Before #134048, TestDAP_Progress relied on wait_for_event to block until
the progressEnd came in. However, progress events were not added to the
packet list, so this call would always time out. This PR makes it so
that packets are added to the packet list, and you can block on them.
While trying to make progress on #133782, I noticed that
TestDAP_Progress was taking 90 seconds to complete. This patch brings
that down to 10 seocnds by making the following changes:
1. Don't call `wait_for_event` with a 15 second timeout. By the time we
call this, all progress events have been emitted, which means that we're
just sitting there until we hit the timeout.
2. Don't use 10 steps (= 10 seconds) for indeterminate progress. We have
two indeterminate progress tests so that's 6 seconds instead of 20.
3. Don't launch the process over and over. Once we have a dap session,
we can clear the progress vector and emit new progress events.
These tests are currently filtered on macOS if your on an M1 (or newer)
device. These tests do work on macOS, for me at least on M1 Max with
macOS 15.3.2 and Xcode 16.2.
Enabling them again, but if we have CI problems with them we can keep
them disabled.
We recently added an explicit finalize to SBProgress, #128966. I
realized while adding some additional implementations of SBProgress that
we should to add `with` support for ease of use. This patch addresses
adding and `__enter()__` method (which a no-op) and an `__exit()__` to
swig. I also refactor the emitter for the test to leverage `with`
instead of explicitly calling finalize, and I've updated the docstrings.
This adds new types and helpers to support the 'initialize' request with
the new typed RequestHandler. While working on this I found there were a
few cases where we incorrectly treated initialize arguments as
capabilities. The new `lldb_dap::protocol::InitializeRequestArguments`
and `lldb_dap::protocol::Capabilities` uncovered the inconsistencies.
---------
Co-authored-by: Jonas Devlieghere <jonas@devlieghere.com>
During lldb testing on remote targets TestGdbRemoteForkNonStop.py
freezes because in this test we try to create file on remote machine
using absolute file path from local machine. This patch fixes this error
In 2013 we added the QSaveRegisterState and QRestoreRegisterState
packets to checkpoint a thread's register state while executing an
inferior function call, instead of using the g packet to read all
registers into lldb, then the G packet to set them again after the func
call.
Since then, lldb has not sent g/G (except as a bug) - it either asks for
registers individually (p/P) or or asks debugserver to save and restore
the entire register set with these lldb extensions.
Felipe recently had a codepath that fell back to using g/G and found
that it does not work with the modern signed fp/sp/pc/lr registers that
we can get -- it sidesteps around the clearing of the non-addressable
bits that we do when reading/writing them, and results in a crash. (
https://github.com/llvm/llvm-project/pull/132079 )
Instead of fixing that issue, I am removing g/G from debugserver because
it's not needed by lldb, and it will would be easy for future bugs to
creep in to this packet that lldb should not use, but it can
accidentally fall back to and result in subtle bugs.
This does mean that a debugger using debugserver on darwin which doesn't
use QSaveRegisterState/QRestoreRegisterState will need to fall back to
reading & writing each register individually. I'm open to re-evaluating
this decision if this proves to be needed, and supporting these lldb
extensions is onerous.
Split test cases out of TestLldbGdbServer.py and TestGdbRemoteFork.py
into separate files to avoid hitting the 600s timeout limit. The
inferior used by these tests (main.cpp) takes approximately 20s to
compile with a Debug build of clang, causing timeouts when a single test
file contains many tests. By grouping similar tests into separate files,
we can prevent timeouts and improve overall test efficiency.
Instead of having two discrete InputStream and OutputStream helpers,
this merges the two into a unifed 'Transport' handler.
This handler is responsible for reading the DAP message headers, parsing
the resulting JSON and converting the messages into
`lldb_dap::protocol::Message`s for both input and output.
---------
Co-authored-by: Jonas Devlieghere <jonas@devlieghere.com>
Per the DAP spec, the event 'body' field should contain any additional
data related to the event. I updated the lldb-dap 'statistics' extension
into the terminated event's body like:
```
{
"type": "event",
"seq": 0,
"event": "terminated",
"body": {
"$__lldb_statistics": {...}
}
}
```
This allows us to more uniformly handle event messages.
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
While running lldb-dap over stdin/stdout the `stdout` and `stderr` FD's
are replaced with a pipe that is reading the output to forward to the
dap client. During shutdown we were not properly restoring those FDs,
which means if any component attempted to write to stderr it would
trigger a SIGPIPE due to the pipe being closed during the shutdown
process. This can happen if we have an error reported from the
`DAP::Loop` call that would then log to stderr, such as an error parsing
a malformed DAP message or if lldb-dap crashed and it was trying to
write the stack trace to stderr.
There is one place we were not handling an `llvm::Error` if there was no
logging setup that could trigger this condition.
To address this, I updated the OutputRedirector to restore the FD to the
prior state when `Stop` is called.
---------
Co-authored-by: Jonas Devlieghere <jonas@devlieghere.com>
On macOS, breakpoints are briefly unresolved between process launch and
when the dynamic loader has informed us about the loaded libraries. This
information was being forwarded by lldb-dap, but only partially. In the
event handler, we were listening for the `LocationsAdded` and
`LocationsRemoved` breakpoint events. For the scenario described above,
the latter would trigger and we'd send an event reporting the breakpoint
as unresolved. The problem is that when the breakpoint location is
resolved again, you receive a `LocationsResolved` event, not a
`LocationsAdded` event. As a result, the breakpoint would continue to
show up as unresolved in the DAP client.
I found a test that tried to test part of this behavior, but the test
was broken and disabled. I revived the test and added coverage for the
situation described above.
Fixes#112629
rdar://137968318
Both spellings are considered correct and acceptable, with adapter being
more common in American English. Given that DAP stands for Debug Adapter
Protocol (with an e) let's go with that as the canonical spelling.
The TestDAP_ouput test is flaky due to the order of events during
shutdown. We were stopping the output and error handle redirection after
we finished the disconnect request, which can cause us to miss output
events due to timing. Moving when we stop the redirection to ensure we
have consistent output prior to disconnect responding.
Fixes#128567
This should fix the tests running on windows.
https://lab.llvm.org/buildbot/#/builders/141/builds/6506 is the failure,
the error message does not clearly indicate why the connection failed,
but they are passing for me locally on macOS and passed on linux in the
CI.
This adjusts the lldb-dap listening mode to accept multiple clients.
Each client initializes a new instance of DAP and an associated
`lldb::SBDebugger` instance.
The listening mode is configured with the `--connection` option and
supports listening on a port or a unix socket on supported platforms.
When running in server mode launch and attach performance should
be improved by lldb sharing symbols for core libraries between debug
sessions.
If you have an lldb-dap log file you'll almost always see a final
message like:
```
<--
Content-Length: 94
{
"body": {
"category": "stdout",
"output": "\u0000\u0000"
},
"event": "output",
"seq": 0,
"type": "event"
}
<--
Content-Length: 94
{
"body": {
"category": "stderr",
"output": "\u0000\u0000"
},
"event": "output",
"seq": 0,
"type": "event"
}
```
The OutputRedirect is always writing the `"\0"` byte as a final stdout
message during shutdown. Instead, I adjusted this to detect the sentinel
value and break out of the read loop as if we detected EOF.
---------
Co-authored-by: Pavel Labath <pavel@labath.sk>
During testing of LLDB on RISC-V target, tests from the llgs category
were built with an error: `Error when building test subject.`
```
llvm-project/lldb/test/API/tools/lldb-server/main.cpp:151:40: error: missing ')' after '__builtin_debugtrap'
151 | #elif __has_builtin(__builtin_debugtrap())
| ~~~~~~~~~~~~~~~~~~~^
llvm-project/lldb/test/API/tools/lldb-server/main.cpp:151:20: note: to match this '('
151 | #elif __has_builtin(__builtin_debugtrap())
| ^
```
This patch fixes this error.
When a test depends on a new debugserver feature/fix, the API test must
be marked @skipIfOutOfTreeDebugserver because the macOS CI bots test
using the latest Xcode release debugserver. But over time all of these
fixes & new features are picked up in the Xcode debugserver and these
skips can be removed.
We may see unexpected test failures from removing all of these 1+ year
old skips, but that's likely a separate reason the test is failing that
is being papered over by this skip.
This commit adds support for column breakpoints to lldb-dap
To do so, support for the `breakpointLocations` request was
added. To find all available breakpoint positions, we iterate over
the line table.
The `setBreakpoints` request already forwarded the column correctly to
`SBTarget::BreakpointCreateByLocation`. However, `SourceBreakpointMap`
did not keep track of multiple breakpoints in the same line. To do so,
the `SourceBreakpointMap` is now indexed by line+column instead of by
line only.
This was previously submitted as #113787, but got reverted due to
failures on ARM and macOS. This second attempt has less strict test
case expectations. Also, I added a release note.
Specify ENABLE_THREADS := YES within test's Makefile instead of passing
-lpthread explicitly via the compiler's CFLAGS options.
Refactoring fix.
Co-authored-by: Vladimir Vereschaka <vvereschaka@accesssoftek.com>
This commit adds support for column breakpoints to lldb-dap.
To do so, support for the `breakpointLocations` request was
added. To find all available breakpoint positions, we iterate over
the line table.
The `setBreakpoints` request already forwarded the column correctly to
`SBTarget::BreakpointCreateByLocation`. However, `SourceBreakpointMap`
did not keep track of multiple breakpoints in the same line. To do so,
the `SourceBreakpointMap` is now indexed by line+column instead of by
line only.
See http://jonasdevlieghere.com/post/lldb-column-breakpoints/ for a
high-level introduction to column breakpoints.
Previously this used `var` as both an lldb command and variable in the
source to validate the behavior of the 'auto' repl mode. However, `var`
seems to occasionally fail in the CI test when attempting to print some
c++ types. Instead switch the command and variable name to `list` which
should not run the dynamic variable formatting code for c++ objects.
This should fix#116041.
This commit adds `valueLocationReference` to function pointers and
function references. Thereby, users can navigate directly to the
pointed-to function from within the "variables" pane.
In general, it would be useful to also a add similar location references
also to member function pointers, `std::source_location`,
`std::function`, and many more. Doing so would require extending the
formatters to provide such a source code location.
There were two RFCs about this a while ago:
https://discourse.llvm.org/t/rfc-extending-formatters-with-a-source-code-reference/68375https://discourse.llvm.org/t/rfc-sbvalue-metadata-provider/68377/26
However, both RFCs ended without a conclusion. As such, this commit now
implements the lowest-hanging fruit, i.e. function pointers. If people
find it useful, I will revive the RFC afterwards.
This makes tests more portable.
Make variables for LLVM utils are passed to `make` on Darwin as well.
Co-authored-by: Vladimir Vereschaka <vvereschaka@accesssoftek.com>
I don't see an obvious reason it has to be x86 specific and local
testing on Arm and AArch64 is fine.
Originally disabled in 50337fb933 in
response to failures apparently caused by
https://reviews.llvm.org/D93951.
Perhaps those still exist but worth trying this and checking I think.
This test is failing on green dragon and I couldn't figure out why,
disabling it for now under ASAN to get the bot green.
Opened an issue (https://github.com/llvm/llvm-project/issues/111061) to
track the problem.
This commit improves the auto-completion in the Debug Console provided
by VS-Code.
So far, we were always suggesting completions for both LLDB commands and
for variables / expressions, even if the heuristic already determined
how the given string will be executed, e.g., because the user explicitly
typed the escape prefix. Furthermore, auto-completion after the escape
character was broken, since the offsets were not adjusted correctly.
With this commit we now correctly take this into account.
Even with this commit, auto-completion does not always work reliably:
* VS Code only requests auto-completion after typing the first
alphabetic character, but not after punctuation characters. This means
that no completions are provided after typing "`"
* LLDB does not provide autocompletions if a string is an exact match.
This means if a user types `l` (which is a valid command), LLDB will not
provide "language" and "log" as potential completions. Even worse, VS
Code caches the completion and does client-side filtering. Hence, even
after typing `la`, no auto-completion for "language" is shown in the UI.
Those issues might be fixed in follow-up commits. Also with those known
issues, the experience is already much better with this commit.
Furthermore, I updated the README since I noticed that it was slightly
inaccurate.
The `readMemory` request used the `MemoryRegionInfo` so it could also
support short reads. Since #106532, this is no longer necessary, as
mentioned by @labath in a comment on #104317.
With this commit, we no longer set the `unreadableBytes` in the result.
But this is optional, anyway, according to the spec, and afaik the
VS Code UI does not make good use of `unreadableBytes`, anyway.
We prefer `SBTarget::ReadMemory` over `SBProcess::ReadMemory`, because
the `memory read` command also reads memory through the target instead
of the process, and because users would expect the UI view and the
results from memory read to be in-sync.
The `enable` prefix is a filler word which adds no additional
information. Rename the setting to `displayExtendedBacktrace`
Given that this setting was only introduced a month ago, and that there
has not been any release since then, I assume that usage is still rather
low. As such, it should be fine to not provide backwards-compatibility
workarounds.
