This reverts commit cd3091a88f7c55c90d9b5fff372ce1cdfc71948d.
This change crashes on macOS systems in
formatters::StdlibCoroutineHandleSyntheticFrontEnd when
it fails to create the `ValueObjectSP promise` and calls
a method on it. The failure causes a segfault while running
TestCoroutineHandle.py on the "LLDB Incremental" CI bot,
https://green.lab.llvm.org/green/view/LLDB/job/lldb-cmake/
This change originally landed via https://reviews.llvm.org/D132815
A malformed qMemoryRegionInfo response can easily trigger an infinite
loop if regions end (base + size) wraps the address space. A
particularly interesting is the case where base+size=0, which a stub
could use to say that the rest of the memory space is unmapped, even
though lldb expects 0xff... in this case.
One could argue which behavior is more correct (technically, the
current behavior does not say anything about the last byte), but unless
we stop using 0xff... to mean "invalid address", that discussion is very
academic. This patch truncates address ranges which wraps the address
space, which handles the zero case as well as other kinds of malformed
packets.
-flimit-debug-info and other compiler options might end up removing debug info that is needed for debugging. LLDB marks these types as being forcefully completed in the metadata in the TypeSystem. These types should have been complete in the debug info but were not because the compiler omitted them to save space. When we can't find a suitable replacement for the type, we should let the user know that these types are incomplete to indicate there was an issue instead of just showing nothing for a type.
The solution is to display presented in this patch is to display "<incomplete type>" as the summary for any incomplete types. If there is a summary string or function that is provided for a type, but the type is currently forcefully completed, the installed summary will be ignored and we will display "<incomplete type>". This patch also exposes the ability to ask a SBType if it was forcefully completed with:
bool SBType::IsTypeForcefullyCompleted();
This will allow the user interface for a debugger to also detect this issue and possibly mark the variable display up on some way to indicate to the user the type is incomplete.
To show how this is diplayed, we can look at the existing output first for the example source file from the file: lldb/test/API/functionalities/limit-debug-info/main.cpp
(lldb) frame variable inherits_from_one inherits_from_two one_as_member two_as_member array_of_one array_of_two shadowed_one
(InheritsFromOne) ::inherits_from_one = (member = 47)
(InheritsFromTwo) ::inherits_from_two = (member = 47)
(OneAsMember) ::one_as_member = (one = member::One @ 0x0000000100008028, member = 47)
(TwoAsMember) ::two_as_member = (two = member::Two @ 0x0000000100008040, member = 47)
(array::One [3]) ::array_of_one = ([0] = array::One @ 0x0000000100008068, [1] = array::One @ 0x0000000100008069, [2] = array::One @ 0x000000010000806a)
(array::Two [3]) ::array_of_two = ([0] = array::Two @ 0x0000000100008098, [1] = array::Two @ 0x0000000100008099, [2] = array::Two @ 0x000000010000809a)
(ShadowedOne) ::shadowed_one = (member = 47)
(lldb) frame variable --show-types inherits_from_one inherits_from_two one_as_member two_as_member array_of_one array_of_two shadowed_one
(InheritsFromOne) ::inherits_from_one = {
(int) member = 47
}
(InheritsFromTwo) ::inherits_from_two = {
(int) member = 47
}
(OneAsMember) ::one_as_member = {
(member::One) one = {}
(int) member = 47
}
(TwoAsMember) ::two_as_member = {
(member::Two) two = {}
(int) member = 47
}
(array::One [3]) ::array_of_one = {
(array::One) [0] = {}
(array::One) [1] = {}
(array::One) [2] = {}
}
(array::Two [3]) ::array_of_two = {
(array::Two) [0] = {}
(array::Two) [1] = {}
(array::Two) [2] = {}
}
(ShadowedOne) ::shadowed_one = {
(int) member = 47
}
With this patch in place we can now see any classes that were forcefully completed to let us know that we are missing information:
(lldb) frame variable inherits_from_one inherits_from_two one_as_member two_as_member array_of_one array_of_two shadowed_one
(InheritsFromOne) ::inherits_from_one = (One = <incomplete type>, member = 47)
(InheritsFromTwo) ::inherits_from_two = (Two = <incomplete type>, member = 47)
(OneAsMember) ::one_as_member = (one = <incomplete type>, member = 47)
(TwoAsMember) ::two_as_member = (two = <incomplete type>, member = 47)
(array::One[3]) ::array_of_one = ([0] = <incomplete type>, [1] = <incomplete type>, [2] = <incomplete type>)
(array::Two[3]) ::array_of_two = ([0] = <incomplete type>, [1] = <incomplete type>, [2] = <incomplete type>)
(ShadowedOne) ::shadowed_one = (func_shadow::One = <incomplete type>, member = 47)
(lldb) frame variable --show-types inherits_from_one inherits_from_two one_as_member two_as_member array_of_one array_of_two shadowed_one
(InheritsFromOne) ::inherits_from_one = {
(One) One = <incomplete type> {}
(int) member = 47
}
(InheritsFromTwo) ::inherits_from_two = {
(Two) Two = <incomplete type> {}
(int) member = 47
}
(OneAsMember) ::one_as_member = {
(member::One) one = <incomplete type> {}
(int) member = 47
}
(TwoAsMember) ::two_as_member = {
(member::Two) two = <incomplete type> {}
(int) member = 47
}
(array::One[3]) ::array_of_one = {
(array::One) [0] = <incomplete type> {}
(array::One) [1] = <incomplete type> {}
(array::One) [2] = <incomplete type> {}
}
(array::Two[3]) ::array_of_two = {
(array::Two) [0] = <incomplete type> {}
(array::Two) [1] = <incomplete type> {}
(array::Two) [2] = <incomplete type> {}
}
(ShadowedOne) ::shadowed_one = {
(func_shadow::One) func_shadow::One = <incomplete type> {}
(int) member = 47
}
Differential Revision: https://reviews.llvm.org/D138259
So far, the pretty printer for `std::coroutine_handle` internally
dereferenced the contained frame pointer displayed the `promise`
as a sub-value. As noticed in https://reviews.llvm.org/D132624
by @labath, this can lead to an endless loop in lldb during printing
if the coroutine frame pointers form a cycle.
This commit breaks the cycle by exposing the `promise` as a pointer
type instead of a value type. The depth to which the `frame variable`
and the `expression` commands dereference those pointers can be
controlled using the `--ptr-depth` argument.
Differential Revision: https://reviews.llvm.org/D132815
With this commit, the `std::coroutine_handle` pretty printer now
recognizes `std::noop_coroutine()` handles. For noop coroutine handles,
we identify use the summary string `noop_coroutine` and we don't print
children
Instead of
```
(std::coroutine_handle<void>) $3 = coro frame = 0x555555559058 {
resume = 0x00005555555564f0 (a.out`std::__1::coroutine_handle<std::__1::noop_coroutine_promise>::__noop_coroutine_frame_ty_::__dummy_resume_destroy_func() at noop_coroutine_handle.h:79)
destroy = 0x00005555555564f0 (a.out`std::__1::coroutine_handle<std::__1::noop_coroutine_promise>::__noop_coroutine_frame_ty_::__dummy_resume_destroy_func() at noop_coroutine_handle.h:79)
}
```
we now print
```
(std::coroutine_handle<void>) $3 = noop_coroutine
```
Differential Revision: https://reviews.llvm.org/D132735
The original commit was missing a `ClangASTImporter::CopyType` call.
Original commit message:
This commit teaches the `std::coroutine_handle` pretty-printer to
devirtualize type-erased promise types. This is particularly useful to
resonstruct call stacks, either of asynchronous control flow or of
recursive invocations of `std::generator`. For the example recently
introduced by https://reviews.llvm.org/D132451, printing the `__promise`
variable now shows
```
(std::__coroutine_traits_sfinae<task, void>::promise_type) __promise = {
continuation = coro frame = 0x555555562430 {
resume = 0x0000555555556310 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
destroy = 0x0000555555556700 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
promise = {
continuation = coro frame = 0x5555555623e0 {
resume = 0x0000555555557070 (a.out`task detail::chain_fn<2>() at llvm-nested-example.cpp:66)
destroy = 0x0000555555557460 (a.out`task detail::chain_fn<2>() at llvm-nested-example.cpp:66)
promise = {
...
}
}
result = 0
}
}
result = 0
}
```
(shortened to keep the commit message readable) instead of
```
(std::__coroutine_traits_sfinae<task, void>::promise_type) __promise = {
continuation = coro frame = 0x555555562430 {
resume = 0x0000555555556310 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
destroy = 0x0000555555556700 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
}
result = 0
}
```
Note how the new debug output reveals the complete asynchronous call
stack: our own function resumes `chain_fn<1>` which in turn will resume
`chain_fn<2>` and so on. Thereby this change allows users of lldb to
inspect the logical coroutine call stack without using any custom debug
scripts (although the display is still a bit clumsy. It would be nicer
to also integrate this into lldb's backtrace feature, but I don't know
how to do so)
The devirtualization currently works by introspecting the function
pointed to by the `destroy` pointer. (The `resume` pointer is not worth
much, given that for the final suspend point `resume` is set to a
nullptr. We have to use the `destroy` pointer instead.) We then look
for a `__promise` variable inside the `destroy` function. This
`__promise` variable is synthetically generated by LLVM, and looking at
its type reveals the type-erased promise_type.
This approach only works for clang-generated code, though. While gcc
also adds a `_Coro_promise` variable to the `resume` function, it does
not do so for the `destroy` function. However, we can't use the `resume`
function, as it will be reset to a nullptr at the final suspension
point. For the time being, I am happy with de-virtualization only working
for clang. A follow-up commit will further improve devirtualization and
also expose the variables spilled to the coroutine frame. As part of
this, I will also revisit gcc support.
Differential Revision: https://reviews.llvm.org/D132624
This patch improves the ScriptedPythonInterface::Dispatch method to
support passing lldb_private types to the python implementation.
This will allow, for instance, the Scripted Process python implementation
to report errors when reading memory back to lldb.
To do so, the Dispatch method will transform the private types in the
parameter pack into `PythonObject`s to be able to pass them down to the
python methods.
Then, if the call succeeded, the transformed arguments will be converted
back to their original type and re-assigned in the parameter pack, to
ensure pointers and references behaviours are preserved.
This patch also updates various scripted process python class and tests
to reflect this change.
rdar://100030995
Differential Revision: https://reviews.llvm.org/D134033
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
Some test cases are already marked @skipIfNoSBHeaders, but they make use of SBAPI headers in test setup. The setup will fail if the headers are missing, so it is too late to wait until the test case to apply the skip annotation.
In addition to allowing this to apply to entire classes, I also changed all the existing annotations from test cases to test classes where necessary/appropriate.
Reviewed By: DavidSpickett
Differential Revision: https://reviews.llvm.org/D138181
Follow up to D129386 where libc++ naming conventions were made consistent.
This changes the pattern to not rely on the internal name (`__cc` or `__cc_`),
and instead uses a pattern to check that the child has the form:
```
[0] = {
first = ...
```
Thanks to @rupprecht for pointing out this issue: https://reviews.llvm.org/D133259#3773120
Reviewed By: rupprecht
Differential Revision: https://reviews.llvm.org/D133395
This commit teaches the `std::coroutine_handle` pretty-printer to
devirtualize type-erased promise types. This is particularly useful to
resonstruct call stacks, either of asynchronous control flow or of
recursive invocations of `std::generator`. For the example recently
introduced by https://reviews.llvm.org/D132451, printing the `__promise`
variable now shows
```
(std::__coroutine_traits_sfinae<task, void>::promise_type) __promise = {
continuation = coro frame = 0x555555562430 {
resume = 0x0000555555556310 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
destroy = 0x0000555555556700 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
promise = {
continuation = coro frame = 0x5555555623e0 {
resume = 0x0000555555557070 (a.out`task detail::chain_fn<2>() at llvm-nested-example.cpp:66)
destroy = 0x0000555555557460 (a.out`task detail::chain_fn<2>() at llvm-nested-example.cpp:66)
promise = {
...
}
}
result = 0
}
}
result = 0
}
```
(shortened to keep the commit message readable) instead of
```
(std::__coroutine_traits_sfinae<task, void>::promise_type) __promise = {
continuation = coro frame = 0x555555562430 {
resume = 0x0000555555556310 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
destroy = 0x0000555555556700 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
}
result = 0
}
```
Note how the new debug output reveals the complete asynchronous call
stack: our own function resumes `chain_fn<1>` which in turn will resume
`chain_fn<2>` and so on. Thereby this change allows users of lldb to
inspect the logical coroutine call stack without using any custom debug
scripts (although the display is still a bit clumsy. It would be nicer
to also integrate this into lldb's backtrace feature, but I don't know
how to do so)
The devirtualization currently works by introspecting the function
pointed to by the `destroy` pointer. (The `resume` pointer is not worth
much, given that for the final suspend point `resume` is set to a
nullptr. We have to use the `destroy` pointer instead.) We then look
for a `__promise` variable inside the `destroy` function. This
`__promise` variable is synthetically generated by LLVM, and looking at
its type reveals the type-erased promise_type.
This approach only works for clang-generated code, though. While gcc
also adds a `_Coro_promise` variable to the `resume` function, it does
not do so for the `destroy` function. However, we can't use the `resume`
function, as it will be reset to a nullptr at the final suspension
point. For the time being, I am happy with de-virtualization only working
for clang. A follow-up commit will further improve devirtualization and
also expose the variables spilled to the coroutine frame. As part of
this, I will also revisit gcc support.
Differential Revision: https://reviews.llvm.org/D132624
This change adds a `--recognizer-function` (`-R`) to `type summary add`
and `type synth add` that allows users to specify that the names in
the command are not type names but python function names.
It also adds an example to lldb/examples, and a section in the data
formatters documentation on how to use recognizer functions.
Differential Revision: https://reviews.llvm.org/D137000
This makes setting breakpoints work with -gsimple-template-names.
Assume that callers handle false positives. For example, `Module::LookupInfo::Prune` removes wrong template instantiations when setting a breakpoint.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D137098
For an exception crashlog, the thread backtraces aren't usually very helpful
and instead, developpers look at the "Application Specific Backtrace" that
was generated by `objc_exception_throw`.
LLDB could already parse and symbolicate these Application Specific Backtraces
for regular textual-based crashlog, so this patch adds support to parse them
in JSON crashlogs, and materialize them a HistoryThread extending the
crashed ScriptedThread.
This patch also includes the Application Specific Information messages
as part of the process extended crash information log. To do so, the
ScriptedProcess Python interface has a new GetMetadata method that
returns an arbitrary dictionary with data related to the process.
rdar://93207586
Differential Revision: https://reviews.llvm.org/D126260
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch improves the StructuredData classes to provide a
GetDescription(lldb_private::Stream&) affordance.
This is very convenient compared to the Dump method because this try to
pretty print the structure instead of just serializing it into a JSON.
This patch also updates some parts of lldb (i.e. extended crash info) to
use this new affordance instead of StructuredData::Dump.
Differential Revision: https://reviews.llvm.org/D135547
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
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
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.
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 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 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
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
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
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
Some time ago, a refactor (1153dc960) broke completion for assigning settings
values (`settings set`). This was most annoying for enum settings, where you'd
have to get the valid enum names separately.
This restores the logic in the post-refactor completion function, as well as
adding a test to catch future regressions.
Differential Revision: https://reviews.llvm.org/D134515
The coroutine tests require a standard library implementation of
coroutines, which was only made available some time _after_ Clang 13.
The first such Clang tested by the LLDB matrix bot is 15.0.1
The TestObjCExceptions test forces the use of the system's libcxx. For
the lldb matrix bot, the first Clang version compatible with the bot's
libraries is 13.0.
Differential Revision: https://reviews.llvm.org/D134645
There are two conditions for the loop exit. Either we hit LLDB_INVALID_ADDRESS
or the ABI tells us we are beyond mappable memory.
I made a mistake in that second part that meant if you had no ABI plugin
--all would stop on the first loop and return nothing.
If there's no ABI plugin we should only check for LLDB_INVALID_ADDRESS.
Depends on D134029
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D134030
When I wrote the initial version I forgot that a region being
unmapped is not an error. There are real errors that we don't
want to hide, such as the remote not supporting the
qMemoryRegionInfo packet (gdbserver does not).
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D134029
This patch adds auto source map deduce count as a target level statistics.
This will help telemetry to track how many debug sessions benefit from this feature.
Differential Revision: https://reviews.llvm.org/D134483
