machine. **(e.g. ExecutionEngine/MCJIT/MCJITTests)
The reason we enable IBT at "JIT compiled with CET" is mainly that: the JIT don't know the its caller program is CET enable or not.
If JIT's caller program is non-CET, it is no problem JIT generate CET code or not.
But if JIT's caller program is CET enabled, JIT must generate CET code or it will cause Control protection exceptions.
I have test the patch at llvm-unit-test and llvm-test-suite at CET machine. It passed.
and H.J. also test it at building and running VNCserver(Virtual Network Console), it works too.
(if not apply this patch, VNCserver will crash at CET machine.)
Reviewers: hjl.tools, craig.topper, LuoYuanke, annita.zhang, pengfei
Subscribers: tstellar, efriedma, hiraditya, llvm-commits
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D76900
This was causing a machine verifier failure on the test suite.
Make sure that we don't end up with a weird register class here.
Failure for reference:
*** Bad machine code: Illegal virtual register for instruction ***
- function: check_constrain
- basic block: %bb.1 (0x7f8b70839f80)
- instruction: early-clobber %6:gpr64, early-clobber %7:gpr64sp =
JumpTableDest32 %5:gpr64, %1:gpr64sp, %jump-table.0
- operand 3: %1:gpr64sp
Expected a GPR64 register, but got a GPR64sp register
Differential Revision: https://reviews.llvm.org/D77349
Sam McCall