Given this was under trace, it can just be removed. If somebody
ever needs to debug this testcase again and print the data, they
can add a new statement.
llvm-svn: 355999
This patch adds an XCOFF triple object format type into LLVM.
This XCOFF triple object file type will be used later by object file and assembly generation for the AIX platform.
Differential Revision: https://reviews.llvm.org/D58930
llvm-svn: 355989
LLVM doesn't produce DWARF64, and neither does GCC. LLDB's support
for DWARF64 is only partial, and if enabled appears to also not work.
Finally, it's untested. Removing this makes merging LLVM and
LLDB's DWARF parsing implementations simpler.
Differential Revision: https://reviews.llvm.org/D59235
llvm-svn: 355975
This is a very thin wrapper over a std::vector<DWARFDIE> and does
not seem to provide any real value over just using a container
directly.
Differential Revision: https://reviews.llvm.org/D59165
llvm-svn: 355974
This is not used outside of the private implementation of the class,
so hiding in the implementation file is a nice way of simplifying
the external interface.
Differential Revision: https://reviews.llvm.org/D59164
llvm-svn: 355973
darwin kernel debug session.
Originally, the kext name & uuid were emitted in the middle of the
kext-loading period's. Last week I decided to try not printing
any details about kexts that failed to load, only printing a summary
of how many failed to load.
This time I'm print different progress characters depending on whether
the kext loaded or not ("-" for not), then at the end I will print a
summary of how many kexts failed to load and a sorted list of the
kexts with the bundle ID and the uuid. It's a lot more readable.
<rdar://problem/48654569>
llvm-svn: 355958
There's a single report of a crash coming from this current_sp being NULL. I don't
have a repro case, and I couldn't get it to happen by hand-corrupting a list. We
always get an error instead. So I don't have a test case. But checking for null
is clearly right here.
<rdar://problem/48503320>
llvm-svn: 355957
ICF can cause multiple symbols to start at the same virtual address.
I plan to handle this shortly, but I wanted to correct the comment for
now.
Deleted an obsolete comment about adjusting the offset for the magic
number at the beginning of the debug info stream. This adjustment is
handled at a lower level now.
llvm-svn: 355943
Yesterday I noticed a reproducer test failing after making a local
change. Removing the reproducer directory solved the issue. Add a test
case that detects this.
llvm-svn: 355941
The command interpreter holds a pointer to a DataRecorder. After
generating the reproducer, we deallocated all the DataRecorders, causing
the command interpreter to hold a non-null reference to an invalid
object.
This patch changes the behavior of the command provider to stop the
DataRecorders when a reproducer is generated, rather than deallocating
them.
llvm-svn: 355940
Summary:
This patch is the MVP version of importing the std module into the expression parser to improve C++ debugging.
What happens in this patch is that we inject a `@import std` into our expression source code. We also
modify our internal Clang instance for parsing this expression to work with modules and debug info
at the same time (which is the main change in terms of LOC). We implicitly build the `std` module on the first use. The
C++ include paths for building are extracted from the debug info, which means that this currently only
works if the program is compiled with `-glldb -fmodules` and uses the std module. The C include paths
are currently specified by LLDB.
I enabled the tests currently only for libc++ and Linux because I could test this locally. I'll enable the tests
for other platforms once this has landed and doesn't break any bots (and I implemented the platform-specific
C include paths for them).
With this patch we can now:
* Build a libc++ as a module and import it into the expression parser.
* Read from the module while also referencing declarations from the debug info. E.g. `std::abs(local_variable)`.
What doesn't work (yet):
* Merging debug info and C++ module declarations. E.g. `std::vector<CustomClass>` doesn't work.
* Pretty much anything that involves the ASTImporter and templated code. As the ASTImporter is used for saving the result declaration, this means that we can't
call yet any function that returns a non-trivial type.
* Use libstdc++ for this, as it requires multiple include paths and Clang only emits one include path per module. Also libstdc++ doesn't support Clang modules without patches.
Reviewers: aprantl, jingham, shafik, friss, davide, serge-sans-paille
Reviewed By: aprantl
Subscribers: labath, mgorny, abidh, jdoerfert, lldb-commits
Tags: #c_modules_in_lldb, #lldb
Differential Revision: https://reviews.llvm.org/D58125
llvm-svn: 355939
Tablegen doesn't support options that are both flags and take values as
an argument. I noticed this when doing the tablegen rewrite, but forgot
that that affected the reproducer --capture flag.
This patch makes --capture a flag and adds --capture-path to specify a
path for the reproducer. In reality I expect this to be mostly used for
testing, but it could be useful nonetheless.
Differential revision: https://reviews.llvm.org/D59238
llvm-svn: 355936
Summary:
This patch marks the inline namespaces from DWARF as inline and also ensures that looking
up declarations now follows the lookup rules for inline namespaces.
Reviewers: aprantl, shafik, serge-sans-paille
Reviewed By: aprantl
Subscribers: eraman, jdoerfert, lldb-commits
Tags: #c_modules_in_lldb, #lldb
Differential Revision: https://reviews.llvm.org/D59198
llvm-svn: 355897
The RECORD macro is context sensitive because it depends on the
LLDB_GET_INSTRUMENTATION_DATA. This updates the modulemap to mark that
header as textual.
llvm-svn: 355879
Apparently the log_append variant added in r355863 is considered
ambiguous. At this point I'm out of ideas so a good old reinterpret cast
will have to do. If anybody has a better idea I'd be happy to hear it.
llvm-svn: 355866
Changing the type in the DUMMY macro to void* doesn't actually fix the
build error, because the argument type is deducted from the template (as
opposed to when serializing through the instrumentation framework, where
this would matter). Instead I've added a proper instance of log_append
that takes function pointers and logs their address.
llvm-svn: 355863
There was a crash that would happen if an IDE would ask for a child of a shared pointer via any SB API call that ends up calling StackFrame::GetValueForVariableExpressionPath(). The previous code expects an error to be set describing why the synthetic child of a type was not able to be found, but we have some synthetic child providers that weren't setting the error and returning an empty value object shared pointer. This fixes that to ensure we don't lose our debug session by crashing, fully tests GetValueForVariableExpressionPath functionality, and ensures we don't crash on GetValueForVariableExpressionPath() in the future.
Differential Revision: https://reviews.llvm.org/D59200
llvm-svn: 355850
Callbacks in the LLDB_RECORD_DUMMY macros were causing build failures
with the Xcode project. This patch replaces the function pointers with
void pointers so they can be logged.
llvm-svn: 355842
Summary:
Our python version of the SB API has (the python equivalent of)
operator bool, but the C++ version doesn't.
This is because our python operators are added by modify-python-lldb.py,
which performs postprocessing on the swig-generated interface files.
In this patch, I add the "operator bool" to all SB classes which have an
IsValid method (which is the same logic used by modify-python-lldb.py).
This way, we make the two interfaces more constent, and it allows us to
rely on swig's automatic syntesis of python __nonzero__ methods instead
of doing manual fixups.
Reviewers: zturner, jingham, clayborg, jfb, serge-sans-paille
Subscribers: jdoerfert, lldb-commits
Differential Revision: https://reviews.llvm.org/D58792
llvm-svn: 355824
the input StringRef is not guaranteed to be null-terminated, so using
data to get the c string is wrong. Luckily, in two of the usages the
target function already accepts a StringRef so we can just drop the
data() call, and the third one is easily replaced by a stringref-aware
function.
Issue found by msan.
llvm-svn: 355817
Summary:
Within .lldbinit, regex commands can be structured as a list of substitutions over
multiple lines. It's possible that this is uninentional, but it works and has
benefits.
For example:
command regex <command-name>
s/pat1/repl1/
s/pat2/repl2/
...
I use this form of `command regex` in my `~/.lldbinit`, because it makes it
clearer to write and read compared to a single line definition, because
multiline substitutions don't need to be quoted, and are broken up one per line.
However, multiline definitions result in usage instructions being printed for
each use. The result is that every time I run `lldb`, I get a dozen or more
lines of noise. With this change, the instructions are only printed when
`command regex` is invoked interactively, or from a terminal, neither of which
are true when lldb is sourcing `~/.lldbinit`.
Reviewers: clayborg, jingham
Reviewed By: clayborg
Subscribers: jdoerfert, kastiglione, xiaobai, keith, lldb-commits
Differential Revision: https://reviews.llvm.org/D48752
llvm-svn: 355793
Fix 2lwp_process_SIGSEGV NetBSD core test to terminate inside regular
function rather than libc call, in order to get reproducible backtrace
on different platforms.
Differential Revision: https://reviews.llvm.org/D59177
llvm-svn: 355786
Adjust the XFAIL-ing tests to match consistent results from buildbot.
I'm going to work on differences between them and my local results
following this.
llvm-svn: 355774
The code commited in r355764 didn't do what I want as I typed GetThreadID
instead of GetQueueID. This commit contains a (hopefully) better version
of the workaround.
llvm-svn: 355766
This is not a fix, but if I understand enough of the issue, it should
bail out early of the test when in a situation that would result in
a failure down the road.
llvm-svn: 355764
Inspired by Zachary's mail on lldb-dev, this seemed like low hanging
fruit. This patch breaks the circular dependency between commands and
expression.
Differential revision: https://reviews.llvm.org/D59158
llvm-svn: 355762
to do "databuffer + offset" so that we don't overflow the uint64_t's
we're using for addresses when working with high addresses.
Found with clang's ubsan while doing darwin kernel debugging.
<rdar://problem/48728940>
llvm-svn: 355761
Fix the NetBSD core test not to verify libc function names in backtrace.
This obviously requires the same libc.so as originally used to produce
the core file, and so it is going to fail everywhere except on my
system.
llvm-svn: 355747
Improve the support for processing NetBSD cores. Fix reading process
identifier, thread information and associating the terminating signal
with the correct thread.
Includes test cases for single-threaded program receiving SIGSEGV,
and two dual-threaded programs: one where thread receives the signal,
and the other one when the whole process is signalled.
Differential Revision: https://reviews.llvm.org/D32149
llvm-svn: 355736
Add a macro that doesn't actually record anything but still toggles the
API boundary. Removing just the register macros for lldb::thread_t
wasn't sufficient on NetBSD because the serialization logic needed the
underlying type to be complete.
This macro should be used by functions that are currently unsupported,
as they might trip the API boundary logic. This should be easy using the
lldb-instr tool.
llvm-svn: 355709
I changed the variable to an unsigned to get rid of a signed and
unsigned compare without realizing the value could be negative. This
fixes the assert instead.
llvm-svn: 355708
The last round of logging taught us that when the test fails, lldb
is indeed aware of the thread it's failing to associate to a given
queue. Add more logging to try to figure out why the thread and the
queue do not appear related to the Queue APIs.
llvm-svn: 355706
The overload and/or template specialization are regular functions and
should be marked inline when implemented in the header. Writing the
previous commit message should've made that obvious but I was already
overthinking it. This will fix the windows bot.
llvm-svn: 355657
Previously if an invalid program was specified, there was a bug
which, when we attempted to launch the program, would report that
the operation succeeded, causing LLDB to then hang while waiting
indefinitely to receive some events from the process.
After this patch, when an invalid program is specified, we immediately
return to vs code with an error message that indicates that the
program can not be found.
Differential Revision: https://reviews.llvm.org/D59114
llvm-svn: 355656
The current record macros already log the function being called. This
patch extends the macros to also log their input arguments and removes
explicit logging from the SB API.
This might degrade the amount of information in some cases (because of
smarter casts or efforts to log return values). However I think this is
outweighed by the increased coverage and consistency. Furthermore, using
the reproducer infrastructure, diagnosing bugs in the API layer should
become much easier compared to relying on log messages.
Differential revision: https://reviews.llvm.org/D59101
llvm-svn: 355649
I committed an implementation of GetClangResourceDir on windows but
forgot to update this test. I merged the tests like I intended to, but I
realized that the test was actually failing. After looking into it, it
appears that FileSystem::Resolve was taking the path and setting
the FileSpec's Directory to "/path/to/lldb/lib/clang/" and the File to
"9.0.0" which isn't what we want. So I removed the resolve line from
DefaultComputeClangResourceDir.
llvm-svn: 355648
Windows can't use standard i/o system calls such as read and write
to work with sockets, it instead needs to use the specific send
and recv calls. This complicates matters for the debug adapter,
since it needs to be able to work in both server mode where it
communicates over a socket, as well as non-server mode where it
communicates via stdin and stdout. To abstract this out, I've
introduced a class IOStream which hides all these details and
exposes a read/write interface that does the right on each
platform.
Differential Revision: https://reviews.llvm.org/D59104
llvm-svn: 355637
Summary: This function is useful for expression evaluation, especially when doing swift debugging on windows.
Reviewers: aprantl, labath
Reviewed By: labath
Subscribers: teemperor, jdoerfert, lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D59072
llvm-svn: 355631
Summary: DW_OP_GNU_addr_index has been renamed as DW_OP_addrx in the standard. clang produces DW_OP_addrx tags and with this change lldb starts to process them.
Reviewers: aprantl, jingham, davide, clayborg, serge-sans-paille
Reviewed By: aprantl
Subscribers: jdoerfert, dblaikie, labath, shafik, lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D59004
llvm-svn: 355629
After D55626 I see a failure in my Fedora buildbot.
There is uninitialized variable as the Foo constructor has not been run and foo
is an autovariable.
(lldb) breakpoint set -f foo.cpp -l 11
Breakpoint 1: where = TestDataFormatter.test.tmp.out`main + 30 at foo.cpp:11:7, address = 0x000000000040112e
(lldb) run
Process 801065 stopped
* thread #1, name = 'TestDataFormatt', stop reason = breakpoint 1.1
frame #0: 0x000000000040112e TestDataFormatter.test.tmp.out`main(argc=1, argv=0x00007fffffffcc48) at foo.cpp:11:7
8 };
9
10 int main(int argc, char **argv) {
-> 11 Foo foo(1, 2.22);
12 return 0;
13 }
Process 801065 launched: '.../tools/lldb/lit/Reproducer/Functionalities/Output/TestDataFormatter.test.tmp.out' (x86_64)
(lldb) frame var
(int) argc = 1
(char **) argv = 0x00007fffffffcc48
(Foo) foo = (m_i = 4198432, m_d = 0)
While the testcase expects m_i will be 0.
Differential Revision: https://reviews.llvm.org/D59088
llvm-svn: 355611
As discussed on the mailing list, default serialization for thread ids
is not correct, even if they're represented as basic types. I'm
purposely leaving the corresponding record macros in place so that we
don't break the API boundary detection.
llvm-svn: 355610
lldb/cmake/modules/LLDBConfig.cmake does not build lldb-server on Windows:
if (CMAKE_SYSTEM_NAME MATCHES "Android|Darwin|FreeBSD|Linux|NetBSD")
set(LLDB_CAN_USE_LLDB_SERVER 1)
Also do not append 'platform' parameter twice - although that was quietly
ignored.
llvm-svn: 355579
"apple-latest" which llvm uses to indicate the newest supported ISA.
Add a unit test; I'm only testing an armv8.1 instruction in this
unit test which would already be disassembled correctly because we
set the disassembler to ARM v8.2 mode, but it ensures that nothing
has been broken by adding this cpu spec.
<rdar://problem/38714781>
llvm-svn: 355578
Summary:
If LLDB_DISABLE_PYTHON is set, some functions are unavailable but
SBReproducer assumes they are. Let's conditionally register those functions
since they are conditionally declared.
Differential Revision: https://reviews.llvm.org/D59056
llvm-svn: 355575
This patch adds test that check that functionality in lldb continues to
work when replaying a reproducer.
- Entries in image list are identical.
- That stepping behaves the same.
- That the data formatters behave the same.
Differential revision: https://reviews.llvm.org/D55626
llvm-svn: 355570
DynamicLoaderDarwinKernel::KextImageInfo::LoadImageUsingMemoryModule
which would list every kext that failed to load when doing kernel
debugging. Instead, in DynamicLoaderDarwinKernel::ParseKextSummaries,
print a summary of how many kexts lldb was unable to load at the end.
I want to reduce the amount of output at the start of kernel debug
sessions a bit; we'll see if anyone really wanted to see the list of
which kexts specifically were unable to be loaded.
No functional change, only changing lldb's output at the start of
a kernel debug session.
<rdar://problem/48654569>
llvm-svn: 355565
/BIGOBJ is used to bypass certain COFF file format
limitations and is used with, unsurprisingly, very big
object files. This file has grown large enough that it
needs this flag in order to compile successfully.
llvm-svn: 355559
Summary:
In 2010 (r118866), filtering code was added to debugserver to avoid reporting threads
that were "not ready to be displayed to the user". This code inspects the thread's
state and discards threads marked 'uninterruptible'. Turns out, this state is pretty
common and not only a characterisitic of 'user-readiness'. This filtering was tracked
down as the source of the flakiness of TestQueues and TestConcurrent* with the symptom
of missing threads.
We discussed with the kernel team and there should be no need for us to filter the
restult of task_threads(). Everything that is returned from there can be examined.
So I went on and tried to remove the filtering completely. This produces other test
failures, where we were reporting more theads than expected. Always threads that had
been terminated, but weren't removed from the task bookkeeping structures yet. Those
threads always had a PC of 0.
This patch changes the heuristic to make the filtering a little less strict and only
rejects threads that are 'uninteruptible' *and* have a PC of 0. This has proven to be
solid in my testing.
Reviewers: jasonmolenda, clayborg, jingham
Subscribers: jdoerfert, lldb-commits
Differential Revision: https://reviews.llvm.org/D58912
llvm-svn: 355555
In mail
[lldb-dev] Remote debugging a docker process
https://lists.llvm.org/pipermail/lldb-dev/2019-March/014795.html
user was confused by --min-gdbserver-port and --max-gdbserver-port options
being ignored. I think there is even a bug that --max-gdbserver-port is upper
exclusive limit (and not upper inclusive limit appropriate for max).
At least this patch should catch such mistake by an error message. The question
is whether --max-gdbserver-port should not be changed to really be max and not
max+1 but that would break backward compatibility.
Now the mail example does produce:
error: --min-gdbserver-port (5001) is not lower than --max-gdbserver-port (5001)
Differential Revision: https://reviews.llvm.org/D58962
llvm-svn: 355554
My apologies for the large patch. With the exception of ConstString.h
itself it was entirely produced by sed.
ConstString has exactly one const char * data member, so passing a
ConstString by reference is not any more efficient than copying it by
value. In both cases a single pointer is passed. But passing it by
value makes it harder to accidentally return the address of a local
object.
(This fixes rdar://problem/48640859 for the Apple folks)
Differential Revision: https://reviews.llvm.org/D59030
llvm-svn: 355553
This was reverted because it breaks the GreenDragon bot, but
the reason for the breakage is lost, so I'm resubmitting this
now so we can find out what the problem is.
llvm-svn: 355528
Core files need to know the size of the PRSTATUS header so that we can grab the register values that follow it. The code that figure out this size was using a hard coded list of architecture cores instead of relying on 32 or 64 bit for most cores.
The fix here fixes core files for 32 bit ARM. Prior to this the PRSTATUS header size was being returned as zero and the register values were being taken from the first bytes of the PRSTATUS struct (signo, etc).
Differential Revision: https://reviews.llvm.org/D58985
llvm-svn: 355526
Summary: This tests a fix in the ASTImpoter.cpp to ensure that we import built-in correctly,
see differential: https://reviews.llvm.org/D58743
Once this change is merged this test should pass and should catch regressions in this feature.
Differential Revision: https://reviews.llvm.org/D58790
llvm-svn: 355525
On Windows, lldb::thread_t is just a void*, so the we will try to
allocate an object of type void when deserializing. Undef this for now
until we support void* arguments.
llvm-svn: 355519
Summary:
This file implements some general purpose data structures, and so it
belongs to the Utility module.
Reviewers: zturner, jingham, JDevlieghere, clayborg, espindola
Subscribers: emaste, mgorny, javed.absar, arichardson, MaskRay, lldb-commits
Differential Revision: https://reviews.llvm.org/D58970
llvm-svn: 355509
Pass appropriate -L and -Wl,-rpath flags pointing out to the LLVM
library directory on NetBSD. This is necessary since clang on NetBSD
requires libc++ but it is not installed as part of the system
by default. For the purpose of running buildbot, we want LLDB to use
just-built libc++.
Differential Revision: https://reviews.llvm.org/D58630
llvm-svn: 355502
Currently when lldb might be doing a kernel debug session, it scans through
memory by taking the current pc value and looking for a kernel at megabyte
boundaries, up to 32MB behind $pc. This adjusts the algorithm to
scan back at every 16k page boundary and to stop scanning as soon
as we hit a memory read error. The addition of stopping at a memory read
error saves us from tons of unnecessary packet traffic on generic
targets where lldb might look for a kernel binary.
I've been trying to think of how to construct a test for this; it's a bit
tricky. A gdb-remote protocol test with the contents of a fake tiny kernel
mach-o binary would satisify part of it, but this kernel path also directly
calls over to dsymForUUID or DebugSymbols framework lookups to find the
kernel binary as well. I'll keep thinking about this one, but it's so
intertangled with these two external systems that it may be hard to do.
<rdar://problem/48578197>
llvm-svn: 355476
The function signature of ComputeClangResourceDirectory for windows
wasn't updated when the others changed, causing the windows build to
fail. This should fix that.
llvm-svn: 355471
Now that the LLDB instrumentation macros are in place, we should use
that to test reproducer replay.
Differential revision: https://reviews.llvm.org/D58565
llvm-svn: 355470
Summary:
I'm doing this because I plan on implementing `ComputeClangResourceDirectory`
on windows so that `GetClangResourceDir` will work. Additionally, I made
test_paths make sure that the directory member of the returned FileSpec is not
none. This will fail on windows since `ComputeClangResourceDirectory` isn't
implemented yet.
Differential Revision: https://reviews.llvm.org/D58748
llvm-svn: 355463
This patch adds the SBReproducer macros needed to capture and reply the
corresponding calls. This patch was generated by running the lldb-instr
tool on the API source files.
Differential revision: https://reviews.llvm.org/D57475
llvm-svn: 355459
When running the test suite with the instrumentation macros, I noticed
two lldb-mi tests regressed. The issue was the copy constructor of
SBLineEntry. Without the macros the returned value would be elided, but
with the macros the copy constructor was called. The latter using ::IsValid
to determine whether the underlying opaque pointer should be set. This
is likely a remnant of when ::IsValid would only check the validity of the
smart pointer. In SBLineEntry however, it actually forwards to
LineEntry::IsValid().
So what happened here was that because of the macros the copy
constructor was called. The opaque pointer was valid but the LineEntry
didn't consider itself valid. So the copied-to object ended up default
initialized.
This patch replaces all checks for IsValid in copy (assignment)
constructors with checks for the opaque pointer itself.
Differential revision: https://reviews.llvm.org/D58946
llvm-svn: 355458
The intention in r355323 has been to implement a no-op resolver in the
HostInfoBase class, which will then be shadowed a an implementation in
the HostInfoPosix class. However, I add the shadowing declaration in
HostInfoPosix.h, and instead had implemented the HostInfoBase function
in HostInfoPosix.cpp. This has lead to undefined symbols on windows, and
a subsequent implementation of a no-op resolver in HostInfoWindows
(r355329).
Since now there is no point on having a no-op resolver in the base
class, I just remove the base declaration altogether, and have
HostInfoPosix implement the (newly-declared) HostInfoPosix version of
that function.
llvm-svn: 355398
There are set of classes in Target that describe the parameters of a
process - e.g. it's PID, name, user id, and similar. However, since it
is a bare description of a process and contains no actual functionality,
there's nothing specifically that makes this appropriate for being in
Target -- it could just as well be describing a process on the host, or
some hypothetical virtual process that doesn't even exist.
To cement this, I'm moving these classes to Utility. It's possible that
we can find a better place for it in the future, but as it is neither
Host specific nor Target specific, Utility seems like the most appropriate
place for the time being.
After this there is only 2 remaining references to Target from Host,
which I'll address in a followup.
Differential Revision: https://reviews.llvm.org/D58842
llvm-svn: 355342
Summary:
clang-cl tries to match cl's interface, and treats /U as "Removes a
predefined macro" as cl does. When you feed clang-cl a file that begins with
'/U' (e.g. /Users/xiaobai/foo.c), clang-cl will emit a warning and in some cases
an error, like so:
clang-9: warning: '/Users/xiaobai/foo.c' treated as the '/U' option [-Wslash-u-filename]
clang-9: note: Use '--' to treat subsequent arguments as filenames
clang-9: error: no input files
If you're using clang-cl, make sure '--' is passed before the source file.
Differential Revision: https://reviews.llvm.org/D58860
llvm-svn: 355341
Summary:
The current install-clang-headers target installs clang's resource
directory headers. This is different from the install-llvm-headers
target, which installs LLVM's API headers. We want to introduce the
corresponding target to clang, and the natural name for that new target
would be install-clang-headers. Rename the existing target to
install-clang-resource-headers to free up the install-clang-headers name
for the new target, following the discussion on cfe-dev [1].
I didn't find any bots on zorg referencing install-clang-headers. I'll
send out another PSA to cfe-dev to accompany this rename.
[1] http://lists.llvm.org/pipermail/cfe-dev/2019-February/061365.html
Reviewers: beanz, phosek, tstellar, rnk, dim, serge-sans-paille
Subscribers: mgorny, javed.absar, jdoerfert, #sanitizers, openmp-commits, lldb-commits, cfe-commits, llvm-commits
Tags: #clang, #sanitizers, #lldb, #openmp, #llvm
Differential Revision: https://reviews.llvm.org/D58791
llvm-svn: 355340
That patch added a function to HostInfo that returns an instance
of UserIDResolver, but this function was unimplemented on Windows,
leading to linker errors. For now, just return a dummy implementation
that doesn't resolve user ids to get the build green.
llvm-svn: 355329
Summary:
This creates an abstract base class called "UserIDResolver", which can
be implemented to provide user/group ID resolution capabilities for
various objects. Posix host implement a PosixUserIDResolver, which does
that using posix apis (getpwuid and friends). PlatformGDBRemote
forwards queries over the gdb-remote link, etc. ProcessInstanceInfo
class is refactored to make use of this interface instead of taking a
platform pointer as an argument. The base resolver class already
implements caching and thread-safety, so implementations don't have to
worry about that.
The main motivating factor for this was to remove external dependencies
from the ProcessInstanceInfo class (so it can be put next to
ProcessLaunchInfo and friends), but it has other benefits too:
- ability to test the user name caching code
- ability to test ProcessInstanceInfo dumping code
- consistent interface for user/group resolution between Platform and
Host classes.
Reviewers: zturner, clayborg, jingham
Subscribers: mgorny, lldb-commits
Differential Revision: https://reviews.llvm.org/D58167
llvm-svn: 355323
Add a convenience 'expectedFailureNetBSD' decorator and mark all tests
currently failing on NetBSD with it. Also skip a few tests that hang
the test suite. This should establish a baseline for the test suite
and get us closer to enabling tests on buildbot. This will help us
catch regressions while we still have a lot of work to do to get tests
working.
It seems that there are also some flaky tests. I am going to address
them later on.
Differential Revision: https://reviews.llvm.org/D58527
llvm-svn: 355320
Use '127.0.0.1' instead of 'localhost' in ConnectLocally() function
as this is the specific address the server is bound to. Using
'localhost' may involve trying IPv6 first which may accidentally be used
by another service.
While technically it might be interesting to support IPv6 here, it would
need to be supported properly, with the connection copying family
and address from the listening socket, and possibly without relying
on existence of 'localhost' at all.
Differential Revision: https://reviews.llvm.org/D58883
llvm-svn: 355285
This stanza was removed in r355213, but it seems that patch did not
fully fix the problem, as the test still fails sporadically
(particularly under heavy load) on linux.
llvm-svn: 355276
Remove the code forcing -stdlib=libstdc++ on NetBSD in getBuildFlags()
method. NetBSD uses libc++ everywhere else, and using libstdc++ here
causes lang/cpp/dynamic-value to fail to build.
Differential Revision: https://reviews.llvm.org/D58871
llvm-svn: 355273
automatic move should not fire when returning type T in a function with
result type Expected<T>. Some compilers seem to allow that nonetheless.
llvm-svn: 355270
This patch adds the necessary logic to capture and replay commands
entered into the command interpreter. A DataRecorder shadows the input
and writes its data to a know file. During replay this file is used as
the command interpreter's input.
It's possible to the command interpreter more than once, with a
different input source. We support this scenario by using multiple
buffers. The synchronization for this takes place at the SB layer, where
we create a new recorder every time the debugger input is changed.
During replay we use the corresponding buffer as input.
Differential revision: https://reviews.llvm.org/D58564
llvm-svn: 355249
When the debugger is run in sync mode, you need to
be able to tell whether a hijacked resume is for some
special purpose (like waiting for the SIGSTOP on attach)
or just to perform a synchronous resume. Target::Launch was doing
that wrong, and that caused stop-hooks on process launch
in source files to behave incorrectly.
<rdar://problem/48115661>
Differential Revision: https://reviews.llvm.org/D58727
llvm-svn: 355213
from 30 seconds to 120 seconds. We've seen cases where
this symbol lookup can exceed 30 seconds for people
working remotely.
<rdar://problem/48460476>
llvm-svn: 355169
Summary:
The clang headers are useful when dealing with clang modules. There is also a
way to get to the clang headers from the SB API so it would be nice if they were
also available when we just build lldb.
Differential Revision: https://reviews.llvm.org/D58793
llvm-svn: 355149
The existing comment about over-allocating the command line was incorrect. The
contents of the command line may be changed, but it's not necessary to over
allocate. The changes will be limited to the existing contents of the string
(e.g., by replacing spaces with L'\0' to tokenize the command line).
Also added a comment explaining a possible cause of failure to save the next
programmer some time when they try to debug a 64-bit process from a 32-bit
LLDB.
llvm-svn: 355121
This was previously scattered between the main CMakeLists.txt file and
LLDBGenerateConfig.cmake and LLDBConfig.cmake. This caused the some of
the code to be executed in incorrect order. Specifically, the check for
el_winsertstr was done before libedit_LIBRARIES was computed, and so it
always failed on the first run.
Moving it the two checks to a central place makes sure this doesn't
happen again and improves the overall readability.
llvm-svn: 355103
This extra call to the demangler doesn't affect the performance of C++
because the result is being cached anyway; but I'm working on a patch
to the Swift branch that uses extra contextual information to provide
a more accurate demangling result. In that case this call would be
extra and unnecessary work.
Differential Revision: https://reviews.llvm.org/D58720
llvm-svn: 355042
Given that we have a target named Symbols, one wonders why a
file named Symbols.cpp is not in this target. To be clear,
the functions exposed from this file are really focused on
*locating* a symbol file on a given host, which is where the
ambiguity comes in. However, it makes more sense conceptually
to be in the Symbols target. While some of the specific places
to search for symbol files might change depending on the Host,
this is not inherently true in the same way that, for example,
"accessing the file system" or "starting threads" is
fundamentally dependent on the Host.
PDBs, for example, recently became a reality on non-Windows platforms,
and it's theoretically possible that DSYMs could become a thing on non
MacOSX platforms (maybe in a remote debugging scenario). Other types of
symbol files, such as DWO, DWP, etc have never been tied to any Host
platform anyway.
After this patch, there is only one remaining dependency from
Host to Target.
Differential Revision: https://reviews.llvm.org/D58730
llvm-svn: 355032
Traditionally objc had two entry points, objc_msgSend for scalar
return methods, and objc_msgSend_stret for struct return convention
methods. But on arm64 the second was not needed (since arm64 doesn't
use an argument register for the struct return pointer) so it was removed.
The code that dispatches to the objc object checker when it sees some
flavor of objc_msgSend was not aware of this change so was sending the
wrong arguments to the checker.
<rdar://problem/48315890>
Differential Revision: https://reviews.llvm.org/D58699
llvm-svn: 355026
Debugging issues with instrumentation capture and replay can be
particularly tricky, especially because part of the process takes places
even before the debugger is initialized. This patch adds more logging
capabilities to these classes, hidden behind a macro define.
Differential revision: https://reviews.llvm.org/D58566
llvm-svn: 355002
It turns out these tests actually succeed, if one has a clang with
address sanitizer support enabled (i.e., has enabled the compiler-rt
project). I guess none of the linux lldb devs have done that until now.
llvm-svn: 354976
Summary:
Swig is perfectly capable of inserting blocks of python code into its
output (and we use those fascilities already), so there's no need for
this to be done in a post-process step.
lldb_iter is a general-purpose utility used from many classes, so I add
it to the main swig file. The other two blocks are tied to a specific
class, so I add it to the interface file of that class.
Reviewers: zturner, jingham, serge-sans-paille
Subscribers: jdoerfert, lldb-commits
Differential Revision: https://reviews.llvm.org/D58350
llvm-svn: 354975
Summary:
This behavior was originally added in rL252264 (git commit 76a7f365da)
in order to be extra careful with handling platforms like watchos and tvos.
However, as far as triples go, those two (and others) are treated as OSes and
not environments, so that should not really apply here.
Additionally, this behavior is incorrect and can lead to incorrect ArchSpecs.
Because android is specified as an environment and not an OS, not propogating
the environment can lead to modules and targets being misidentified.
Differential Revision: https://reviews.llvm.org/D58664
llvm-svn: 354938
Summary:
These functions should always return the opposite of the
`Triple{Environment,OS,Vendor}WasSpecified` functions. Unspecified unknown is
the same as unspecified, which is why one set of functions should give us what
we want. It's possible to have specified unknown, which is why we can't just
rely on checking the enum values of vendor/os/environment. We must also ensure
that the names of these are empty and not "unknown".
Differential Revision: https://reviews.llvm.org/D58653
llvm-svn: 354933
Pass dummy '.' as format string for Timer() rather than an empty string,
in order to silence gcc warnings about empty format string
(-Wformat-zero-length). The actual format string is irrelevant
to the test in question.
Differential Revision: https://reviews.llvm.org/D58680
llvm-svn: 354922
Set LD_LIBRARY_PATH or local platform's equivalent of it when running
the 'Suite' tests. This is necessary when running tests inside build
tree with BUILD_SHARED_LIBS enabled, in order to make the LLDB modules
load freshly built LLVM libraries.
The code is copied from clang (test/Unit/lit.cfg). SHLIBDIR
substitution is added to site-config (already present in top-level LLDB
site-config) to future-proof this into supporting stand-alone builds
with shared LLDB libraries.
Differential Revision: https://reviews.llvm.org/D58610
llvm-svn: 354920
Line number is a decimal number and is printed as such, however for some
reason it was prefixed with '0x', thus turning printed value invalid.
Patch by Anton Kolesov <Anton.Kolesov@synopsys.com>
llvm-svn: 354804
They aren't designed to nest recursively, so this will prevent that.
Also add a --auto-continue flag, putting "continue" in the stop hook makes
the stop hooks fight one another in multi-threaded programs.
Also allow more than one -o options so you can make more complex stop hooks w/o
having to go into the editor.
<rdar://problem/48115661>
Differential Revision: https://reviews.llvm.org/D58394
llvm-svn: 354706
The deserializer was not handling this case. For now we just
accept the absent option, and set it to the breakpoint default.
This will be more important if/when I figure out how to serialize
the options set on breakpont locations.
<rdar://problem/48322664>
llvm-svn: 354702
remove the Initialize function, move the things that can fail into the
static factory function. The factory function now returns
Expected<Parser> instead of Optional<Parser> so that it can give a
reason why creation failed.
llvm-svn: 354668
The tests were doing two somewhat independent things:
- checking that the registers can be retrieved from the minidump file
- checking that they can be converted into a form suitable for
consumption by lldb
The first thing requires a minidump file (but it's independent of other
lldb structures), while the second one does not require a minidump file
(but it needs lldb register info structures).
Splitting this into two tests gives an opportunity to write more
detailed tests, and allows the two pieces of functionality to be moved
into different packages, if that proves to be necessary.
llvm-svn: 354662
As per the discussion on the mailing list:
http://lists.llvm.org/pipermail/lldb-commits/Week-of-Mon-20190218/048007.html
This commit implements option (3):
> Go back to initializing the reproducer before the rest of the debugger.
> The method wouldn't be instrumented and guarantee no other SB methods are
> called or SB objects are constructed. The initialization then becomes part
> of the replay.
Differential revision: https://reviews.llvm.org/D58410
llvm-svn: 354631
Fix the load_* using test Makefiles not to link -ldl on NetBSD.
There is no such a library on NetBSD, and dlopen() is available
without a library. Quoting the manpage:
(These functions are not in a library. They are included in every
dynamically linked program automatically.)
To resolve this portably, introduce a new USE_LIBDL option. If it set
to 1, Makefile.rules automatically appends -ldl on platforms needing it.
Differential Revision: https://reviews.llvm.org/D58517
llvm-svn: 354617
Getting failure when building in a directory which is symlinked elsewhere:
Failing Tests (1):
lldb-Suite :: functionalities/breakpoint/comp_dir_symlink/TestCompDirSymLink.py
lldb-Suite :: source-manager/TestSourceManager.py
For TestCompDirSymLink:
------------------------------------------------------------------------------
runCmd: file .../lldb-test-build.noindex/functionalities/breakpoint/comp_dir_symlink/TestCompDirSymLink.test_symlink_paths_set_procselfcwd_dwarf/CompDirSymLink
output: Current executable set to '.../lldb-test-build.noindex/functionalities/breakpoint/comp_dir_symlink/TestCompDirSymLink.test_symlink_paths_set_procselfcwd_dwarf/CompDirSymLink' (x86_64).
runCmd: settings set plugin.symbol-file.dwarf.comp-dir-symlink-paths /proc/self/cwd
output: None
runCmd: breakpoint set -f ".../lldb-test-build.noindex/functionalities/breakpoint/comp_dir_symlink/TestCompDirSymLink.test_symlink_paths_set_procselfcwd_dwarf/relative.cpp" -l 11
output: Breakpoint 1: no locations (pending).
WARNING: Unable to resolve breakpoint to any actual locations.
It is because /proc/self/cwd (used above for plugin.symbol-file.dwarf.comp-dir-symlink-paths) points to an already resolved directory:
(cd /tmp;mkdir real;ln -s real symlink;cd symlink;ls -l /proc/self/cwd)
lrwxrwxrwx 1 jkratoch jkratoch 0 Feb 20 19:55 /proc/self/cwd -> /tmp/real/
------------------------------------------------------------------------------
For TestSourceManager the resolving is done by 'make -C' as found by Pavel Labath.
Differential Revision: https://reviews.llvm.org/D58465
llvm-svn: 354556
Summary:
While debugging an android process remotely from a windows machine, I
noticed that the modules constructed from an object file in memory only had
information about the architecture. Without knowledge of the OS or environment,
expression evaluation sometimes leads to incorrectly generated code or a
debugger crash. While we cannot know for certain what triple a module
constructed from an in-memory object file will have, we can use the
triple from the target to try and fill in the missing details.
Reviewers: clayborg, zturner, JDevlieghere, compnerd, aprantl, labath
Subscribers: jdoerfert, lldb-commits
Differential Revision: https://reviews.llvm.org/D58405
llvm-svn: 354526
Davide Italiano