Instead of building a set twice for optional and required,
build a set for each while walking the options once.
Then take advantage of set being sorted meaning we don't
have to enforce the upper/lower order ourselves.
Just cleaned up the formatting on the later loops.
Combined the if conditions and used a single line if.
Depends on D123501
Reviewed By: jingham
Differential Revision: https://reviews.llvm.org/D123502
Use llvm::enumerate, remove an unused arg name stream and
replace repeated uses of indexing to get the option def.
We could use map instead of multimap but I'm not 100% that
would be NFC. All short options should be unique in theory.
Depends on D123500
Reviewed By: JDevlieghere
Differential Revision: https://reviews.llvm.org/D123501
This reverts commit f114f00948.
Due to hitting an assert on our lldb bots:
https://lab.llvm.org/buildbot/#/builders/96/builds/22715
../llvm-project/lldb/source/Plugins/Process/elf-core/ThreadElfCore.cpp:170:
virtual lldb::RegisterContextSP ThreadElfCore::CreateRegisterContextForFrame(
lldb_private::StackFrame *): Assertion `false && "Architecture or OS not supported"' failed.
Currently, ppc64le and ppc64 (defaulting to big endian) have the same
descriptor, thus the linear scan always return ppc64le. Handle that through
subtype.
Differential Revision: https://reviews.llvm.org/D124760
Make GetSharedModuleWithLocalCache consider the device support
directory. In the past we only needed the device support directory to
debug remote processes. Since the introduction of Apple Silicon and
Rosetta this stopped being true.
When debugging a Rosetta process on macOS we need to consider the
Rosetta expanded shared cache. This patch and it dependencies move that
logic out of PlatfromRemoteDarwinDevice into a new abstract class called
PlatfromDarwinDevice. The new platform sit in between PlatformDarwin and
PlatformMacOSX and PlatformRemoteDarwinDevice and has all the necessary
logic to deal with the device support directory.
Technically I could have moved everything in PlatfromDarwinDevice into
PlatfromDarwin but decided that this logic is sufficiently self
contained that it warrants its own abstraction.
rdar://91966349
Differential revision: https://reviews.llvm.org/D124801
In order to open perf events per core, we need to first get the list of
core ids available in the system. So I'm adding a function that does
that by parsing /proc/cpuinfo. That seems to be the simplest and most
portable way to do that.
Besides that, I made a few refactors and renames to reflect better that
the cpu info that we use in lldb-server comes from procfs.
Differential Revision: https://reviews.llvm.org/D124573
When looking for a variable location in a DWARF location list,
we search the list of ranges to find one that includes the pc.
With a function mid-stack, the "pc" is the return pc instead of
the call instruction, and in optimized code this can be another
function or a different basic block (with different variable
locations). Back up the "pc" value mid-stack to find the correct
location list entry.
Differential Revision: https://reviews.llvm.org/D124597
rdar://63903416
UniqueCStringMap<T> objects are a std::vector<UniqueCStringMap::Entry> objects where the Entry object contains a ConstString + T. The values in the vector are sorted first by ConstString and then by the T value. ConstString objects are simply uniqued "const char *" values and when we compare we use the actual string pointer as the value we sort by. This caused a problem when we saved the symbol table name indexes and debug info indexes to disk in one process when they were sorted, and then loaded them into another process when decoding them from the cache files. Why? Because the order in which the ConstString objects were created are now completely different and the string pointers will no longer be sorted in the new process the cache was loaded into.
The unit tests created for the initial patch didn't catch the encoding and decoding issues of UniqueCStringMap<T> because they were happening in the same process and encoding and decoding would end up createing sorted UniqueCStringMap<T> objects due to the constant string pool being exactly the same.
This patch does the sort and also reserves the right amount of entries in the UniqueCStringMap::m_map prior to adding them all to avoid doing multiple allocations.
Added a unit test that loads an object file from yaml, and then I created a cache file for the original file and removed the cache file's signature mod time check since we will generate an object file from the YAML, and use that as the object file for the Symtab object. Then we load the cache data from the array of symtab cache bytes so that the ConstString "const char *" values will not match the current process, and verify we can lookup the 4 names from the object file in the symbol table.
Differential Revision: https://reviews.llvm.org/D124572
We've seen very occasional crashes that we can only explain by
simultaneous access to the ThreadPlanStackMap, so I'm adding a
mutex to protect it.
Differential Revision: https://reviews.llvm.org/D124029
This patch fixes a crash when using process launch -t to launch the
inferior from a TTY. The issue is that on Darwin, Host.mm is calling
ConnectionFileDescriptor::Connect without a socket_id_callback_type. The
overload passes nullptr as the function ref, which gets called
unconditionally as the socket_id_callback.
One potential way to fix this is to change all the lambdas to include a
null check, but instead I went with an empty lambda.
Differential revision: https://reviews.llvm.org/D124535
FixAnyAddress is to be used when we don't know or don't care
whether we're fixing a code or data address.
By using FixAnyAddress over the others, you document that no
specific choice was made.
On all existing platforms apart from Arm Thumb, you could use
either FixCodeAddress or FixDataAddress and be fine. Up until
now I've chosen to use FixDataAddress but if I had
chosen to use FixCodeAddress that would have broken Arm Thumb.
Hence FixAnyAddress, to give you the "safest" option when you're
in generic code.
Uses of FixDataAddress in memory region code have been changed
to FixAnyAddress. The functionality is unchanged.
Reviewed By: omjavaid, JDevlieghere
Differential Revision: https://reviews.llvm.org/D124000
Fix escaping when launching in terminal with AppleScript. The invocation
we're building up is wrapped in single quotes when passed to bash and
wrapped in double quotes for AppleScript.
Here's an example invocation with the new escaping:
tell application "Terminal"
activate
do script "/bin/bash -c 'arch -arch arm64 'darwin-debug'
--unix-socket=/tmp/dL2jSh --arch=arm64 --working-dir
\"/private/tmp/with spaces\" --disable-aslr -- \"foo\"
\"bar\" \"baz\" ; echo Process exited with status $?';exit"
end tell
Previously we were using unescaped single quotes which resulted in the
whole bash invocation being passed in pieces. That works most of the
time but breaks when you have a space in your current working directory
for example.
rdar://91870763
Differential revision: https://reviews.llvm.org/D124568
Rather than looking up by offset - actually use the hash table to
perform faster lookup where possible. (for DWARFv4 DWP compilation units
the hash isn't in the header - it's in the root DIE, but to parse the
DIE you need the abbrev section and to get the abbrev section you need
the index - so in that case lookup by offset is required)
- Don't reset cur_line_offset to llvm::None when we don't have next_line_offset, because we may need to reuse it in new range after a code end.
- Don't use CombineConsecutiveEntriesWithEqualData for inline_site_sp->ranges, because that will combine consecutive entries with same data in the vector regardless of the entry's range. Originally, I thought that it only combine consecutive entries if adjacent entries' ranges are adjoining or intersecting with each other.
We dropped downstream support for Python 2 in the previous release. Now
that we have branched for the next release the window where this kind of
change could introduce conflicts is closing too. Start by getting rid of
Python 2 support in the Script Interpreter plugin.
Differential revision: https://reviews.llvm.org/D124429
The driver can push a null ExecutionContext on to this stack,
and later calls to SBCommandInterpreter::HandleCommand which
don't specify an ExecutionContext can pull an entry from the
stack, resulting in settings that aren't applied.
Differential Revision: https://reviews.llvm.org/D111209
rdar://81489207
This diff introduces a new symbol on-demand which skips
loading a module's debug info unless explicitly asked on
demand. This provides significant performance improvement
for application with dynamic linking mode which has large
number of modules.
The feature can be turned on with:
"settings set symbols.load-on-demand true"
The feature works by creating a new SymbolFileOnDemand class for
each module which wraps the actual SymbolFIle subclass as member
variable. By default, most virtual methods on SymbolFileOnDemand are
skipped so that it looks like there is no debug info for that module.
But once the module's debug info is explicitly requested to
be enabled (in the conditions mentioned below) SymbolFileOnDemand
will allow all methods to pass through and forward to the actual SymbolFile
which would hydrate module's debug info on-demand.
In an internal benchmark, we are seeing more than 95% improvement
for a 3000 modules application.
Currently we are providing several ways to on demand hydrate
a module's debug info:
* Source line breakpoint: matching in supported files
* Stack trace: resolving symbol context for an address
* Symbolic breakpoint: symbol table match guided promotion
* Global variable: symbol table match guided promotion
In all above situations the module's debug info will be on-demand
parsed and indexed.
Some follow-ups for this feature:
* Add a command that allows users to load debug info explicitly while using a
new or existing command when this feature is enabled
* Add settings for "never load any of these executables in Symbols On Demand"
that takes a list of globs
* Add settings for "always load the the debug info for executables in Symbols
On Demand" that takes a list of globs
* Add a new column in "image list" that shows up by default when Symbols On
Demand is enable to show the status for each shlib like "not enabled for
this", "debug info off" and "debug info on" (with a single character to
short string, not the ones I just typed)
Differential Revision: https://reviews.llvm.org/D121631
TraceInstructionDumper::DumpInstructions was becoming too big, so I'm
refactoring it into smaller functions. I also made some static methods proper
instance methods to simplify calls. Other minor improvements are also done.
Differential Revision: https://reviews.llvm.org/D124064
A trace might contain events traced during the target's execution. For
example, a thread might be paused for some period of time due to context
switches or breakpoints, which actually force a context switch. Not only
that, a trace might be paused because the CPU decides to trace only a
specific part of the target, like the address filtering provided by
intel pt, which will cause pause events. Besides this case, other kinds
of events might exist.
This patch adds the method `TraceCursor::GetEvents()`` that returns the
list of events that happened right before the instruction being pointed
at by the cursor. Some refactors were done to make this change simpler.
Besides this new API, the instruction dumper now supports the -e flag
which shows pause events, like in the following example, where pauses
happened due to breakpoints.
```
thread #1: tid = 2717361
a.out`main + 20 at main.cpp:27:20
0: 0x00000000004023d9 leaq -0x1200(%rbp), %rax
[paused]
1: 0x00000000004023e0 movq %rax, %rdi
[paused]
2: 0x00000000004023e3 callq 0x403a62 ; std::vector<int, std::allocator<int> >::vector at stl_vector.h:391:7
a.out`std::vector<int, std::allocator<int> >::vector() at stl_vector.h:391:7
3: 0x0000000000403a62 pushq %rbp
4: 0x0000000000403a63 movq %rsp, %rbp
```
The `dump info` command has also been updated and now it shows the
number of instructions that have associated events.
Differential Revision: https://reviews.llvm.org/D123982
Update the online help text for breakpoint set to be
consistent with respect to the spelling of Objective-C
and fix a few space-related typos.
Differential revision: https://reviews.llvm.org/D124338
Applied clang-tidy modernize-use-override over LLDB and added it to the LLDB .clang-tidy config.
Differential Revision: https://reviews.llvm.org/D123340
The code needs more TLC, but for now I've tried making only the changes
that are necessary to get the tests passing -- postponing the more
invasive changes after I create a more comprehensive test.
In a couple of places I have changed the index-based element accesses to
name-based ones (as these are less sensitive to code perturbations). I'm
not sure why the code was using indexes in the first place, but I've
(manually) tested the change with various libc++ versions, and found no
issues with this approach.
Differential Revision: https://reviews.llvm.org/D124113
Previously, I was assuming that S_DEFRANGE_SUBFIELD_REGISTERs are always in the
increasing order of offset_in_parent until I saw a counter example.
Using `std::map` so that they are sorted by offset_in_parent.
Differential Revision: https://reviews.llvm.org/D124061
Given that you'd never find empty string, just error.
Also add a test that an invalid expr generates an error.
Reviewed By: JDevlieghere
Differential Revision: https://reviews.llvm.org/D123793
This adjusts the path iteration - `paths` is a null-terminated sequence
of C strings, creating an array from a single contiguous buffer. We
would previously continue to iterate indefinitely as we did not check if
we had encountered the terminator.
Found by inspection.
When a variable is simple type and has 64 bits, the debug info may look like the following when targeting 32bit windows. The variable's content is split into two 32bits registers.
```
480 | S_LOCAL [size = 12] `x`
type=0x0013 (__int64), flags = param
492 | S_DEFRANGE_SUBFIELD_REGISTER [size = 20]
register = EAX, may have no name = true, offset in parent = 0
range = [0001:0073,+7), gaps = []
512 | S_DEFRANGE_SUBFIELD_REGISTER [size = 20]
register = ECX, may have no name = true, offset in parent = 4
range = [0001:0073,+7), gaps = []
```
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D122943
It fixes the following case:
```
0602 line 1 (+1)
0315 code 0x15 (+0x15)
0B2B code 0x20 (+0xB) line 2 (+1)
0602 line 3 (+1)
0311 code 0x31 (+0x11)
...
```
Inline ranges should have following mapping:
`[0x15, 0x20) -> line 1`
`[0x20, 0x31) -> line 2`
Inline line entries:
`0x15, line 1`, `0x20, line 2`, `0x31, line 3`.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D123092
Port the two Process::PrintWarning functions to use the new diagnostic
events through Debugger::ReportWarning. I kept the wrapper function in
the process, but delegated the work to the Module. Consistent with the
current code, the Module ensures the warning is only printed once per
module.
Differential revision: https://reviews.llvm.org/D123698
Currently, lldb crashes when adding a stop hook with --shlib because we
unconditionally use the target in SymbolContextSpecifier::AddSpecification.
This patch prevents the crash and add a test.
rdar://68524781
Differential revision: https://reviews.llvm.org/D123746
Unlike for any of the other shells, we were escaping $ when using tcsh.
There's nothing special about $ in tcsh and this prevents you from
expanding shell variables, one of the main reasons this functionality
exists in the first place.
Differential revision: https://reviews.llvm.org/D123690
The rust demangler has some odd buffer handling code, which will copy
the demangled string into the provided buffer, if it will fit.
Otherwise it uses the allocated buffer it made. But the length of the
incoming buffer will have come from a previous call, which was the
length of the demangled string -- not the buffer size. And of course,
we're unconditionally allocating a temporary buffer in the first
place. So we don't actually get buffer reuse, and we get a memcpy in
somecases.
However, nothing in LLVM ever passes in a non-null pointer. Neither
does anything pass in a status pointer that is then made use of. The
only exercise these have is in the test suite.
So let's just make the rust demangler have the same API as the dlang
demangler.
Reviewed By: tmiasko
Differential Revision: https://reviews.llvm.org/D123420
This patch moves the platform creation and selection logic into the
per-debugger platform lists. I've tried to keep functional changes to a
minimum -- the main (only) observable difference in this change is that
APIs, which select a platform by name (e.g.,
Debugger::SetCurrentPlatform) will not automatically pick up a platform
associated with another debugger (or no debugger at all).
I've also added several tests for this functionality -- one of the
pleasant consequences of the debugger isolation is that it is now
possible to test the platform selection and creation logic.
This is a product of the discussion at
<https://discourse.llvm.org/t/multiple-platforms-with-the-same-name/59594>.
Differential Revision: https://reviews.llvm.org/D120810
David Spickett