In certain configurations, libc++ headers all exist in the same directory, and libc++ binaries exist in the same directory as lldb libs. When `LLVM_ENABLE_PER_TARGET_RUNTIME_DIR` is enabled (*and* the host is not Apple, which is why I assume this wasn't caught by others?), this is not the case: most headers will exist in the usual `include/c++/v1` directory, but `__config_site` exists in `include/$TRIPLE/c++/v1`. Likewise, the libc++.so binary exists in `lib/$TRIPLE/`, not `lib/` (where LLDB libraries reside).
This also adds the just-built-libcxx functionality to the lldb-dotest tool.
The `LIBCXX_` cmake config is borrowed from `libcxx/CMakeLists.txt`. I could not figure out a way to share the cmake config; ideally we would reuse the same config instead of copy/paste.
Reviewed By: JDevlieghere, fdeazeve
Differential Revision: https://reviews.llvm.org/D133973
This patch will gather debug info & breakpoint info from the statistics dump and send to DAP in terminated event.
We will return full contents of statistics dump (`SBTarget.GetStatistics()`) as a JSON string. So that every time a new field being added, we will be able to capture them from DAP log without changing lldb-vscode.
All the info above will be append to `statistics` field in the terminated event
Test Plan
Debugged a simple hello world program from VSCode. Exit debug session in two ways: 1) run to program exit; 2) user initiated debug session end (quit debugging before program exit).
Check DAP log and see both debug sessions have statistics returned in terminated event.
Here's an example when debugging the test program:
```
{"event":"terminated","seq":0,"statistics":"{\"memory\":{\"strings\":{\"bytesTotal\":1851392,\"bytesUnused\":905933,\"bytesUsed\":945459}},\"modules\":[{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":93901655961472,\"path\":\"/data/users/wanyi/llvm-sand/build/Debug/fbcode-x86_64/toolchain/lldb-test-build.noindex/tools/lldb-vscode/terminated-event/TestVSCode_terminatedEvent.test_terminated_event/a.out.stripped\",\"symbolTableIndexTime\":0.00067299999999999999,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.00054799999999999998,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"E317E50F\"},{\"debugInfoByteSize\":833593,\"debugInfoEnabled\":true,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0.012657,\"debugInfoParseTime\":0.32714500000000002,\"identifier\":93901656106336,\"path\":\"/usr/lib64/ld-2.28.so\",\"symbolTableIndexTime\":0.0017719999999999999,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.025423000000000001,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"57D782C6-AF24-135E-6970-7B9D3334B91B-6CD33392\"},{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":93901654578688,\"path\":\"[vdso](0x00007ffff7ffd000)\",\"symbolTableIndexTime\":3.1000000000000001e-05,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.00038900000000000002,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64-unknown-linux-gnu\",\"uuid\":\"B5AF4022-69CE-E598-5703-F5C62C32322D-D9CF26D1\"},{\"debugInfoByteSize\":1020,\"debugInfoEnabled\":true,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0.0021559999999999999,\"debugInfoParseTime\":0.00024699999999999999,\"identifier\":140008887806080,\"path\":\"/data/users/wanyi/llvm-sand/build/Debug/fbcode-x86_64/toolchain/lldb-test-build.noindex/tools/lldb-vscode/terminated-event/TestVSCode_terminatedEvent.test_terminated_event/libfoo.so\",\"symbolTableIndexTime\":6.2000000000000003e-05,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.00080800000000000002,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--\",\"uuid\":\"109BFB15\"},{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":140008887859888,\"path\":\"/lib64/libdl.so.2\",\"symbolTableIndexTime\":0.000105,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.0013470000000000001,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"776BF255-7FD5-1D1A-CAB0-D1D2D7568263-EC5999B5\"},{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":140008887883408,\"path\":\"/lib64/libstdc++.so.6\",\"symbolTableIndexTime\":0.038710000000000001,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.075740000000000002,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"104D4081-3FC7-4F42-7CD4-AC714B249C02-DA5E62C3\"},{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":140008887951248,\"path\":\"/lib64/libm.so.6\",\"symbolTableIndexTime\":0.003212,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.027257,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"089E6D24-BF02-DE2B-C57E-456118BFDC1D-691B14BB\"},{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":140008888170224,\"path\":\"/lib64/libgcc_s.so.1\",\"symbolTableIndexTime\":0.000357,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.0040460000000000001,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--\",\"uuid\":\"CD2F6200-D8CA-7045-ADDB-17C6C4240AAC-5DE305B1\"},{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":140008887911072,\"path\":\"/lib64/libc.so.6\",\"symbolTableIndexTime\":0.0070210000000000003,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.072236999999999996,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"F65C85BF-DB90-4B62-3D4F-E2139B4D7C25-CF8C0B58\"},{\"debugInfoByteSize\":833593,\"debugInfoEnabled\":true,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0.012407,\"debugInfoParseTime\":0.012078999999999999,\"identifier\":140008887927648,\"path\":\"/lib64/ld-linux-x86-64.so.2\",\"symbolTableIndexTime\":0.001758,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.022352,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"57D782C6-AF24-135E-6970-7B9D3334B91B-6CD33392\"}],\"targets\":[{\"breakpoints\":[{\"details\":{\"Breakpoint\":{\"BKPTOptions\":{\"AutoContinue\":false,\"ConditionText\":\"\",\"EnabledState\":true,\"IgnoreCount\":0,\"OneShotState\":false},\"BKPTResolver\":{\"Options\":{\"NameMask\":[56],\"Offset\":0,\"SkipPrologue\":true,\"SymbolNames\":[\"foo\"]},\"Type\":\"SymbolName\"},\"Hardware\":false,\"Names\":[\"vscode\"],\"SearchFilter\":{\"Options\":{},\"Type\":\"Unconstrained\"}}},\"id\":1,\"internal\":false,\"numLocations\":1,\"numResolvedLocations\":1,\"resolveTime\":0.0020110000000000002},{\"details\":{\"Breakpoint\":{\"BKPTOptions\":{\"AutoContinue\":false,\"ConditionText\":\"\",\"EnabledState\":true,\"IgnoreCount\":0,\"OneShotState\":false},\"BKPTResolver\":{\"Options\":{\"Column\":0,\"Exact\":false,\"FileName\":\"/data/users/wanyi/llvm-sand/external/llvm-project/lldb/test/API/tools/lldb-vscode/terminated-event/main.cpp\",\"Inlines\":true,\"LineNumber\":5,\"Offset\":0,\"SkipPrologue\":true},\"Type\":\"FileAndLine\"},\"Hardware\":false,\"Names\":[\"vscode\"],\"SearchFilter\":{\"Options\":{},\"Type\":\"Unconstrained\"}}},\"id\":2,\"internal\":false,\"numLocations\":0,\"numResolvedLocations\":0,\"resolveTime\":0.22744400000000001},{\"details\":{\"Breakpoint\":{\"BKPTOptions\":{\"AutoContinue\":false,\"ConditionText\":\"\",\"EnabledState\":true,\"IgnoreCount\":0,\"OneShotState\":false},\"BKPTResolver\":{\"Options\":{\"Language\":\"c\",\"NameMask\":[4,4,4,4,4,4],\"Offset\":0,\"SkipPrologue\":false,\"SymbolNames\":[\"_dl_debug_state\",\"rtld_db_dlactivity\",\"__dl_rtld_db_dlactivity\",\"r_debug_state\",\"_r_debug_state\",\"_rtld_debug_state\"]},\"Type\":\"SymbolName\"},\"Hardware\":false,\"SearchFilter\":{\"Options\":{\"ModuleList\":[\"/usr/lib64/ld-2.28.so\"]},\"Type\":\"Modules\"}}},\"id\":-1,\"internal\":true,\"kindDescription\":\"shared-library-event\",\"numLocations\":1,\"numResolvedLocations\":1,\"resolveTime\":0.00034600000000000001}],\"expressionEvaluation\":{\"failures\":0,\"successes\":0},\"firstStopTime\":0.157499681,\"frameVariable\":{\"failures\":0,\"successes\":0},\"launchOrAttachTime\":0.117741226,\"moduleIdentifiers\":[93901655961472,93901656106336,93901654578688,140008887806080,140008887859888,140008887883408,140008887951248,140008888170224,140008887911072],\"signals\":[{\"SIGSTOP\":1}],\"sourceMapDeduceCount\":0,\"stopCount\":8,\"targetCreateTime\":0.00064000000000000005,\"totalBreakpointResolveTime\":0.22980100000000003}],\"totalDebugInfoByteSize\":1668206,\"totalDebugInfoEnabled\":3,\"totalDebugInfoIndexLoadedFromCache\":0,\"totalDebugInfoIndexSavedToCache\":0,\"totalDebugInfoIndexTime\":0.027220000000000001,\"totalDebugInfoParseTime\":0.33947100000000002,\"totalModuleCount\":10,\"totalModuleCountHasDebugInfo\":3,\"totalSymbolTableIndexTime\":0.053701000000000006,\"totalSymbolTableParseTime\":0.23014699999999999,\"totalSymbolTableStripped\":0,\"totalSymbolTablesLoadedFromCache\":0,\"totalSymbolTablesSavedToCache\":0}","type":"event"}
```
Differential Revision: https://reviews.llvm.org/D136177
This makes use of the changes introduced in D134604, in order to
instantiate alias templates witn a final sugared substitution.
This comes at no additional relevant cost.
Since we don't track / unique them in specializations, we wouldn't be
able to resugar them later anyway.
Signed-off-by: Matheus Izvekov <mizvekov@gmail.com>
Differential Revision: https://reviews.llvm.org/D136565
These tests were being tested against a version of libipt from last
year. We just updated libipt to top of tree and many errors broke
because the new version of libipt emits more events than the older one,
which is fine.
`./bin/lldb-dotest -p TestTrace` passes
There is a bug in lldb-vscode that only shows stop reason ("exception") in
stopped event without showing the stop description of thrown exception. This
causes VSCode UI to only show "Paused on Exception" general message in
callstack window UI.
This patch fixes the bug so that VSCode callstack will show the detailed
exceptioni description, like "signal SIGABRT" or "EXC_BAD_ACCESS..." which
aligns with command line lldb experience.
I use C++ exception in testcase because the hardware exception description is
platform dependent and hard to verify.
Differential Revision: https://reviews.llvm.org/D136295
The low-level decoder might fall into an infinite decoding loop for
various reasons, the simplest being an infinite direct loop reached due
to wrong handling of self-modified code in the kernel, e.g. it might
reach
```
0x0A: pause
0x0C: jump to 0x0A
```
In this case, all the code is sequential and requires no packets to be
decoded. The low-level decoder would produce an output like the
following
```
0x0A: pause
0x0C: jump to 0x0A
0x0A: pause
0x0C: jump to 0x0A
0x0A: pause
0x0C: jump to 0x0A
... infinite amount of times
```
These cases require stopping the decoder to avoid infinite work and signal this
at least as a trace error.
- Add a check that breaks decoding of a single PSB once 500k instructions have been decoded since the last packet was processed.
- Add a check that looks for infinite loops after certain amount of instructions have been decoded since the last packet was processed.
- Add some `settings` properties for tweaking the thresholds of the checks above. This is also nice because it does the basic work needed for future settings.
- Add an AnomalyDetector class that inspects the DecodedThread and the libipt decoder in search for anomalies. These anomalies are then signaled as fatal errors in the trace.
- Add an ErrorStats class that keeps track of all the errors in a DecodedThread, with a special counter for fatal errors.
- Add an entry for decoded thread errors in the `dump info` command.
Some notes are added in the code and in the documention of the settings,
so please read them.
Besides that, I haven't been unable to create a test case in LLVM style, but
I've found an anomaly in the thread #12 of the trace
72533820-3eb8-4465-b8e4-4e6bf0ccca99 at Meta. We have to figure out how to
artificially create traces with this kind of anomalies in LLVM style.
With this change, that anomalous thread now shows:
```
(lldb)thread trace dump instructions 12 -e -i 23101
thread #12: tid = 8
...missing instructions
23101: (error) anomalous trace: possible infinite loop detected of size 2
vmlinux-5.12.0-0_fbk8_clang_6656_gc85768aa64da`panic_smp_self_stop + 5 [inlined] rep_nop at processor.h:13:2
23100: 0xffffffff81342785 pause
vmlinux-5.12.0-0_fbk8_clang_6656_gc85768aa64da`panic_smp_self_stop + 7 at panic.c:87:2
23099: 0xffffffff81342787 jmp 0xffffffff81342785 ; <+5> [inlined] rep_nop at processor.h:13:2
vmlinux-5.12.0-0_fbk8_clang_6656_gc85768aa64da`panic_smp_self_stop + 5 [inlined] rep_nop at processor.h:13:2
23098: 0xffffffff81342785 pause
vmlinux-5.12.0-0_fbk8_clang_6656_gc85768aa64da`panic_smp_self_stop + 7 at panic.c:87:2
23097: 0xffffffff81342787 jmp 0xffffffff81342785 ; <+5> [inlined] rep_nop at processor.h:13:2
vmlinux-5.12.0-0_fbk8_clang_6656_gc85768aa64da`panic_smp_self_stop + 5 [inlined] rep_nop at processor.h:13:2
23096: 0xffffffff81342785 pause
vmlinux-5.12.0-0_fbk8_clang_6656_gc85768aa64da`panic_smp_self_stop + 7 at panic.c:87:2
23095: 0xffffffff81342787 jmp 0xffffffff81342785 ; <+5> [inlined] rep_nop at processor.h:13:2
```
It used to be in an infinite loop where the decoder never stopped.
Besides that, the dump info command shows
```
(lldb) thread trace dump info 12
Errors:
Number of individual errors: 32
Number of fatal errors: 1
Number of other errors: 31
```
and in json format
```
(lldb) thread trace dump info 12 -j
"errors": {
"totalCount": 32,
"libiptErrors": {},
"fatalErrors": 1,
"otherErrors": 31
}
```
Differential Revision: https://reviews.llvm.org/D136557
Prior to this fix, if the compile unit function:
void CompileUnit::ResolveSymbolContext(const SourceLocationSpec &src_location_spec, SymbolContextItem resolve_scope, SymbolContextList &sc_list);
was called with a resolve scope that wasn't just eSymbolContextLineEntry, we would end up calling:
line_entry.range.GetBaseAddress().CalculateSymbolContext(&sc, resolve_scope);
This is ok as long as the line entry's base address is able to be resolved back to the same information, but there were problems when it didn't. The example I found was we have a file with a bad .debug_aranges section where the address to compile unit mapping was incomplete. When this happens, the above function call to calculate the symbol context would end up matching the module and it would NULL out the compile unit and line entry, which means we would fail to set this breakpoint. We have many other clients that ask for eSymbolContextEverything as the resolve_scope, so all other locations could end up failing as well.
The solutions is to make sure the compile unit matches the current compile unit after calling the calculate symbol context. If the compile unit is NULL, then we report an error via the module/debugger as this indicates an entry in the line table fails to resolve back to any compile unit. If the compile unit is not NULL and it differs from the current compile unit, we restore the current compile unit and line entry to ensure the call to .CalculateSymbolContext doesn't match something completely different, as can easily happen if LTO or other link time optimizations are enabled that could end up outlining or merging functions.
This patch allows breakpoint succeeding to work as expected and not get short circuited by our address lookup logic failing.
Differential Revision: https://reviews.llvm.org/D136207
The test TestObjCDirectMethods loads the Objective C runtime, which
doesn't work well with custom a libcxx, resulting in two copies of the
standard library being loaded at runtime.
Like what was done for `TestObjCExceptions`, this commit forces the
usage of the system's library instead. The minimum required Clang
version is set to the oldest Clang that can compile the libraries
available in the lldb-matrix bots.
Differential Revision: https://reviews.llvm.org/D136600
This requirement dates back to ten years ago and the test seems to work
nowadays with either libc++ or libstdc++.
Differential Revision: https://reviews.llvm.org/D136608
This patch teaches the `CPlusPlusNameParser` to parse the
demangled/prettified [[gnu::abi_tag(...)]] attribute. The demangled format
isn't standardized and the additions to the parser were mainly driven
using Clang (and the limited information on this from the official
Clang docs).
This change is motivated by multiple failures around step-in
behaviour for libcxx APIs (many of which have ABI tags as of recently).
LLDB determines whether the `step-avoid-regexp` matches the current
frame by parsing the scope-qualified name out of the demangled
function symbol. On failure, the `CPlusPlusNameParser` will simply
return the fully demangled name (which can include the return type)
to the caller, which in `FrameMatchesAvoidCriteria` means we will
not correctly decide whether we should stop at a frame or not if
the function has an abi_tag.
Ideally we wouldn't want to rely on the non-standard format
of demangled attributes. Alternatives would be:
1. Use the mangle tree API to do the parsing for us
2. Reconstruct the scope-qualified name from DWARF instead of parsing
the demangled name
(1) isn't feasible without a significant refactor of `lldb_private::Mangled`,
if we want to do this efficiently.
(2) could be feasible in cases where debug-info for a frame is
available. But it does mean we certain operations (such as step-in regexp,
and frame function names) won't work with/won't show ABI tags.
**Testing**
* Un-XFAILed step-in API test
* Added parser unit-tests
Differential Revision: https://reviews.llvm.org/D136306
This reverts commit 0205aa4a02570dfeda5807f66756ebdbb102744b because it
breaks TestArray.py:
a->c = <parent failed to evaluate: parent is NULL>
I decided to revert instead of disable the test because it looks like a
legitimate issue with the patch.
With -f(un)signed-char, the die corresponding to "char" may be the opposite DW_ATE_(un)signed_char from the default platform signedness.
Ultimately we should determine whether a type is the unspecified signedness char by looking if its name is "char" (as opposed to "signed char"/"unsigned char") and not care about DW_ATE_(un)signed_char matching the platform default.
Fixes#23443
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D136011
Currently, SymbolFileDWARFDebugMap works on the assumption that there is
only one compile unit per object file. This patch documents this
limitation (when using the general SymbolFile API), and allows users of
the concrete SymbolFileDWARFDebugMap class to find out about these extra
compile units.
Differential Revision: https://reviews.llvm.org/D136114
This patch adds a new matching method for data formatters, in addition
to the existing exact typename and regex-based matching. The new method
allows users to specify the name of a Python callback function that
takes a `SBType` object and decides whether the type is a match or not.
Here is an overview of the changes performed:
- Add a new `eFormatterMatchCallback` matching type, and logic to handle
it in `TypeMatcher` and `SBTypeNameSpecifier`.
- Extend `FormattersMatchCandidate` instances with a pointer to the
current `ScriptInterpreter` and the `TypeImpl` corresponding to the
candidate type, so we can run registered callbacks and pass the type
to them. All matcher search functions now receive a
`FormattersMatchCandidate` instead of a type name.
- Add some glue code to ScriptInterpreterPython and the SWIG bindings to
allow calling a formatter matching callback. Most of this code is
modeled after the equivalent code for watchpoint callback functions.
- Add an API test for the new callback-based matching feature.
For more context, please check the RFC thread where this feature was
originally discussed:
https://discourse.llvm.org/t/rfc-python-callback-for-data-formatters-type-matching/64204/11
Differential Revision: https://reviews.llvm.org/D135648
The JSON dumper is very minimalistic. It pretty much only shows the
delimiting instruction IDs of every segment, so that further queries to
the SBCursor can be used to make sense of the data. It's main purpose is
to be serialized somewhat cheaply.
I also renamed untracedSegment to untracedPrefixSegment, in case in the
future we add an untracedSuffixSegment. In any case, this new name is
more explicit, which I like.
Differential Revision: https://reviews.llvm.org/D136034
This diff implements the reconstruction algorithm for the call tree and
add tests.
See TraceDumper.h for documentation and explanations.
One important detail is that the tree objects are in TraceDumper, even
though Trace.h is a better home. I'm leaving that as future work.
Another detail is that this code is as slow as dumping the entire
symolicated trace, which is not that bad tbh. The reason is that we use
symbols throughout the algorithm and we are not being careful about
memory and speed. This is also another area for future improvement.
Lastly, I made sure that incomplete traces work, i.e. you start tracing
very deep in the stack or failures randomly appear in the trace.
Differential Revision: https://reviews.llvm.org/D135917
The command is thread trace dump function-calls and as minimum will
require printing to a file in json and non-json format
I added a test
Differential Revision: https://reviews.llvm.org/D135521
The test currently sets `USE_LIBSTDCPP = 0`, which is curious given the
behavior of `and` and `or` in Makefiles (the contents of the variables
are not important). In particular, this causes the tests to not use the
standard libraries appropriately.
To capture the actual intent of the test, we're changing this to
`USE_LIBCXX=1`.
Differential Revision: https://reviews.llvm.org/D136171
This test requires compiling its input program without debug
information. To do so, it uses certain Makefile variables that are never
populated with custom libcxx paths (if present). Doing so would not
necessarily be correct: we cannot guarantee that said standard library
has no debug symbols.
As such, we keep using the system libraries but disable the tests in
clang versions that are too old to work with more modern system
libraries, as in the case of the lldb-matrix bot.
Differential Revision: https://reviews.llvm.org/D136178
When UserExpression::Evaluate() fails and doesn't return a ValueObject there is no vehicle for returning the error in the return value.
This behavior can be observed by applying the following patch:
diff --git a/lldb/source/Target/Target.cpp b/lldb/source/Target/Target.cpp
index f1a311b7252c..58c03ccdb068 100644
--- a/lldb/source/Target/Target.cpp
+++ b/lldb/source/Target/Target.cpp
@@ -2370,6 +2370,7 @@ UserExpression *Target::GetUserExpressionForLanguage(
Expression::ResultType desired_type,
const EvaluateExpressionOptions &options, ValueObject *ctx_obj,
Status &error) {
+ error.SetErrorStringWithFormat("Ha ha!"); return nullptr;
auto type_system_or_err = GetScratchTypeSystemForLanguage(language);
if (auto err = type_system_or_err.takeError()) {
error.SetErrorStringWithFormat(
and then running
$ lldb -o "p 1"
(lldb) p 1
(lldb)
This patch fixes this by creating an empty result ValueObject that wraps the error.
Differential Revision: https://reviews.llvm.org/D135998
This patch fixes a regression with setting breakpoints on template
functions by name. E.g.,:
```
$ cat main.cpp
template<typename T>
struct Foo {
template<typename U>
void func() {}
};
int main() {
Foo<int> f;
f.func<double>();
}
(lldb) br se -n func
```
This has regressed since `3339000e0bda696c2e29173d15958c0a4978a143`
where we started using the `CPlusPlusNameParser` for getting the
basename of the function symbol and match it exactly against
the name in the breakpoint command. The parser will include template
parameters in the basename, so the exact match will always fail
**Testing**
* Added API tests
* Added unit-tests
Differential Revision: https://reviews.llvm.org/D135921
I'm trying to add a test which tests that the same substr occurs twice in a row, but it matches even if only one of the substr occurs.
This found a bug in concurrent_base.py.
Reviewed By: DavidSpickett
Differential Revision: https://reviews.llvm.org/D135826
This change fixes two issues in ValueObject::GetExpressionPath method:
1. Accessing members of struct references used to produce expression
paths such as "str.&str.member" (instead of the expected
"str.member"). This is fixed by assigning the flag tha the child
value is a dereference when calling Dereference() on references
and adjusting logic in expression path creation.
2. If the parent of member access is dereference, the produced
expression path was "*(ptr).member". This is incorrect, since it
dereferences the member instead of the pointer. This is fixed by
wrapping dereference expression into parenthesis, resulting with
"(*ptr).member".
Reviewed By: werat, clayborg
Differential Revision: https://reviews.llvm.org/D132734
**Summary**
The primary motivation for this patch is to make sure we handle
the step-in behaviour for functions in the `std` namespace which
have an `auto` return type. Currently the default `step-avoid-regex`
setting is `^std::` but LLDB will still step into template functions
with `auto` return types in the `std` namespace.
**Details**
When we hit a breakpoint and check whether we should stop, we call
into `ThreadPlanStepInRange::FrameMatchesAvoidCriteria`. We then ask
for the frame function name via `SymbolContext::GetFunctionName(Mangled::ePreferDemangledWithoutArguments)`.
This ends up trying to parse the function name using `CPlusPlusLanguage::MethodName::GetBasename` which
parses the raw demangled name string.
`CPlusPlusNameParser::ParseFunctionImpl` calls `ConsumeTypename` to skip
the (in our case auto) return type of the demangled name (according to the
Itanium ABI this is a valid thing to encode into the mangled name). However,
`ConsumeTypename` doesn't strip out a plain `auto` identifier
(it will strip a `decltype(auto) return type though). So we are now left with
a basename that still has the return type in it, thus failing to match the `^std::`
regex.
Example frame where the return type is still part of the function name:
```
Process 1234 stopped
* thread #1, stop reason = step in
frame #0: 0x12345678 repro`auto std::test_return_auto<int>() at main.cpp:12:5
9
10 template <class>
11 auto test_return_auto() {
-> 12 return 42;
13 }
```
This is another case where the `CPlusPlusNameParser` breaks us in subtle ways
due to evolving C++ syntax. There are longer-term plans of replacing the hand-rolled
C++ parser with an alternative that uses the mangle tree API to do the parsing for us.
**Testing**
* Added API and unit-tests
* Adding support for ABI tags into the parser is a larger undertaking
which we would rather solve properly by using libcxxabi's mangle tree
parser
Differential Revision: https://reviews.llvm.org/D135413
Previously we had a bit of a mix of "signed char" "unsigned char" and
"char".
This adds seperate min and max checks for all three types.
Depends on D135170
Reviewed By: Michael137
Differential Revision: https://reviews.llvm.org/D135352
As with static bool for whatever reason printing them on their own
worked fine but wasn't handled when you printed the whole type.
I don't see a good way to test this from clang's side so our existing
tests will have to do.
We can now print all of the struct "A", so there's no need for a separate
one for static bool testing. I've not checked the output, just that it
succeeds. This saves us having to handle different min/max between systems.
Depends on D135169
Reviewed By: aeubanks, shafik
Differential Revision: https://reviews.llvm.org/D135170
Fixes#58135
Somehow lldb was able to print the member on its own but when we try
to print the whole type found by "image lookup -t" lldb would crash.
This is because we'd encoded the initial value of the member as an integer.
Which isn't the end of the world because bool is integral for C++.
However, clang has a special AST node to handle literal bool and it
expected us to use that instead.
This adds a new codepath to handle static bool which uses cxxBoolLiteralExpr
and we get the member printed as you'd expect.
For testing I added a struct with just the bool because trying to print
all of "A" crashes as well. Presumably because one of the other member's
types isn't handled properly either.
So for now I just added the bool case, we can merge it with A later.
Reviewed By: aeubanks
Differential Revision: https://reviews.llvm.org/D135169
When adding a new synthetic child provider, we check for an existing
conflicting filter in the same category (and vice versa). This is done
by trying to match the new type name against registered formatters.
However, the new type name we're registered can also be a regex
(`type synth add -x`), and in this case the conflict check is just
wrong: it will try to match the new regex as if it was a type name,
against previously registered regexes.
See https://github.com/llvm/llvm-project/issues/57947 for a longer
explanation with concrete examples of incorrect behavior.
Differential Revision: https://reviews.llvm.org/D134570
This ensures it is run regardless of the method we use to initiate the
session (previous version did not handle connects), and it is the same
place that is used for resetting watchpoints.
Differential Revision: https://reviews.llvm.org/D134882
Use our "rich error" facility to propagate error reported by the stub to
the user. lldb-server reports rich launch errors as of D133352.
To make this easier to implement, and reduce code duplication, I have
moved the vRun/A/qLaunchSuccess handling into a single
GDBRemoteCommunicationClient function.
Differential Revision: https://reviews.llvm.org/D134754
These tests have begun failing starting with commit
`69a6417406a1b0316a1fa6aeb63339d0e1d2abbd`, which
added a new `import` to `ASTNodeImporter::VisitTypedefType`.
This trips an assertion in following way:
1. When creating a persistent variable for the result we call `CopyType`
(in `DeportType`) under a `CompleteTagDeclsScope` (which is supposed to complete all
decls newly imported in the `CopyType` call).
2. During `CopyType` we call `ASTNodeImporter::VisitTypedefType`
3. This now has a second import call on the desugared type
4. In `ASTImporterDelegate::ImportImpl` we will now try to import a decl
that we originally got from the `std` module (which means it has no valid origin).
But since we’re doing this under a CompleteTagDeclsScope, the
`NewDeclListener::NewDeclImported` adds the decl to the list of decls to
complete after the `CopyType` call. But this list shouldn’t contain decls
with invalid origins because we assert this in `~CompleteTagDeclsScope`, which
is where the tests crash.
We suspect that we previously didn’t see this assert trigger because by the time
we create the result variable we are using an AST whose decls all have
a valid debug-info origin (constructed with the help of the std module).
So we never expected decls from modules to be imported under
`CompleteTagDeclsScope` without a m_sema available (which is the case by
the time we get to `DeportType`). Since there is no `m_sema` available,
`CxxModuleHandler::Import` trivially returns and the decls don’t get added
to the `m_decls_to_ignore` list and count as "newly imported decls".
Skip this test for now until we have a fix or the origin tracking gets
refactored (see https://reviews.llvm.org/D101950).
Differential Revision: https://reviews.llvm.org/D135178
The synchronous callbacks are not intended to start the target running
during the callback, and doing so is flakey. This patch converts them
to being regular async callbacks, and adds some testing for sequential
reports that have caused problems in the field.
Differential Revision: https://reviews.llvm.org/D134927
This change fixes two issues in ValueObject::GetExpressionPath method:
1. Accessing members of struct references used to produce expression
paths such as "str.&str.member" (instead of the expected
"str.member"). This is fixed by assigning the flag tha the child
value is a dereference when calling Dereference() on references
and adjusting logic in expression path creation.
2. If the parent of member access is dereference, the produced
expression path was "*(ptr).member". This is incorrect, since it
dereferences the member instead of the pointer. This is fixed by
wrapping dereference expression into parenthesis, resulting with
"(*(ptr)).member".
Reviewed By: werat, clayborg
Differential Revision: https://reviews.llvm.org/D132734
After recent diffs that enable variable errors that stop variables from being correctly displayed when debugging, allow users to see these errors in the LOCALS variables in the VS Code UI. We do this by detecting when no variables are available and when there is an error to be displayed, and we add a single variable named "<error>" whose value is a string error that the user can read. This allows the user to be aware of the reason variables are not available and fix the issue. Previously if someone enabled "-gline-tables-only" or was debugging with DWARF in .o files or with .dwo files and those separate object files were missing or they were out of date, the user would see nothing in the variables view. Communicating these errors to the user is essential to a good debugging experience.
Differential Revision: https://reviews.llvm.org/D134333
Now that we display an error when users try to get variables, but something in the debug info is preventing variables from showing up, track this with a new bool in each module's statistic information named "debugInfoHadVariableErrors".
This patch modifies the code to track when we have variable errors in a module and adds accessors to get/set this value. This value is used in the module statistics and we added a test to verify this value gets set correctly.
Differential Revision: https://reviews.llvm.org/D134508
After recent diffs that enable variable errors that stop variables from being correctly displayed when debugging, allow users to see these errors in the LOCALS variables in the VS Code UI. We do this by detecting when no variables are available and when there is an error to be displayed, and we add a single variable named "<error>" whose value is a string error that the user can read. This allows the user to be aware of the reason variables are not available and fix the issue. Previously if someone enabled "-gline-tables-only" or was debugging with DWARF in .o files or with .dwo files and those separate object files were missing or they were out of date, the user would see nothing in the variables view. Communicating these errors to the user is essential to a good debugging experience.
Differential Revision: https://reviews.llvm.org/D134333
SectionLoadList has a section-to-address map (m_sect_to_addr) and
an address-to-section map (m_addr_to_sect). When the load address
of a section is updated, the old entry from m_addr_to_sect would
never be cleared, resulting in incorrect address-to-section address
lookups from that point forward.
Differential Revision: https://reviews.llvm.org/D130534
rdar://97308773