Executing commands below will get you bombarded by a wall of Python
command prompts (>>> ).
$ echo 'foo' | ./bin/lldb -o script
$ cat /tmp/script
script
print("foo")
$ lldb --source /tmp/script
The issue is that our custom input reader doesn't handle EOF. According
to the Python documentation, file.readline always includes a trailing
newline character unless the file ends with an incomplete line. An empty
string signals EOF. This patch raises an EOFError when that happens.
[1] https://docs.python.org/2/library/stdtypes.html#file.readline
Differential revision: https://reviews.llvm.org/D81898
This patch remove the indentation before the command help output.
Supposedly it was meant to be aligned with the different subcommands.
Differential revision: https://reviews.llvm.org/D81783
The reproducer intentionally leak every object allocated during replay,
which means that modules never get orphaned. If this were to happen for
another reason, we might not be testing what we think we are. Assert
that there are no targets left at the end of a test and that the global
module cache is empty in the non-reproducer scenario.
Differential revision: https://reviews.llvm.org/D81612
Prior to my patch of using the LLVM line table parsing code,
SymbolFileDWARF::ParseSupportFiles would only parse the line table
prologues to get the file list for any files that could be in the line
table.
With the old behavior, if we found the file that someone is setting the
breakpoint in in the support files list, we would get a valid index. If
we didn't, we would not look any further. So someone sets a breakpoint
one "MyFile.cpp:12" and if we find "MyFile.cpp" in the support file list
for the compile unit, then and only then would we get the entire line
table for that compile unit.
With the current behavior, no matter what, we always fully parse the
line table for all compile units any time any file and line breakpoint
is set. This creates a serious problem when debugging a large DWARF in
.o file project.
This patch re-instates the old behavior. Unfortunately it means we might
end up parsing to prologue twice, but I don't think that outweighs the
cost of trying to cache/reuse it.
Differential revision: https://reviews.llvm.org/D81589
Summary:
When we get an error back from IRForTarget we directly print that error to the
debugger output stream instead of putting it in the result object. The result
object only gets a vague "The expression could not be prepared to run in the
target" error message that doesn't actually tell the user what went wrong.
This patch just puts the IRForTarget errors into the status object that is
returned to the caller instead of directly printing it to the debugger. Also
updates one test that now can actually check for the error message it is
supposed to check for (instead of the default error which is all we had before).
Reviewers: JDevlieghere
Reviewed By: JDevlieghere
Differential Revision: https://reviews.llvm.org/D81654
The Python 3 interpreter in Xcode has a relative RPATH and dyld fails to
load it when we copy it into the build directory.
This patch adds an additional check that the copied binary can be
executed. If it doesn't, we assume we're dealing with the Xcode python
interpreter and return the path to the real executable. That is
sufficient for the sanitizers because only system binaries need to be
copied to work around SIP.
This patch also moves all that logic out of LLDBTest and into the lit
configuration so that it's executed only once per test run, instead of
once for every test. Although I didn't benchmark the difference this
should result in a mild speedup.
Differential revision: https://reviews.llvm.org/D81696
Encountered the following situation: Let we started thread T1 and it hit
breakpoint on B1 location. We suspended T1 and continued the process.
Then we started thread T2 which hit for example the same location B1.
This time in a breakpoint callback we decided not to stop returning
false.
Expected result: process continues (as if T2 did not hit breakpoint) its
workflow with T1 still suspended. Actual result: process do stops (as if
T2 callback returned true).
Solution: We need invalidate StopInfo for threads that was previously
suspended just because something that is already inactive can not be the
reason of stop. Thread::GetPrivateStopInfo() may be appropriate place to
do it, because it gets called (through Thread::GetStopInfo()) every time
before process reports stop and user gets chance to change
m_resume_state again i.e if we see m_resume_state == eStateSuspended
it definitely means it was set during previous stop and it also means
this thread can not be stopped again (cos' it was frozen during
previous stop).
Differential revision: https://reviews.llvm.org/D80112
Inline tests have one method named 'test' which means that multiple
inline tests in the same file end up sharing the same build directory
per variant.
This patch overrides the getBuildDirBasename method for the InlineTest
class to include the test name.
Differential revision: https://reviews.llvm.org/D81516
The are not needed as Scalar is implicitly constructible from all of
these types (so the compiler will use a combination of a constructor +
move assignment instead), and they make it very easy for implementations
of assignment and construction operations to diverge.
Summary:
`PlatformAppleSimulator::GetCoreSimulatorPath` currently checks if
`m_core_simulator_framework_path` wasn't set yet and then tries to calculate its
actual value. However, if `GetXcodeDeveloperDirectory` returns an invalid
FileSpec, `m_core_simulator_framework_path` is never assigned a value which
causes that the `return m_core_simulator_framework_path.getValue();` at the end
of the function will trigger an assert.
This patch just assigns an invalid FileSpec to `m_core_simulator_framework_path`
which seems what the calling code in `PlatformAppleSimulator::LoadCoreSimulator`
expects as an error value.
I assume this can be reproduces on machines that don't have an Xcode
installation, but this patch is mostly based on this backtrace I received from
someone else that tried to run the test suite:
```
Assertion failed: (hasVal), function getValue, file llvm/include/llvm/ADT/Optional.h, line 73.
[...]
3 libsystem_c.dylib 0x00007fff682a1ac6 __assert_rtn + 314
4 liblldb.11.0.0git.dylib 0x000000010b835931 PlatformAppleSimulator::GetCoreSimulatorPath() (.cold.1) + 33
5 liblldb.11.0.0git.dylib 0x0000000107e92f11 PlatformAppleSimulator::GetCoreSimulatorPath() + 369
6 liblldb.11.0.0git.dylib 0x0000000107e9383e void std::__1::__call_once_proxy<std::__1::tuple<PlatformAppleSimulator::LoadCoreSimulator()::$_1&&> >(void*) + 30
7 libc++.1.dylib 0x00007fff654d5bea std::__1::__call_once(unsigned long volatile&, void*, void (*)(void*)) + 139
8 liblldb.11.0.0git.dylib 0x0000000107e92019 PlatformAppleSimulator::LaunchProcess(lldb_private::ProcessLaunchInfo&) + 89
9 liblldb.11.0.0git.dylib 0x0000000107e92be5 PlatformAppleSimulator::DebugProcess(lldb_private::ProcessLaunchInfo&, lldb_private::Debugger&, lldb_private::Target*, lldb_private::Status&) + 101
10 liblldb.11.0.0git.dylib 0x0000000107cb044d lldb_private::Target::Launch(lldb_private::ProcessLaunchInfo&, lldb_private::Stream*) + 669
11 liblldb.11.0.0git.dylib 0x000000010792c9c5 lldb::SBTarget::Launch(lldb::SBLaunchInfo&, lldb::SBError&) + 1109
12 liblldb.11.0.0git.dylib 0x0000000107a92acd _wrap_SBTarget_Launch(_object*, _object*) + 477
13 org.python.python 0x000000010681076f PyCFunction_Call + 321
14 org.python.python 0x000000010689ee12 _PyEval_EvalFrameDefault + 7738
```
Reviewers: JDevlieghere, jasonmolenda
Reviewed By: JDevlieghere
Differential Revision: https://reviews.llvm.org/D80997
This replaces the (only) call to llvm::sys::fs::openFileForWrite with
FileSystem::Open. This guarantees that we include log files in the
reproducers.
Differential revision: https://reviews.llvm.org/D81499
These tests are flaky on the reproducer bot. I suspect it has something
to do with the module cache. Skipping the whole category while I
investigate the issue.
This brings over functionality from the xcodeproject that went missing during the CMake transition.
rdar://problem/63840635
Differential Revision: https://reviews.llvm.org/D81300
Before 539b47c9 this test was not actually using the debug_names section
because the -gdwarf added by Makefile.rules on windows overrode the
-gdwarf-5 flag from CFLAGS_EXTRAS. Now that -gdwarf-5 is respected, the
test is failing.
This field is unused (the only way to change its value is via a
constructor which is never called), and as far as I can tell it has been
unused since it was introduced in D12100. It also has some soundness
issues -- e.g. operator= does not reinitialize it, but uses the old
value from the overwritten object.
It sounds like this class should be able to support different floating
point semantics, but if that is needed, it would be better to start
afresh -- probably by passing in an APFloat::fltSemantics object instead
of a bool flag.
This makes it possible to conditionally override some of these flags via
CFLAGS_EXTRAS. It should be NFC right now, but this seems the logical
order in which to apply these things, and I am going to make use of this
in another patch.
In addition to having the default fallback from Python 3 to Python 2, it
should also be possible to build against Python 2 explicitly. This patch
makes that possible by setting LLDB_PYTHON_VERSION. The variable only
has effect with CMake 3.12 or later.
Differential revision: https://reviews.llvm.org/D81501
SBFileSpec.fullpath always uses the forward slash to join the directory with the
base name. This causes mismatches when comparing Windows paths with backslashes
in two of the minidump tests. To get around that we just compare the directory
names separately from the filenames.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D81465
Color the error: and warning: part of the CommandReturnObject output,
similar to how an error is printed from the driver when colors are
enabled.
Differential revision: https://reviews.llvm.org/D81058
D80519 <https://reviews.llvm.org/D80519>
added support for `DW_TAG_GNU_call_site` but
Bug 45886 <https://bugs.llvm.org/show_bug.cgi?id=45886>
found one case did not work.
There is:
0x000000b1: DW_TAG_GNU_call_site
DW_AT_low_pc (0x000000000040111e)
DW_AT_abstract_origin (0x000000cc "a")
...
0x000000cc: DW_TAG_subprogram
DW_AT_name ("a")
DW_AT_prototyped (true)
DW_AT_low_pc (0x0000000000401109)
^^^^^^^^^^^^ - here it did overwrite the 'low_pc' variable containing value 0x40111e we wanted
DW_AT_high_pc (0x0000000000401114)
DW_AT_frame_base (DW_OP_call_frame_cfa)
DW_AT_GNU_all_call_sites (true)
DW_TAG_GNU_call_site attributes order as produced by GCC:
0x000000b1: DW_TAG_GNU_call_site
DW_AT_low_pc (0x000000000040111e)
DW_AT_abstract_origin (0x000000cc "a")
clang produces the attributes in opposite order:
0x00000064: DW_TAG_GNU_call_site
DW_AT_abstract_origin (0x0000002a "a")
DW_AT_low_pc (0x0000000000401146)
Differential Revision: https://reviews.llvm.org/D81334
Previously, we were simply ignoring them and continuing the evaluation.
This behavior does not seem useful, because the resulting value will
most likely be completely bogus.
Summary:
The way that the support for the GNU dialect of tail call frames was
implemented in D80519 meant that the were reporting very bogus PC values
which pointed into the middle of an instruction: the -1 trick is
necessary for the address to resolve to the right function, but we
should still be reporting a more realistic PC value -- I say "realistic"
and not "real", because it's very debatable what should be the correct
PC value for frames like this.
This patch achieves that my moving the -1 from SymbolFileDWARF into the
stack frame computation code. The idea is that SymbolFileDWARF will
merely report whether it has provided an address of the instruction
after the tail call, or the address of the call instruction itself. The
StackFrameList machinery uses this information to set the "behaves like
frame zero" property of the artificial frames (the main thing this flag
does is it controls the -1 subtraction when looking up the function
address).
This required a moderate refactor of the CallEdge class, because it was
implicitly assuming that edges pointing after the call were real calls
and those pointing the the call insn were tail calls. The class now
carries this information explicitly -- it carries three mostly
independent pieces of information:
- an address of interest in the caller
- a bit saying whether this address points to the call insn or after it
- whether this is a tail call
Reviewers: vsk, dblaikie
Subscribers: aprantl, mgrang, lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D81010
SBTarget::AddModule currently handles the UUID parameter in a very
weird way: UUIDs with more than 16 bytes are trimmed to 16 bytes. On
the other hand, shorter-than-16-bytes UUIDs are completely ignored. In
this patch, we change the parsing code to handle UUIDs of arbitrary
size.
To support arbitrary size UUIDs in SBTarget::AddModule, this patch
changes UUID::SetFromStringRef to parse UUIDs of arbitrary length. We
subtly change the semantics of SetFromStringRef - SetFromStringRef now
only succeeds if the entire input is consumed to prevent some
prefix-parsing confusion. This is up for discussion, but I believe
this is more consistent - we always return false for invalid UUIDs
rather than sometimes truncating to a valid prefix. Also, all the
call-sites except the API and interpreter seem to expect to consume
the entire input.
This also adds tests for adding existing modules 4-, 16-, and 20-byte
build-ids. Finally, we took the liberty of testing the minidump
scenario we care about - removing placeholder module from minidump and
replacing it with the real module.
Reviewed By: labath, friss
Differential Revision: https://reviews.llvm.org/D80755
trivial.
We previously took a shortcut by assuming that if a subobject had a
trivial copy assignment operator (with a few side-conditions), we would
always invoke it, and could avoid going through overload resolution.
That turns out to not be correct in the presenve of ref-qualifiers (and
also won't be the case for copy-assignments with requires-clauses
either). Use the same logic for lazy declaration of copy-assignments
that we use for all other special member functions.
Previously committed as c57f8a3a20. This
now also includes an extension of LLDB's workaround for handling special
members without the help of Sema to cover copy assignments.
Since FindXcodeContentsDirectoryInPath expects the *.app/Contents and
DEVELOPER_DIR is supposed to point to Xcode.app, we need to append the
Contents path first.
Differential Revision: https://reviews.llvm.org/D81290
The printf expression crashes with the message:
Attempted to dereference an invalid pointer
Someone who knows more about Windows should suggest how to fix this.
In the similar review D81128, Jonas pointed out some style errors that also
apply to D80775 (which is already committed). Also applying the changes
suggested there to this code.
Support printing strings which contain invalid utf8 sub-sequences, e.g.
strings like "hello world \xfe", instead of bailing out with "Summary
Unavailable".
I took the opportunity here to delete some hand-rolled utf8 -> utf32
conversion code and replace it with calls into llvm's Support library.
rdar://61554346
The different tools constructing dotest invocations (lit and
lldb-dotest) already print the command invocation so there's no need to
print it again in the dotest output.
My motivation for removing it is that it doesn't include the Python
interpreter and every time I accidentally copy it, the command fails
with an `ImportError`.
Differential revision: https://reviews.llvm.org/D81032
Summary:
Assignment operator `operator=(long long)` currently allocates `sizeof(long)`.
On some platforms it works as they have `sizeof(long) == sizeof(long long)`,
but on others (e.g. Windows) it's not the case.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D80995
The Darwin builder is passing some of the make arguments trough the
environment instead of the command line. Update the dsym builder to do
the same as the other variants.
Don't use the environment to pass values to the builder that are present
in the dotest configuration module. A subsequent patch will pass the
remaining values through the configuration instead of the environment.
Summary:
The code changes are very straight-forward -- just handle both DW_AT_GNU
and DW_AT_call versions of all tags and attributes. There is just one
small gotcha: in the GNU version, DW_AT_low_pc was used both for the
"return pc" and the "call pc" values, depending on whether the tag was
describing a tail call, while the official scheme uses different
attributes for the two things.
Reviewers: vsk, dblaikie
Subscribers: lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D80519
This patch marks TestCreateDuringInstructionStep.py as flakey for Linux.
This is failing randomly on arm/aarch64. I will monitor buildbot and
skip it if it fails again.
This fixes an unhandled signed integer overflow in AddWithCarry() by
using the llvm::checkedAdd() function. Thats to Vedant Kumar for the
suggestion!
<rdar://problem/60926115>
Differential Revision: https://reviews.llvm.org/D80955
This reverts commit fd0ab3b3eb.
The fix here is incorrect and the actual fault was an incorrect test Makefile.
To give some more background:
The original test for D80798 compiled three source files into either one
executable or one executable + 2 shared libraries, each being one different
test setup. If both the monolithic executable and the shared libraries
where compiled in the same directory, then Make would overwrite the .o files
of one test setup with the other. This caused that while -fPIC was passed
correctly to the test setup with the shared libraries, the compiler invocations
for the monolithic executable would later overwrite these object files (and
as only the test setup with the shared library used -fPIC, it appeared as if
the shared library object files didn't receive the -fPIC flag).
Thanks to Pavel for figuring this out.
Summary:
ClangExpressionSourceCode has different ways to wrap the user expression based on
which context the expression is executed in. For example, if we're in a C++ member
function we put the expression inside a fake member function of a fake class to make the
evaluation possible. Similar things are done for Objective-C instance/static methods.
There is also a default wrapping where we put the expression in a normal function
just to make it possible to execute it.
The way we currently define which kind of wrapping the expression needs is based on
the `wrapping_language` we keep passing to the ClangExpressionSourceCode
instance. We repurposed the language type enum for that variable to distinguish the
cases above with the following mapping:
* language = C_plus_plus -> member function wrapping
* language = ObjC -> instance/static method wrapping (`is_static` distinguished between those two).
* language = C -> normal function wrapping
* all other cases like C_plus_plus11, Haskell etc. make our class a no-op that does mostly nothing.
That mapping is currently not documented and just confusing as the `language`
is unrelated to the expression language (and in the ClangUserExpression we even pretend
that it *is* the actual language, but luckily never used it for anything). Some of the code
in ClangExpressionSourceCode is also obviously thinking that this is the actual language of
the expression as it checks for non-existent cases such as `ObjC_plus_plus` which is
not part of the mapping.
This patch makes a new enum to describe the four cases above (with instance/static Objective-C
methods now being their own case). It also make that enum just a member of
ClangExpressionSourceCode instead of having to pass the same value to the class repeatedly.
This gets also rid of all the switch-case-checks for 'unknown' language such as C_plus_plus11 as this
is no longer necessary.
Reviewers: labath, JDevlieghere
Reviewed By: labath
Subscribers: abidh
Differential Revision: https://reviews.llvm.org/D80793
Summary:
It seems that when we rewrite a few rules to only build a dylib (i.e., when DYLIB_ONLY is set),
the rule for setting the CFLAGS for the dylib's object file compilation will no longer work. From what I can
see this is because in DYLIB_ONLY mode we pretend to compile the main executable so
the DYLIB_OBJECTS scope is actually never used.
This patch makes `-fPIC` unstopped if DYLIB_ONLY is set so that -fPIC actually ends up in the
CFLAGS for the dylib object file compilation.
The test for this is D80798 which only compiles on Linux with this patch.
Reviewers: friss, labath
Reviewed By: friss
Subscribers: JDevlieghere
Differential Revision: https://reviews.llvm.org/D80789
Commit 0800529fe6 adds a runtime error which triggers when using
SBAddress properties that use the current process/target from a
non-interactive session. TestThreadPlanCommands.py was doing exactly
this and this patch fixes that by use GetLoadAddress instead.
Several SBAddress properties use the lldb.target or lldb.process
convenience variables which are only set under the interactive script
interpreter. Unfortunately, users have been using these properties in
Python script and commands. This patch raises a Python exception to
force users to use GetLoadAddress instead.
Differential revision: https://reviews.llvm.org/D80848
We are leaking forked processes on macOS because the cleanup function
was checking the existence of /proc/pid which does not exist on macOS.
I've changed the code to be platform agnostic.
Don't run tests that use undefined behavior sanitizer inside an
address-sanitized LLDB. The tests don't support that
configuration. Incidentally they were skipped on green dragon for a
different reason, so this hasn't come up there before.
Don't run tests that use thread sanitizer inside an address-sanitized
LLDB. The tests don't support that configuration. Incidentally they
were skipped on green dragon for a different reason, so this hasn't
come up there before.
One can have multiple simulator runtimes installed, supporting
various generations of OSs. The logic in TestAppleSimulatorOSType
might select a rnutime older than the one targeted by the current
tools, preventing the executable from running. This commit changes
the test to look for the most recent runtime available instead.
Summary:
On Android, this method gets called twice: first when establishing
a host-server connection, then when attaching to a process id.
Each call takes several seconds to finish (especially slower on Windows)
and eliminating the call for the typical case improves latency significantly.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D79586
Summary:
This patch adds two new arguments to the MakeInlineTest function. The
main motivation is a follow-up patch I'm preparing, but they seem
generally useful.
The first argument allows the user to specify the "build dictionary".
With this argument one can avoid the need to provide a custom Makefile
if all he needs is to override a couple of make variables. This hooks in
neatly into the existing dictionary support for non-inline tests.
The second argument specifies the name of the test. This could be used
to provide better names to the generated test classes, but it's mainly
useful in conjuction with the first argument: now that we can specify a
custom build dictionary, it may sometimes make sense to run the same
test twice with different build configurations. To achieve that, we need
to give the two tests different names, and this argument achieves that.
The usage of the arguments is demonstrated via TestBasicEntryValues.py.
Reviewers: vsk, JDevlieghere
Subscribers: lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D80518
Summary:
Running `vsce package` to package lldb-vscode as an installable .vsix file errors with:
```
ERROR Invalid publisher name 'llvm.org'. Expected the identifier of a publisher, not its human-friendly name.
```
This patch fixes the publisher name and bumps a required dependency so that `vsce package` succeeds.
Reviewers: clayborg
Reviewed By: clayborg
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D80569
Jim pointed out that "every time somebody has touched the documentation
on startup files they have stated that we source the application one and
then the global one, even though in actual fact we’ve never done that."
Indeed, when we read the application specific .lldbinit file, the global
one is not read. This patch updates the man page to reflect that.
This adds a new target `check-lldb-reproducers` that replaces the old
`check-lldb-repro`. The latter would only run the shell tests, while
`check-lldb-reproducers` includes the API tests as well. The new target
will be used on GreenDragon.
It's still possible to run just the shell tests with reproducers,
although now that requires crafting the lit invocation yourself. The
parameters haven't changed and are the shame for the API and shell
tests:
--param lldb-run-with-repro=capture
--param lldb-run-with-repro=replay
This patch also updates the reproducer documentation.
This property is explicitly for use only in the interactive editor,
and NOT in commands. It's use worked until we got more careful about
not leaving lldb.target lying around in the script interpreter.
I also added a quick sniff test for the save_crashlog command.
<rdar://problem/60350620>
Differential Revision: https://reviews.llvm.org/D80680
After this patch all remaining tests should pass on macOS when replayed
from a reproducer.
To capture the reproducers:
./bin/llvm-lit ../llvm-project/lldb/test/ --param lldb-run-with-repro=capture
To replay the reproducers:
./bin/llvm-lit ../llvm-project/lldb/test/ --param lldb-run-with-repro=replay
The reproducer don't model timeouts so tests that rely on them end up
with unexpected packets during replay. Skip them until we can handle
this scenario.
Although it's not entirely clear to me why, this test was generating its
binary in the source directory instead of the build directory. This
patch fixes that following the same approach as other tests.
The purpose of the LLDB_RECORD_DUMMY macro is twofold: it is used in
functions that take arguments that we don't know how to serialize (e.g.
void*) and it's used by function where we want to avoid doing excessive
work because they can be called from a signal handler (e.g.
setTerminalWidth).
To support the latter case, I've disabled API logging form the Recorder
ctor used by the DUMMY macro. This ensures we don't allocate memory when
called from a signal handler.
Summary:
It turns out that the order in which we provide completions for expressions is
nondeterministic. This leads to confusing user experience and also breaks the
reproducer tests (as two LLDB tests can go out of sync due to the
non-determinism in the completion lists)
The reason for the non-determinism is that the CompletionConsumer informs us
about decls in the order in which it finds declarations in the lookup store of
the DeclContexts it visits (mainly this snippet in SemaLookup.cpp):
``` lang=c++
// Enumerate all of the results in this context.
for (DeclContextLookupResult R :
Load ? Ctx->lookups()
: Ctx->noload_lookups(/*PreserveInternalState=*/false)) {
[...]
```
This storage of the lookup is sorted by pointer values (see the hash of
`DeclarationName`) and can therefore be non-deterministic. The LLDB code
completion consumer that receives these calls originally expected that the order
of declarations is defined by Clang, but it seems the API expects the client to
provide an order to the completions.
This patch fixes the issue as follows:
* We sort the completions we get from Clang alphabetically and also by the
priority value we get from Clang (with priority value sorting having precedence
over the alphabetical sorting)
* We make all the functions/variables that touch a completion before the sorting
const-qualified. The idea is that this should prevent that we never have
observable side-effect from touching these declarations in a non-deterministic
order (e.g., we don't try to complete the type by accident).
This way we behave like the other parts of Clang which also sort the results by
some deterministic value (usually the name or something computed from a name,
e.g., edit distance to a given string).
We most likely also need to fix the Clang code to make the loop I listed above
deterministic to prevent these issues in the future (tracked in rdar://63442513
). This wouldn't replace the functionality provided in this patch though as we
would still need the priority and overall alphabetical sorting.
Note: I had to increase the lldb-vscode completion limit to 100 as the tests
look for strings that aren't in the first 50 results anymore due to variable
names starting with letters like 'v' (which are now always shown much further
down in the list due to the alphabetical sorting).
Fixes rdar://63200995
Reviewers: JDevlieghere, clayborg
Reviewed By: JDevlieghere
Subscribers: mgrang, abidh
Differential Revision: https://reviews.llvm.org/D80292
Summary: `CommandObject::CheckRequirements` requires cleaning up `m_exe_ctx`
between commands. Function `HandleOptionCompletion` returns without cleaning up
`m_exe_ctx` could cause assert failure in later `CheckRequirements`.
Reviewers: teemperor, JDevlieghere
Reviewed By: teemperor
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D80447
Summary:
For ObjCInterfaceDecls, LLDB iterates over the `methods` of the interface in FindExternalVisibleDeclsByName
since commit ef423a3ba5 .
However, when LLDB calls `oid->methods()` in that function, Clang will pull in all declarations in the current
DeclContext from the current ExternalASTSource (which is again, `ClangExternalASTSourceCallbacks`). The
reason for that is that `methods()` is just a wrapper for `decls()` which is supposed to provide a list of *all*
(both currently loaded and external) decls in the DeclContext.
However, `ClangExternalASTSourceCallbacks::FindExternalLexicalDecls` doesn't implement support for ObjCInterfaceDecl,
so we don't actually add any declarations and just mark the ObjCInterfaceDecl as having no ExternalLexicalStorage.
As LLDB uses the ExternalLexicalStorage to see if it can complete a type with the ExternalASTSource, this causes
that LLDB thinks our class can't be completed any further by the ExternalASTSource
and will from on no longer make any CompleteType/FindExternalLexicalDecls calls to that decl. This essentially
renders those types unusable in the expression parser as they will always be considered incomplete.
This patch just changes the call to `methods` (which is just a `decls()` wrapper), to some ad-hoc `noload_methods`
call which is wrapping `noload_decls()`. `noload_decls()` won't trigger any calls to the ExternalASTSource, so
this prevents that ExternalLexicalStorage will be set to false.
The test for this is just adding a method to an ObjC interface. Before this patch, this unset the ExternalLexicalStorage
flag and put the interface into the state described above.
In a normal user session this situation was triggered by setting a breakpoint in a method of some ObjC class. This
caused LLDB to create the MethodDecl for that specific method and put it into the the ObjCInterfaceDecl.
Also `ObjCLanguageRuntime::LookupInCompleteClassCache` needs to be unable to resolve the type do
an actual definition when the breakpoint is set (I'm not sure how exactly this can happen, but we just
found no Type instance that had the `TypePayloadClang::IsCompleteObjCClass` flag set in its payload in
the situation where this happens. This however doesn't seem to be a regression as logic wasn't changed
from what I can see).
The module-ownership.mm test had to be changed as the only reason why the ObjC interface in that test had
it's ExternalLexicalStorage flag set to false was because of this unintended side effect. What actually happens
in the test is that ExternalLexicalStorage is first set to false in `DWARFASTParserClang::CompleteTypeFromDWARF`
when we try to complete the `SomeClass` interface, but is then the flag is set back to true once we add
the last ivar of `SomeClass` (see `SetMemberOwningModule` in `TypeSystemClang.cpp` which is called
when we add the ivar). I'll fix the code for that in a follow-up patch.
I think some of the code here needs some rethinking. LLDB and Clang shouldn't infer anything about the ExternalASTSource
and its ability to complete the current type form the `ExternalLexicalStorage` flag. We probably should
also actually provide any declarations when we get asked for the lexical decls of an ObjCInterfaceDecl. But both of those
changes are bigger (and most likely would cause us to eagerly complete more types), so those will be follow up patches
and this patch just brings us back to the state before commit ef423a3ba5 .
Fixes rdar://63584164
Reviewers: aprantl, friss, shafik
Reviewed By: aprantl, shafik
Subscribers: arphaman, abidh, JDevlieghere
Differential Revision: https://reviews.llvm.org/D80556
Summary:
Objective-C names are stored in m_demangled, not in m_mangled. The
method in the condition will never return true.
Differential Revision: https://reviews.llvm.org/D79823
Summary:
A struct argument can be passed-by-value to a callee via a pointer to a
temporary stack copy. Add support for emitting an entry value DBG_VALUE
when an indirect parameter DBG_VALUE becomes unavailable. This is done
by omitting DW_OP_stack_value from the entry value expression, to make
the expression describe the location of an object.
rdar://63373691
Reviewers: djtodoro, aprantl, dstenb
Subscribers: hiraditya, lldb-commits, llvm-commits
Tags: #lldb, #llvm
Differential Revision: https://reviews.llvm.org/D80345
Don't run tests that use address sanitizer inside an address-sanitized
LLDB. The tests don't support that configuration. Incidentally they
were skipped on green dragon for a different reason, so this hasn't
come up there before.
Many tests use (commented out) print statement for debugging the test
itself. This patch adds a new trace method to lldbtest to reuse the
existing tracing infrastructure and replace these print statements.
Differential revision: https://reviews.llvm.org/D80448
The llvm DWARFExpression dump is nearly identical, but better -- for
example it does print a spurious space after zero-argument expressions.
Some parts of our code (variable locations) have been already switched
to llvm-based expression dumping. This switches the remainder: unwind
plans and some unit tests.
Summary:
This is an attempt to fix https://bugs.llvm.org/show_bug.cgi?id=45988,
where SBValue::GetNumChildren returns 2, but SBValue::GetChildAtIndex(1) returns
an invalid value sentinel.
The root cause of this seems to be that GetNumChildren can return the number of
children of a wrong value. In particular, for pointers GetNumChildren just
recursively calls itself on the pointee type, so it effectively walks chains of
pointers. This is different from the logic of GetChildAtIndex, which only
recurses if pointee.IsAggregateType() returns true (IsAggregateType is false for
pointers and references), so it never follows chain of pointers.
This patch aims to make GetNumChildren (more) consistent with GetChildAtIndex by
only recursively calling GetNumChildren for aggregate types.
Ideally, GetNumChildren and GetChildAtIndex would share the code that decides
which pointers/references are followed, but that is a bit more invasive change.
Reviewers: teemperor, jingham, clayborg
Reviewed By: teemperor, clayborg
Subscribers: clayborg, labath, shafik, lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D80254
This patchs adds an optional warning that is printed when stopped at a
frame that was compiled in a source language that LLDB has no plugin
for.
The motivational use-case is debugging Swift code on Linux. When the
user accidentally invokes the system LLDB that was built without the
Swift plugin, it is very much non-obvious why debugging doesnt
work. This warning makes it easy to figure out what went wrong.
<rdar://problem/56986569>
This reverts commit 5f88f39ab8. It broke these
three tests on the Window bot:
lldb-api :: commands/expression/completion/TestExprCompletion.py
lldb-api :: lang/cpp/scope/TestCppScope.py
lldb-api :: lang/cpp/standards/cpp11/TestCPP11Standard.py
These files haven't been touched since 2015. According to Pavel these
were intended to be test for the test framework which never really took
of and are mostly irrelevant by now.
Differential revision: https://reviews.llvm.org/D80408
200 microseconds is not enough time for any expression to execute
reliably. On linux, calling pthread_exit can result in call to dlopen,
which cannot complete in that time, particularly when running under a
debugger.
On linux, this test failed all the time, on macos, about two thirds of
runs were failing. This patch increases the timeout to 100ms, which is
enough to get it passing reliably on linux, though I wouldn't be
surprised if an even bigger timeout would be needed for remote test
runs.
Jonas Devlieghere