HostProcessWindows::Terminate() correctly uses m_process which type is
process_t (HANDLE) to call ::TerminateProcess(). But Host::Kill() uses a
cast from pid, which is wrong.
This patch fixes#51793
This reverts commit 05f0e86cc8.
The debuginfo dexter tests are failing, probably because the way
stepping over breakpoints has changed with my patches. And there
are two API tests fails on the ubuntu-arm (32-bit) bot. I'll need
to investigate both of these, neither has an obvious failure reason.
lldb today has two rules: When a thread stops at a BreakpointSite, we
set the thread's StopReason to be "breakpoint hit" (regardless if we've
actually hit the breakpoint, or if we've merely stopped *at* the
breakpoint instruction/point and haven't tripped it yet). And second,
when resuming a process, any thread sitting at a BreakpointSite is
silently stepped over the BreakpointSite -- because we've already
flagged the breakpoint hit when we stopped there originally.
In this patch, I change lldb to only set a thread's stop reason to
breakpoint-hit when we've actually executed the instruction/triggered
the breakpoint. When we resume, we only silently step past a
BreakpointSite that we've registered as hit. We preserve this state
across inferior function calls that the user may do while stopped, etc.
Also, when a user adds a new breakpoint at $pc while stopped, or changes
$pc to be the address of a BreakpointSite, we will silently step past
that breakpoint when the process resumes. This is purely a UX call, I
don't think there's any person who wants to set a breakpoint at $pc and
then hit it immediately on resuming.
One non-intuitive UX from this change, but I'm convinced it is
necessary: If you're stopped at a BreakpointSite that has not yet
executed, you `stepi`, you will hit the breakpoint and the pc will not
yet advance. This thread has not completed its stepi, and the thread
plan is still on the stack. If you then `continue` the thread, lldb will
now stop and say, "instruction step completed", one instruction past the
BreakpointSite. You can continue a second time to resume execution. I
discussed this with Jim, and trying to paper over this behavior will
lead to more complicated scenarios behaving non-intuitively. And mostly
it's the testsuite that was trying to instruction step past a breakpoint
and getting thrown off -- and I changed those tests to expect the new
behavior.
The bugs driving this change are all from lldb dropping the real stop
reason for a thread and setting it to breakpoint-hit when that was not
the case. Jim hit one where we have an aarch64 watchpoint that triggers
one instruction before a BreakpointSite. On this arch we are notified of
the watchpoint hit after the instruction has been unrolled -- we disable
the watchpoint, instruction step, re-enable the watchpoint and collect
the new value. But now we're on a BreakpointSite so the watchpoint-hit
stop reason is lost.
Another was reported by ZequanWu in
https://discourse.llvm.org/t/lldb-unable-to-break-at-start/78282 we
attach to/launch a process with the pc at a BreakpointSite and
misbehave. Caroline Tice mentioned it is also a problem they've had with
putting a breakpoint on _dl_debug_state.
The change to each Process plugin that does execution control is that
1. If we've stopped at a BreakpointSite that has not been executed yet,
we will call Thread::SetThreadStoppedAtUnexecutedBP(pc) to record
that. When the thread resumes, if the pc is still at the same site, we
will continue, hit the breakpoint, and stop again.
2. When we've actually hit a breakpoint (enabled for this thread or not),
the Process plugin should call Thread::SetThreadHitBreakpointSite().
When we go to resume the thread, we will push a step-over-breakpoint
ThreadPlan before resuming.
The biggest set of changes is to StopInfoMachException where we
translate a Mach Exception into a stop reason. The Mach exception codes
differ in a few places depending on the target (unambiguously), and I
didn't want to duplicate the new code for each target so I've tested
what mach exceptions we get for each action on each target, and
reorganized StopInfoMachException::CreateStopReasonWithMachException to
document these possible values, and handle them without specializing
based on the target arch.
rdar://123942164
In #98403 some of the tests were transitioned to the new
`SBProcess::SaveCore(SBSaveCoreOptions)` API, but were not detected in
testing. This patch addresses that.
This PR adds `SBSaveCoreOptions`, which is a container class for options
when LLDB is taking coredumps. For this first iteration this container
just keeps parity with the extant API of `file, style, plugin`. In the
future this options object can be extended to allow users to take a
subset of their core dumps.
Currently, if we execute 'process load' with remote debugging, it uses
the host's path delimiter to look up files on a target machine. If we
run remote debugging of Linux target on Windows and execute "process
load C:\foo\a.so", lldb-server tries to load \foo\a.so instead of
/foo/a.so on the remote.
It affects several API tests.
This commit fixes that error. Also, it contains minor fixes for
TestLoadUnload.py for testing on Windows host and Linux target.
This is motivated by the upcoming refactor of libc++'s
`__compressed_pair` in https://github.com/llvm/llvm-project/pull/76756
As this will require changes to numerous LLDB libc++ data-formatters
(see early draft https://github.com/llvm/llvm-project/pull/96538), it
would be nice to have a test-suite that will actually exercise both the
old and new layout. We have a matrix bot that tests old versions of
Clang (but currently those only date back to Clang-15). Having them in
the test-suite will give us quicker signal on what broke.
We have an existing test that exercises various layouts of `std::string`
over time in `TestDataFormatterLibcxxStringSimulator.py`, but that's the
only STL type we have it for. This patch proposes a new
`libcxx-simulators` directory which will take the same approach for all
the STL types that we can feasibly support in this way (as @labath
points out, for some types this might just not be possible due to their
implementation complexity). Nonetheless, it'd be great to have a record
of how the layout of libc++ types changed over time.
Some related discussion:
*
https://github.com/llvm/llvm-project/pull/97568#issuecomment-2213426804
This improves the handling of `$` (dollar) characters in summary strings in the
following ways:
1. When a `$` is not followed by an open paren (`{`), it should be treated as a literal
character and preserved in the output. Previously, the dollar would be consumed by the
parser and not shown in the output.
2. When a `$` is the last character of a format string, this change eliminates the
infinite loop lldb would enter into.
rdar://131392446
Depends on https://github.com/llvm/llvm-project/pull/97687
Similar to https://github.com/llvm/llvm-project/pull/97579, this patch
simplifies the way in which we retrieve the key/value pair of a
`std::map` (in this case of the `std::map::iterator`).
We do this for the same reason: not only was the old logic hard to
follow, and encoded the libc++ layout in non-obvious ways, it was also
fragile to alignment miscalculations
(https://github.com/llvm/llvm-project/pull/97443); this would break once
the new layout of std::map landed as part of
https://github.com/llvm/llvm-project/issues/93069.
Instead, this patch simply casts the `__iter_pointer` to the
`__node_pointer` and uses a straightforward
`GetChildMemberWithName("__value_")` to get to the key/value we care
about.
We can eventually re-use the core-part of the `std::map` and
`std::map::iterator` formatters. But it will be an easier to change to
review once both simplifications landed.
Depends on https://github.com/llvm/llvm-project/pull/97752
This patch changes the way we retrieve the key/value pair in the
`std::unordered_map::iterator` formatter (similar to how we are changing
it for `std::map::iterator` in
https://github.com/llvm/llvm-project/pull/97713, the motivations being
the same).
The old logic was not very easy to follow, and encoded the libc++ layout
in non-obvious ways. But mainly it was also fragile to alignment
miscalculations (https://github.com/llvm/llvm-project/pull/97443); this
would break once the new layout of `std::unordered_map` landed as part
of https://github.com/llvm/llvm-project/issues/93069.
Instead, this patch simply casts the `__hash_iterator` to a
`__node_pointer` (which is what libc++ does too) and uses a
straightforward `GetChildMemberWithName("__value_")` to get to the
key/value we care about.
The `std::unordered_map` already does it this way, so we align the
iterator counterpart to do the same. We can eventually re-use the
core-part of the `std::unordered_map` and `std::unordered_map::iterator`
formatters. But it will be an easier to change to review once both
simplifications landed.
This test is currently flaky on a local Windows amd64 build. The reason
is that it relies on the order of `process.threads` but this order is
nondeterministic:
If we print lldb's inputs and outputs while running, we can see that the
breakpoints are always being set correctly, and always being hit:
```sh
runCmd: breakpoint set -f "main.c" -l 2
output: Breakpoint 1: where = a.out`func_inner + 1 at main.c:2:9, address = 0x0000000140001001
runCmd: breakpoint set -f "main.c" -l 7
output: Breakpoint 2: where = a.out`main + 17 at main.c:7:5, address = 0x0000000140001021
runCmd: run
output: Process 52328 launched: 'C:\workspace\llvm-project\llvm\build\lldb-test-build.noindex\functionalities\unwind\zeroth_frame\TestZerothFrame.test_dwarf\a.out' (x86_64)
Process 52328 stopped
* thread #1, stop reason = breakpoint 1.1
frame #0: 0x00007ff68f6b1001 a.out`func_inner at main.c:2:9
1 void func_inner() {
-> 2 int a = 1; // Set breakpoint 1 here
^
3 }
4
5 int main() {
6 func_inner();
7 return 0; // Set breakpoint 2 here
```
However, sometimes the backtrace printed in this test shows that the
process is stopped inside NtWaitForWorkViaWorkerFactory from
`ntdll.dll`:
```sh
Backtrace at the first breakpoint:
frame #0: 0x00007ffecc7b3bf4 ntdll.dll`NtWaitForWorkViaWorkerFactory + 20
frame #1: 0x00007ffecc74585e ntdll.dll`RtlClearThreadWorkOnBehalfTicket + 862
frame #2: 0x00007ffecc3e257d kernel32.dll`BaseThreadInitThunk + 29
frame #3: 0x00007ffecc76af28 ntdll.dll`RtlUserThreadStart + 40
```
When this happens, the test fails with an assertion error that the
stopped thread's zeroth frame's current line number does not match the
expected line number. This is because the test is looking at the wrong
thread: `process.threads[0]`.
If we print the list of threads each time the test is run, we notice
that threads are sometimes in a different order, within
`process.threads`:
```sh
Thread 0: thread #4: tid = 0x9c38, 0x00007ffecc7b3bf4 ntdll.dll`NtWaitForWorkViaWorkerFactory + 20
Thread 1: thread #2: tid = 0xa950, 0x00007ffecc7b3bf4 ntdll.dll`NtWaitForWorkViaWorkerFactory + 20
Thread 2: thread #1: tid = 0xab18, 0x00007ff64bc81001 a.out`func_inner at main.c:2:9, stop reason = breakpoint 1.1
Thread 3: thread #3: tid = 0xc514, 0x00007ffecc7b3bf4 ntdll.dll`NtWaitForWorkViaWorkerFactory + 20
Thread 0: thread #3: tid = 0x018c, 0x00007ffecc7b3bf4 ntdll.dll`NtWaitForWorkViaWorkerFactory + 20
Thread 1: thread #1: tid = 0x85c8, 0x00007ff7130c1001 a.out`func_inner at main.c:2:9, stop reason = breakpoint 1.1
Thread 2: thread #2: tid = 0xf344, 0x00007ffecc7b3bf4 ntdll.dll`NtWaitForWorkViaWorkerFactory + 20
Thread 3: thread #4: tid = 0x6a50, 0x00007ffecc7b3bf4 ntdll.dll`NtWaitForWorkViaWorkerFactory + 20
```
Use `self.thread()` to consistently select the correct thread, instead.
Co-authored-by: kendal <kendal@thebrowser.company>
In this version the internal data member has grown an additional
template parameter (bool), which was throwing the summary provider off.
This patch uses the type of the entire variant object. This is part of
the API/ABI, so it should be more stable, but it means we have to
explicitly strip typedefs and references to get to the interesting bits,
which is why I've extended the test case with examples of those.
This enables XML output for enums and adds enums for 2 fields on AArch64
Linux:
* mte_ctrl.tcf, which controls how tag faults are delivered.
* fpcr.rmode, which sets the rounding mode for floating point
operations.
The other one we could do is cpsr.btype, but it is not clear what would
be useful here so I'm not including it in this change.
This patch introduces a new top-level `scripting` command with an `run`
sub-command, that basically replaces the `script` raw command.
To avoid breaking the `script` command usages, this patch also adds an
`script` alias to the `scripting run` sub-command.
The reason behind this change is to have a top-level command that will
cover scripting related subcommands.
Signed-off-by: Med Ismail Bennani <ismail@bennani.ma>
This fixes a regression caused by my commit where I added test
as skipped using a decorator but forgot to add import decorator
in TestPythonOSPlugin.py
test_run_python_os_step in TestPythonOSPlugin.py fails on Windows
after PR #97043. The test passes when run individually using dotest.py.
I have marked this skipped for windows to make LLDB AArch64 Windows
buildbot happy.
a4c18137d8https://lab.llvm.org/buildbot/#/builders/141/builds/379
This reverts commit d9e659c538.
I could not reproduce the Mac OS ASAN failure locally but I narrowed it
down to the test `test_many_fields_same_enum`. This test shares an enum
between x0, which is 64 bit, and cpsr, which is 32 bit.
My theory is that when it does `register read x0`, an enum type is
created where the undlerying enumerators are 64 bit, matching the
register size.
Then it does `register read cpsr` which used the cached enum type, but
this register is 32 bit. This caused lldb to try to read an 8 byte value
out of a 4 byte allocation:
READ of size 8 at 0x60200014b874 thread T0
<...>
=>0x60200014b800: fa fa fd fa fa fa fd fa fa fa fd fa fa fa[04]fa
To fix this I've added the register's size in bytes to the constructed
enum type's name. This means that x0 uses:
__lldb_register_fields_enum_some_enum_8
And cpsr uses:
__lldb_register_fields_enum_some_enum_4
If any other registers use this enum and are read, they will use the
cached type as long as their size matches, otherwise we make a new type.
In one of my recent PRs I mistakenly had two test-cases with the same
name, preventing one of them to run. Since it's an easy mistake to make
(e.g., copy pasting existing test-cases), I ran following sanity-check
script over `lldb/test/API`, which found couple of tests which were
losing coverage because of this (or in some cases simply had duplicate
tests):
```
import ast
import sys
filename = sys.argv[1]
print(f'Checking {filename}...')
tree = ast.parse(open(filename, 'r').read())
for node in ast.walk(tree):
if not isinstance(node, ast.ClassDef):
continue
func_names = []
for child in ast.iter_child_nodes(node):
if isinstance(child, ast.FunctionDef):
func_names.append(child.name)
seen_func_names = set()
duplicate_func_names = []
for name in func_names:
if name in seen_func_names:
duplicate_func_names.append(name)
else:
seen_func_names.add(name)
if len(duplicate_func_names) != 0:
print(f'Multiple func names found:\n\t{duplicate_func_names}\n\tclass {node.name}\n\tfile: {filename}')
```
This patch fixes these cases.
These handful of tests had a BOM (Byte order mark) at the beginning of
the file. This marker is unnecessary in our test files. The main
motivation for this is that the `ast` python module breaks when passing
a file to it with a BOM marker (and might break other tooling which
doesn't expect it). E.g.,:
```
"""Test that lldb command 'process signal SIGUSR1' to send a signal to the inferior works."""
^
SyntaxError: invalid non-printable character U+FEFF
```
If anyone is aware of a good reason to keep it, happy to drop this.
This patch changes `ScriptedThreadPlan::GetStopDescription` behavior by
discarding its return value since it is optional in the first place (the
user doesn't need to provide a return value in their implementation).
This patch also addresses the test failures in TestStepScripted
following 9a9ec22 and re-enables the tests that were XFAIL'd previously.
The issue here was that the `Stream*` that's passed to
`ThreadPlanPython::GetDescription` wasn't being passed by reference to
the python method so it was never updated to reflect how the python
method interacted with it.
This patch solves this issue by making a temporary `StreamSP` that will
be passed to the python method by reference, after what we will copy its
content to the caller `Stream` pointer argument.
---------
Signed-off-by: Med Ismail Bennani <ismail@bennani.ma>
This tentatively reverts commit 204c403b52
to remove the XFAIL from the tests while also trying to fix them at the
same time.
Signed-off-by: Med Ismail Bennani <ismail@bennani.ma>
Fixes#92541
When e69a3d18f4 added fallback register
layouts, it assumed that the choices were target XML with registers, or
no target XML at all.
In the linked issue, a user has a debug stub that does have target XML,
but it's missing register information.
This caused us to finalize the register information using an empty set
of registers got from target XML, then fail an assert when we attempted
to add the fallback set. Since we think we've already completed the
register information.
This change adds a check to prevent that first call and expands the
existing tests to check each architecture without target XML and with
target XML missing register information.
This teaches lldb to parse the enum XML elements sent by lldb-server,
and make use of the information in `register read` and `register info`.
The format is described in
https://sourceware.org/gdb/current/onlinedocs/gdb.html/Enum-Target-Types.html.
The target XML parser will drop any invalid enum or evalue. If we find
multiple evalue for the same value, we will use the last one we find.
The order of evalues from the XML is preserved as there may be good
reason they are not in numerical order.
This patch makes ScriptedThreadPlan conforming to the ScriptedInterface
& ScriptedPythonInterface facilities by introducing 2
ScriptedThreadPlanInterface & ScriptedThreadPlanPythonInterface classes.
This allows us to get rid of every ScriptedThreadPlan-specific SWIG
method and re-use the same affordances as other scripting offordances,
like Scripted{Process,Thread,Platform} & OperatingSystem.
To do so, this adds new transformer methods for `ThreadPlan`, `Stream` &
`Event`, to allow the bijection between C++ objects and their python
counterparts.
This just re-lands #70392 after fixing test failures.
Signed-off-by: Med Ismail Bennani <ismail@bennani.ma>
The function that calculated the declaration context for a DIE was incorrectly transparently traversing acrosss DW_TAG_subprogram dies when climbing the parent DIE chain. This meant that types defined in functions would appear to have the declaration context of anything above the function. I fixed the GetTypeLookupContextImpl(...) function in DWARFDIE.cpp to not transparently skip over functions, lexical blocks and inlined functions and compile and type units. Added a test to verify things are working.
Do not let the compiler gets failed in case the target platform does not
support the 'coroutine' C++ features. Just compile without it and let
lldb know about missed/unsupported feature.
Change the signature of `DWARFExpression::Evaluate` and
`DWARFExpressionList::Evaluate` to return an `llvm::Expected` instead of a
boolean. This eliminates the `Status` output parameter and generally improves
error handling.
The PR adds the support of CoreDump debugging for RISC-V 64. It
implements new `RegisterContextCorePOSIX_riscv64` class.
Also, the contribution fixes `GetRegisterCount()` ->
`GetRegisterSetCount()` misprint in
`RegisterContextPOSIX_riscv64::GetRegisterSetCount()` method, which
leaded to `set && "Register set should be valid."` assertion during
`register info aX` command call.
The patch was tested (on coredumps generated for simple Integer/FP
calculation code) for _cross x86_64 -> RISCV_ and _native RISCV_ LLDB
builds. There were performed basic LLDB functionality tests, such as:
- CoreDump file load
- Backtrace / frames
- GP/FP registers read/info/list
- Basic switch between threads
- Disassembler code
- Memory regions read / display
This test consistently fails on the public macOS ASAN CI (and isn't
reproducible locally):
```
FAIL: test_breakpoint_set_restart_dwarf
(TestBreakpointSetRestart.BreakpointSetRestart)
----------------------------------------------------------------------
Traceback (most recent call last):
File
"/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-sanitized/llvm-project/lldb/packages/Python/lldbsuite/test/lldbtest.py",
line 1756, in test_method
return attrvalue(self)
File
"/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-sanitized/llvm-project/lldb/packages/Python/lldbsuite/test/decorators.py",
line 150, in wrapper
return func(*args, **kwargs)
File
"/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-sanitized/llvm-project/lldb/test/API/functionalities/breakpoint/breakpoint_set_restart/TestBreakpointSetRestart.py",
line 36, in test_breakpoint_set_restart
self.assertTrue(bp.IsValid() and bp.GetNumLocations() == 1,
VALID_BREAKPOINT)
AssertionError: False is not true : Got a valid breakpoint
```
From this error we're not quite sure what about the breakpoint here is
the problem.
This patch splits up the assertion to narrow down the issue.
For some data formatters, even getting the number of children can be an
expensive operations (e.g., needing to walk a linked list to determine
the number of elements). This is then wasted work when we know we will
be printing only small number of them.
This patch replaces the calls to GetNumChildren (at least those on the
"frame var" path) with the calls to the capped version, passing the
value of `max-children-count` setting (plus one)
Module names can be matched either by a full path or just their
basename. The completion machinery tried to do both, but had several
bugs:
- it always inserted the basename as a completion candidate, even if the
string being completed was a full path
- due to FileSpec canonicalization, it lost information about trailing
slashes (it treated "lib/<TAB>" as "lib<TAB>", even though it's clear
the former was trying to complete a directory name)
- due to both of the previous issues, the completion candidates could
end up being shorter than the string being completed, which caused
crashes (string out of range errors) when attempting to substitute the
results.
This patch rewrites to logic to remove these kinds of issues:
- basename and full path completion are handled separately
- full path completion is attempted always, basename only if the input
string does not contain a slash
- the code remembers both the canonical and original spelling or the
completed argument. The canonical arg is used for matching, while the
original spelling is used for completion. This way "/foo///.//b<TAB>"
can still match "/foo/bar", but it will complete to "/foo///.//bar".
The TestBreakpointCommand test is incorrectly disabled for Windows
target. We can disable it for Windows host instead or just fix the
issue. This patch fixes the path separator in
BreakpointResolverFileLine::DeduceSourceMapping() and the Windows
specific absolute path in the test in case of the Windows host.
This patch makes ScriptedThreadPlan conforming to the ScriptedInterface
& ScriptedPythonInterface facilities by introducing 2
ScriptedThreadPlanInterface & ScriptedThreadPlanPythonInterface classes.
This allows us to get rid of every ScriptedThreadPlan-specific SWIG
method and re-use the same affordances as other scripting offordances,
like Scripted{Process,Thread,Platform} & OperatingSystem.
To do so, this adds new transformer methods for `ThreadPlan`, `Stream` &
`Event`, to allow the bijection between C++ objects and their python
counterparts.
This just re-lands #70392 after fixing test failures.
Signed-off-by: Med Ismail Bennani <ismail@bennani.ma>
…unction (#91321)"
This reapplies fd1bd53ba5, which was
reverted due to a test failure on aarch64/windows. The failure was
caused by a combination of several factors:
- clang targeting aarch64-windows (unlike msvc, and unlike clang
targeting other aarch64 platforms) defaults to -fomit-frame-pointers
- lldb's code for looking up register values for `<same>` unwind rules
is recursive
- the test binary creates a very long chain of fp-less function frames
(it manages to fit about 22k frames before it blows its stack)
Together, these things have caused lldb to recreate the same deep
recursion when unwinding through this, and blow its own stack as well.
Since lldb frames are larger, about 4k frames like this was sufficient
to trigger the stack overflow.
This version of the patch works around this problem by increasing the
frame size of the test binary, thereby causing it to blow its stack
sooner. This doesn't fix the issue -- the same problem can occur with a
real binary -- but it's not very likely, as it requires an infinite
recursion in a simple (so it doesn't use the frame pointer) function
with a very small frame (so you can fit a lot of them on the stack).
A more principled fix would be to make lldb's lookup code non-recursive,
but I believe that's out of scope for this patch.
The original patch description follows:
A leaf function may not store the link register to stack, but we it can
still end up being a non-zero frame if it gets interrupted by a signal.
Currently, we were unable to unwind past this function because we could
not read the link register value.
To make this work, this patch:
- changes the function-entry unwind plan to include the `fp|lr = <same>`
rules. This in turn necessitated an adjustment in the generic
instruction emulation logic to ensure that `lr=[sp-X]` can override the
`<same>` rule.
- allows the `<same>` rule for pc and lr in all
`m_all_registers_available` frames (and not just frame zero).
The test verifies that we can unwind in a situation like this, and that
the backtrace matches the one we computed before getting a signal.
