Currently correct programs can deadlock after fork, because atomic operations and async-signal-safe calls are not async-signal-safe under tsan.
With this change:
- if a single-threaded program forks, the child continues running with verification enabled (the tsan background thread is recreated as well)
- if a multi-threaded program forks, then the child runs with verification disabled (memory accesses, atomic operations and interceptors are disabled); it's expected that it will exec soon anyway
- if the child tries to create more threads after multi-threaded fork, the program aborts with error message
- die_after_fork flag is added that allows to continue running, but all bets are off
http://llvm-reviews.chandlerc.com/D2614
llvm-svn: 199993
compile unit. Make these relocations on the platforms that need
relocations and add a routine to ensure that we don't put the
addresses in an offset table for split dwarf.
llvm-svn: 199990
MSAN detected a path that leaves DeprecatedStringLiteralToCharPtr uninitialized.
UserDefinedConversionSequence::First is a StandardConversionSequence that must
be initialized with setAsIdentityConversion.
llvm-svn: 199988
This was done when we were not able to parse lambdas to handle some
edge cases for block formatting different in return statements, but is
not necessary any more.
llvm-svn: 199982
This commit teaches the X86 backend to create the same X86 instructions when it
lowers an sadd/ssub with overflow intrinsic and a conditional branch that uses
that overflow result. This allows SelectionDAG to recognize and remove one of
the redundant operations.
This fixes <rdar://problem/15874016> and <rdar://problem/15661073>.
Reviewed by Nadav
llvm-svn: 199976
Add new virtual virtual function `isRelaOutputFormat` to the
`ELFLinkingContext` class. Call this function everywhere we need to
select a relocation table format.
Patch reviewed by Shankar Easwaran and Rui Ueyama.
llvm-svn: 199973
We completely skipped promotion in LICM if the loop has a preheader or
dedicated exits, but not *both*. We hoist if there is a preheader, and
sink if there are dedicated exits, but either hoisting or sinking can
move loop invariant code out of the loop!
I have no idea if this has a practical consequence. If anyone has ideas
for a test case, let me know.
llvm-svn: 199966
override for the type of 'this', also clear it out (unless we're entering the
context of a lambda-expression, where it should be inherited).
llvm-svn: 199962
GDBRemoteCommunicationServer::LaunchProcess () now uses the built-up
ProcessLaunchArgs rather than clearing and setting items from the
function arguments. I added setters for the arguments and launch
flags, which lldb-gdbserver uses for its specification of the
commandline-specified startup app (if one is specified).
LaunchProcess () also adds a new reaper monitor that it applies to
the launched process if no process monitor has already been applied.
This addresses an issue where the 'k' command would generate (possibly
false) warnings about not being able to positively state whether a
killed process actually terminated. GDBRemoteCommunicationServer now
definitely knows the disposition of its children.
llvm-svn: 199959
member-declaration. In the process, fix a couple of bugs that had crept in
where we would parse the first and subsequent member-declarators differently
(in particular, we didn't accept an asm-label on a member function definition
within a class, and we would accept virt-specifiers and attributes in the wrong
order on the first declarator but not on subsequent ones).
llvm-svn: 199957
This returns a list of valid (and useful) completions for a context (a list
of outer matchers), ordered by decreasing relevance then alphabetically. It
will be used by the matcher parser to implement completion.
Differential Revision: http://llvm-reviews.chandlerc.com/D2210
llvm-svn: 199950
lldb-gdbserver was launching the commandline-specified launch process
directly, without GDBRemoteCommunicationServer knowing anything about
it. As GDBRemoteCommunicationServer is the piece that manages and
knows about processes that the gdb remote protocol discusses with
the client end, it is important that it know about launched processes.
This change also implements the k gdb remote protocol message, having it
kill all known spawned processes when it is received.
(Note: in lldb-gdbserver, the spawned processes are not properly
monitored yet. The response to the k packet will complain that
spawned processes do not really appear to be getting killed even if
they are. This will get addressed soon.)
llvm-svn: 199945
Joerg Sonnenberger