Provider a wrapper around llvm::sys::path::home_directory in the
FileSystem class. This will make it possible for the reproducers to
intercept the call in a central place.
This patch adds the infrastructure to have language specific REPL init
files. It's the foundation work to a following patch that will introduce
Swift REPL init file.
When lldb is launched with the `--repl` option, it will look for a REPL
init file in the home directory and source it. This overrides the
default `~/.lldbinit`, which content might make the REPL behave
unexpectedly. If the REPL init file doesn't exists, lldb will fall back
to the default init file.
rdar://65836048
Differential Revision: https://reviews.llvm.org/D86242
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch is a big sed to rename the following variables:
s/PYTHON_LIBRARIES/Python3_LIBRARIES/g
s/PYTHON_INCLUDE_DIRS/Python3_INCLUDE_DIRS/g
s/PYTHON_EXECUTABLE/Python3_EXECUTABLE/g
s/PYTHON_RPATH/Python3_RPATH/g
I've also renamed the CMake module to better express its purpose and for
consistency with FindLuaAndSwig.
Differential revision: https://reviews.llvm.org/D85976
In D83876 the consensus seems that LLDB should never deleted orphaned modules
implicitly. However, SBDebugger::DeleteTarget is currently doing exactly that.
This code was added in 753406221b55b95141c8c1239660dc4db4e35ea5 but I don't see
any explanation in the commit, so I think we should delete it.
Reviewed By: clayborg
Differential Revision: https://reviews.llvm.org/D83933
Right now the only places in the SB API where lldb:: ModuleSP instances are
destroyed are in SBDebugger::MemoryPressureDetected (where it's just attempted
but not guaranteed) and in SBDebugger::DeleteTarget (which will be removed in
D83933). Tests that directly create an lldb::ModuleSP and never create a target
therefore currently leak lldb::Module instances. This triggers the sanity checks
in lldbtest that make sure that the global module list is empty after a test.
This patch adds SBModule::GarbageCollectAllocatedModules as an explicit way to
clean orphaned lldb::ModuleSP instances. Also we now start calling this method
at the end of each test run and move the sanity check behind that call to make
this work. This way even tests that don't create targets can pass the sanity
check.
This fixes TestUnicodeSymbols.py when D83865 is applied (which makes that the
sanity checks actually fail the test).
Reviewed By: JDevlieghere
Differential Revision: https://reviews.llvm.org/D83876
Separate the CMake logic for Lua and Python to clearly distinguish
between code specific to either scripting language and the code shared
by both.
What this patch does is:
- Move Python specific code into the bindings/python subdirectory.
- Move the Lua specific code into the bindings/lua subdirectory.
- Add the _python suffix to Python specific functions/targets.
- Fix a dependency issue that would check the binding instead of
whether the scripting language is enabled.
Note that this patch also changes where the bindings are generated,
which might affect downstream projects that check them in.
Differential revision: https://reviews.llvm.org/D85708
Currently SBTarget::LaunchSimple creates a new LaunchInfo which means it
ignores any target properties that have been set. Instead, it should
start from the target's LaunchInfo and populated the specified fields.
Differential revision: https://reviews.llvm.org/D85235
This cleanup patch unifies all methods called GetByteSize() in the
ValueObject hierarchy to return an optional, like the methods in
CompilerType do. This means fewer magic 0 values, which could fix bugs
down the road in languages where types can have a size of zero, such
as Swift and C (but not C++).
Differential Revision: https://reviews.llvm.org/D84285
This re-lands the patch with bogus :m_byte_size(0) initalizations removed.
This cleanup patch unifies all methods called GetByteSize() in the
ValueObject hierarchy to return an optional, like the methods in
CompilerType do. This means fewer magic 0 values, which could fix bugs
down the road in languages where types can have a size of zero, such
as Swift and C (but not C++).
Differential Revision: https://reviews.llvm.org/D84285
The patch was reverted 27d52cd86a2c because of failures in
TestWeakSymbols.py. These have now been addressed in D83552.
The original commit message was:
This function was documented to overwrite entries with D76111, which was
adding a couple of similar functions. However, this function (unlike the
functions added in that patch) was/is not actually overwriting variables
-- any pre-existing variables would get ignored.
This behavior does not seem to be intentional. In fact, before the refactor in
D41359, this function could introduce duplicate entries, which could
have very surprising effects both inside lldb and on other applications
(some applications would take the first value, some the second one; in
lldb, attempting to unset a variable could make the second variable
become active, etc.).
Overwriting seems to be the most reasonable behavior here, so change the
code to match documentation.
Differential Revision: https://reviews.llvm.org/D83306
This patch has no effect for C and C++. In more dynamic languages,
such as Objective-C and Swift GetByteSize() needs to call into the
language runtime, so it's important to pass one in where possible. My
primary motivation for this is some work I'm doing on the Swift
branch, however, it looks like we are also seeing warnings in
Objective-C that this may resolve. Everything in the SymbolFile
hierarchy still passes in nullptrs, because we don't have an execution
context in SymbolFile, since SymbolFile transcends processes.
Differential Revision: https://reviews.llvm.org/D84267
Use a weak pointer to hold on to the the underlying thread plan in
SBThreadPlan. When the process continues, all the popped ThreadPlans get
discarded, and you can’t reuse them, so you have to create them anew.
Therefore the SBThreadPlan doesn’t need to keep the ThreadPlan alive.
This fixes the cleanup error in TestThreadPlanCommands.py and
TestStepScripted.py caused by the thread plans never being deleted.
Differential revision: https://reviews.llvm.org/D84210
This patch does several things that are all closely related:
- It introduces a new YamlRecorder as a counterpart to the existing
DataRecorder. As the name suggests the former serializes data as yaml
while the latter uses raw texts or bytes.
- It introduces a new MultiProvider base class which can be backed by
either a DataRecorder or a YamlRecorder.
- It reimplements the CommandProvider in terms of the new
MultiProvider.
Finally, it adds unit testing coverage for the MultiProvider, a naive
YamlProvider built on top of the new YamlRecorder and the existing
MutliLoader.
Differential revision: https://reviews.llvm.org/D83441
Summary:
This function was documented to overwrite entries with D76111, which was
adding a couple of similar functions. However, this function (unlike the
functions added in that patch) was/is not actually overwriting variables
-- any pre-existing variables would get ignored.
This behavior does not seem to be intentional. In fact, before the refactor in
D41359, this function could introduce duplicate entries, which could
have very surprising effects both inside lldb and on other applications
(some applications would take the first value, some the second one; in
lldb, attempting to unset a variable could make the second variable
become active, etc.).
Overwriting seems to be the most reasonable behavior here, so change the
code to match documentation.
Reviewers: clayborg, wallace, jingham
Subscribers: lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D83306
This patch fixes a crash that is happening because of a null pointer
dereference in SBFrame.
StackFrame::GetRegisterContext says explicitly that you might not get
a valid RegisterContext back but the pointer wasn't tested before,
resulting in crashes. This should solve the issue.
rdar://54462095
Differential Revision: https://reviews.llvm.org/D83343
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch improves the error reporting for SBBreakpoint::AddName by
adding a new method `SBBreakpoint::AddNameWithErrorHandling` that returns
a SBError instead of a boolean.
This way, if the breakpoint naming failed in the backend, the client
(i.e. Xcode), will be able to report the reason of that failure to the
user.
rdar://64765461
Differential Revision: https://reviews.llvm.org/D82879
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch improves the error reporting for SBBreakpoint::AddName by
adding a new method `SBBreakpoint::AddNameWithErrorHandling` that returns
a SBError instead of a boolean.
This way, if the breakpoint naming failed in the backend, the client
(i.e. Xcode), will be able to report the reason of that failure to the
user.
rdar://64765461
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
I was holding off on this change until we moved to C++14 as to not have
to convert llvm::make_unique to std::make_unique. That happened a while
ago so here's the first patch for the API which had a bunch of raw
`new`s.
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
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
This class should've been instrumented when it landed. Whether the class
is "highly mutable" or not doesn't affect that.
With this patch TestSBEnvironment.py now passes when replayed.
This makes it possible to instrument the call for the reproducers. This
fixes TestStructuredDataAPI.py with reproducer replay.
Differential revision: https://reviews.llvm.org/D80312
The reproducers' working directory is set to the current working
directory when they are initialized. While this is not optimal, as the
cwd can change during a debug session, it has been sufficient so far.
The current approach doesn't work for the API test suite however because
dotest temporarily changes the directory to where the test's Python file
lives.
This patch adds an API to tell the reproducers what to set the CWD to.
This is a NO-OP in every mode but capture.
Differential revision: https://reviews.llvm.org/D79825
Summary:
`CalculateSyntheticValue` and `GetSyntheticValue` have a `use_synthetic` parameter
that makes the function do nothing when it's false. We obviously always pass true
to the function (or check that the value we pass is true), because there really isn't
any point calling with function with a `false`. This just removes all of this.
Reviewers: labath, JDevlieghere, davide
Reviewed By: davide
Subscribers: davide
Differential Revision: https://reviews.llvm.org/D79568
This adds an RunCommandInterpreter overload that returns an instance of
SBCommandInterpreterRunResults. The goal is to avoid having to add more
and more overloads when we need more output arguments.
Differential revision: https://reviews.llvm.org/D79120
This patch adds a new class CommandInterpreterRunResult which will be
backing the SBCommandInterpreterRunResult. It keeps track of the number
of errors as well as the result which is an enum, as proposed by Pavel
in D79120. The command interpreter now populates the results directly,
instead of its own member variables.
Differential revision: https://reviews.llvm.org/D79209
Currently, `SBCommandInterpreterRunOptions` is defined in
`SBCommandInterpreter.h`. Given that the options are always passed by
reference, a forward declaration is sufficient.
That's not the case for `SBCommandInterpreterRunResults`, which we need
for a new overload for `RunCommandInterpreter` and that returns this new
class by value. We can't include `SBCommandInterpreter.h` because
`SBCommandInterpreter::GetDebugger()` returns SBDebugger by value and
therefore needs a full definition.
This patch moves the definition of `SBCommandInterpreterRunOptions` into
a new header. In a later patch, `SBCommandInterpreterRunResults` will
be defined in there as well, solving the aforementioned problem.
Differential revision: https://reviews.llvm.org/D79115
This implements Greg's suggestion from D78825 to include "auto handle
events" and "spawn thread" in CommandInterpreterRunOptions. This change
is in preparation for adding a new overload for RunCommandInterpreter
that takes only SBCommandInterpreterRunOptions and returns
SBCommandInterpreterRunResults.
Differential revision: https://reviews.llvm.org/D79108
It seems like only the unittests are building with
BUILD_WITH_INSTALL_RPATH set to OFF. Of course when I did my last change
I only ran check-lldb-unit. Not sure why this difference exists, why
would you even install the unittest?
For the LLDB framework we do need different build and install RPATHs.
Currently that logic lives downstream. I plan to upstream that in the
near future. For now I'm just trying to make it possible to run the
test.
The install name for the Python 3 framework in Xcode is relative to
the framework's location and not the dylib itself.
@rpath/Python3.framework/Versions/3.x/Python3
This means that we need to compute the path to the Python3.framework
and use that as the RPATH instead of the usual dylib's directory.
Several SB API functions return strings using (char*, size_t) output
arguments. During capture, we serialize an empty string for the char*
because the memory can be uninitialized.
During active replay, we have custom replay redirects that ensure that
we don't override the buffer from which we're reading, but rather write
to a buffer on the heap with the given length. This is sufficient for
the active reproducer use case, where we only care about the side
effects of the API calls, not the values actually returned.
This approach does not not work for passive replay because here we
ignore all the incoming arguments, and re-execute the current function
with the arguments deserialized from the reproducer. This means that
these function will update the deserialized copy of the arguments,
rather than whatever was passed in by the SWIG wrapper.
To solve this problem, this patch extends the reproducer instrumentation
to handle this special case for passive replay. We nog ignore the
replayer in the registry and the incoming char pointer, and instead
reinvoke the current method on the deserialized class, and populate the
output argument.
Differential revision: https://reviews.llvm.org/D77759
Support passive replay as proposed in the RFC [1] on lldb-dev and
described in more detail on the lldb website [2].
This patch extends the LLDB_RECORD macros to re-invoke the current
function with arguments deserialized from the reproducer. This relies on
the function being called in the exact same order as during replay. It
uses the same mechanism to toggle the API boundary as during recording,
which guarantees that only boundary crossing calls are replayed.
Another major change is that before this patch we could ignore the
result of an API call, because we only cared about the observable
behavior. Now we need to be able to return the replayed result to the
SWIG bindings.
We reuse a lot of the recording infrastructure, which can be a little
confusing. We kept the existing naming to limit the amount of churn, but
might revisit that in a future patch.
[1] http://lists.llvm.org/pipermail/lldb-dev/2020-April/016100.html
[2] https://lldb.llvm.org/resources/reproducers.html
Differential revision: https://reviews.llvm.org/D77602
Summary:
LLDB memory-maps large source files, and at the same time, caches
all source files in the Source Cache.
On Windows, memory-mapped source files are not writeable, causing
bad user experience in IDEs (such as errors when saving edited files).
IDEs should have the ability to disable the Source Cache at LLDB
startup, so that users can edit source files while debugging.
Bug: llvm.org/PR45310
Reviewers: labath, JDevlieghere, jingham
Reviewed By: labath
Subscribers: lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D76804
Make it possible to capture reproducers from the API test suite. Given
the symmetry between capture and replay, this patch also adds the
necessary code for replay. For now this is a NO-OP until the
corresponding reproducer instrumentation changes land.
For more info please refer to the RFC on lldb-dev:
http://lists.llvm.org/pipermail/lldb-dev/2020-April/016100.html
Differential revision: https://reviews.llvm.org/D77588
