This patch disables TestScriptedProcess.py on Linux and Windows while I
investigate the OS specific failure:
http://lab.llvm.org:8011/#/builders/68/builds/19793
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch adds support for memory regions in Scripted Processes.
This is necessary to read the stack memory region in order to
reconstruct each stackframe of the program.
In order to do so, this patch makes some changes to the SBAPI, namely:
- Add a new constructor for `SBMemoryRegionInfo` that takes arguments
such as the memory region name, address range, permissions ...
This is used when reading memory at some address to compute the offset
in the binary blob provided by the user.
- Add a `GetMemoryRegionContainingAddress` method to `SBMemoryRegionInfoList`
to simplify the access to a specific memory region.
With these changes, lldb is now able to unwind the stack and reconstruct
each frame. On top of that, reloading the target module at offset 0 allows
lldb to symbolicate the `ScriptedProcess` using debug info, similarly to an
ordinary Process.
To test this, I wrote a simple program with multiple function calls, ran it in
lldb, stopped at a leaf function and read the registers values and copied
the stack memory into a binary file. These are then used in the python script.
Differential Revision: https://reviews.llvm.org/D108953
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch introduces the `ScriptedThread` class with its python
interface.
When used with `ScriptedProcess`, `ScriptedThreaad` can provide various
information such as the thread state, stop reason or even its register
context.
This can be used to reconstruct the program stack frames using lldb's unwinder.
rdar://74503836
Differential Revision: https://reviews.llvm.org/D107585
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
JSON crashlogs have an optional field named reportNotes that contains
any potential errors encountered by the crash reporter when generating
the crashlog. Parse and display them in LLDB.
Differential revision: https://reviews.llvm.org/D111339
Gracefully deal with JSON crashlogs that don't have thread state
available and print an error saying as much: "No thread state (register
information) available".
rdar://83955858
Differential revision: https://reviews.llvm.org/D111341
This has started failing since we moved our bots to Focal.
For unknown reasons the abort_caller stack is missing when
we check from the handler breakpoint.
Mark unsupported while I investigate.
Just regrouping the checks for the same typedef together and also giving the
different typedefs unique names. We might want to have a second test with
identical names to see how LLDB handle the potential name conflict, but that
should be a separate test and not part of the main typedef test.
Also this test is actually unintentionally passing. LLDB can't lookup typedefs
in a struct/class scope, but in the test the check passes as the local variable
in the expression evaluation scope pulls in the typedef. I added a second check
that makes it clear that this is not working right now.
This reverts c7f16ab3e3 / r109694 - which
suggested this was done to improve consistency with the gdb test suite.
Possible that at the time GCC did not canonicalize integer types, and so
matching types was important for cross-compiler validity, or that it was
only a case of over-constrained test cases that printed out/tested the
exact names of integer types.
In any case neither issue seems to exist today based on my limited
testing - both gdb and lldb canonicalize integer types (in a way that
happens to match Clang's preferred naming, incidentally) and so never
print the original text name produced in the DWARF by GCC or Clang.
This canonicalization appears to be in `integer_types_same_name_p` for
GDB and in `TypeSystemClang::GetBasicTypeEnumeration` for lldb.
(I tested this with one translation unit defining 3 variables - `long`,
`long (*)()`, and `int (*)()`, and another translation unit that had
main, and a function that took `long (*)()` as a parameter - then
compiled them with mismatched compilers (either GCC+Clang, or
Clang+(Clang with this patch applied)) and no matter the combination,
despite the debug info for one CU naming the type "long int" and the
other naming it "long", both debuggers printed out the name as "long"
and were able to correctly perform overload resolution and pass the
`long int (*)()` variable to the `long (*)()` function parameter)
Did find one hiccup, identified by the lldb test suite - that CodeView
was relying on these names to map them to builtin types in that format.
So added some handling for that in LLVM. (these could be split out into
separate patches, but seems small enough to not warrant it - will do
that if there ends up needing any reverti/revisiting)
Differential Revision: https://reviews.llvm.org/D110455
PT_COREDUMP is a relatively recent addition. Use an #ifdef to skip it
if the underlying system does not support it.
Differential Revision: https://reviews.llvm.org/D111214
This patch allows LLDB to accept register sizes which are not aligned
to 8 bits bitsize boundary. This fixes a crash in LLDB when connecting
to OpenOCD stub. GDB xml description allows for non-aligned bit lengths
but they are rounded off to nearest byte during transfer. In case of
OpenOCD some of SOC specific system registers were less than a single
byte in length and were causing LLDB to crash.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D111131
JSON crashlogs normally start with a single line of meta data that we
strip unconditionally. Some producers started omitting the meta data
which tripped up crashlog. Be more resilient by only removing the first
line when we know it really is meta data.
rdar://82641662
The `fallback` setting for import-std-module is supposed to allow running
expression that require an imported C++ module without causing any regressions
for users (neither in terms of functionality nor performance). This is done by
first trying to normally parse/evaluate an expression and when an error occurred
during this first attempt, we retry with the loaded 'std' module.
When we run into a system with a 'std' module that for some reason doesn't build
or otherwise causes parse errors, then this currently means that the second
parse attempt will overwrite the error diagnostics of the first parse attempt.
Given that the module build errors are outside of the scope of what the user can
influence, it makes more sense to show the errors from the first parse attempt
that are only concerned with the actual user input.
Reviewed By: aprantl
Differential Revision: https://reviews.llvm.org/D110696
Fix the termination of "process connect" (and "gdb-remote") to kill
the process rather than attempting to disconnect the platform.
The latter only results in an error since we did not use "platform
connect", and apparently process-level connections (at least via
gdb-remote) do not really support disconnecting.
Differential Revision: https://reviews.llvm.org/D110996
The issue here was that we were not updating the interpreter's
execution context when calling HandleCommand to continue the process.
Since we had just created the process, it wasn't in the interpreter's
execution context so HandleCommand failed at CheckRequirements. The
patch fixes that by passing the process execution context directly
to HandleCommand.
Differential Revision: https://reviews.llvm.org/D110787
Some downstream forks of LLDB change parts of the test setup in a way that
causes lldb to somehow resolve `std::abs` (probably to `::abs`). This patch
changes the tested function here to be `std::minmax` which (hopefully) doesn't
have any identically named functions that LLDB could find and call. Just to be
extra safe this also explicitly specified the template arguments so that in
case there is a `minmax` non-template function we still don't end up calling it
from this test.
The two module retrieval methods (qXfer:libraries-svr4 and manual list
traversal) differ in how the handle the
manually-added-but-not-yet-loaded modules. The svr4 path will remove it,
while the manual one will keep in the list.
It's likely the two paths need ought to be synchronized, but right now,
this distinction is not relevant for the test.
We only had that ability for regular debugger launches. This meant that
it was not possible to use the normal dlopen patterns in attach tests.
This fixes that.
When rebase_exec=true in DidAttach(), all modules are loaded
before the rendezvous breakpoint is set, which means the
LoadInterpreterModule() method is not called and m_interpreter_module
is not initialized.
This causes the very first rendezvous breakpoint hit with
m_initial_modules_added=false to accidentally unload the
module_sp that corresponds to the dynamic loader.
This bug (introduced in D92187) was causing the rendezvous
mechanism to not work in Android 28. The mechanism works
fine on older/newer versions of Android.
Test: Verified rendezvous on Android 28 and 29
Test: Added dlopen test
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D109797
When using the system debugserver for testing, copy the binary in the
LLDB.framework Resource directory instead of the build's bin directory.
rdar://82998263
If the remote gdbserver's qfThreadInfo reply has a trailing comma,
GDBRemoteCommunicationClient::GetCurrentProcessAndThreadIDs will return
an empty vector of thread ids. This will cause lldb to recurse through
three functions trying to get the list of threads, until it blows its
stack and crashes.
A trailing comma is a malformed response, but it shouldn't cause lldb to
crash. This patch will return the tids received before the malformed
response.
Reviewed By: clayborg, labath
Differential Revision: https://reviews.llvm.org/D109937
If we applied a fix-it before evaluating an expression and that
expression didn't evaluate correctly, we should still tell users about
the fix-it we applied since that may be the reason why it didn't work
correctly.
Differential Revision: https://reviews.llvm.org/D109908
LLDB has a bunch of code that implements REPL support, but all that code is
unreachable as no language in master currently has an implemented REPL backend.
The only REPL that exists is in the downstream Swift fork. All patches for this
generic REPL code therefore also only have tests downstream which is clearly not
a good situation.
This patch implements a basic C language REPL on top of LLDB's REPL framework.
Beside implementing the REPL interface and hooking it up into the plugin
manager, the only other small part of this patch is making the `--language` flag
of the expression command compatible with the `--repl` flag. The `--repl` flag
uses the value of `--language` to see which REPL should be started, but right
now the `--language` flag is only available in OptionGroups 1 and 2, but not in
OptionGroup 3 where the `--repl` flag is declared.
The REPL currently can currently only start if a running target exists. I'll add
the 'create and run a dummy executable' logic from Swift (which is requires when
doing `lldb --repl`) when I have time to translate all this logic to something
that will work with Clang.
I should point out that the REPL currently uses the C expression parser's
approach to persistent variables where only result variables and the ones
starting with a '$' are transferred between expressions. I'll fix that in a
follow up patch. Also the REPL currently doesn't work in a non-interactive
terminal. This seems to be fixed in the Swift fork, so I assume one of our many
REPL downstream changes addresses the issue.
Reviewed By: JDevlieghere
Differential Revision: https://reviews.llvm.org/D87281
At first, lli only supported lazy mode for ORC. Greedy mode was added with e1579894d2 and is the default settings now. JITLoaderGDB tests don't rely on laziness, so we can switch them to greedy and remove some complexity.
Currently you can ask the target symbols add command to locate the debug
symbols for the current frame. This patch add an options to do that for
the whole call stack.
Differential revision: https://reviews.llvm.org/D110011
This test relies on being able to unwind from an arbitrary place inside
libc. While I am not sure this is the cause of the observed flakyness,
it is known that we are not able to unwind correctly from some places in
(linux) libc.
This patch adds additional synchronization to ensure that the inferior
is in the main function (instead of pthread guts) when lldb tries to
unwind it. At the very least, it should make the test runs more
predictable/repeatable.
Always send PID in the detach packet when multiprocess extensions are
enabled. This is required by qemu's GDB server, as plain 'D' packet
results in an error and the emulated system is not resumed.
Differential Revision: https://reviews.llvm.org/D110033
A MachO userspace corefile may contain LC_THREAD commands which specify
thread exception state.
For arm64* only (for now), report a human-readable version of this state
as the thread stop reason, instead of 'SIGSTOP'.
As a follow-up, similar functionality can be implemented for x86 cores
by translating the trapno/err exception registers.
rdar://82898146
Differential Revision: https://reviews.llvm.org/D109795
This reverts commit 47dd1f6428.
After discussing with Jim Ingham, we agreed to leave the test as-is
so we can catch any CI problems instead of silently skipping the test.
A MachO userspace corefile may contain LC_THREAD commands which specify
thread exception state.
For arm64* only (for now), report a human-readable version of this state
as the thread stop reason, instead of 'SIGSTOP'.
As a follow-up, similar functionality can be implemented for x86 cores
by translating the trapno/err exception registers.
rdar://82898146
Differential Revision: https://reviews.llvm.org/D109795
xcodebuild, which is invoked by the apple_simulator_test decorator, may
may return a successful status even if it was unable to run due to the
authorization agent denying it. This causes the TestAppleSimulatorOSType
to run when it shouldn't, and throw an excpection when parsing the JSON
that lists the simulators available. Wrap the json parsing in a
try/except block and if it fails, skip the ttest.
Differential Revision: https://reviews.llvm.org/D109336
lit.util.which('link') picks up the wrong link.exe in git bash, leading
to this error:
# command stderr:
/usr/bin/link: extra operand '/LIBPATH:C:\\Progra....'
Try '/usr/bin/link --help' for more information.
Instead, assume that link.exe is next to cl.exe.
Differential Revision: https://reviews.llvm.org/D109832
Alias the "sp" register to "x31" on AArch64 if one is present and does
not have the alt_name. This is the case when connecting to gdbserver.
Differential Revision: https://reviews.llvm.org/D109695
Recognize lr/sp/fp by their numeric register names in the ABI plugin.
This is necessary to mark them appropriately when interfacing with
gdbserver.
Differential Revision: https://reviews.llvm.org/D109691
Try determining the process architecture from <architecture/> tag
unconditionally, rather than for very specific cases. Generic gdbserver
implementations do not support LLDB-specific packets used to determine
the process architecture, therefore this fallback is necessary to
support architecture-specific behavior on these targets. Rather than
maintaining a mapping of all known architectures, just try mapping
the GDB values into triplets, as that is going to work most of the time.
This change is confirmed to fix LLDB against gdbserver when debugging
i386 and aarch64 executables.
Differential Revision: https://reviews.llvm.org/D109272
The thread that Visual Studio Code displays on a stop is called the focus thread. When the previous focus thread exits and we stop in a new thread, lldb-vscode does not tell vscode to set the new thread as the focus thread, so it selects the first thread in the thread list.
This patch changes lldb-vscode to tell vscode that the new thread is the focus thread. It also includes a test that verifies the DAP stop message for this case contains the correct values.
Reviewed By: clayborg, wallace
Differential Revision: https://reviews.llvm.org/D109633
Remove the parent output checks, as they make the test flaky while
serving no real purpose. If the parent crashed/hanged, it will never
resume the child and the test would fail anyway.
Med Ismail Bennani