This patch adds --platform-available-ports option to the dotest.py
script to avoid hardcoded gdb ports in lldb testsuite.
Currently, this option could be helpful in GdbRemoteTestCases (e.g.
TestLldbGdbServer, TestNonStop, TestGdbRemoteThreadsInStopReply,
TestGdbRemotePlatformFile, TestGdbRemote_vCont)
This reverts commit
87b7f63a11,
reapplying
7e66cf74fb
with a small (and probably temporary)
change to generate more debug info to help with diagnosing buildbot
issues.
Some lldb tests from llgs category fail on RISC-V target due to lack of
necessary condition checks. This patch adapts these tests by taking into
account the peculiarities of the RISC-V architecture
During LLDB testing on slow machines with the remote-linux platform all
tests from llgs category fail with python exception `BrokenPipeError`.
The main reason of these failures is slow start of lldb-server in
gdbserver mode. Due to this desired gdbserver socket does not have time
to open by the time the Python script tries to establish a connection.
List of failed tests:
```
TestAppleSimulatorOSType.py
TestGdbRemoteAttach.py
TestGdbRemoteAuxvSupport.py
TestGdbRemoteCompletion.py
TestGdbRemoteExitCode.py
TestGdbRemoteExpeditedRegisters.py
TestGdbRemoteHostInfo.py
TestGdbRemoteKill.py
TestGdbRemoteLaunch.py
TestGdbRemoteModuleInfo.py
TestGdbRemotePlatformFile.py
TestGdbRemoteProcessInfo.py
TestGdbRemoteRegisterState.py
TestGdbRemoteSaveCore.py
TestGdbRemoteSingleStep.py
TestGdbRemoteThreadsInStopReply.py
TestGdbRemote_qThreadStopInfo.py
TestGdbRemote_vCont.py
TestLldbGdbServer.py
TestNonStop.py
TestPtyServer.py
TestGdbRemoteAttachWait.py
TestGdbRemoteConnection.py
TestStubSetSID.py
TestGdbRemoteAbort.py
TestGdbRemoteSegFault.py
TestGdbRemoteLibrariesSvr4Support.py
TestGdbRemoteMemoryAllocation.py
TestGdbRemoteMemoryTagging.py
TestGdbRemoteGPacket.py
TestGdbRemoteTargetXmlPacket.py
TestGdbRemote_QPassSignals.py
TestGdbRemoteThreadName.py
TestPartialResume.py
TestSignal.py
```
This patch implements an additional check for the opened socket on
lldb-server side and fixes this error.
This reverts commit a774de807e56c1147d4630bfec3110c11d41776e.
This is the same changes as last time, plus:
* We load the binary into the target object so that on Windows, we can
resolve the locations of the functions.
* We now assert that each required breakpoint has at least 1 location,
to prevent an issue like that in the future.
* We are less strict about the unsupported error message, because it
prints "error: windows" on Windows instead of "error: gdb-remote".
Reverts llvm/llvm-project#123945
Has failed on the Windows on Arm buildbot:
https://lab.llvm.org/buildbot/#/builders/141/builds/5865
```
********************
Unresolved Tests (2):
lldb-api :: functionalities/reverse-execution/TestReverseContinueBreakpoints.py
lldb-api :: functionalities/reverse-execution/TestReverseContinueWatchpoints.py
********************
Failed Tests (1):
lldb-api :: functionalities/reverse-execution/TestReverseContinueNotSupported.py
```
Reverting while I reproduce locally.
This reverts commit 22561cfb443267905d4190f0e2a738e6b412457f and fixes
b7b9ccf44988edf49886743ae5c3cf4184db211f (#112079).
The problem is that x86_64 and Arm 32-bit have memory regions above the
stack that are readable but not writeable. First Arm:
```
(lldb) memory region --all
<...>
[0x00000000fffcf000-0x00000000ffff0000) rw- [stack]
[0x00000000ffff0000-0x00000000ffff1000) r-x [vectors]
[0x00000000ffff1000-0xffffffffffffffff) ---
```
Then x86_64:
```
$ cat /proc/self/maps
<...>
7ffdcd148000-7ffdcd16a000 rw-p 00000000 00:00 0 [stack]
7ffdcd193000-7ffdcd196000 r--p 00000000 00:00 0 [vvar]
7ffdcd196000-7ffdcd197000 r-xp 00000000 00:00 0 [vdso]
ffffffffff600000-ffffffffff601000 --xp 00000000 00:00 0 [vsyscall]
```
Compare this to AArch64 where the test did pass:
```
$ cat /proc/self/maps
<...>
ffffb87dc000-ffffb87dd000 r--p 00000000 00:00 0 [vvar]
ffffb87dd000-ffffb87de000 r-xp 00000000 00:00 0 [vdso]
ffffb87de000-ffffb87e0000 r--p 0002a000 00:3c 76927217 /usr/lib/aarch64-linux-gnu/ld-linux-aarch64.so.1
ffffb87e0000-ffffb87e2000 rw-p 0002c000 00:3c 76927217 /usr/lib/aarch64-linux-gnu/ld-linux-aarch64.so.1
fffff4216000-fffff4237000 rw-p 00000000 00:00 0 [stack]
```
To solve this, look up the memory region of the stack pointer (using
https://lldb.llvm.org/resources/lldbgdbremote.html#qmemoryregioninfo-addr)
and constrain the read to within that region. Since we know the stack is
all readable and writeable.
I have also added skipIfRemote to the tests, since getting them working
in that context is too complex to be worth it.
Memory write failures now display the range they tried to write, and
register write errors will show the name of the register where possible.
The patch also includes a workaround for a an issue where the test code
could mistake an `x` response that happens to begin with an `O` for an
output packet (stdout). This workaround will not be necessary one we
start using the [new
implementation](https://discourse.llvm.org/t/rfc-fixing-incompatibilties-of-the-x-packet-w-r-t-gdb/84288)
of the `x` packet.
---------
Co-authored-by: Pavel Labath <pavel@labath.sk>
This commit adds support for a
`SBProcess::ContinueInDirection()` API. A user-accessible command for
this will follow in a later commit.
This feature depends on a gdbserver implementation (e.g. `rr`) providing
support for the `bc` and `bs` packets. `lldb-server` does not support
those packets, and there is no plan to change that. For testing
purposes, this commit adds a Python implementation of *very limited*
record-and-reverse-execute functionality, implemented as a proxy between
lldb and lldb-server in `lldbreverse.py`. This should not (and in
practice cannot) be used for anything except testing.
The tests here are quite minimal but we test that simple breakpoints and
watchpoints work as expected during reverse execution, and that
conditional breakpoints and watchpoints work when the condition calls a
function that must be executed in the forward direction.
The Intel Darwin CI bots had their Xcode updated, which brought in a
debugserver with Brendan Shanks' change from September
7281e0cb3bbcce396aab8b3ea0967d7a17cd287a
https://github.com/llvm/llvm-project/pull/108663 where four general
purpose registers are sent by debugserver when in certain process
states. But most processes (nearly all in the testsuite) do not have
these registers available, so we will get register read failures when
requesting those four. These two tests would flag those as errors. There
would have been an additional problem with the g/G packet (which lldb
doesn't use w/ debugserver, but the testsuite tests) if placeholder
values were not included in the full register context bytes; I fixed
that issue with the SME patch to debugserver recently already.
Reduced MAX_ATTEMPTS to 10.
The sleep time will be 3, 3.6, 4.3, ..., 13, 15.
The total sleep time is 78 + 0.5 * MAX_CONNECT_ATTEMPTS * MAX_ATTEMPTS = 128.
Note the timeout is 600, so the rest time must be enough.
Increased the port range (12000..20000).
This test only runs on Windows and fails because we're passing a literal
of the wrong type to random.randrange.
Co-authored-by: kendal <kendal@thebrowser.company>
Adding a "port" property to the VsCode "attach" command likely extends
the functionality of the debugger configuration to allow attaching to a
process using PID or PORT number.
Currently, the "Attach" configuration lets the user specify a pid. We
tell the user to use the attachCommands property to run "gdb-remote ".
Followed the below conditions for "attach" command with "port" and "pid"
We should add a "port" property. If port is specified and pid is not,
use that port to attach. If both port and pid are specified, return an
error saying that the user can't specify both pid and port.
Ex - launch.json
{
"version": "0.2.0",
"configurations": [
{
"name": "lldb-dap Debug",
"type": "lldb-dap",
"request": "attach",
"gdb-remote-port":1234,
"program": "${workspaceFolder}/a.out",
"args": [],
"stopOnEntry": false,
"cwd": "${workspaceFolder}",
"env": [],
}
]
}
---------
Co-authored-by: Santhosh Kumar Ellendula <sellendu@hu-sellendu-hyd.qualcomm.com>
Co-authored-by: Santhosh Kumar Ellendula <sellendu@hu-sellendu-lv.qualcomm.com>
debugserver on arm64 devices can manage both Byte Address Select
watchpoints (1-8 bytes) and MASK watchpoints (8 bytes-2 gigabytes). This
adds a SupportedWatchpointTypes key to the QSupported response from
debugserver with a list of these, so lldb can take full advantage of
them when creating larger regions with a single hardware watchpoint.
Also add documentation for this, and two other lldb extensions, to the
lldb-gdb-remote.txt documentation.
Re-enable TestLargeWatchpoint.py on Darwin systems when testing with the
in-tree built debugserver. I can remove the "in-tree built debugserver"
in the future when this new key is handled by an Xcode debugserver.
These were useful primarily for the Python 2 to 3 transition. Python 2
is no longer supported so these are no longer necessary.
Differential Revision: https://reviews.llvm.org/D157759
This is an ongoing series of commits that are reformatting our Python
code. Reformatting is done with `black` (23.1.0).
If you end up having problems merging this commit because you have made
changes to a python file, the best way to handle that is to run `git
checkout --ours <yourfile>` and then reformat it with black.
RFC: https://discourse.llvm.org/t/rfc-document-and-standardize-python-code-style
Differential revision: https://reviews.llvm.org/D151460
Introduce a new %Stdio notification category and use it to send process
output asynchronously when running in non-stop mode. This is an LLDB
extension since GDB does not use the 'O' packet for process output,
just for replies to 'qRcmd' packets.
Using the async notification mechanism implies that only the first
output packet is sent immediately to the client. The client needs
to request subsequent notifications (if any) using the new vStdio packet
(that works pretty much like vStopped for the Stop notification queue).
The packet handler in lldb-server tests is updated to handle the async
stdio packets in addition to the regular O packets. However, due
to the implications noted above, it can only handle the first output
packet sent by the server. Subsequent packets need to be explicitly
requested via vStdio.
Sponsored by: The FreeBSD Foundation
Differential Revision: https://reviews.llvm.org/D128849
Replace the use of "trap" with a new "stop" command in fork tests,
that maps to `raise(SIGSTOP)`. Since traps do not increment PC on some
architectures (notably ARM), using traps would require special logic
to increment it while testing. Using SIGSTOP avoids the problem
and is probably more logical, given that the purpose of the "trap"s
was to simply stop the inferior at a synchronization point. This fixes
tests on AArch64 (and possibly ARM, I'll update XFAILs when it is
confirmed by the buildbot).
Sponsored by: The FreeBSD Foundation
Differential Revision: https://reviews.llvm.org/D128780
Split the test that's gotten very long in two, in hope that it will
resolve the arm/aarch64 buildbot failures. Even if it does not, it
could help pinpointing where the problem lies.
Sponsored by: The FreeBSD Foundation
Update the `qfThreadInfo` handler to report threads of all debugged
processes and include PIDs when in multiprocess mode.
Sponsored by: The FreeBSD Foundation
Differential Revision: https://reviews.llvm.org/D128152
Implement the support for %Stop asynchronous notification packet format
in LLGS. This does not implement full support for non-stop mode for
threaded programs -- process plugins continue stopping all threads
on every event. However, it will be used to implement asynchronous
events in multiprocess debugging.
The non-stop protocol is enabled using QNonStop packet. When it is
enabled, the server uses notification protocol instead of regular stop
replies. Since all threads are always stopped, notifications are always
generated for all active threads and copied into stop notification
queue.
If the queue was empty, the initial asynchronous %Stop notification
is sent to the client immediately. The client needs to (eventually)
acknowledge the notification by sending the vStopped packet, in which
case it is popped from the queue and the stop reason for the next thread
is reported. This continues until notification queue is empty again,
in which case an OK reply is sent.
Asychronous notifications are also used for vAttach results and program
exits. The `?` packet uses a hybrid approach -- it returns the first
stop reason synchronously, and exposes the stop reasons for remaining
threads via vStopped queue.
The change includes a test case for a program generating a segfault
on 3 threads. The server is expected to generate a stop notification
for the segfaulting thread, along with the notifications for the other
running threads (with "no stop reason"). This verifies that the stop
reasons are correctly reported for all threads, and that notification
queue works.
Sponsored by: The FreeBSD Foundation
Differential Revision: https://reviews.llvm.org/D125575
Instead of using sleeps, have the inferior notify us (via a trap opcode) that
the requested number of threads have been created.
This allows us to get rid of some fairly dodgy test utility code --
wait_for_thread_count seemed like it was waiting for the threads to
appear, but it never actually let the inferior run, so it only succeeded
if the threads were already started when the function was called. Since
the function was called after a fairly small delay (1s, usually), this
is probably the reason why the tests were failing on some bots.
Differential Revision: https://reviews.llvm.org/D119167
This fixes TestGdbRemoteSingleStep.py and TestGdbRemote_vCont.py. This
patch updates the test to account for the possibility that the constants
are already materialized. This appears to behave differently between
embedded arm64 devices and Apple Silicon.
Implement the qXfer:siginfo:read that is used to read the siginfo_t
(extended signal information) for the current thread. This is currently
implemented on FreeBSD and Linux.
Differential Revision: https://reviews.llvm.org/D117113
GDB and LLDB use different signal models. GDB uses a predefined set
of signal codes, and maps platform's signos to them. On the other hand,
LLDB has historically simply passed native signos.
In order to improve compatibility between LLDB and gdbserver, the GDB
signal model should be used. However, GDB does not provide a mapping
for all existing signals on Linux and unsupported signals are passed
as 'unknown'. Limiting LLDB to this behavior could be considered
a regression.
To get the best of both worlds, use the LLDB signal model when talking
to lldb-server, and the GDB signal model otherwise. For this purpose,
new versions of lldb-server indicate "native-signals+" via qSupported.
At the same time, we also detect older versions of lldb-server
via QThreadSuffixSupported for backwards compatibility. If neither test
succeeds, we assume gdbserver or another implementation using GDB model.
Differential Revision: https://reviews.llvm.org/D108078
We had two sets of build<flavour> methods, whose bodies were largely
identical. This makes any kind of modification in their vicinity
repetitive and error-prone.
Replace each set with a single method taking an optional debug_info
parameter.
Differential Revision: https://reviews.llvm.org/D111989
Regex is matching a binary so it needs `re.DOTALL`.
vFile:fstat packet data ATTACHMENT is not hex-encoded but it is only
escaped.
It is difficult to reproduce, it came from buildbot:
https://lab.llvm.org/staging/#/builders/16/builds/10597
******************** TEST 'lldb-api :: tools/lldb-server/TestGdbRemotePlatformFile.py' FAILED ********************
FAIL: test_platform_file_fstat_llgs (TestGdbRemotePlatformFile.TestGdbRemotePlatformFile)
----------------------------------------------------------------------
Traceback (most recent call last):
File "lldb/packages/Python/lldbsuite/test/tools/lldb-server/gdbremote_testcase.py", line 52, in test_method
return attrvalue(self)
File "lldb/test/API/tools/lldb-server/TestGdbRemotePlatformFile.py", line 259, in test_platform_file_fstat
context = self.expect_gdbremote_sequence()
File "lldb/packages/Python/lldbsuite/test/tools/lldb-server/gdbremote_testcase.py", line 621, in expect_gdbremote_sequence
return expect_lldb_gdbserver_replay(
File "lldb/packages/Python/lldbsuite/test/tools/lldb-server/lldbgdbserverutils.py", line 198, in expect_lldb_gdbserver_replay
context = sequence_entry.assert_match(
File "lldb/packages/Python/lldbsuite/test/tools/lldb-server/lldbgdbserverutils.py", line 479, in assert_match
return self._assert_regex_match(asserter, actual_packet, context)
File "lldb/packages/Python/lldbsuite/test/tools/lldb-server/lldbgdbserverutils.py", line 446, in _assert_regex_match
asserter.fail(
AssertionError: regex '^\$F([0-9a-fA-F]+);(.*)#[0-9a-fA-F]{2}$' failed to match against content '$F40;^@^@^@ ^@
^C<8d>^@^@<81><80>^@^@^@^A^@^@^CX^@^@^CX^@^@^@^@^@^@^@^@^@^@^@^W^@^@^@^@^@^@^P^@^@^@^@^@^@^@^@
a=XXa=XXa=XX#6b'
Add a new SaveCore() process method that can be used to request a core
dump. This is currently implemented on NetBSD via the PT_DUMPCORE
ptrace(2) request, and enabled via 'savecore' extension.
Protocol-wise, a new qSaveCore packet is introduced. It accepts zero
or more semicolon-separated key:value options, invokes the core dump
and returns a key:value response. Currently the only option supported
is "path-hint", and the return value contains the "path" actually used.
The support for the feature is exposed via qSaveCore qSupported feature.
Differential Revision: https://reviews.llvm.org/D101285
This feature "memory-tagging+" indicates that lldb-server
supports memory tagging packets. (added in a later patch)
We check HWCAP2_MTE to decide whether to enable this
feature for Linux.
Reviewed By: omjavaid
Differential Revision: https://reviews.llvm.org/D97282
Add a new feature to process save-core on Darwin systems -- for
lldb to create a user process corefile with only the dirty (modified
memory) pages included. All of the binaries that were used in the
corefile are assumed to still exist on the system for the duration
of the use of the corefile. A new --style option to process save-core
is added, so a full corefile can be requested if portability across
systems, or across time, is needed for this corefile.
debugserver can now identify the dirty pages in a memory region
when queried with qMemoryRegionInfo, and the size of vm pages is
given in qHostInfo.
Create a new "all image infos" LC_NOTE for Mach-O which allows us
to describe all of the binaries that were loaded in the process --
load address, UUID, file path, segment load addresses, and optionally
whether code from the binary was executing on any thread. The old
"read dyld_all_image_infos and then the in-memory Mach-O load
commands to get segment load addresses" no longer works when we
only have dirty memory.
rdar://69670807
Differential Revision: https://reviews.llvm.org/D88387
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
This functionality is used exactly once, and it is trivial to implement
it differently (capture into two distinct variables, and compare for
equality afterwards).
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.
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
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
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
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.
