Since 44363f2 various tests have started passing but introduced a
expression evaluation failure in TestDataFormatterSynthVal.py.
This patch marks the expression evaluation part as skipped while rest
of the test passes.
This patch aslo introduces a new helper isAArch64Windows in lldbtest.py.
This patch fixes libstdc++ data formatter for reference/pointer to std::string.
The failure testcases are added which succeed with the patch.
Differential Revision: https://reviews.llvm.org/D150313
wrong answer. Plus, it's useful in some places to have a way to force
the full stack to be created even in the face of
interruption. Moreover, most of the time when you're just getting
frames, you don't need to know the number of frames in the stack to
start with. You just keep calling
Thread::GetStackFrameAtIndex(index++) and when you get a null
StackFrameSP back, you're done. That's also more amenable to
interruption if you are doing some work frame by frame.
So this patch makes GetStackFrameCount always return the full count,
suspending interruption. I also went through all the places that use
GetStackFrameCount to make sure that they really needed the full stack
walk. In many cases, they did not. For instance frame select -r 10 was
getting the number of frames just to check whether cur_frame_idx + 10
was within the stack. It's better in that case to see if that frame
exists first, since that doesn't force a full stack walk, and only
deal with walking off the end of the stack if it doesn't...
I also added a test for some of these behaviors.
Differential Revision: https://reviews.llvm.org/D150236
Add suport for MASK style watchpoints on AArch64 in debugserver
on Darwin systems, for watching power-of-2 sized memory ranges.
More work needed in lldb before this can be exposed to the user
(because they will often try watching memory ranges that are not
exactly power-of-2 in size/alignment) but this is the first part
of adding that capability.
Differential Revision: https://reviews.llvm.org/D149792
rdar://108233371
This patch add or removes XFAIL decorator from various tests which were marked
xfail for windows.
since 44363f2 various tests have started passing but introduced a couple of new failures.
Weight is in favor of new XPasses and I have removed XFail decorator from them. Also
some new tests have started failing for which we need to file separate bugs. I have
marked them xfail for now and will add the bug id after investigating the issue.
Differential Revision: https://reviews.llvm.org/D149235
The unique_ptr prettyprinter calls `GetValueOfLibCXXCompressedPair`,
which looks for a `__value_` child. However, when the second value in
the compressed pair is not an empty class, there are two `__value_`
children because `__compressed_pair` derives twice from
`__compressed_pair_elem`, one for each member of the pair. And then the
lookup fails because it's ambiguous.
This patch makes the following changes:
- Rename `GetValueOfLibCXXCompressedPair` to
`GetFirstValueOfLibCXXCompressedPair`, and add a similar function to
get the second value. Put both functions in
Plugin/Language/CPlusPlus/LibCxx.cpp because it seems inappropriate to
have libcxx-specific helpers separate from all the libcxx-dependent
code.
- Read the second value of the `__ptr_` pair and display a "deleter"
child in the unique_ptr synthetic child provider, when available.
- Add a test case for the non-empty deleter case.
Differential Revision: https://reviews.llvm.org/D148662
Refactor the debugserver watchpiont support in anticipating of
adding support for AArch64 MASK hardware watchpoints to watch
larger regions of memory. debugserver already had support for
handling a request to watch an unaligned region of memory up
to 8 bytes using Byte Address Select watchpoints - it would split
an unaligned watch request into two aligned doublewords that
could be watched with two hardware watchpoints using the BAS
specification.
This patch generalizes that code for properly aligning, and
possibly splitting, a watchpoint request into two hardware watchpoints
to handle any size request. And separates out the specifics
about BAS watchpoints into its own method, so a sibling method
for MASK watchpoints can be dropped in next.
Differential Revision: https://reviews.llvm.org/D149040
rdar://108233371
This should fix a test failure in TestInteractiveScriptedProcess.py
caused by a missing decorator added in d0d902d.
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch improve the interactive scripted process debugging test by
adding test coverage for child process breakpoint setting and execution
state change.
This patch introduces a new test case for a multiplexed launch, which
does the same thing as the simple passthrough launch. After the
multiplexer process stops, this new test launches 2 other scripted processes
that should contain respectively the even and odd threads from the
multiplexer scripted process.
Then, we create a breakpoint on one the child scripted process, make
sure it was set probably on the child process, the multiplexer process
and the real process. This also test the breakpoint name tagging at the
multiplexer level.
Finally, we resume the child process that had a breakpoint and make sure
that all the processes has stopped at the right location.
Differential Revision: https://reviews.llvm.org/D149179
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch improves breakpoint management when doing interactive
scripted process debugging.
In other to know which process set a breakpoint, we need to do some book
keeping on the multiplexer scripted process. When initializing the
multiplexer, we will first copy breakpoints that are already set on the
driving target.
Everytime we launch or resume, we should copy breakpoints from the
multiplexer to the driving process.
When creating a breakpoint from a child process, it needs to be set both
on the multiplexer and on the driving process. We also tag the created
breakpoint with the name and pid of the originator process.
This patch also implements all the requirement to achieve proper
breakpoint management. That involves:
- Adding python interator for breakpoints and watchpoints in SBTarget
- Add a new `ScriptedProcess.create_breakpoint` python method
Differential Revision: https://reviews.llvm.org/D148548
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch is a proof of concept that shows how a scripted process could
be used with real process to perform interactive debugging.
In this example, we run a process that spawns 10 threads.
That process gets launched by an intermediary scripted process who's job
is to intercept all of it's process events and dispatching them
back either to the real process or to other child scripted processes.
In this example, we have 2 child scripted processes, with even and odd
thread indices. The goal is to be able to do thread filtering and
explore the various interactive debugging approaches, by letting a child
process running when stopping the other process and inspecting it.
Another approach would be to have the child processes execution in-sync
to force running every child process when one of them starts running.
Differential Revision: https://reviews.llvm.org/D145297
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
Previously if a register had fields we would always print them after the
value if the register was asked for by name.
```
(lldb) register read MDCR_EL3
MDCR_EL3 = 0x00000000
= {
ETBAD = 0
<...>
RLTE = 0
}
```
This can be quite annoying if there are a whole lot of fields but you
want to see the register in a specific format.
```
(lldb) register read MDCR_EL3 -f i
MDCR_EL3 = 0x00000000 unknown udf #0x0
= {
ETBAD = 0
<...lots of fields...>
```
Since it pushes the interesting bit far up the terminal. To solve this,
don't print fields if the user passes --format. If they're doing that
then I think it's reasonable to assume they know what they want and only
want to see that output.
This also gives users a way to silence fields, but not change the format.
By doing `register read foo -f x`. In case they are not useful or perhaps
they are trying to work around a crash.
I have customised the help text for --format for register read to explain this:
```
-f <format> ( --format <format> )
Specify a format to be used for display. If this is set, register fields will not be dispayed.
```
Reviewed By: jasonmolenda
Differential Revision: https://reviews.llvm.org/D148790
In the particular case I was looking at I autogenerated a 128 bit set
of flags that is only 64 bit. This doesn't crash lldb but it was certainly
not expected.
I suspect that we would have crashed if the top 64 bits weren't
marked as unused (or at least invoked some very undefined behaviour).
When this happens, log the details and ignore the flags. Like this:
```
Size of register flags TTBR0_EL1_flags (16 bytes) for register TTBR0_EL1 does not match the register size (8 bytes). Ignoring this set of flags.
```
Turns out a few of the tests relied on this bug so I have updated
them and added a specific test for this case.
Reviewed By: jasonmolenda
Differential Revision: https://reviews.llvm.org/D148715
If this test fails, the error message isn't helpful:
```
self.assertEqual(len(threads), 1,
AssertionError: 0 != 1 : Stopped at breakpoint in exec'ed process
```
This change adds asserts to verify that:
1. The process is stopped
2. For each thread, that the stop reason is None, or Breakpoint
The latter will indicate if execution has stopped for some other reason, and if so what
that reason is.
Differential Revision: https://reviews.llvm.org/D148588
Add MSP430 to the list of available targets, implement MSP430 ABI, add support for debugging targets with 16-bit address size.
The update is intended for use with MSPDebug, a GDB server implementation for MSP430.
Reviewed By: bulbazord, DavidSpickett
Differential Revision: https://reviews.llvm.org/D146965
(Addresses GH#62153)
The `SBType` APIs to retrieve details about template arguments,
such as `GetTemplateArgumentType` or `GetTemplateArgumentKind`
don't "desugar" LValueReferences/RValueReferences or pointers.
So when we try to format a `std::deque&`, the python call to
`GetTemplateArgumentType` fails to get a type, leading to
an `element_size` of `0` and a division-by-zero python exception
(which gets caught by the summary provider silently). This leads
to the contents of such `std::deque&` to be printed incorrectly.
This patch dereferences the reference/pointer before calling
into the above SBAPIs.
**Testing**
* Add API test
Differential Revision: https://reviews.llvm.org/D148531
- Separate the two test and only have TestSymbolFileJSON rely on strip.
- Use different file names to make sure LLDB reloads the module.
This should address all the post commit review from D148062.
Add MSP430 to the list of available targets, implement MSP430 ABI, add support for debugging targets with 16-bit address size.
The update is intended for use with MSPDebug, a GDB server implementation for MSP430.
Reviewed By: bulbazord, DavidSpickett
Differential Revision: https://reviews.llvm.org/D146965
This change uses the information from target.xml sent by
the GDB stub to produce C types that we can use to print
register fields.
lldb-server *does not* produce this information yet. This will
only work with GDB stubs that do. gdbserver or qemu
are 2 I know of. Testing is added that uses a mocked lldb-server.
```
(lldb) register read cpsr x0 fpcr fpsr x1
cpsr = 0x60001000
= (N = 0, Z = 1, C = 1, V = 0, TCO = 0, DIT = 0, UAO = 0, PAN = 0, SS = 0, IL = 0, SSBS = 1, BTYPE = 0, D = 0, A = 0, I = 0, F = 0, nRW = 0, EL = 0, SP = 0)
```
Only "register read" will display fields, and only when
we are not printing a register block.
For example, cpsr is a 32 bit register. Using the target's scratch type
system we construct a type:
```
struct __attribute__((__packed__)) cpsr {
uint32_t N : 1;
uint32_t Z : 1;
...
uint32_t EL : 2;
uint32_t SP : 1;
};
```
If this register had unallocated bits in it, those would
have been filled in by RegisterFlags as anonymous fields.
A new option "SetChildPrintingDecider" is added so we
can disable printing those.
Important things about this type:
* It is packed so that sizeof(struct cpsr) == sizeof(the real register).
(this will hold for all flags types we create)
* Each field has the same storage type, which is the same as the type
of the raw register value. This prevents fields being spilt over
into more storage units, as is allowed by most ABIs.
* Each bitfield size matches that of its register field.
* The most significant field is first.
The last point is required because the most significant bit (MSB)
being on the left/top of a print out matches what you'd expect to
see in an architecture manual. In addition, having lldb print a
different field order on big/little endian hosts is not acceptable.
As a consequence, if the target is little endian we have to
reverse the order of the fields in the value. The value of each field
remains the same. For example 0b01 doesn't become 0b10, it just shifts
up or down.
This is needed because clang's type system assumes that for a struct
like the one above, the least significant bit (LSB) will be first
for a little endian target. We need the MSB to be first.
Finally, if lldb's host is a different endian to the target we have
to byte swap the host endian value to match the endian of the target's
typesystem.
| Host Endian | Target Endian | Field Order Swap | Byte Order Swap |
|-------------|---------------|------------------|-----------------|
| Little | Little | Yes | No |
| Big | Little | Yes | Yes |
| Little | Big | No | Yes |
| Big | Big | No | No |
Testing was done as follows:
* Little -> Little
* LE AArch64 native debug.
* Big -> Little
* s390x lldb running under QEMU, connected to LE AArch64 target.
* Little -> Big
* LE AArch64 lldb connected to QEMU's GDB stub, which is running
an s390x program.
* Big -> Big
* s390x lldb running under QEMU, connected to another QEMU's GDB
stub, which is running an s390x program.
As we are not allowed to link core code to plugins directly,
I have added a new plugin RegisterTypeBuilder. There is one implementation
of this, RegisterTypeBuilderClang, which uses TypeSystemClang to build
the CompilerType from the register fields.
Reviewed By: jasonmolenda
Differential Revision: https://reviews.llvm.org/D145580
With this patch, whenever we emit a `DW_AT_type` for some declaration
and the type is a template class with a `clang::PreferredNameAttr`, we
will emit the typedef that the attribute refers to instead. I.e.,
```
0x123 DW_TAG_variable
DW_AT_name "var"
DW_AT_type (0x123 "basic_string<char>")
0x124 DW_TAG_structure_type
DW_AT_name "basic_string<char>"
```
...becomes
```
0x123 DW_TAG_variable
DW_AT_name "var"
DW_AT_type (0x124 "std::string")
0x124 DW_TAG_structure_type
DW_AT_name "basic_string<char>"
0x125 DW_TAG_typedef
DW_AT_name "std::string"
DW_AT_type (0x124 "basic_string<char>")
```
We do this by returning the preferred name typedef `DIType` when
we create a structure definition. In some cases, e.g., with `-gmodules`,
we don't complete the structure definition immediately but do so later
via `completeClassData`, which overwrites the `TypeCache`. In such cases
we don't actually want to rewrite the cache with the preferred name. We
handle this by returning both the definition and the preferred typedef
from `CreateTypeDefinition` and let the callee decide what to do with
it.
Essentially we set up the types as:
```
TypeCache[Record] => DICompositeType
ReplaceMap[Record] => DIDerivedType(baseType: DICompositeType)
```
For now we keep this behind LLDB tuning.
**Testing**
- Added clang unit-test
- `check-llvm`, `check-clang` pass
- Confirmed that this change correctly repoints
`basic_string` references in some of my test programs.
- Will add follow-up LLDB API tests
Differential Revision: https://reviews.llvm.org/D145803
Currently, SBTarget::SetModuleLoadAddress does not accept large slides
needed to load images in high memory. This function should always have
taken an unsigned as the slide, as it immediately passes it to
Target::SetSectionLoadAddress which takes an unsigned.
This patch adds an overload and exposes that to SWIG instead of the
signed variant. I've marked the signed variant as deprecated and added
check that the slide is positive.
rdar://101355155
Differential revision: https://reviews.llvm.org/D147482
Step over thread plans were claiming to explain the fork stop reasons,
which prevented the default fork logic (detaching from the child
process) from kicking in. This patch changes that.
Differential Revision: https://reviews.llvm.org/D141605
Following the work done by @jdevlieghere in D143690, this changes how Clang module build
events are emitted.
Instead of one Progress event per module being built, a single Progress event is used to
encompass all modules, and each module build is sent as an `Increment` update.
Differential Revision: https://reviews.llvm.org/D147248
In a now-reverted series of patches, I inadvertently broke the ability
for lldb-server to explain a crash reason. To ensure that this feature
continues to work after future refactors, let's test the feature.
Differential Revision: https://reviews.llvm.org/D147001
In ee232506b8 I moved UnixSignal
initialization from lldbTarget to the various platform plugins. This
inadvertently broke lldb-server because lldb-server doesn't use
Platform plugins. lldb-server still needs to be able to create a
UnixSignals object for the host platform so we can add the relevant
platform plugin to lldb-server to make sure we always have a
HostPlatform.
Differential Revision: https://reviews.llvm.org/D146668
Change `dwim-print` to now disable persistent results by default, unless requested by
the user with the `--persistent-result` flag.
Ex:
```
(lldb) dwim-print 1 + 1
(int) 2
(lldb) dwim-print --persistent-result on -- 1 + 1
(int) $0 = 2
```
Users who wish to enable persistent results can make and use an alias that includes
`--persistent-result on`.
Updates: To recommit this, both TestPersistentResult.py and TestPAlias.py needed to be
updated, as well as the changes in D146230.
Differential Revision: https://reviews.llvm.org/D145609
Fix logic for repeat commands, so that regex commands (specificially `bt`) are
given the opportunity to provide a repeat command.
rdar://104562616
Differential Revision: https://reviews.llvm.org/D143695
With this patch member-function pointers are formatted using
`CXXFunctionPointerSummaryProvider`.
This turns,
```
(lldb) v pointer_to_member_func
(void (Foo::*)()) ::pointer_to_member_func = 0x00000000000000000000000100003f94
```
into
```
(lldb) v pointer_to_member_func
(void (Foo::*)()) ::pointer_to_member_func = 0x00000000000000000000000100003f94 (a.out`Foo::member_func() at main.cpp:3)
```
Differential Revision: https://reviews.llvm.org/D145242
Before this patch, LLDB used to format pointers to members, such as,
```
void (Foo::*pointer_to_member_func)() = &Foo::member_func;
```
as `eFormatBytes`. E.g.,
```
(lldb) v pointer_to_member_func
(void (Foo::*)()) $1 = 94 3f 00 00 01 00 00 00 00 00 00 00 00 00 00 00
```
This patch makes sure we format pointers to member functions the same
way we do regular function pointers.
After this patch we format member pointers as:
```
(lldb) v pointer_to_member_func
(void (Foo::*)()) ::pointer_to_member_func = 0x00000000000000000000000100003f94
```
Differential Revision: https://reviews.llvm.org/D145241
This patch adds a test for formatting of member function pointers.
This was split from https://reviews.llvm.org/D145242, which caused
this test case to fail on Windows buildbots.
I split this out in order to make sure that this indeed works on Windows
without the D145242 patch.
Differential Revision: https://reviews.llvm.org/D145487
This patch is a proof of concept that shows how a scripted process could
be used with real process to perform interactive debugging.
In this example, we run a process that spawns 10 threads. Then, we
create a intermediary scripted process who's job will be to wrap the
real process while intercepting it's process events and dispatching them
back either to the real process or to other child scripted processes.
In this example, we have 2 child scripted processes, with even and odd
thread indices. The goal is to be able to do thread filtering and
explore the various interactive debugging approaches, by letting a child
process running when stopping the other process and inspecting it.
Another approach would be to have the child processes execution in-sync
to force running every child process when one of them starts running.
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
When using SBProcess::GetScriptedImplementation in python, if the
process has a valid implementation, we returned a reference of the
object without incrementing the reference counting. That causes the
interpreter to crash after accessing the reference several times.
This patch address this by incrementing the reference count when passing
the valid object reference.
Differential Revision: https://reviews.llvm.org/D145260
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
