For some reason I had convinced myself that functions returning by
pointer or reference do not require recording their result. However,
after further considering I don't see how that could work, at least not
with the current implementation. Interestingly enough, the reproducer
instrumentation already (mostly) accounts for this, though the
lldb-instr tool did not.
This patch adds the missing macros and updates the lldb-instr tool.
Differential revision: https://reviews.llvm.org/D60178
llvm-svn: 357639
Summary:
After https://reviews.llvm.org/D59828 and https://reviews.llvm.org/D59849,
I believe the problems with these tests hanging have been solved.
I tried enabling all of them on my machine, and got two failures:
- One of them was spawning a child process that lives for 5 seconds, waited
for 5 seconds to attach to the child, and failed because the child wasn't
there.
- The other one was a legit failure because shell expansion of arguments doesn't
work on Linux.
This tests enables all lldb-vscode tests on Linux except for "launch process
with shell expansion of args" (which doesn't work), and fixes the other broken
test by reducing the time it waits before attaching to its child process.
Reviewers: zturner, clayborg
Subscribers: lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D60153
llvm-svn: 357633
Spotted some problems in the Driver's PrepareCommandsForSourcing while
helping a colleague track another problem.
1. One error case was not handled because there was no else clause.
Fixed by switching to llvm's early-out style instead of nested
`if (succes) { } else { }` cases. This keeps error handling close
to the actual error.
2. One call-site failed to call the clean-up function. I solved this
by simplifying the API. PrepareCommandsForSourcing no longer requires
the caller to provide a buffer for the pipe's file descriptors and to
call a separate clean-up function later. PrepareCommandsForSourcing
now ensures the file descriptors are handled before returning.
(The read end of the pipe is held open by the returned FILE * as
before.)
I also eliminated an unnecessary local, shorted the lifetime of another,
and tried to improve the comments.
I wrapped the call to open the pipe to get the `#ifdef`s out of the
mainline. I replaced the `close`/`_close` calls with a platform-neutral
helper from `llvm::sys` for the same reason. Per discussion on the
review, I'm leaving the `fdopen` call to use the spelling that Windows
has officially deprecated because it still works it avoids more `#ifdef`s.
Differential Revision: https://reviews.llvm.org/D60152
llvm-svn: 357626
Allow partial UUID matching in Minidump core file plug-in
Breakpad had bugs in earlier versions where it would take a 20 byte ELF build ID and put it into the minidump file as a 16 byte PDB70 UUID with an age of zero. This would make it impossible to do postmortem debugging with one of these older minidump files.
This fix allows partial matching of UUIDs. To do this we first try and match with the full UUID value, and then fall back to removing the original directory path from the module specification and we remove the UUID requirement, and then manually do the matching ourselves. This allows scripts to find symbols files using a symbol server, place them all in a directory, use the "setting set target.exec-search-paths" setting to specify the directory, and then load the core file. The Target::GetSharedModule() can then find the correct file without doing any other matching and load it.
Tests were added to cover a partial UUID match where the breakpad file has a 16 byte UUID and the actual file on disk has a 20 byte UUID, both where the first 16 bytes match, and don't match.
Differential Revision: https://reviews.llvm.org/D60001
llvm-svn: 357603
Summary:
Instead of modifying the swig-generated code, just add the appropriate
methods to the interface files in order to get the swig to do the
generation for us.
This is a straight-forward move from the python script to the interface
files. The single class which has nontrivial handling in the script
(SBModule) has been left for a separate patch.
For the cases where I did not find any tests exercising the
iteration/length methods (i.e., no tests failed after I stopped emitting
them), I tried to add basic tests for that functionality.
Reviewers: zturner, jingham, amccarth
Subscribers: jdoerfert, lldb-commits
Differential Revision: https://reviews.llvm.org/D60119
llvm-svn: 357572
Lit has the ability to set a timeout for individual tests. This patch
enables that functionality with a default of 10 minutes.
Currently we rely on the bots to kill the whole test suite. However this
doesn't tell us which test caused the timeout. Furthermore, when running
the test suite during development, I have to manually kill the tests
that time out to get the lit output at then end. This fixes both
inconveniences.
llvm-svn: 357555
In order to debug a failing python test, you need to debug Python
instead of the wrapper. For a while I've been adding and removing this,
but I think it could be useful for everyone.
llvm-svn: 357554
See discussion in https://reviews.llvm.org/D60001.
Revert Clean up windows build bot.
This reverts r357504 (git commit 380c2420ec)
Revert Fix buildbot where paths were not matching up.
This reverts r357491 (git commit 5050586860)
Revert Allow partial UUID matching in Minidump core file plug-in
This reverts r357482 (git commit 838bba9c34)
llvm-svn: 357534
A recent patch to LLD started emitting information about import modules.
These are represented as compile units in the PDB, but with no
additional debug info. This was confusing the native pdb reader, who
expected that the debug info stream be present.
This should fix failing tests on the Windows bots.
llvm-svn: 357513
Breakpad had bugs in earlier versions where it would take a 20 byte ELF build ID and put it into the minidump file as a 16 byte PDB70 UUID with an age of zero. This would make it impossible to do postmortem debugging with one of these older minidump files.
This fix allows partial matching of UUIDs. To do this we first try and match with the full UUID value, and then fall back to removing the original directory path from the module specification and we remove the UUID requirement, and then manually do the matching ourselves. This allows scripts to find symbols files using a symbol server, place them all in a directory, use the "setting set target.exec-search-paths" setting to specify the directory, and then load the core file. The Target::GetSharedModule() can then find the correct file without doing any other matching and load it.
Tests were added to cover a partial UUID match where the breakpad file has a 16 byte UUID and the actual file on disk has a 20 byte UUID, both where the first 16 bytes match, and don't match.
Differential Revision: https://reviews.llvm.org/D60001
llvm-svn: 357482
Summary:
modify-python-lldb.py had code to insert python equality operators to
some classes. Some of those classes already had c++ equality operators,
and some didn't.
This makes the situation more consistent, by removing all equality
handilng from modify-python-lldb. Instead, I add c++ operators to
classes where they were missing, and expose them in the swig interface
files so that they are available to python too.
The only tricky case was the SBAddress class, which had an operator==
defined as a free function, which is not handled by swig. This function
cannot be removed without breaking ABI, and we cannot add an extra
operator== member, as that would make equality comparisons ambiguous.
For this class, I define a python __eq__ function by hand and have it
delegate to the operator!=, which I have defined as a member function.
This isn't fully NFC, as the semantics of some equality functions in
python changes slightly, but I believe it changes for the better (e.g.,
previously SBBreakpoint.__eq__ would consider two breakpoints with the
same ID as equal, even if they belonged to different targets; now they
are only equal if they belong to the same target).
Reviewers: jingham, clayborg, zturner
Subscribers: jdoerfert, JDevlieghere, lldb-commits
Differential Revision: https://reviews.llvm.org/D59819
llvm-svn: 357463
I'm not sure why this surfaced at this particular point, but
TestCommandScriptImmediateOutput (a pexpect test) had a synchronization
issue, where the (lldb) promts it was expecting were getting out of
sync. This happened for two reasons:
- it did not expect the initial (lldb) prompt we print at startup
- launchArgs() returned None, which resulted in an extra "target create
None" command being issued to lldb (and an extra unhandled prompt
being printed).
Resolving these two issues seems to fix (or at least, improve) the test.
llvm-svn: 357459
The test was hitting llvm_unreachable in
Platform::GetSoftwareBreakpointTrapOpcode because it could not figure
out the architecture of the process. Since that is not the purpose of
the test, I change the test to use an explicit
CreateTargetWithFileAndTargetTriple command to specify it.
llvm-svn: 357456
Summary:
This refactors moves the register name->number resolution out of the
FPOProgramNodeRegisterRef class. Instead I create a special
FPOProgramNodeSymbol class, which holds unresolved symbols, and move the
resolution into the ResolveRegisterRefs visitor.
The background here is that I'd like to use this code for Breakpad
unwind info, which uses similar syntax to describe unwind info. For
example, a simple breakpad unwind program might look like:
.cfa: $esp 8 + $ebp: .cfa 8 - ^
To be able to do this, I need to be able to customize register
resolving, as that is presently hardcoded to use codeview register
names, but breakpad supports a lot more architectures with different
register names. Moving the resolution into a separate class will allow
each user to use a different resolution logic.
Reviewers: aleksandr.urakov, zturner, amccarth
Subscribers: jdoerfert, lldb-commits
Differential Revision: https://reviews.llvm.org/D60068
llvm-svn: 357455
While reviewing D56233 it became clear to me that this test can be
simplified. There's no need for a start-stop cycle in the inferior -- we
can start fiddling with its registers as soon as it is launched.
llvm-svn: 357451
I found the code of Process::WriteMemory particularly hard to follow
when reviewing Ismail's change in D60022. This simplifies the code and
hopefully prevents similar oversights in the future.
Differential revision: https://reviews.llvm.org/D60092
llvm-svn: 357428
Summary:
This change prevents the lldb-vscode test harness from hanging up waiting for
new messages when the lldb-vscode subprocess crashes.
Now, when an EOF from the subprocess pipe is detected we enqueue a `None` packet
in the received packets list. Then, during the message processing loop, we can
use this `None` packet to tell apart the case where lldb-vscode has terminated
unexpectedly from the normal situation where no pending messages means blocking
and waiting for more data.
I believe this should be enough to fix the issues with these tests hanging on
multiple platforms. Once this lands, I'll prepare and test a separate change
removing the @skipIfLinux annotations.
Reviewers: clayborg, zturner
Subscribers: lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D59849
llvm-svn: 357426
Summary:
In case of a breakpoint site overlapping with the destination address,
the WriteMemory method reported an incorrect memory size.
Instead of returning the right amount of bytes written, it falls through
the scope and returned 0.
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
Reviewers: jasonmolenda, friss, jingham
Subscribers: JDevlieghere, davide, lldb-commits, #lldb
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D60022
llvm-svn: 357420
Include support for NetBSD core dumps from evbarm/aarch64 system,
and matching test cases for them.
Based on earlier work by Kamil Rytarowski.
Differential Revision: https://reviews.llvm.org/D60034
llvm-svn: 357399
Summary:
We're using ptrace(PTRACE_SETREGSET, NT_X86_XSTATE) to write all non-gpt
registers on x86 linux. Unfortunately, this method has a quirk, where
the kernel rejects all attempts to write to this area if one supplies a
buffer which is smaller than the area size (even though the kernel will
happily accept partial reads from it).
This means that if the CPU supports some new registers/extensions that
we don't know about (in my case it was the PKRU extension), we will fail
to write *any* non-gpr registers, even those that we know about.
Since this is a situation that's likely to appear again and again, I add
code to NativeRegisterContextLinux_x86_64 to detect the runtime size of
the area, and allocate an appropriate buffer. This does not mean that we
will start automatically supporting all new extensions, but it does mean
that the new extensions will not prevent the old ones from working.
This fixes tests attempting to write to non-gpr registers on new intel
processors (cca Kaby Lake Refresh).
Reviewers: jankratochvil, davezarzycki
Subscribers: lldb-commits
Differential Revision: https://reviews.llvm.org/D59991
llvm-svn: 357376
This patch limits the scope of the python header to the implementation
of the python script interpreter plugin. ScriptInterpreterPython is now
an abstract interface that doesn't expose any Python specific types, and
is implemented by the ScriptInterpreterPythonImpl.
Differential revision: https://reviews.llvm.org/D59976
llvm-svn: 357307
The utility library shouldn't depend on curses, libedit or python. Move
curses to core, libedit to host and python to the python plugin.
Differential revision: https://reviews.llvm.org/D59970
llvm-svn: 357287
FindPythonInterp and FindPythonLibs do two things, they set some
variables (PYTHON_LIBRARIES, PYTHON_INCLUDE_DIRS) and update the cached
variables (PYTHON_LIBRARY, PYTHON_INCLUDE_DIR) which are also used to
specify a custom python installation.
I believe the canonical way to do this is to use the PYTHON_LIBRARIES
and PYTHON_INCLUDE_DIRS variables instead of the cached ones. However,
since the cached variables are accessible from the cache and GUI, this
is a lot less confusing when you're trying to debug why a variable did
or didn't get the value you expected. Furthermore, as far as I can tell,
the implementation uses the cached variables to set their LIBRARIES/DIRS
counterparts. This is also the reason this works today even though we
mix-and-match.
Differential revision: https://reviews.llvm.org/D59968
llvm-svn: 357282
Todd added this empty readline module to workaround an issue with an old
version of Python on Ubuntu in 2014 (18841). In the meantime, libedit
seems to have fixed the underlying issue, and indeed, I wasn't able to
reproduce this.
Differential revision: https://reviews.llvm.org/D59972
llvm-svn: 357277
For = operators for lists that have mutexes, we were either
just taking the locks sequentially or hand-rolling a trick
to try to avoid lock inversion. Use the std::lock mechanism
for this instead.
Differential Revision: https://reviews.llvm.org/D59957
llvm-svn: 357276
It was making a list of a certain size but not always filling in that
many elements, which would lead to a crash iterating over the list.
Differential Revision: https://reviews.llvm.org/D59913
llvm-svn: 357207
For a single char argument, find_first_of is equal to find and
find_last_of is equal to rfind. While playing around with the plugin
stuff this caused an export failure because it always got inlined except
once, which resulted in an undefined symbol.
llvm-svn: 357198
the collection lock before we iterate over the owners calling ShouldStop.
BreakpointSite::ShouldStop can do a lot of work, and might by chance hit the same breakpoint
site again on another thread. So instead of holding the site's owners lock
while iterating over them calling ShouldStop, I make a local copy of the list, drop the lock
and then iterate over the copy calling BreakpointLocation::ShouldStop.
It's actually quite difficult to make this cause problems because usually all the
action happens on the private state thread, and the lock is recursive.
I have a report where some code hit the ASAN error breakpoint, went to
compile the ASAN error gathering expression, in the course of compiling
that we went to fetch the ObjC runtime data, but the state of the program
was such that the ObjC runtime grubbing function triggered an ASAN error and
we were executing that function on another thread.
I couldn't figure out a way to reproduce that situation in a test. But this is an
NFC change anyway, it just makes the locking strategy more narrowly focused.
<rdar://problem/49074093>
llvm-svn: 357141
Currently, only ClangASTContext knows about PDBASTParser. Eventually
we want the TypeSystem to have getters/setters for the base parser
and then have the TypeSystem subclasses know about the proper
PDBASTParser subclasses. This is similar to how DWARFASTParsers work.
llvm-svn: 357131
Stella Stamenova