The FreeBSD coredumps from i386 systems contain only FSAVE-style
NT_FPREGSET. Since we do not really support reading that kind of data
anymore, just use NT_X86_XSTATE to get FXSAVE-style data when available.
Differential Revision: https://reviews.llvm.org/D101086
The gdb-remote tests are a bit artificial, depending on
Python threading, and sleeps. So I'm not 100% surprised it doesn't
work straight up on another XSsystem.
ProcessGDBRemote plugin layers.
Also fix a bug where if we tried to interrupt, but the ReadPacket
wakeup timer woke us up just after the timeout, we would break out
the switch, but then since we immediately check if the response is
empty & fail if it is, we could end up actually only giving a
small interval to the interrupt.
Differential Revision: https://reviews.llvm.org/D102085
This looks like just an oversight in the AsyncThread function. It gets a result of
eStateInvalid, and then marks the process as exited, but doesn't set "done" to true,
so we go to fetch another event. That is not safe, since you don't know when that
extra packet is going to arrive. If it arrives while you are tearing down the
process, the internal-state-thread might try to handle it when the process in not
in a good state.
Rather than put more effort into checking all the shutdown paths to make sure this
extra packet doesn't cause problems, just don't fetch it. We weren't going to do
anything useful with it anyway.
The main part of the patch is setting "done = true" when we get the eStateInvalid.
I also added a check at the beginning of the while(done) loop to prevent another error
from getting us to fetch packets for an exited process.
I added a test case to ensure that if an Interrupt fails, we call the process
exited. I can't test exactly the error I'm fixing, there's no good way to know
that the stop reply for the failed interrupt wasn't fetched. But at least this
asserts that the overall behavior is correct.
Differential Revision: https://reviews.llvm.org/D101933
This patch fixes the column symbol resolution when creating a breakpoint
with the `move_to_nearest_code` flag set.
In order to achieve this, the patch adds column information handling in
the `LineTable`'s `LineEntry` finder. After experimenting a little, it
turns out the most natural approach in case of an inaccurate column match,
is to move backward and match the previous `LineEntry` rather than going
forward like we do with simple line breakpoints.
The patch also reflows the function to reduce code duplication.
Finally, it updates the `BreakpointResolver` heuristic to align it with
the `LineTable` method.
rdar://73218201
Differential Revision: https://reviews.llvm.org/D101221
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
When dumping the traced instructions in a for loop, like this one
4: for (int a = 0; a < n; a++)
5: do something;
there might be multiple LineEntry objects for line 4, but with different address ranges. This was causing the dump command to dump something like this:
```
a.out`main + 11 at main.cpp:4
[1] 0x0000000000400518 movl $0x0, -0x8(%rbp)
[2] 0x000000000040051f jmp 0x400529 ; <+28> at main.cpp:4
a.out`main + 28 at main.cpp:4
[3] 0x0000000000400529 cmpl $0x3, -0x8(%rbp)
[4] 0x000000000040052d jle 0x400521 ; <+20> at main.cpp:5
```
which is confusing, as main.cpp:4 appears twice consecutively.
This diff fixes that issue by making the line entry comparison strictly about the line, column and file name. Before it was also comparing the address ranges, which we don't need because our output is strictly about what the user sees in the source.
Besides, I've noticed that the logic that traverses instructions and calculates symbols and disassemblies had too much coupling, and made my changes harder to implement, so I decided to decouple it. Now there are two methods for iterating over the instruction of a trace. The existing one does it on raw load addresses, but the one provides a SymbolContext and an InstructionSP, and does the calculations efficiently (not as efficient as possible for now though), so the caller doesn't need to care about these details. I think I'll be using that iterator to reconstruct the call stacks.
I was able to fix a test with this change.
Differential Revision: https://reviews.llvm.org/D100740
This adds support for reading AArch64 Pointer Authentication regset
from elf-core file. Also includes a test-case for the same. Furthermore
there is also a slight refactoring of RegisterContextPOSIXCore_arm64
members and constructor. linux-aarch64-pac.core file is generated using
lldb/test/API/functionalities/postmortem/elf-core/main.c with following
clang arguments:
-march=armv8.5-a -mbranch-protection=pac-ret+leaf -nostdlib -static -g
Reviewed By: DavidSpickett
Differential Revision: https://reviews.llvm.org/D99941
AArch64 kernel builds default to having /smaps and
the "VmFlags" line was added in 3.8. Long before MTE
was supported.
So we can assume that if you're AArch64 with MTE,
you can run this test.
The previous method of checking had a race condition
where the process we read smaps for, could finish before
we get to read the file.
I explored some alternatives but in the end I think
it's fine to just assume we have what we need.
Reviewed By: omjavaid
Differential Revision: https://reviews.llvm.org/D100493
When the user running LLDB with default settings sees the fixit
notification it means that the auto-applied fixit didn't work. This
patch shows the underlying error message instead of just the fixit to
make it easier to understand what the error in the expression was.
Differential Revision: https://reviews.llvm.org/D101333
Remove hardcoded platform list for QPassSignals, qXfer:auxv:read
and qXfer:libraries-svr4:read and instead query the process plugin
via the GetSupportedExtensions() API.
Differential Revision: https://reviews.llvm.org/D101241
The test added in D100977 is failing to compile on these platforms. This seems
to be caused by GCC, MSVC and Clang@Windows rejecting the code because
`ToLayout` isn't complete when pointer_to_member_member is declared (even though
that seems to be valid code).
This also reverts the test changes in the lazy-loading test from D100977 as
that failed for the same reason.
Update lldb-server to not use fork or vfork on watchOS and tvOS as these
functions are explicitly marked unavailable there.
llvm-project/lldb/test/API/tools/lldb-server/main.cpp:304:11:
error: 'fork' is unavailable: not available on watchOS
if (fork() == 0)
^
WatchSimulator6.2.sdk/usr/include/unistd.h:447:8: note: 'fork' has been
explicitly marked unavailable here
pid_t fork(void) __WATCHOS_PROHIBITED __TVOS_PROHIBITED;
^
llvm-project/lldb/test/API/tools/lldb-server/main.cpp:307:11:
error: 'vfork' is unavailable: not available on watchOS
if (vfork() == 0)
^
WatchSimulator6.2.sdk/usr/include/unistd.h:602:8: note: 'vfork' has been
explicitly marked unavailable here
pid_t vfork(void) __WATCHOS_PROHIBITED __TVOS_PROHIBITED;
^
Add a NativeDelegate API to pass new processes (forks) to LLGS,
and support detaching them via the 'D' packet. A 'D' packet without
a specific PID detaches all processes, otherwise it detaches either
the specified subprocess or the main process, depending on the passed
PID.
Differential Revision: https://reviews.llvm.org/D100191
Introduce a NativeProcessProtocol API for indicating support for
protocol extensions and enabling them. LLGS calls
GetSupportedExtensions() method on the process factory to determine
which extensions are supported by the plugin. If the future is both
supported by the plugin and reported as supported by the client, LLGS
enables it and reports to the client as supported by the server.
The extension is enabled on the process instance by calling
SetEnabledExtensions() method. This is done after qSupported exchange
(if the debugger is attached to any process), as well as after launching
or attaching to a new inferior.
The patch adds 'fork' extension corresponding to 'fork-events+'
qSupported feature and 'vfork' extension for 'vfork-events+'. Both
features rely on 'multiprocess+' being supported as well.
Differential Revision: https://reviews.llvm.org/D100153
- The register encoding state in the JSON crashlog format changes.
Update the parser accordingly.
- Print the register state when printing the symbolicated thread.
The `--allow-jit` flag allows the user to force the IR interpreter to run the
provided expression.
The `--top-level` flag parses and injects the code as if its in the top level
scope of a source file.
Both flags just change the ExecutionPolicy of the expression:
* `--allow-jit true` -> doesn't change anything (its the default)
* `--allow-jit false` -> ExecutionPolicyNever
* `--top-level` -> ExecutionPolicyTopLevel
Passing `--allow-jit false` and `--top-level` currently causes the `--top-level`
to silently overwrite the ExecutionPolicy value that was set by `--allow-jit
false`. There isn't any ExecutionPolicy value that says "top-level but only
interpret", so I would say we reject this combination of flags until someone
finds time to refactor top-level feature out of the ExecutionPolicy enum.
The SBExpressionOptions suffer from a similar symptom as `SetTopLevel` and
`SetAllowJIT` just silently disable each other. But those functions don't have
any error handling, so not a lot we can do about this in the meantime.
Reviewed By: labath, kastiglione
Differential Revision: https://reviews.llvm.org/D91780
At the moment the expression parser doesn't support evaluating expressions in
static member functions and just pretends the expression is evaluated within a
non-member function. This causes that all static members are inaccessible when
doing unqualified name lookup.
This patch adds support for evaluating in static member functions. It
essentially just does the same setup as what LLDB is already doing for
non-static member functions (i.e., wrapping the expression in a fake member
function) with the difference that we now mark the wrapping function as static
(to prevent access to non-static members).
Reviewed By: shafik, jarin
Differential Revision: https://reviews.llvm.org/D81550
Ever since Dave Zarzycki's patch to sort test start times based on prior
test timing data (https://reviews.llvm.org/D98179) the test suite aborts
with a SIGHUP. I don't believe his patch is to blame, but rather
uncovers an preexisting issue by making test runs more deterministic.
I was able to narrow down the issue to TestSimulatorPlatform.py. The
issue also manifests itself on the standalone bot on GreenDragon [1].
This patch disables the test until we can figure this out.
[1] http://green.lab.llvm.org/green/view/LLDB/job/lldb-cmake-standalone/
rdar://76995109
VSCode doesn't render multiple variables with the same name in the variables view. It only renders one of them. This is a situation that happens often when there are shadowed variables.
The nodejs debugger solves this by adding a number suffix to the variable, e.g. "x", "x2", "x3" are the different x variables in nested blocks.
In this patch I'm doing something similar, but the suffix is " @ <file_name:line>), e.g. "x @ main.cpp:17", "x @ main.cpp:21". The fallback would be an address if the source and line information is not present, which should be rare.
This fix is only needed for globals and locals. Children of variables don't suffer of this problem.
When there are shadowed variables
{F16182150}
Without shadowed variables
{F16182152}
Modifying these variables through the UI works
Reviewed By: clayborg
Differential Revision: https://reviews.llvm.org/D99989
In certain occasions times, like when LLDB is initializing and
evaluating the .lldbinit files, it tries to print to stderr and stdout
directly. This confuses the IDE with malformed data, as it talks to
lldb-vscode using stdin and stdout following the JSON RPC protocol. This
ends up terminating the debug session with the user unaware of what's
going on. There might be other situations in which this can happen, and
they will be harder to debug than the .lldbinit case.
After several discussions with @clayborg, @yinghuitan and @aadsm, we
realized that the best course of action is to simply redirect stdout and
stderr to the console, without modifying LLDB itself. This will prove to
be resilient to future bugs or features.
I made the simplest possible redirection logic I could come up with. It
only works for POSIX, and to make it work with Windows should be merely
changing pipe and dup2 for the windows equivalents like _pipe and _dup2.
Sadly I don't have a Windows machine, so I'll do it later once my office
reopens, or maybe someone else can do it.
I'm intentionally not adding a stop-redirecting logic, as I don't see it
useful for the lldb-vscode case (why would we want to do that, really?).
I added a test.
Note: this is a simpler version of D80659. I first tried to implement a
RIIA version of it, but it was problematic to manage the state of the
thread and reverting the redirection came with some non trivial
complexities, like what to do with unflushed data after the debug
session has finished on the IDE's side.
This diff ass postRunCommands, which are the counterpart of the preRunCommands. TThey will be executed right after the target is launched or attached correctly, which means that the targets can assume that the target is running.
Differential Revision: https://reviews.llvm.org/D100340
Add initial tests for reading register sets from core dumps. This
includes a C++ program to write registers and dump core, resulting core
dumps for Linux, FreeBSD and NetBSD, and the tests to verify them.
The tests are split into generic part, verifying user-specified register
values, and coredump-specific tests that verify memory addresses that
differ for every dump.
At this moment, all platforms support GPRs and FPRs up to XMM for amd64
target. The i386 target does not work on NetBSD at all, and is missing
FPRs entirely on FreeBSD.
Differential Revision: https://reviews.llvm.org/D91963
The test had a race that could cause two threads to end up with the same
"thread local" value. I believe this would not cause the test to fail,
but it could cause it to succeed even when the functionality is broken.
The new implementation removes this uncertainty, and removes a lot of
cruft left over from the time this test was written using pthreads.
The code used the total number of symbols to create a symbol ID for the
synthetic symbols. This is not correct because the IDs of real symbols
can be higher than their total number, as we do not add all symbols (and
in particular, we never add symbol zero, which is not a real symbol).
This meant we could have symbols with duplicate IDs, which caused
problems if some relocations were referring to the duplicated IDs. This
was the cause of the failure of the test D97786.
This patch fixes the code to use the ID of the highest (last) symbol
instead.
DWARF allows .dwo file paths to be relative rather than absolute. When
they are relative, DWARF uses DW_AT_comp_dir to find the .dwo
file. DW_AT_comp_dir can also be relative, making the entire search
patch for the .dwo file relative. In this case, LLDB currently
searches relative to its current working directory, i.e. the directory
from which the debugger was launched. This is not right, as the
compiler, which generated the relative paths, can have no idea where
the debugger will be launched. The correct thing is to search relative
to the location of the executable binary. That is what this patch
does.
Differential Revision: https://reviews.llvm.org/D97786
DWARF allows .dwo file paths to be relative rather than absolute. When
they are relative, DWARF uses DW_AT_comp_dir to find the .dwo
file. DW_AT_comp_dir can also be relative, making the entire search
patch for the .dwo file relative. In this case, LLDB currently
searches relative to its current working directory, i.e. the directory
from which the debugger was launched. This is not right, as the
compiler, which generated the relative paths, can have no idea where
the debugger will be launched. The correct thing is to search relative
to the location of the executable binary. That is what this patch
does.
Differential Revision: https://reviews.llvm.org/D97786
This functionality is used exactly once, and it is trivial to implement
it differently (capture into two distinct variables, and compare for
equality afterwards).
By checking for cpu and toolchain features ahead
of time we don't need the custom return codes.
Reviewed By: omjavaid
Differential Revision: https://reviews.llvm.org/D97684
These two functions are doing the same thing, only one of them is
sending the packets immediately and the other "queues" them to be sent
later. The first one is better as in case of errors, the backtrace will
point straight to the place that caused them.
Modify the first method to avoid duplication, and ten standardize on it.
This test is flakey because it tries to read the proc/smaps
file of the first lldb-server process it finds. This process
can finish before we finish doing that.
http://lab.llvm.org:8011/#/builders/96/builds/6634/steps/6/logs/stdio
For now limit this to MTE targets which basically means
QEMU via lldb-dotest, which doesn't have this issue.
I'll fix the race condition shortly.
The annotation is now (since the introduction of @apple_simulator_test)
redundant, and the test could theoretically run on lldb-server too (if
it supported darwin hosts).
These tests fail if you build without the x86 llvm backend.
Either because they use an x86 triple or try to backtrace which
requires some x86 knowledge to see all frames.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D100194
The original commit was reverted because of the problems it introduced
on Linux. However, FreeBSD should not be affected, so restore that part
and we will address Linux separately.
While at it, remove the dbreg hack as the underlying issue has been
fixed in the FreeBSD kernel and the problem is unlikely to happen
in real life use anyway.
Differential Revision: https://reviews.llvm.org/D98822
This commit has caused the following tests to be flaky:
TestThreadSpecificBpPlusCondition.py
TestExitDuringExpression.py
The exact cause is not known yet, but since both tests deal with
threads, my guess is it has something to do with the tracking of
creation of new threads (which the commit touches upon).
This reverts the following commits:
d01bff8cbd,
ba62ebc48e,
e761b6b4c5,
a345419ee0.
The core file used is built for i386 so we
need the x86 backend to be able to load it.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D100195
Previously the test would fail if you built on Arm/AArch64
but did not have the x86 llvm backend enabled.
Reviewed By: omjavaid
Differential Revision: https://reviews.llvm.org/D100192
By moving them into a folder with a local lit config
requiring x86. All these tests use x86 target triples.
There are two tests that require target-x86_64 because
they run program files (instead of just needing the backend).
Those are moved to the x86 folder also but their REQUIRES are
unchanged.
Reviewed By: JDevlieghere
Differential Revision: https://reviews.llvm.org/D100193
When LLDB's DWARF parser is parsing the member DIEs of a struct/class it
currently fully resolves the types of static member variables in a class before
adding the respective `VarDecl` to the record.
For record types fully resolving the type will also parse the member DIEs of the
respective class. The other way of resolving is just 'forward' resolving the type
which will try to load only the minimum amount of information about the type
(for records that would only be the name/kind of the type). Usually we always
resolve types on-demand so it's rarely useful to speculatively fully resolve
them on the first use.
This patch changes makes that we only 'forward' resolve the types of static
members. This solves the fact that LLDB unnecessarily loads debug information
to parse the type if it's maybe not needed later and it also avoids a crash where
the parsed type might in turn reference the surrounding class that is currently
being parsed.
The new test case demonstrates the crash that might happen. The crash happens
with the following steps:
1. We parse class `ToLayout` and it's members.
2. We parse the static class member and fully resolve its type
(`DependsOnParam2<ToLayout>`).
3. That type has a non-static class member `DependsOnParam1<ToLayout>` for which
LLDB will try to calculate the size.
4. The layout (and size)`DependsOnParam1<ToLayout>` turns depends on the
`ToLayout` size/layout.
5. Clang will calculate the record layout/size for `ToLayout` even though we are
currently parsing it and it's missing it's non-static member.
The created is missing the offset for the yet unparsed non-static member. If we
later try to get the offset we end up hitting different asserts. Most common is
the one in `TypeSystemClang::DumpValue` where it checks that the record layout
has offsets for the current FieldDecl.
```
assert(field_idx < record_layout.getFieldCount());
```
Fixed rdar://67910011
Reviewed By: shafik
Differential Revision: https://reviews.llvm.org/D100180
Watch for fork(2)/vfork(2) (also fork/vfork-style clone(2) on Linux)
notifications and explicitly detach the forked child process, and add
initial tests for these cases. The code covers FreeBSD, Linux
and NetBSD process plugins. There is no new user-visible functionality
provided -- this change lays foundations over subsequent work on fork
support.
Differential Revision: https://reviews.llvm.org/D98822
Add a minimal support for the multiprocess extension in gdb-remote
client. It accepts PIDs as part of thread-ids, and rejects PIDs that
do not match the current inferior.
Differential Revision: https://reviews.llvm.org/D99603
A little cleanup to how these firmware corefile tests are done; add
a test that loads a dSYM that loads an OS plugin, and confirm that
the OS plugin's threads are created.
When looking up user specified formatters qualifiers are removed from types before matching,
I have added a clarifying example to the document and added an example to a relevant test to demonstrate this behavior.
Differential Revision: https://reviews.llvm.org/D99827
An empty history entry can happen by entering the expression evaluator an immediately hitting enter:
```
$ lldb
(lldb) e
Enter expressions, then terminate with an empty line to evaluate:
1: <hit enter>
```
The next time the user enters the expression evaluator, if they hit the up arrow to load the previous expression, lldb crashes. This patch treats empty history sessions as a single expression of zero length, instead of an empty list of expressions.
Fixes http://llvm.org/PR49845.
Differential Revision: https://reviews.llvm.org/D100048
The memory read --outfile command should truncate the output when unless
--append-outfile. Fix the bug and add a test.
rdar://76062318
Differential revision: https://reviews.llvm.org/D99890
This reverts commit 602ab188a7.
The patch replicated an lldbassert for a certain type of NSNumber for tagged
pointers. This really shouldn't be an assert since we don't do anything wrong
with these numbers, we just don't print a summary. So this patch changed the
lldbassert to a log message in reverting the revert.
When referencing `NSObject`, it's enough to import `objc/NSObject.h`. Importing `Foundation` is unnecessary in these cases.
Differential Revision: https://reviews.llvm.org/D99867
Use `@import ObjectiveC` instead of `@import Foundation`, as the former is all
that's needed, and results in fewer clang modules being built.
This results in the following clang modules *not* being built for this test.
ApplicationServices
CFNetwork
ColorSync
CoreFoundation
CoreGraphics
CoreServices
CoreText
DiskArbitration
Dispatch
Foundation
IOKit
ImageIO
Security
XPC
_Builtin_intrinsics
launch
libkern
os_object
os_workgroup
Differential Revision: https://reviews.llvm.org/D99859
This reverts commit 4d9039c8dc.
This is causing the greendragon bots to fail most of the time when
running TestNSDictionarySynthetic.py. Reverting until Jim has a chance
to look at this on Monday. Running the commands from that test from
the command line, it fails 10-13% of the time on my desktop.
This is a revert of Jim's changes in https://reviews.llvm.org/D99694
Fill out ProcessMachCore::DoLoadCore to handle LC_NOTE hints with
a UUID or with a UUID+address, and load the binary at the specified
offset correctly. Add tests for all four combinations. Change
DynamicLoaderStatic to not re-set a Section's load address in the
Target if it's already been specified.
Differential Revision: https://reviews.llvm.org/D99571
rdar://51490545
Inline callstacks were being incorrectly displayed in the results of "image lookup --address". The deepest frame wasn't displaying the line table line entry, it was always showing the inline information's call file and line on the previous frame. This is now fixed and has tests to make sure it doesn't regress.
Differential Revision: https://reviews.llvm.org/D98761
The ObjC runtime offers both signed & unsigned tagged pointer value
accessors to tagged pointer providers, but lldb's tagged pointer
code only implemented the unsigned one. This patch adds an
emulation of the signed one.
The motivation for doing this is that NSNumbers use the signed
accessor (they are always signed) and we need to follow that in our
summary provider or we will get incorrect values for negative
NSNumbers.
The data-formatter-objc test file had NSNumber examples (along with lots of other
goodies) but the NSNumber values weren't tested. So I also added
checks for those values to the test.
I also did a quick audit of the other types in that main.m file, and
it looks like pretty much all the other values are either intermediates
or are tested.
Differential Revision: https://reviews.llvm.org/D99694
and probably other posix oses. Use extra_images to ensure
LD_LIBRARY_PATH is set correctly.
Also take the opportunity to remove hand-rolled library extension
management code in favor of the existing one.
The test uses debug info from one binary to debug a different one. This
does not work on macos, and its pure luck that it works elsewhere (the
variable that it inspects happens to have the same address in both).
The purpose of this test is to verify that lldb has not overwritten the
target executable. That can be more easily achieved by checking the exit
code of the binary, so change the test to do that.
Also remove the llgs_test decorator, as it's preventing the test from
running on macos. All the test needs is the platform functionality of
lldb-server, which is available everywhere.
This fixes flakiness in TestVSCode_launch.test_progress_events
vscode.progress_events some times failed to populate in time for
follow up iterations.
Adding a minor delay before the the for the loop fixes the issue.
Reviewed By: clayborg
Differential Revision: https://reviews.llvm.org/D99497
Remove the remaining references to LLDB_CAPTURE_REPRODUCER. I removed
the functionality in an earlier commit but forgot that there was a
corresponding test and logic to unset it in our test suite.
This implements the interactive trace start and stop methods.
This diff ended up being much larger than I anticipated because, by doing it, I found that I had implemented in the beginning many things in a non optimal way. In any case, the code is much better now.
There's a lot of boilerplate code due to the gdb-remote protocol, but the main changes are:
- New tracing packets: jLLDBTraceStop, jLLDBTraceStart, jLLDBTraceGetBinaryData. The gdb-remote packet definitions are quite comprehensive.
- Implementation of the "process trace start|stop" and "thread trace start|stop" commands.
- Implementaiton of an API in Trace.h to interact with live traces.
- Created an IntelPTDecoder for live threads, that use the debugger's stop id as checkpoint for its internal cache.
- Added a functionality to stop the process in case "process tracing" is enabled and a new thread can't traced.
- Added tests
I have some ideas to unify the code paths for post mortem and live threads, but I'll do that in another diff.
Differential Revision: https://reviews.llvm.org/D91679
This patch adds a test case to test AArch64 dynamic register sets.
This tests for the availability of certain register sets and query
their registers accordingly.
Reviewed By: labath, DavidSpickett
Differential Revision: https://reviews.llvm.org/D96463
This patch fixes an issue, where if the thread has a signal blocked when
we try to inject it into the process (via vCont), then instead of
executing straight away, the injected signal will trigger another stop
when the thread unblocks the signal.
As (linux) threads start their life with SIGUSR1 (among others)
disabled, and only enable it during initialization, injecting the signal
during this window did not behave as expected. The fix is to change the
test to ensure the signal gets injected with the signal unblocked.
The simplest way to do this was to write a dedicated inferior for this
test. I also created a new header to factor out the function retrieving
the (os-specific) thread id.
As discussed on lldb-dev
<https://lists.llvm.org/pipermail/lldb-dev/2021-March/016777.html> the
mips code is unmaintained and untested. It also carries a lot of
technical debt which is not limited to mips-specific code.
Generic mips support remains (and is going to be used by the upcoming
freebsd code). Resurrecting mips support should be a matter of re-adding
the relevant register context files (while avoiding reintroducing the
debt).
Add a minimal support for the multiprocess extension in lldb-server.
The server indicates support for it via qSupported, and accepts
thread-ids containing a PID. However, it still does not support
debugging more than one inferior, so any other PID value results
in an error.
Differential Revision: https://reviews.llvm.org/D98482
TestVSCode_disconnect.test_launch fails with clean up error because
disconnect gets called twice once from the test case and once from
the tear down hook.
This patch disables disconnect after its been called from test_launch
Reviewed By: clayborg
Differential Revision: https://reviews.llvm.org/D99491
This is apparently allowed in Objective-C so we should test this in LLDB.
Reviewed By: teemperor
Differential Revision: https://reviews.llvm.org/D99513
This is an LLDB test for the ASTImporter crash that got fixed in D99077.
The test is using Clang modules for the properties as it seems the conflicting
names are not actually correctly handled when generating debug information
(only the first property is emitted and the second one is ignored in the current
clang ToT).
Commit 6bc1e69de2 changed the search string
to also check for the generated strings that surround the plain assert:
Assertion `false && "lldb-test assert"' failed
^^^^^^^^^
This causes the test to fail on setups where the generated assert message
looks different. E.g., on macOS the generated message looks like this:
Assertion failed: (false && "lldb_assert failed"), function lldb_assert
This reverts the old behaviour of just checking for the actual string we
have inside LLDB.
LLDB on Linux built with symbols is showing this error.
Without symbols it still PASSes:
lldb-test: .../lldb/source/Utility/LLDBAssert.cpp:29: void lldb_private::lldb_assert(bool, const char *, const char *, const char *, unsigned int): Assertion `false && "lldb_assert failed"' failed.
With symbols it FAILs:
lldb-test: .../lldb/tools/lldb-test/lldb-test.cpp:1086: int opts::assert::lldb_assert(lldb_private::Debugger &): Assertion `false && "lldb-test assert"' failed.
Differential Revision: https://reviews.llvm.org/D99462
LLDB can often appear deadlocked to users that use IDEs when it is indexing DWARF, or parsing symbol tables. These long running operations can make a debug session appear to be doing nothing even though a lot of work is going on inside LLDB. This patch adds a public API to allow clients to listen to debugger events that report progress and will allow UI to create an activity window or display that can show users what is going on and keep them informed of expensive operations that are going on inside LLDB.
Differential Revision: https://reviews.llvm.org/D97739
The commit passes the tests on Darwin. The failure on linux shows
that this change was not sufficient to get this setting to work on linux,
but the behavior is the same as before the patch & test, and it caused
no new failures.
So marking the tests as Darwin only till someone can debug the Linux
issue.
The StopInfoBreakpoint::PerformAction was overriding the synchronous
breakpoint's ShouldStop report. Fix that and add a test.
This fixes two bugs in the original submission:
1) Actually generate both dylibs by including the second one in the Makefile
2) Don't ask synchronous callbacks for their opinion on whether to stop
in the async context, that info is taken care of by recording the m_should_stop
on entry to PerformAction.
Differential Revision: https://reviews.llvm.org/D98914
This patch introduces Scripted Processes to lldb.
The goal, here, is to be able to attach in the debugger to fake processes
that are backed by script files (in Python, Lua, Swift, etc ...) and
inspect them statically.
Scripted Processes can be used in cooperative multithreading environments
like the XNU Kernel or other real-time operating systems, but it can
also help us improve the debugger testing infrastructure by writting
synthetic tests that simulates hard-to-reproduce process/thread states.
Although ScriptedProcess is not feature-complete at the moment, it has
basic execution capabilities and will improve in the following patches.
rdar://65508855
Differential Revision: https://reviews.llvm.org/D95713
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This got removed in 68bb51acd5 and this enabled
the test on macOS (where it just causes lldb-server to crash). Re-adding the
decorator to get the tests passing again.
This patch introduces Scripted Processes to lldb.
The goal, here, is to be able to attach in the debugger to fake processes
that are backed by script files (in Python, Lua, Swift, etc ...) and
inspect them statically.
Scripted Processes can be used in cooperative multithreading environments
like the XNU Kernel or other real-time operating systems, but it can
also help us improve the debugger testing infrastructure by writting
synthetic tests that simulates hard-to-reproduce process/thread states.
Although ScriptedProcess is not feature-complete at the moment, it has
basic execution capabilities and will improve in the following patches.
rdar://65508855
Differential Revision: https://reviews.llvm.org/D95713
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
In order to facilitate the writting of Scripted Processes, this patch
introduces a `ScriptedProcess` python base class in the lldb module.
The base class holds the python interface with all the - abstract -
methods that need to be implemented by the inherited class but also some
methods that can be overwritten.
This patch also provides an example of a Scripted Process with the
`MyScriptedProcess` class.
rdar://65508855
Differential Revision: https://reviews.llvm.org/D95712
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
The file contained bogus input - the DIE list was not properly
terminated. This should not cause a crash, but it seems it was crashing
at least on linux arm and x86 windows.
lit has grown a feature where it stores the runtimes of all tests.
Normally, these times should be stored in the build directory, but
because our API tests have set test_exec_root to point to the source
tree, it has ended up polluting our checkout and led to the
.lit_test_times.txt being committed to the repository.
Delete this file, and adjust the exec root of API tests. I've also
needed to adjust the root of Shell tests, in order to avoid the two
overlapping.
SymbolFileDWARF::ResolveSymbolContext is currently unaware that in DWARF5 the primary file is specified at file index 0. As a result it misses to correctly resolve the symbol context for the primary file when DWARF5 debug data is used and the primary file is only specified at index 0.
This change makes use of CompileUnit::ResolveSymbolContext to resolve the symbol context. The ResolveSymbolContext in CompileUnit has been previously already updated to reflect changes in DWARF5
and contains a more readable version. It can resolve more, but will also do a bit more work than
SymbolFileDWARF::ResolveSymbolContext (getting the Module, and going through SymbolFileDWARF::ResolveSymbolContextForAddress), however, it's mostly directed by $resolve_scope
what will be resolved, and ensures that code is easier to maintain if there's only one path.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D98619
In general, it seems like the debugger should allow programs to load & run with
libraries as far as possible, instead of defaulting to being super-picky about
unavailable symbols.
This is critical on macOS/Darwin, as libswiftCore.dylib may 1) export a version
symbol using @available markup and then 2) expect that other exported APIs are
only dynamically used once the version symbol is checked. We can't open a
version of the library built with a bleeding-edge SDK on an older OS without
RTLD_LAXY (or pervasive/expensive @available markup added to dyld APIs).
This was previously committed as cb8c1ee269 and reverted due to
unknown failures on the Linux bots. This version adds additional asserts
to check that the shared objects are where we expect them & that calling
f1() from libt1 produces the expected value. The Linux failure is
tracked by https://bugs.llvm.org/show_bug.cgi?id=49656.
See: https://lists.llvm.org/pipermail/lldb-dev/2021-March/016796.html
Differential Revision: https://reviews.llvm.org/D98879
In general, it seems like the debugger should allow programs to load & run with
libraries as far as possible, instead of defaulting to being super-picky about
unavailable symbols.
This is critical on macOS/Darwin, as libswiftCore.dylib may 1) export a version
symbol using @available markup and then 2) expect that other exported APIs are
only dynamically used once the version symbol is checked. We can't open a
version of the library built with a bleeding-edge SDK on an older OS without
RTLD_LAXY (or pervasive/expensive @available markup added to dyld APIs).
See: https://lists.llvm.org/pipermail/lldb-dev/2021-March/016796.html
Differential Revision: https://reviews.llvm.org/D98879
Call `os_log_fault` when an lldb assert fails. We piggyback off
`LLVM_SUPPORT_XCODE_SIGNPOSTS`, which also depends on `os_log`, to avoid
having to introduce another CMake check and corresponding define.
This patch also adds a small test using lldb-test that verifies we abort
with a "regular" assertion when asserts are enabled.
Differential revision: https://reviews.llvm.org/D98987
This reverts commit 9406d43138.
I messed up a test, and when I got it right it was failing. The changed logic
doesn't work quite right (now the async callback called at sync time is
forcing us to stop. I need to be a little more careful about that.
We weren't taking into account the "m_should_stop" setting that the
synchronous breakpoint callback had already set when we did PerformAction
in the StopInfoBreakpoint. So we didn't obey its instructions when it
told us to stop. Fixed that and added some tests both for when we
just have the setting, and when we have the setting AND other breakpoints
at the shared library load notification breakpoint address.
Differential Revision: https://reviews.llvm.org/D98914
Make the API, Shell and Unit tests independent lit test suites. This
allows us to specify different dependencies and skip rebuilding all the
unit test (which is particularly expensive) when running check-lldb-api
or check-lldb-shell.
This does not change the autogenerated targets such as
check-lldb-shell-driver or the top level check-lldb target, which all
continue to work as before.
Differential revision: https://reviews.llvm.org/D98842
TestExitDuringExpression test_exit_before_one_thread_unwind fails
sporadically on both Arm and AArch64 linux buildbots.
This seems like a thread timing issue. I am marking it skip for now.
For instance, some recent clang emits this code on x86_64:
0x100002b99 <+57>: callq 0x100002b40 ; step_out_of_here at main.cpp:11
-> 0x100002b9e <+62>: xorl %eax, %eax
0x100002ba0 <+64>: popq %rbp
0x100002ba1 <+65>: retq
and the "xorl %eax, %eax" is attributed to the same line as the callq. Since
step out is supposed to stop just on returning from the function, you can't guarantee
it will end up on the next line. I changed the test to check that we were either
on the call line or on the next line, since either would be right depending on the
debug information.
The cause is the non-async-signal-safety printf function (et al.). If
the test managed to interrupt the process and inject a signal before the
printf("@started") call returned (but after it has actually written the
output), that string could end up being printed twice (presumably,
because the function did not manage the clear the userspace buffer, and
so the print call in the signal handler would print it once again).
This patch fixes the issue by replacing the printf call in the signal
handler with a sprintf+write combo, which should not suffer from that
problem (though I wouldn't go as far as to call it async signal safe).
Fix the test to account for recent test infrastructure changes, and make
it run locally to increase the chances of it continuing to work in the
future.
The TestGdbRemote_vContThreads.py were introduced to test NetBSD process
plugin's capability of sending per-thread and per-process signals.
However, at some point the tests started failing. From retrospective,
it is possible that they were relying on some bug in the plugin's
original signal handling.
Fix the tests not to expect the process to terminate after receiving
the signals. Instead, scan for output indicating that the signals were
received and match thread IDs in it. Enable 'signal to all threads'
test everywhere as it works fine on Linux. Add a new test for vCont
packet without specific thread IDs. Introduce a helper function
to cover the common part of tests.
While this does not fix all the problems on NetBSD, it enables a subset
of the tests on other systems. I am planning to add more tests
to the group while implementing multiprocess extension for vCont.
Differential Revision: https://reviews.llvm.org/D98749
Summary:
The request "evaluate" supports a "context" attribute, which is sent by VSCode. The attribute is defined here https://microsoft.github.io/debug-adapter-protocol/specification#Requests_Evaluate
The "clipboard" context is not yet supported by lldb-vscode, so we can forget about it for now. The 'repl' (i.e. Debug Console) and 'watch' (i.e. Watch Expression) contexts must use the expression parser in case the frame's variable path is not enough, as the user expects these expressions to never fail. On the other hand, the 'hover' expression is invoked whenever the user hovers on any keyword on the UI and the user is fine with the expression not being fully resolved, as they know that the 'repl' case is the fallback they can rely on.
Given that the 'hover' expression is invoked many many times without the user noticing it due to it being triggered by the mouse, I'm making it use only the frame's variable path functionality and not the expression parser. This should speed up tremendously the responsiveness of a debug session when the user only sets source breakpoints and inspect local variables, as the entire debug info is not needed to be parsed.
Regarding tests, I've tried to be as comprehensive as possible considering a multi-file project. Fortunately, the results from the "hover" case are enough most of the times.
Differential Revision: https://reviews.llvm.org/D98656
TestExitDuringExpression test_exit_before_one_thread_unwind fails
sporadically on arm/linux. This seems like a thread timing issue.
I am marking it skip for now.
The functionality is not posix specific. Also force the usage of the
gdb-remote process plugin in the gdb platform class.
This is not sufficient to make TestPlatformConnect pass on windows (it
seems it suffers from module loading issues, unrelated to this test),
but it at least makes it shut down correctly, so I change the skip to an
xfail.
D96202 removes the test dependency on debugserver which is causing a bunch of
tests to fail on a clean build.
This patch re-adds the dependency. I decided to not add the dependency in the
`test/API` folder as we actually need it in all kinds of tests (we have shell,
API and a few unit tests such as the LLDBServerTests that depend on the
debugserver binary). lldb-server is also handled in the same way.
Reviewed By: JDevlieghere, labath
Differential Revision: https://reviews.llvm.org/D98196
This variable is used to reducing the likelihood of hitting module cache
issues in CI where different branches can potentially run on the same
machine.
Use lit's with_system_environment function to propagate environment
variables to the tests. Include the usual suspects, as well as the
variables already explicitly forwarded.
LLVM OrcJIT is shifting from RuntimeDyld to JITLink. Starting with D96627 I am planning to add debug support. It would be great to have test coverage for it in LLDB early on.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D96634
This patch exposes the getter and setter methods for the command
interpreter `print_errors` run option.
rdar://74816984
Differential Revision: https://reviews.llvm.org/D98001
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch introduces a new interpreter setting to prevent LLDB from
re-executing the previous command when passing an empty command.
This can be very useful when performing actions that requires a long
time to complete.
To preserve the original behaviour, the setting defaults to `true`.
rdar://74983516
Differential Revision: https://reviews.llvm.org/D97999
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
We have a plugin.process.gdb-remote.packet-timeout setting, which can be
used to control how long the lldb client is willing to wait before
declaring the server side dead. Our test suite makes use of this
feature, and sets the setting value fairly high, as the low default
value can cause flaky tests, particularly on slower bots.
After fixing TestPlatformConnect (one of the few tests exercising the
remote platform capabilities of lldb) in 4b284b9ca, it immediately
started being flaky on the arm bots. It turns out this is because the
packet-timeout setting is not being applied to platform connections.
This patch makes the platform connections also respect the value of this
setting. It also adds a test which checks that the timeout value is
being honored.
Differential Revision: https://reviews.llvm.org/D97769
Apply changes from https://reviews.llvm.org/D91014 to other places where DWARF entries are being processed.
Test case is provided by @jankratochvil.
The test is marked to run only on x64 and exclude Windows and Darwin, because the assembly is not OS-independent.
(First attempt https://reviews.llvm.org/D96778 broke the build bots)
Reviewed By: jankratochvil
Differential Revision: https://reviews.llvm.org/D97765
GDB remote protocol does not specify length of g packet for register read. It depends on remote to include all or exclude certain registers from g packet. In case a register or set of registers is not included as part of g packet then we should fall back to p packet for reading all registers excluded from g packet by remote. This patch adds support for above feature and adds a test-case for the same.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D97498
This patch introduces Scripted Processes to lldb.
The goal, here, is to be able to attach in the debugger to fake processes
that are backed by script files (in Python, Lua, Swift, etc ...) and
inspect them statically.
Scripted Processes can be used in cooperative multithreading environments
like the XNU Kernel or other real-time operating systems, but it can
also help us improve the debugger testing infrastructure by writting
synthetic tests that simulates hard-to-reproduce process/thread states.
Although ScriptedProcess is not feature-complete at the moment, it has
basic execution capabilities and will improve in the following patches.
rdar://65508855
Differential Revision: https://reviews.llvm.org/D95713
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
In order to facilitate the writting of Scripted Processes, this patch
introduces a `ScriptedProcess` python base class in the lldb module.
The base class holds the python interface with all the - abstract -
methods that need to be implemented by the inherited class but also some
methods that can be overwritten.
This patch also provides an example of a Scripted Process with the
`MyScriptedProcess` class.
rdar://65508855
Differential Revision: https://reviews.llvm.org/D95712
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
Skip the AVX-related lldb-server test on non-x86 architectures, as they
do not support AVX. While technically the test worked on Linux because
the AVX check would simply return false, other platforms do not provide
such a straightforward way of checking for AVX (especially remotely),
and the results of such check may need to be interpreted specially
for the platform in question.
Differential Revision: https://reviews.llvm.org/D97450
Use realpath() when spawning the executable create_after_attach
to workaround a FreeBSD plugin (and possibly others) problem.
If the executable is started via a path containing a symlink, it is
added to the module list twice -- via the real and apparent path.
This in turn cases the requested breakpoint to resolve twice.
Use realpath() for main program path in lldb-vscode breakpoint tests
to workaround a similar problem. If the passed path does not match
the realpath, lldb-vscode does not report the breakpoints as verified
and causes tests to fail.
Since the underlying problems are non-trivial to fix and the purpose
of these tests is not to reproduce symlink problems, let's apply
trivial workarounds to make them pass.
Differential Revision: https://reviews.llvm.org/D97230
Some implementations of the DeepCopy function called the copy constructor that copied m_parent member instead of setting a new parent. Others just leaved the base class's members (m_parent, m_callback, m_was_set) empty.
One more problem is that not all classes override this function, e.g. OptionValueArgs::DeepCopy produces OptionValueArray instance, and Target[Process/Thread]ValueProperty::DeepCopy produces OptionValueProperty. This makes downcasting via static_cast invalid.
The patch implements idiom "virtual constructor" to fix these issues.
Add a test that checks DeepCopy for correct copying/setting all data members of the base class.
Differential Revision: https://reviews.llvm.org/D96952
Add frame variable dereference suppport to libc++ `std::unique_ptr`.
This change allows for commands like `v *thing_up` and `v thing_up->m_id`. These commands now work the same way they would with raw pointers, and as they would with expression. This is done by adding an unaccounted for child member named `$$dereference$$`.
Without this change, the command would have to be written as `v *thing_up.__value_` or v thing_up.__value_->m_id` which exposes internal structure and is more clumsy to type.
Additionally, the existing tests were updated. See also https://reviews.llvm.org/D97165 which added deref support for `std::shared_ptr`.
Differential Revision: https://reviews.llvm.org/D97524
This patch replaces the static large function threshold variable with a
global debugger setting (`stop-disassembly-max-size`).
The default threshold is now set to 32KB (instead of 8KB) and can be modified.
rdar://74726362
Differential Revision: https://reviews.llvm.org/D97486
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
The current API for printing errors/warnings/messages from LLDB commands
sometimes adds newlines behind the messages for the caller. However, this
happens unconditionally so when the caller already specified a trailing newline
in the error message (or is trying to print a generated error message that ends
in a newline), LLDB ends up printing both the automatically added newline and
the one that was in the error message string. This leads to all the randomly
appearing new lines in error such as:
```
(lldb) command a
error: 'command alias' requires at least two arguments
(lldb) apropos a b
error: 'apropos' must be called with exactly one argument.
(lldb) why is there an empty line behind the second error?
```
This code adds a check that only appends the new line if the passed message
doesn't already contain a trailing new line.
Also removes the AppendRawWarning which had only one caller and doesn't serve
any purpose now.
Reviewed By: #lldb, mib
Differential Revision: https://reviews.llvm.org/D96947
In DWARF v4 compile units go in .debug_info and type units go in
.debug_types. However, in v5 both kinds of units are in .debug_info.
Therefore we can't decide whether to use the CU or TU index just by
looking at which section we're reading from. We have to wait until we
have read the unit type from the header.
Differential Revision: https://reviews.llvm.org/D96194
Add `frame variable` dereference suppport to libc++ `std::shared_ptr`.
This change allows for commands like `v *thing_sp` and `v thing_sp->m_id`. These
commands now work the same way they do with raw pointers. This is done by adding an
unaccounted for child member named `$$dereference$$`.
Also, add API tests for `std::shared_ptr`, previously there were none.
Differential Revision: https://reviews.llvm.org/D97165
When enabling LLDB tests with `LLVM_ENABLE_RUNTIMES=libcxx` CMake will
fail with:
```
LLDB test suite requires libc++, but it is currently disabled.
```
The issue is that the targets in LLVM_ENABLE_RUNTIMES are configured
after the targets in LLVM_ENABLE_PROJECTS, so at this point the check
for the `cxx` target will fail. CMake will add a dependency for a target
that does not exist yet however, so by first checking for `libcxx` in
LLVM_ENABLE_RUNTIMES we ensure that the `cxx` target will be present at
build time.
Tested with:
```
% cmake -G Ninja \
-C ~/local/llvm-project/lldb/cmake/caches/Apple-lldb-macOS.cmake \
-DLLVM_ENABLE_PROJECTS="clang;lldb" -DLLVM_ENABLE_RUNTIMES="libcxx" \
-DLIBCXX_INCLUDE_TESTS=NO ~/local/llvm-project/llvm
% ninja check-lldb
```
Reviewed By: smeenai, JDevlieghere
Differential Revision: https://reviews.llvm.org/D97227
Currently TypePrinter lumps anonymous classes and unnamed classes in one group "anonymous" this is not correct and can be confusing in some contexts.
Differential Revision: https://reviews.llvm.org/D96807
This reapplies 7df4eaaa93/D96202, which was reverted due to issues on
windows. These were caused by problems in the computation of the liblldb
directory, which was fixed by D96779.
The original commit message was:
Our test configuration logic assumes that the tests can be run either
with debugserver or with lldb-server. This is not entirely correct,
since lldb server has two "personalities" (platform server and debug
server) and debugserver is only a replacement for the latter.
A consequence of this is that it's not possible to test the platform
behavior of lldb-server on macos, as it is not possible to get a hold of
the lldb-server binary.
One solution to that would be to duplicate the server configuration
logic to be able to specify both executables. However, that seems
excessively redundant.
A well-behaved lldb should be able to find the debug server on its own,
and testing lldb with a different (lldb-|debug)server does not seem very
useful (even in the out-of-tree debugserver setup, we copy the server
into the build tree to make it appear "real").
Therefore, this patch deletes the configuration altogether and changes
the low-level server retrieval functions to be able to both lldb-server
and debugserver paths. They do this by consulting the "support
executable" directory of the lldb under test.
Differential Revision: https://reviews.llvm.org/D96202
VSCode was not being informed whenever a location had been resolved (after being initated as non-resolved), so even though it was actually resolved, the IDE would show a hollow dot (instead of a red dot) because it didn't know about the change.
Differential Revision: https://reviews.llvm.org/D96680
This issue was introduced in https://reviews.llvm.org/D92187.
The guard I'm changing were is supposed to act when linux is loading the linker for the second time (due to differences in paths like symlinks).
This is done by checking `module_sp != m_interpreter_module.lock()` however this will be true when `m_interpreter_module` wasn't initialized, making linux unload the linker module (the most visible result here is that lldb will stop getting notified about new modules loaded by the process, because it can't set the rendezvous breakpoint again after the stepping over it once).
The `m_interpreter_module` is not getting initialize when it goes through this path: dbfdb139f7/lldb/source/Plugins/DynamicLoader/POSIX-DYLD/DynamicLoaderPOSIXDYLD.cpp (L332), which happens when lldb was able to read the address from the dynamic section of the executable.
What I'm not sure about though, is if when we go through this path if we still load the linker twice on linux. If that's the case then it means we need to somehow set the m_interpreter_module instead of the fix I provide here. I've only tested this on Android.
Differential Revision: https://reviews.llvm.org/D96637
Currently TypePrinter lumps anonymous classes and unnamed classes in one group "anonymous" this is not correct and can be confusing in some contexts.
Differential Revision: https://reviews.llvm.org/D96807
Our code for locating the shared library directory works via dladdr (or
the windows equivalent) to locate the path of an address known to reside
in liblldb. This works great for C++ programs, but there's a catch.
When (lib)lldb is used from python (like in our test suite), this dladdr
call will return a path to the _lldb.so (or such) file in the python
directory. To compensate for this, we have code which attempts to
resolve this symlink, to ensure we get the canonical location. However,
here's the second catch.
On windows, this file is not a symlink (but a copy), so this logic
fails. Since most of our other paths are derived from the liblldb
location, all of these paths will be wrong, when running the test suite.
One effect of this was the failure to find lldb-server in D96202.
To fix this issue, I add some windows-specific code to locate the
liblldb directory. Since it cannot rely on symlinks, it works by
manually walking the directory tree -- essentially doing the opposite of
what we do when computing the python directory.
To avoid python leaking back into the host code, I implement this with
the help of a callback which can be passed to HostInfo::Initialize in
order to assist with the directory location. The callback lives inside
the python plugin.
I also strenghten the existing path test to ensure the returned path is
the right one.
Differential Revision: https://reviews.llvm.org/D96779
LLDB does not like to import Python files with dashes or dots in their
name. While the former are technically allowed, it is discouraged. Dots
are allowed for subpackages but not in module names. This patch improves
the user experience by printing a useful error.
Before this patch:
error: module importing failed: SyntaxError('invalid syntax',
('<string>', 1, 11, 'import foo-bar\n'))
After this patch:
error: module importing failed: Python discourages dashes in module
names: foo-bar
rdar://74263511
[1] https://www.python.org/dev/peps/pep-0008/#package-and-module-names
Differential revision: https://reviews.llvm.org/D96833
real_path returns an `std::error_code` which evaluates to `true` in case an
error happens and `false` if not. This code was checking the inverse, so
case-insensitive file systems ended up being detected as case sensitive.
Tested using an LLDB reproducer test as we anyway need a real file system and
also some matching logic to detect whether the respective file system is
case-sensitive (which the test is doing via some Python checks that we can't
really emulate with the usual FileCheck logic).
Fixes rdar://67003004
Reviewed By: JDevlieghere
Differential Revision: https://reviews.llvm.org/D96795
lldb-server can use a named pipe to communicate the port number it is
listening on. This windows bits of this are already implemented, but we
did not have a test for that, most likely because python does not have
native pipe functionality.
This patch implements the windows bits necessary to test this. I'm using
the ctypes package to call the native APIs directly to avoid a
dependency to non-standard python packages. This introduces some amount
of boilerplate, but our named pipe use case is fairly limited, so we
should not end up needing to wrap large chunks of windows APIs.
Surprisingly to changes to lldb-server were needed to make the test
pass.
Differential Revision: https://reviews.llvm.org/D96260
TestMultipleTargets.py fails randomly on Arm/AArch64 Linux buildbot with
no reasonable clues. I am marking it skipped for avoiding LLDB buildbot
failures due to this test.
This test supposed to check the test base we are using for pexpect tests, but instead it used the normal TestBase
class we use for all other tests. TestBase already had the substrs type check since D88792 so this
test was passing because of that.
This just changes the test base of the test to the pexpect one so that the `expect` calls find their intended
target function. Also moves the check to the very start so that we can check the argument without
actually having to start a terminal and all that jazz.
(I found this by accident as D88792 got somehow reverted in a downstream branch so this test started
failing).
Reviewed By: JDevlieghere
Differential Revision: https://reviews.llvm.org/D96556
The 'r' and 'run' aliases were different based on the target
architecture. I suspect the intention was to disable shell expansion on
embedded devices. This fixes TestCustomShell.test on AS.
It is possible for the GetSectionHeaderByIndex lookup to fail because
the previous FindSectionContainingFileAddress lookup found a segment
instead of a section. This is possible if the binary does not have
a PLT (which means that lld will in some circumstances set DT_JMPREL
to 0, which is typically an address that is part of the ELF headers
and not in a section) and may also be possible if the section headers
have been stripped. To handle this possibility, replace the assert
with an if.
Differential Revision: https://reviews.llvm.org/D93438
Multi-configuration generators (such as Visual Studio and Xcode) allow the specification of a build flavor at build time instead of config time, so the lit configuration files need to support that - and they do for the most part. There are several places that had one of two issues (or both!):
1) Paths had %(build_mode)s set up, but then not configured, resulting in values that would not work correctly e.g. D:/llvm-build/%(build_mode)s/bin/dsymutil.exe
2) Paths did not have %(build_mode)s set up, but instead contained $(Configuration) (which is the value for Visual Studio at configuration time, for Xcode they would have had the equivalent) e.g. "D:/llvm-build/$(Configuration)/lib".
This seems to indicate that we still have a lot of fragility in the configurations, but also that a number of these paths are never used (at least on Windows) since the errors appear to have been there a while.
This patch fixes the configurations and it has been tested with Ninja and Visual Studio to generate the correct paths. We should consider removing some of these settings altogether.
Reviewed By: JDevlieghere, mehdi_amini
Differential Revision: https://reviews.llvm.org/D96427
Right now when running `expr --top-level -- void foo() {}`, LLDB just prints a cryptic
`error: Couldn't find $__lldb_expr() in the module` error. The reason for that is
that if we don't have a running process, we try to set our execution policy to always use the
IR interpreter (ExecutionPolicyNever) which works even without a process. However
that code didn't consider the special ExecutionPolicyTopLevel which we use for
top-level expressions. By changing the execution policy to ExecutionPolicyNever,
LLDB thinks we're actually trying to interpret a normal expression inside our
`$__lldb_expr` function and then fails when looking for it.
This just adds an exception for top-level expressions to that code and a bunch of tests.
Reviewed By: shafik
Differential Revision: https://reviews.llvm.org/D91723
Clang emits a warning when accessing an Objective-C getter but not using the result.
This gets triggered when just trying to print a getter value in the expression parser (where
Clang just sees a normal expression like `obj.getter` while parsing).
This patch just disables the warning in the expression parser (similar to what we do with
the C++ equivalent of just accessing a member variable but not doing anything with it).
Reviewed By: kastiglione
Differential Revision: https://reviews.llvm.org/D94307
Our test configuration logic assumes that the tests can be run either
with debugserver or with lldb-server. This is not entirely correct,
since lldb server has two "personalities" (platform server and debug
server) and debugserver is only a replacement for the latter.
A consequence of this is that it's not possible to test the platform
behavior of lldb-server on macos, as it is not possible to get a hold of
the lldb-server binary.
One solution to that would be to duplicate the server configuration
logic to be able to specify both executables. However, that seems
excessively redundant.
A well-behaved lldb should be able to find the debug server on its own,
and testing lldb with a different (lldb-|debug)server does not seem very
useful (even in the out-of-tree debugserver setup, we copy the server
into the build tree to make it appear "real").
Therefore, this patch deletes the configuration altogether and changes
the low-level server retrieval functions to be able to both lldb-server
and debugserver paths. They do this by consulting the "support
executable" directory of the lldb under test.
Differential Revision: https://reviews.llvm.org/D96202
Although it is located under tools/lldb-server, this test is very
different that other lldb-server tests. The most important distinction
is that it does not test lldb-server directly, but rather interacts with
it through the lldb client. It also tests the relevant client
functionality (the platform connect command, which is even admitted in
the test name). The fact that this test is structured as a lldb-server
test means it cannot access most of the goodies available to the
"normal" lldb tests (the runCmd function, which it reimplements; the
run_break_set_by_symbol utility function; etc.).
This patch makes it a full-fledged lldb this, and rewrites the relevant
bits to make use of the standard features. I also move the test into the
"commands" subtree to better reflect its new status.
BlockPointerSyntheticFrontEnd does a CopyType which results in it copying the type
back into its own context. This will result in a call to ASTImporterDelegate::setOrigin
with &decl->getASTContext() == origin.ctx this can result in an infinite recursion
later on in ASTImporter since it will attempt to find the decl in its origin which will be itself.
Differential Revision: https://reviews.llvm.org/D96366
There is a .categories file in the python_api directory that makes all nested tests
belong to the category "pyapi". The decorator is unnecessary for these tests.
Native register descriptions in LLDB specify lldb register numbers in
value_regs and invalidate_regs lists. These register numbers may not
match with Process gdb-remote register numbers which are generated by
native process after counting all registers in its register sets.
It was coincidentally not causing any problems as we never came across
a native target with dynamically changing register sets and register
numbers generated by counter matched with LLDB native register numbers.
This came up while testing target AArch64 SVE which can choose register
sets based on underlying hardware.
This patch fixes this behavior and always tries to use remote register
numbers while reading/writing registers over gdb-remote protocol.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D77043
This patch tries to improve memory-read from core files
(in order to improve disassembly functionality).
I am using RHEL 7.7 (linux kernel 3.10) and for a lot of cases,
I was not able to disassemble some functions from backtrace when
debugging crashes from core files. It outputs some dummy code.
The cause of the problem was the fact we are returning all the zeros
from ProcessElfCore::ReadMemory() that is being called within
Disassembler::ParseInstructions() and it disassembles some dummy
opcodes from the buffer returned. Therefore, we are removing zero
bytes filling (padding) completely.
Differential Revision: https://reviews.llvm.org/D93939
This test passes on arm64 (Apple Silicon). I assume that "aarch64" still
ensures this gets skipped on Linux. I don't have access to such and
environment so I'll have to rely on the bot complaining.
Replace the dotest command line options and various cmake variables,
which are used for passing the locations of llvm tools to the API tests
with a single variable, which points to the directory these tools are
placed in. Besides reducing repetition, this also makes things more
similar to how "normal" llvm tests are configured.
Differential Revision: https://reviews.llvm.org/D95261
I switched the watch simulator test from i386 to using x86_64, but
apparently that's not supported on the bots. Rollback to using i386 and
solve the original issue by passing the target, similar to what I did
in TestSimulatorPlatform.py.
Honor the CPU type (and subtype) when launching the inferior on macOS.
Part of this functionality was thought to be no longer needed and
removed in 85bd436961, however it's still
needed, for example to launch binaries under Rosetta 2 on Apple Silicon.
This patch will use posix_spawnattr_setarchpref_np if available and
fallback to posix_spawnattr_setbinpref_np if not.
Differential revision: https://reviews.llvm.org/D95922
Convert `assertTrue(a == b)` to `assertEqual(a, b)` to produce better failure messages.
These were mostly done via regex search & replace, with some manual fixes.
Differential Revision: https://reviews.llvm.org/D95813
This reverts commit 754ab803b8.
As pointed out in https://reviews.llvm.org/D95761, this patch could lead to
having the wrong execution context in some situations (thanks Jim!).
D92164 is addressing the same issue and will replace this patch, so I'll
revert this one.
This patch skips the test for the SBTarget::IsLoaded method on windows
since the logic is different.
Differential Revision: https://reviews.llvm.org/D95686
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch adds an `SBTarget::IsLoaded(const SBModule&) const` endpoint
to lldb's Scripting Bridge API. As the name suggests, it will allow the
user to know if the module is loaded in a specific target.
rdar://37957625
Differential Review: https://reviews.llvm.org/D95686
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
stella.stemenova mentioned in https://reviews.llvm.org/D93951 failures on Windows for this test.
I'm fixing the macro definitions and disabling the tests for python
versions lower than 3.7. I'll figure out that actual issue with
python3.6 after the buildbots are fine again.
Identical to previous commits that just add a standard library template to the
supported template list and test it. Adding this rather obscure class to the
template list is mostly caused by the std::deque test unexpectedly referencing
this type when testing against newer libc++ versions on macOS.
Fixes TestQueueFromStdModule and TestQueueFromStdModule on macOS.
Fixes rdar://73213589
Second try, handling both a bogus arch string and the "null file & arch" used
to create an empty but valid target.
Also check in that case before logging (previously the logging would have
crashed.)
D95354 started to set the sh_link field for SHT_SYMTAB sections.
Previously it was set for symbol tables basing on their names (e.g. ".symtab").
This test now crashes see:
http://lab.llvm.org:8011/#/builders/68/builds/5911
I updated it to restore the old behavior.
Also revert "Follow on to: f05dc40c31d1883b46b8bb60547087db2f4c03e3"
After these changes, multiple lldb tests are failing. Calls to
CreateTargetWithFileAndArch(None, None) appear to fail after these
changes.
This reverts commit f05dc40c31 and
1fba21778f.
Adds support for running a Lua function when a breakpoint is hit.
Example:
breakpoint command add -s lua -F abc
The above runs the Lua function 'abc' passing 2 arguments. 'frame', 'bp_loc' and 'extra_args'.
A third parameter 'extra_args' is only present when there is structured data
declared in the command line.
Example:
breakpoint command add -s lua -F abc -k foo -v bar
Differential Revision: https://reviews.llvm.org/D93649
Depends on D93874.
runInTerminal was using --wait-for, but it was some problems because it uses process polling looking for a single instance of the debuggee:
- it gets to know of the target late, which renders breakpoints in the main function almost impossible
- polling might fail if there are already other processes with the same name
- polling might also fail on some linux machine, as it's implemented with the ps command, and the ps command's args and output are not standard everywhere
As a better way to implement this so that it works well on Darwin and Linux, I'm using now the following process:
- lldb-vscode notices the runInTerminal, so it spawns lldb-vscode with a special flag --launch-target <target>. This flags tells lldb-vscode to wait to be attached and then it execs the target program. I'm using lldb-vscode itself to do this, because it makes finding the launcher program easier. Also no CMAKE INSTALL scripts are needed.
- Besides this, the debugger creates a temporary FIFO file where the launcher program will write its pid to. That way the debugger will be sure of which program to attach.
- Once attach happend, the debugger creates a second temporary file to notify the launcher program that it has been attached, so that it can then exec. I'm using this instead of using a signal or a similar mechanism because I don't want the launcher program to wait indefinitely to be attached in case the debugger crashed. That would pollute the process list with a lot of hanging processes. Instead, I'm setting a 20 seconds timeout (that's an overkill) and the launcher program seeks in intervals the second tepmorary file.
Some notes:
- I preferred not to use sockets because it requires a lot of code and I only need a pid. It would also require a lot of code when windows support is implemented.
- I didn't add Windows support, as I don't have a windows machine, but adding support for it should be easy, as the FIFO file can be implemented with a named pipe, which is standard on Windows and works pretty much the same way.
The existing test which didn't pass on Linux, now passes.
Differential Revision: https://reviews.llvm.org/D93951
Finishing out the support (to the best of my knowledge/based on current
testing running the whole check-lldb with a clang forcibly using
DW_AT_ranges on all DW_TAG_subprograms) for this feature.
Differential Revision: https://reviews.llvm.org/D94064
Implements the required functions on gdb-remote so the '--include-existing' flag of process attach works correctly on Linux.
Reviewed By: labath, clayborg
Differential Revision: https://reviews.llvm.org/D94672
ObjCBOOLSummaryProvider was incorrectly treating BOOL as unsigned and this is now fixed.
Also adding tests for one bit bit-fields of BOOL and unsigned char.
lldb-vsdode was communicating the list of modules to the IDE with events, which in practice ended up having some drawbacks
- when debugging large targets, the number of these events were easily 10k, which polluted the messages being transmitted, which caused the following: a harder time debugging the messages, a lag after terminated the process because of these messages being processes (this could easily take several seconds). The latter was specially bad, as users were complaining about it even when they didn't check the modules view.
- these events were rarely used, as users only check the modules view when something is wrong and they try to debug things.
After getting some feedback from users, we realized that it's better to not used events but make this simply a request and is triggered by users whenever they needed.
This diff achieves that and does some small clean up in the existing code.
Differential Revision: https://reviews.llvm.org/D94033
The original patch got reverted as a dependency of cf1c774d6a .
That patch got relanded so it's also necessary to reland this patch.
Original summary:
After cf1c774d6a, Clang seems to generate code
that is more similar to icc/Clang, so we can use the same line numbers for
all compilers in this test.
The DSYM variant of this test is failing since D94890. But as we explicitly
try to disable the DSYM generation in the makefile and build the archive on
our own, I don't see why we even need to run the DSYM version of the test.
This patch disables the generated derived versions of this test for the
different debug information containers (which includes the failing DSYM one).
Currently when LLDB has enough data in the debug information to import the `std` module,
it will just try to import it. However when debugging libraries where the sources aren't
available anymore, importing the module will generate a confusing diagnostic that
the module couldn't be built.
For the fallback mode (where we retry failed expressions with the loaded module), this
will cause the second expression to fail with a module built error instead of the
actual parsing issue in the user expression.
This patch adds checks that ensures that we at least have any source files in the found
include paths before we try to import the module. This prevents the module from being
loaded in the situation described above which means we don't emit the bogus 'can't
import module' diagnostic and also don't waste any time retrying the expression in the
fallback mode.
For the unit tests I did some refactoring as they now require a VFS with the files in it
and not just the paths. The Python test just builds a binary with a fake C++ module,
then deletes the module before debugging.
Fixes rdar://73264458
Reviewed By: JDevlieghere
Differential Revision: https://reviews.llvm.org/D95096
Copy paste error, but the test still built on macOS. Weird.
It failed on debian linux with an error about -fno-limit-debug-info
not being a supported flag??? Not sure how this goof would cause
that error, but let's see if it did...
If they occurred before the constructor that used them, we would refuse to
set the breakpoint because we thought they were crossing function boundaries.
Differential Revision: https://reviews.llvm.org/D94846
This test is flakey on Windows and on failure it hangs causing the test suite to fail and future builds (on the buildbot, especially) to fail because they cannot re-write the files that are currently in use
This patch adds a new test case which depends on AArch64 SVE support and
dynamic resize capability enabled. It created two seperate threads which
have different values of sve registers and SVE vector granule at various
points during execution.
We test that LLDB is doing the size and offset updates properly for all
of the threads including the main thread and when we VG is updated using
prctl call or by 'register write vg' command the appropriate changes are
also update in register infos.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D82866
The test couldn't find lldb-server as it's path was being overridden by
LLDB_DEBUGSERVER_PATH environment variable (pointing to debugserver).
This test should always use lldb-server, as it tests its platform
capabilities.
There's no need for the environment override, as lldb-server tests
should test the executable they just built, so I just remote the
override capability.
When a command option does not have a short version
(e.g. -f for --file), we use an arbitrary value in the
short_option field to mark it as invalid.
(though this value is unqiue to be used later for other
things)
We check that this short option is valid to print using
llvm::isPrint. This implicitly casts our int to char,
meaning we check the last char of any short_option value.
Since the arbitrary value we chose for these options is
some shortened hex version of the name, this returned true
even for invalid values.
Since llvm::isPrint returns true we later call std::islower
and/or std::isupper on the short_option value. (the int)
Calling these functions with something that cannot be validly
converted to unsigned char is undefined. Somehow we got/get
away with this but for me compiling with g++-9 I got a crash
for "help memory read".
The other command that uses this is "target variable" but that
didn't crash for unknown reasons.
Checking that short_option can fit into an unsigned char before
we call llvm::isPrint means we will not attempt to call islower/upper
on these options since we have no reason to print them.
This also fixes bogus short options being shown for "memory read"
and target variable.
For "target variable", before:
-e <filename> ( --file <filename> )
-b <filename> ( --shlib <filename> )
After:
--file <filename>
--shlib <filename>
(note that the bogus short options are just the bottom byte of our
arbitrary short_option value)
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D94917
The test was marked as remote-only, which means it was run ~never, and
accumulated various problems. This commit modifies the test to run
locally and includes a couple of other fixes necessary to make it run:
- moves the "invoke" method into the "Base" test class
- adds []'s around the IP address in a couple more places to make things
work with IPv6
The test is now marked as skipped when running the remote test suite. It
would be possible to make it run both locally and remotely, but this
would require writing a lot special logic for the remote case, and that
is not worth it.
This commit vAttachWait in lldb-server, so --waitfor can be used on
Linux
Reviewed By: labath, clayborg
Differential Revision: https://reviews.llvm.org/D93895
The way this test is structured right now, I set a breakpoint on
the instruction before the __builtin_trap. It hits the breakpoint,
disables the breakpoint, and instruction steps. This hits the
builtin_trap instruction which debugserver (on arm64) now advances
to the next instruction and reports that address to lldb. lldb
doesn't recognize this as a proper response to the instruction
step and continues executing until the next trap, and the test fails.
Local values are constants or addresses that can't be folded into
the instruction that uses them. FastISel materializes these in a
"local value" area that always dominates the current insertion
point, to try to avoid materializing these values more than once
(per block).
https://reviews.llvm.org/D43093 added code to sink these local
value instructions to their first use, which has two beneficial
effects. One, it is likely to avoid some unnecessary spills and
reloads; two, it allows us to attach the debug location of the
user to the local value instruction. The latter effect can
improve the debugging experience for debuggers with a "set next
statement" feature, such as the Visual Studio debugger and PS4
debugger, because instructions to set up constants for a given
statement will be associated with the appropriate source line.
There are also some constants (primarily addresses) that could be
produced by no-op casts or GEP instructions; the main difference
from "local value" instructions is that these are values from
separate IR instructions, and therefore could have multiple users
across multiple basic blocks. D43093 avoided sinking these, even
though they were emitted to the same "local value" area as the
other instructions. The patch comment for D43093 states:
Local values may also be used by no-op casts, which adds the
register to the RegFixups table. Without reversing the RegFixups
map direction, we don't have enough information to sink these
instructions.
This patch undoes most of D43093, and instead flushes the local
value map after(*) every IR instruction, using that instruction's
debug location. This avoids sometimes incorrect locations used
previously, and emits instructions in a more natural order.
In addition, constants materialized due to PHI instructions are
not assigned a debug location immediately; instead, when the
local value map is flushed, if the first local value instruction
has no debug location, it is given the same location as the
first non-local-value-map instruction. This prevents PHIs
from introducing unattributed instructions, which would either
be implicitly attributed to the location for the preceding IR
instruction, or given line 0 if they are at the beginning of
a machine basic block. Neither of those consequences is good
for debugging.
This does mean materialized values are not re-used across IR
instruction boundaries; however, only about 5% of those values
were reused in an experimental self-build of clang.
(*) Actually, just prior to the next instruction. It seems like
it would be cleaner the other way, but I was having trouble
getting that to work.
This reapplies commits cf1c774d and dc35368c, and adds the
modification to PHI handling, which should avoid problems
with debugging under gdb.
Differential Revision: https://reviews.llvm.org/D91734
Remove the stale LLDB-Info.plist which was only used by TestHelp.py. The
latter would try to parse the version number from the plist and use that
to verify the version in the help output. Of course this never matched
so it would fall back to matching any arbitrary version.
This patch does *not* change the real LLDB-Info.plist.in file which is
used for the LLDB Framework.
Adds the RISC-V ArchSpec bits contributed by @simoncook as part of D62732,
plus logic to distinguish between riscv32 and riscv64 based on ELF class.
The patch follows the implementation approach previously used for MIPS.
It defines RISC-V architecture subtypes and inspects the ELF header,
namely the ELF class, to detect the right subtype.
Differential Revision: https://reviews.llvm.org/D86292
gcc already produces debug info with this form
-freorder-block-and-partition
clang produces this sort of thing with -fbasic-block-sections and with a
coming-soon tweak to use ranges in DWARFv5 where they can allow greater
reuse of debug_addr than the low/high_pc forms.
This fixes the case of breaking on a function name, but leaves broken
printing a variable - a follow-up commit will add that and improve the
test case to match.
Differential Revision: https://reviews.llvm.org/D94063
The scoped enum tests depend on DW_AT_enum_class which was added in
Dwarf 4.
I made part of the test conditional on the Dwarf version instead of
splitting it into a separate test and using the decorator to avoid the
overhead of setting up the test.
Add stN aliases for the FPU (stmmN) registers on MacOSX. This should
improve compatibility between MacOSX and other platforms, and partially
fix x86*-fp-write tests without having to duplicate them. Note that
the tests are currently still broken due to ftag incompatibility.
Differential Revision: https://reviews.llvm.org/D91847
1 - Partial Statements
The interpreter loop runs every line it receives, so partial
Lua statements are not being handled properly. This is a problem for
multiline breakpoint scripts since the interpreter loop, for this
particular case, is just an abstraction to a partially parsed function
body declaration.
This patch addresses this issue and as a side effect improves the
general Lua interpreter loop as well. It's now possible to write partial
statements in the 'script' command.
Example:
(lldb) script
>>> do
..> local a = 123
..> print(a)
..> end
123
The technique implemented is the same as the one employed by Lua's own REPL implementation.
Partial statements always errors out with the '<eof>' tag in the error
message.
2 - CheckSyntax in Lua.h
In order to support (1), we need an API for just checking the syntax of string buffers.
3 - Multiline scripted breakpoints
Finally, with all the base features implemented this feature is
straightforward. The interpreter loop behaves exactly the same, the
difference is that it will aggregate all Lua statements into the body of
the breakpoint function. An explicit 'quit' statement is needed to exit the
interpreter loop.
Example:
(lldb) breakpoint command add -s lua
Enter your Lua command(s). Type 'quit' to end.
The commands are compiled as the body of the following Lua function
function (frame, bp_loc, ...) end
..> print(456)
..> a = 123
..> quit
Differential Revision: https://reviews.llvm.org/D93481
In split DWARF v5 files, the DWO id is no longer in the DW_AT_GNU_dwo_id
attribute. It's in the CU header instead. This change makes lldb look in
both places.
Differential Revision: https://reviews.llvm.org/D93444
Copy changes, including:
- NativeProcessNetBSD::GetLoadedModuleFileSpec()
and NativeProcessNetBSD::GetFileLoadAddress() methods
- split x86 register sets by CPU extensions
- use offset/size-based register reading/writing
Differential Revision: https://reviews.llvm.org/D93541
The tests don't work with remote debugservers. This isn't a problem with
any particular test, but the test infrastructure itself, which is why
each of these tests has a @skipIfDarwinEmbedded decorator.
This patch replaces that with a central category-based solution. It also
moves the ad-hoc windows skipping mechanism there too.
This uses the same approach as the debug info tests to avoid needing to
explicitly spell out the two kinds of tests. I convert a handful of
tests to the new mechanism. The rest will be converted in follow-up
patches.
Nearly all of our lldb-server tests have two flavours (lldb-server and
debugserver). Each of them is tagged with an appropriate decorator, and
each of them starts with a call to a matching "init" method. The init
calls are mandatory, and it's not possible to meaningfully combine them
with a different decorator.
This patch leverages the existing decorators to also tag the tests with
the appropriate debug server tag, similar to how we do with debug info
flavours. This allows us to make the "init" calls from inside the common
setUp method.
This reverts commit a01b26fb51, because it
breaks the "finish" command in some way -- the command does not
terminate after it steps out, but continues running the target. The
exact blast radius is not clear, but it at least affects the usage of
the "finish" command in TestGuiBasicDebug.py. The error is *not*
gui-related, as the same issue can be reproduced by running the same
steps outside of the gui.
There is some kind of a race going on, as the test fails only 20% of the
time on the buildbot.
The test appears to expect the inferior to be stopped, but the custom
"attach commands" leave it in a running state.
It's unclear how this could have ever worked.
Fix the POSIX-DYLD plugin to update the cached executable path after
attaching. Previously, the path was cached in DYLDRendezvous
constructor and not updated afterwards. This meant that if LLDB was
attaching to a process (e.g. via connecting to lldb-server), the code
stored the empty path before DidAttach() resolved it. The fix updates
the cached path in DidAttach().
This fixes a new instance of https://llvm.org/pr17880
Differential Revision: https://reviews.llvm.org/D92264
Explicitly consider the libraries reported on the initial rendezvous
breakpoint hit added. This is necessary on FreeBSD since the dynamic
loader issues only a single 'consistent' state rendezvous breakpoint hit
for all the libraries present in DT_NEEDED. It is also helpful on Linux
where it ensures that ld-linux is considered loaded as well
as the shared system libraries reported afterwards.
Reenable memory maps on FreeBSD since this fixed the issue triggered
by them.
Differential Revision: https://reviews.llvm.org/D92187
This patch exposes the Target::CreateBreakpoint overload with the
boolean argument to move to the neareast code to the SBAPI.
This is useful when creating column breakpoints to restrict lldb's
resolution to the pointed source location, preventing it to go to the next
line.
rdar://72196842
Differential Revision: https://reviews.llvm.org/D93266
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch exposes the Target::CreateBreakpoint overload with the
boolean argument to move to the neareast code to the SBAPI.
This is useful when creating column breakpoints to restrict lldb's
resolution to the pointed source location, preventing it to go to the next
line.
rdar://72196842
Differential Revision: https://reviews.llvm.org/D93266
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
Currently, the interpreter's context is not updated until a command is executed.
This has resulted in the behavior of SB-interface functions and some commands
depends on previous user actions. The interpreter's context can stay uninitialized,
point to a currently selected target, or point to one of previously selected targets.
This patch removes any usages of CommandInterpreter::UpdateExecutionContext.
CommandInterpreter::HandleCommand* functions still may override context temporarily,
but now they always restore it before exiting. CommandInterpreter saves overriden
contexts to the stack, that makes nesting commands possible.
Added test reproduces one of the issues. Without this fix, the last assertion fails
because interpreter's execution context is empty until running "target list", so,
the value of the global property was updated instead of process's local instance.
Differential Revision: https://reviews.llvm.org/D92164
Michał Górny