This merges the functionality of the macros in `CVLeafTypes.def` and the
macros in `TypeRecords.def` into a single set of macros.
Differential Revision: http://reviews.llvm.org/D20190
Reviewed By: rnk, amccarth
llvm-svn: 269316
This introduces a variadic template and some helper macros to
safely and correctly deserialize many types of common record
fields while maintaining error checking.
Differential Revision: http://reviews.llvm.org/D20183
Reviewed By: rnk, amccarth
llvm-svn: 269315
Since we want to be able to use yaml to describe degenerate object files as well as valid ones, we need to be explicit of some fields in your yaml definitions.
llvm-svn: 269313
Summary:
This option allows the user to control how much of the file name is
emitted by UBSan. Tuning this option allows one to save space in the
resulting binary, which is helpful for restricted execution
environments.
With a positive N, UBSan skips the first N path components.
With a negative N, UBSan only keeps the last N path components.
Reviewers: rsmith
Subscribers: cfe-commits
Differential Revision: http://reviews.llvm.org/D19666
llvm-svn: 269309
Diagnostics should note version dependent issues by giving
a hint about current version being compiled for.
This patch changes diagnostics of static storage class specifier
and generic type qualifier to specify OpenCL version as well as
converts other diagnostics to match the style.
Patch by Vedran Miletic!
Review: http://reviews.llvm.org/D19780
llvm-svn: 269305
This patch adds the ability to dump mach headers. For my local clang binary the macho2yaml output is now:
--- !mach-o
FileHeader:
cputype: 0x01000007
cpusubtype: 0x80000003
filetype: 0x00000002
ncmds: 19
flags: 0x00A18085
...
llvm-svn: 269304
The introduction of the Swift demangler now causes an assertion failure when we
try to demangle nullptr, but we used to allow that (and return nullptr back).
This situation is rare, but it can still happen. Let's allow nullptr.
llvm-svn: 269302
Truncate operations are basically modulo operations, thus we can model
them that way. However, for large types we assume the operand to fit
in the new type size instead of introducing a modulo with a very large
constant.
llvm-svn: 269300
We utilize assumptions on the input to model IR in polyhedral world.
To verify these assumptions we version the code and guard it with a
runtime-check (RTC). However, since the RTCs are themselves generated
from the polyhedral representation we generate them under the same
assumptions that they should verify. In other words, the guarantees
that we try to provide with the RTCs do not hold for the RTCs
themselves. To this end it is necessary to employ a different check
for the RTCs that will verify the assumptions did hold for them too.
Differential Revision: http://reviews.llvm.org/D20165
llvm-svn: 269299
Summary:
On a 32-bit MIPS, the `ld` instruction does not exist. However, GAS has an `ld`
macro that expands to a pair of `lw` instructions which load to a pair of
registers (reg, and reg+1). This macro is not available in the Integrated
Assembler and its use causes -fintegrated-as builds to fail. Even if it were
available, the behaviour on 32-bit MIPS would be incorrect since the current
usage of `ld` causes the code to clobber $5 (which is supposed to hold
child_stack). It also clobbers $k0 which is reserved for kernel use.
Aside from enabling builds with the integrated assembler, there is no functional
change since internal_clone() is only used by StopTheWorld() which is only used
by 64-bit sanitizers.
Reviewers: kcc, sagar
Subscribers: mohit.bhakkad, jaydeep, sagar, llvm-commits
Differential Revision: http://reviews.llvm.org/D18753
llvm-svn: 269297
Summary:
This expands on r269179 to fix an additional case that was not covered by our
tests. The assembler temporary is not needed when the .cprestore offset fits
inside a simm16 and it is not an error to use it inside a '.set noat' in this
case.
Reviewers: emaste, seanbruno, sdardis
Subscribers: dsanders, sdardis, llvm-commits
Differential Revision: http://reviews.llvm.org/D20199
llvm-svn: 269295
As explained in r269196, microMIPS has a special case that is not correctly
implemented in LLVM. If we have a symbol 'foo' which is equivalent to
'.text+0x10'. The value of an R_MICROMIPS_LO16 relocation using 'foo' is
'foo+0x11' and not 'foo+0x10'. The in-place addend should therefore be 0x11.
This commit reverts a little more of the effect of r268900 by keeping the
symbol when the STO_MIPS_MICROMIPS flag is set for R_MIPS_GPREL32 relocations.
This fixes SingleSource/UnitTests/2003-08-11-VaListArg, and
SingleSource/UnitTests/2003-05-07-VarArgs for microMIPS.
I believe there are additional relocations that have the same issue (e.g.
R_MIPS_64, and R_MIPS_GPREL16) but for now I'm focusing on restoring our
internal buildbots back to the green state we had in r268899.
llvm-svn: 269294
To invoke the Swift demangler, we use dlsym to locate swift_demangle. However, dlsym malloc's storage and stores it in thread-local storage. Since allocations from the symbolizer are done with the system allocator (at least in TSan, interceptors are skipped when inside the symbolizer), we will crash when we try to deallocate later using the sanitizer allocator again.
To fix this, let's just not call dlsym from the demangler, and call it during initialization. The dlsym function calls malloc, so it needs to be only used after our allocator is initialized. Adding a Symbolizer::LateInitialize call that is only invoked after all other initializations.
Differential Revision: http://reviews.llvm.org/D20015
llvm-svn: 269291
For BITREVERSE, bit shifting/masking every bit in a vector element is a very lengthy procedure.
If the input vector type is a whole multiple of bytes wide then we can split this into a BSWAP shuffle stage (to reverse at the byte level) and then a BITREVERSE stage applied to each byte. Most vector capable targets can efficiently BSWAP using shuffles resulting in a considerable reduction in instructions.
With this patch targets would only need to implement a target specific vXi8 BITREVERSE implementation to efficiently reverse most legal vector types.
Differential Revision: http://reviews.llvm.org/D19978
llvm-svn: 269290
We're using forkpty to spawn the atos symbolizer. In some cases, login_tty (part of forkpty) can fail due to security measures (sandboxing). In this case, we should exit with a status code instead of completely crashing the spawned process. Even processing a failed CHECK() is problematic here, because we're post-fork and pre-exec where a lot of things don't work (for multithreaded processes, for OS X GUI apps, etc.).
Differential Revision: http://reviews.llvm.org/D20048
llvm-svn: 269289
While debugging ASan and TSan, I sometimes get a recursion during a failed CHECK processing. CheckFailed can call a lot of code (printing, unwinding a stack trace, symbolicating, ...) and this can fail another CHECK. This means I sometimes see a crash due to a infinite recursion stack overflow. Let's stop after 10 failed CHECKs and just kill the process immediately. I also added a Sleep(2) call before the trap, so that other threads still get a chance to print their failed CHECKs.
Differential Revision: http://reviews.llvm.org/D20047
llvm-svn: 269288
Fix "Logic error" warnings of the type "Called C++ object pointer is
null" reported by Clang Static Analyzer.
Patch by Apelete Seketeli.
llvm-svn: 269285
Summary:
MonitorDebugServerProcess went to a lot of effort to make sure its asynchronous invocation does
not cause any mischief, but it was still not race-free. Specifically, in a quick stop-restart
sequence (like the one in TestAddressBreakpoints) the copying of the process shared pointer via
target_sp->GetProcessSP() was racing with the resetting of the pointer in DeleteCurrentProcess,
as they were both accessing the same shared_ptr object.
To avoid this, I simply pass in a weak_ptr to the process when the callback is created. Locking
this pointer is race-free as they are two separate object even though they point to the same
process instance. This also removes the need for the complicated tap-dance around retrieving the
process pointer.
Reviewers: clayborg
Subscribers: tberghammer, lldb-commits
Differential Revision: http://reviews.llvm.org/D20107
llvm-svn: 269281
Summary:
This eliminates the default case for N64 that was left out of r269047.
The change to R_MIPS_SUB is needed in this patch to make this testable since
%lo(%neg(%gp_rel(foo))) and %hi(%neg(%gp_rel(foo))) remain the only ways to get
a compound relocation from the assembler.
Reviewers: sdardis, rafael
Subscribers: dsanders, llvm-commits, sdardis
Differential Revision: http://reviews.llvm.org/D20097
llvm-svn: 269280
This is needed for proper operation of the fast unwinder, see the discussion
on D18895.
Differential Revision: http://reviews.llvm.org/D19898
llvm-svn: 269277
Summary:
This patch is adding support for conditional expression and overloaded operators.
To decrease false-positive, this patch is adding a list of banned macro names that
has multiple variant with same integer value.
Also fixed support for template instantiation and added an unittest.
Reviewers: alexfh
Subscribers: klimek, Sarcasm, cfe-commits
Differential Revision: http://reviews.llvm.org/D19703
llvm-svn: 269275
Summary:
This patch is adding support for a matcher to check string literal length.
This matcher is used in clang-tidy checkers and is part of this refactoring:
see: http://reviews.llvm.org/D19841
Reviewers: sbenza, klimek, aaron.ballman
Subscribers: alexfh, klimek, cfe-commits
Differential Revision: http://reviews.llvm.org/D19876
llvm-svn: 269274
While promoting nodes in PPCTargetLowering::DAGCombineExtBoolTrunc, it is
possible for one of the nodes to be replaced by another. To make sure we do not
visit the deleted nodes, and to make sure we visit the replacement nodes, use a
list of HandleSDNodes to track the to-be-promoted nodes during the promotion
process.
The same fix has been applied to the analogous code in
PPCTargetLowering::DAGCombineTruncBoolExt.
Fixes PR26985.
llvm-svn: 269272
Bases can be zero-initialized: the storage is zero-initialized before
the base constructor is run.
The MS ABI has a quirk where base VBPtrs are not installed by the
base constructor but by the most derived class. In particular, they are
installed before the base constructor is run.
The derived constructor must be careful to zero-initialize only the bits
of the class which haven't already been populated by virtual base
pointers.
While we correctly avoided this scenario, we didn't handle the case
where the base class has virtual bases which have virtual bases.
llvm-svn: 269271
The way we currently build the internal VFS overlay representation leads
to inefficient path search and might yield wrong answers when asked for
recursive or regular directory iteration.
Currently, when reading an YAML file, each YAML root entry is placed
inside a new root in the filesystem overlay. In the crash reproducer, a
simple "@import Foundation" currently maps to 43 roots, and when looking
up paths, we traverse a directory tree for each of these different
roots, until we find a match (or don't). This has two consequences:
- It's slow.
- Directory iteration gives incomplete results since it only return
results within one root - since contents of the same directory can be
declared inside different roots, the result isn't accurate.
This is in part fault of the way we currently write out the YAML file
when emitting the crash reproducer - we could generate only one root and
that would make it fast and correct again. However, we should not rely
on how the client writes the YAML, but provide a good internal
representation regardless.
This patch builds a proper virtual directory tree out of the YAML
representation, allowing faster search and proper iteration. Besides the
crash reproducer, this potentially benefits other VFS clients.
llvm-svn: 269270
Shifts beyond the bitwidth are undef but SCCP resolved them to zero.
Instead, DTRT and resolve them to undef.
This reimplements the transform which caused PR27712.
llvm-svn: 269269
Chris Bieneman