Add a 'can_connect' parameter to Process plugin initialization, and use
it to filter plugins to these capable of remote connections. This is
used to prevent 'process connect' from picking up a plugin that can only
be used locally, e.g. the legacy FreeBSD plugin.
Differential Revision: https://reviews.llvm.org/D91810
Restore Linux-alike regset names for AVX/MPX registers
as TestLldbGdbServer seems to depend on them. At the same time, fix
TestRegisters to be aware that they are not available on FreeBSD
and NetBSD, at least until we figure out a better way of reporting
unsupported register sets.
Differential Revision: https://reviews.llvm.org/D91923
Fix qRegisterInfo tests to handle Exx error response when querying
registers that are not supported on the platform in question. This
is how FreeBSD and NetBSD platforms reporting missing registers right
now, and there certainly is value from verifying the remaining
registers.
This change fixes the test for FreeBSD but NetBSD has other regressions
that still need to be researched.
Differential Revision: https://reviews.llvm.org/D91922
Translate between abridged and full ftag values in order to expose
the latter in the gdb-remote protocol while the former are used by
FXSAVE/XSAVE... This matches the gdb behavior.
The Shell/Register tests now rely on the new behavior, and therefore
are run on non-Darwin systems only. The Python (API) test relies
on the legacy behavior, and is run on Darwin only.
Differential Revision: https://reviews.llvm.org/D91504
Update the help string for `target.source-map` to remove the use of the word
"duple" and to add examples. Additionally I rewrote parts with the goal of
making the description more concrete.
rdar://68736012
Differential Revision: https://reviews.llvm.org/D91742
Commit f3aa9e36d9 fixed the embedded OS
build by removing all passed args for `GetName`/`GetDemangledName`. The motivation
for this was that these arguments were apparently removed in
commit 22b044877d. However, only `GetName`'s language
argument was removed but the mangling preference argument was *not* removed
(and unfortunately had a default argument). So when that commit removed all
the args it didn't just fix the build but it also changed all the mangling
preferences to 'demangled' for all `GetName` calls.
Also some `GetName` calls were outside the TARGET_OS_EMBEDDED ifdef, so
this change ended up breaking the following tests on macOS:
lldb-api :: lang/objc/objc-static-method-stripped/TestObjCStaticMethodStripped.py
lldb-api :: lang/objc/objc-super/TestObjCSuper.py
From what I can see f3aa9e36d9 removed 12 ePreferMangled args and this patch
re-adds 12 args with roughly the same line numbers, so this *should* restore the
old behaviour and also keep the embedded build working. On the other hand,
ObjectFileMachO::ParseSymtab is a very successful attempt at writing
the longest possible function within LLVM, so this fix is partly based
on the engineering principle known as "hoping for the best".
This extends the "memory region" command to
show tagged regions on AArch64 Linux when the MTE
extension is enabled.
(lldb) memory region the_page
[0x0000fffff7ff8000-0x0000fffff7ff9000) rw-
memory tagging: enabled
This is done by adding an optional "flags" field to
the qMemoryRegion packet. The only supported flag is
"mt" but this can be extended.
This "mt" flag is read from /proc/{pid}/smaps on Linux,
other platforms will leave out the "flags" field.
Where this "mt" flag is received "memory region" will
show that it is enabled. If it is not or the target
doesn't support memory tagging, the line is not shown.
(since majority of the time tagging will not be enabled)
Testing is added for the existing /proc/{pid}/maps
parsing and the new smaps parsing.
Minidump parsing has been updated where needed,
though it only uses maps not smaps.
Target specific tests can be run with QEMU and I have
added MTE flags to the existing helper scripts.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D87442
D91497 changed lldb/test/Shell/Register/x86-fp-write.test and added target-x86_64 to the REQUIRES clause.
It looks this test does not pass on this platform so removing it since it one of tests failing on the
green dragon build bot.
GDBRemoteCommunicationClient::SendGetSupportedTraceType is checking whether the
response is `!response.IsNormalResponse()` and infers from that that it is an error response.
However, it could be either "unsupported" or "error". If we get an unsupported response,
the code then tries to generate an llvm::Expected from the non-error response which then asserts.
Debugserver doesn't implement `jLLDBTraceSupportedType`, so we get an unsupported response
whenever this function is called on macOS.
This fixes the TestAproposWithProcess on macOS (where the `apropos` command will query
the CommandObjectTraceStart which then sends the trace type query package).
Reviewed By: wallace, shafik
Differential Revision: https://reviews.llvm.org/D91801
We can handle all the types in the expression evaluator now without casting.
On Linux, we have a system header declaration that is still causing issues, so
I'm skipping the test there until I get around to fix this.
Translate between abridged and full ftag values in order to expose
the latter in the gdb-remote protocol while the former are used by
FXSAVE/XSAVE... This matches the gdb behavior.
Differential Revision: https://reviews.llvm.org/D91504
The FXSAVE/XSAVE data can have two different layouts on x86_64. When
called as FXSAVE/XSAVE..., the Instruction Pointer and Address Pointer
registers are reported using a 16-bit segment identifier and a 32-bit
offset. When called as FXSAVE64/XSAVE64..., they are reported using
a complete 64-bit offsets instead.
LLDB has historically followed GDB and unconditionally used to assume
the 32-bit layout, with the slight modification of possibly
using a 32-bit segment register (i.e. extending the register into
the reserved 16 upper bits). When the underlying operating system used
FXSAVE64/XSAVE64..., the pointer was split into two halves,
with the upper half repored as the segment registers. While
reconstructing the full address was possible on the user end (and e.g.
the FPU register tests did that), it certainly was not the most
convenient option.
Introduce a two additional 'fip' and 'fdp' registers that overlap
with 'fiseg'/'fioff' and 'foseg'/'foff' respectively, and report
the complete 64-bit address.
Differential Revision: https://reviews.llvm.org/D91497
Depends on D90490.
The stop command is simple and invokes the new method Trace::StopTracingThread(thread).
On the other hand, the start command works by delegating its implementation to a CommandObject provided by the Trace plugin. This is necessary because each trace plugin needs different options for this command. There's even the chance that a Trace plugin can't support live tracing, but instead supports offline decoding and analysis, which means that "thread trace dump instructions" works but "thread trace start" doest. Because of this and a few other reasons, it's better to have each plugin provide this implementation.
Besides, I'm using the GetSupportedTraceType method introduced in D90490 to quickly infer what's the trace plug-in that works for the current process.
As an implementation note, I moved CommandObjectIterateOverThreads to its header so that I can use it from the IntelPT plugin. Besides, the actual start and stop logic for intel-pt is not part of this diff.
Reviewed By: clayborg
Differential Revision: https://reviews.llvm.org/D90729
I noticed that Process is inheriting from UserID to store its PID value. This patch
replaces this with a dedicated field in the Process class. This is NFC, but has some
small effects on the code using Process:
* `GetID()` now returns a `lldb::pid_t` like all other process code instead of `lldb::user_id_t`. Both are typedefs for `uint64_t`, so no change in behaviour.
* The equality operators defined for UserID no longer accept Process instances.
* Removes the inherited method `Process::Clear()` which didn't actually clear anything beside the PID value.
We maybe should also remove the getters/setters to `S/GetPID` or something like that. I can update all the code for that
in a follow-up NFC commit.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D91699
init_llgs_test no longer takes an argument
but these two were not updated.
Also fix some mistakes in TestAutoInstallMainExecutable
to get it passing again.
Reviewed By: JDevlieghere, labath
Differential Revision: https://reviews.llvm.org/D91612
Adds a command line option that makes debugserver propagate the SIGSEGV
signal to the target process.
Motivation: I'm one of the maintainers of Delve [1] a debugger for Go.
We use debugserver as our backend on macOS and one of the most often
reported bugs is that, on macOS, we don't propagate SIGSEGV back to the
target process [2]. Sometimes some programs will actually cause a
SIGSEGV, by design, and then handle it. Those programs can not be
debugged at all.
Since catching signals isn't very important for a Go debugger I'd much
rather have a command line option in debugserver that causes it to let
SIGSEGV go directly to the target process.
[1] https://github.com/go-delve/delve/
[2] https://github.com/go-delve/delve/issues/852
Differential revision: https://reviews.llvm.org/D89315
This moves in the direction of our effort to synchronize register descriptions
between LLDB and GDB xml description. We want to able to send registers in a
way that their offset fields can be re-constructed based on register sizes
in the increasing order of register number.
In context to Arm64 SVE, FPCR and FPSR are same registers in FPU regset and
SVE regset. Previously FPSR/FPCR offset was set at the end of SVE data
because Linux ptrace data placed FPCR and FPSR at the end of SVE register set.
Considering interoperability with other stubs like QEMU and that g packets
should generate register data in increasing order of register numbers. We
have to move FPCR/FPSR offset up to its original location according to
register numbering scheme of ARM64 registers with SVE registers included.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D90741
In our recent discussion we are aiming to make LLDB registers exchange minimum
possible information in qRegisterInfo or XMl register descriptions.
For SVE registers, Z registers are catagorized as primary registers and should
not have any infomration about any pseudo registers. All pseudo registers
should have the information on which primary register they belong to.
This patch removes invalidate_regs list from Z registers and will mitigate its
impact on SVE resize patch in a follow up update.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D91057
Add a parser for JSON crashlogs. The CrashLogParser now defers to either
the JSONCrashLogParser or the TextCrashLogParser. It first tries to
interpret the input as JSON, and if that fails falling back to the
textual parser.
Differential revision: https://reviews.llvm.org/D91130
LLDB is currently always activating C++ when parsing expressions as LLDB itself
is using C++ features when creating the final AST that will be codegen'd
(specifically, references to variables, namespaces and using declarations are
used).
This is causing problems for users that have variables in non-C++ programs (e.g.
plain C or Objective-C) that have names which are keywords in C++. Expressions
referencing those variables fail to parse as LLDB's Clang parser thinks those
identifiers are C++ keywords and not identifiers that may belong to a
declaration.
We can't just disable C++ in the expression parser for those situations as
replacing the functionality of the injected C++ code isn't trivial. So this
patch is just disabling most keywords that are exclusive to C++ in LLDB's Clang
parser when we are in a non-C++ expression. There are a few keywords we can't
disable for now:
* `using` as that's currently used in some situations to inject variables into the expression function.
* `__null` as that's used by LLDB to define `NULL`/`Nil`/`nil`.
Getting rid of these last two keywords is possible but is a large enough change
that this will be handled in follow up patches.
Note that this only changes the keyword status of those tokens but this patch
does not remove any C++ functionality from the expression parser. The type
system still follows C++ rules and so does the rest of the expression parser.
There is another small change that gives the hardcoded macro definitions in LLDB
a higher precedence than the macros imported from the Objective-C modules. The
reason for this is that the Objective-C modules in LLDB are actually parsed in
Objective-C++ mode and they end up providing the C++ definitions of certain
system macros (like `NULL` being defined as `nullptr`). So we have to move the
LLDB definition forward and surround the definition from the module with an
`#ifdef` to make sure that we use the correct LLDB definition that doesn't
reference C++ keywords. Or to give an example, this is how the expression source
code changes:
Before:
```
#define NULL (nullptr) // injected module definition
#ifndef NULL
#define NULL (__null) // hardcoded LLDB definition
#endif
```
After:
```
#ifndef NULL
#define NULL (__null) // hardcoded LLDB definition
#endif
#ifndef NULL
#define NULL (nullptr) // injected module definition
#endif
```
Fixes rdar://10356912
Reviewed By: shafik
Differential Revision: https://reviews.llvm.org/D82770
Create a helper GetOffsetRegSetData() method to get pointer
to the regset data accounting for the necessary offset. Establish
the offsets in the constructor and store them in the structure. This
avoids having to add new Get*Offset() methods and combines some common
code.
Differential Revision: https://reviews.llvm.org/D91411
Eliminate the remaining swith-case code for register getters,
and migrate YMM registers to regset-oriented model. Since these
registers are recombined from XMM and YMM_Hi128 XSAVE blocks, while LLDB
gdb-server protocol transmits YMM registers whole, the offset-based
model will not work here. Nevertheless, some improvement was possible.
Replace generic 'XSaveRegSet' along with sub-sets for XSAVE components
with 'YMMRegSet' (and more regsets in the future as further components
are implemented). Create a helper GetYMMSplitReg() method that obtains
pointers to the appropriate XMM and YMM_Hi128 blocks to reduce code
duplication.
Differential Revision: https://reviews.llvm.org/D91293
Use offset-based method to access x86 debug registers. This also
involves adding a test for the correctness of these offsets, and making
GetDR() method of NativeRegisterContextWatchpoint_x86 public to avoid
duplicate code.
Differential Revision: https://reviews.llvm.org/D91268
Use offset-based method to access base x87 FPU registers, using offsets
relative to the position of 'struct FPR', as determined by the location
of first register in it (fctrl). Change m_fpr to use a fixed-size array
matching FXSAVE size (512 bytes). Add unit tests for verifying
RegisterInfo offsets and sizes against the FXSAVE layout.
Differential Revision: https://reviews.llvm.org/D91248
Read and write registers from m_gpr using offsets from RegisterInfo
rather than explicit switch-case. This eliminates a lot of redundant
code, and avoids mistakes such as type mismatches seen recently (wrt
segment registers). The same logic will be extended to other register
sets in the future.
Make m_gpr an uint8_t std::array to ease accesses. Ideally, we could
avoid including <machine/reg.h> entirely in the future and instead
get the correct GPR size from Utility/RegisterContextFreeBSD_* somehow.
While at it, modify register set logic to use an explicit enum with
llvm::Optional<>, making the code cleaner and at the same time enabling
compiler warnings for unhandled sets.
Since now we're fully relying on 'struct GPR' defined
in Utility/RegisterContextFreeBSD_* being entirely in sync with
the system structure, add unit tests to verify the field offsets
and sizes.
Differential Revision: https://reviews.llvm.org/D91216
I think the check for whether the process is connected is totally bogus
in the first place, but on the off-chance that's it's not, we should
behave the same in synchronous and asynchronous mode.
I only have a crash report for this. I could reproduce it with a slightly older
lldb by running an expression that called pthread_kill, but we started making modules
for our expression JIT code, so that no longer triggers the bug. I can't think of another
good way to test it but the fix is obvious.
"[lldb/DataFormatters] Display null C++ pointers as nullptr" added an assumption
that the member we check for is always a nullptr, but it is actually never
initialized. That causes the test to randomly fail due to the pointer having
some random value that isn't 0.