Currently, we arbitrarily paginate editline completions to 40 elements.
On large terminals, that leaves some real-estate unused. On small
terminals, it's pretty annoying to not see the first completions. We can
address both issues by using the terminal height for pagination.
This builds on the improvements of #116456.
On systems supporting ting ipv4 and ipv6 the second socket to initialize
will not update the listening address correctly after the call to `bind`.
This results in the second address listed in
`Socket::GetListeningConnectionURI` to have port `:0`, which is
incorrect.
To fix this, correct which address is used to detect the port and update
the unit tests to cover this use case.
Additionally, I updated the SocketTest's to only parameterize tests that
can work on ipv4 or ipv6. This means tests like
`SocketTest::DecodeHostAndPort` are only run once, instead of twice
since they do not change behavior based on parameters.
I also included a new unit test to cover listening on `localhost:0`,
validating both sockets correctly list the updated port.
It's never set to true. Also, using inheritable FDs in a multithreaded
process pretty much guarantees descriptor leaks. It's better to
explicitly pass a specific FD to a specific subprocess, which we already
mostly can do using the ProcessLaunchInfo FileActions.
Allows us to stop waiting for a connection if it doesn't come in a
certain amount of time. Right now, I'm keeping the status quo (infitnite
wait) in the "production" code, but using smaller (finite) values in
tests. (A lot of these tests create "loopback" connections, where a
really short wait is sufficient: on linux at least even a poll (0s wait)
is sufficient if the other end has connect()ed already, but this doesn't
seem to be the case on Windows, so I'm using a 1s wait in these cases).
This patch improves the formatting of editline completions. The current
implementation is naive and doesn't account for the terminal width.
Concretely, the old implementation suffered from the following issues:
- We would unconditionally pad to the longest completion. If that
completion exceeds the width of the terminal, that would result in a lot
of superfluous white space and line wrapping.
- When printing the description, we wouldn't account for the presence of
newlines, and they would continue without leading padding.
The new code accounts for both. If the completion exceeds the available
terminal width, we show what fits on the current lined followed by
ellipsis. We also no longer pad beyond the length of the current line.
Finally, we print the description line by line, with the proper leading
padding. If a line of the description exceeds the available terminal
width, we print ellipsis and won't print the next line.
Before:
```
Available completions:
_regexp-attach -- Attach to process by ID or name.
_regexp-break -- Set a breakpoint using one of several shorthand
formats.
_regexp-bt -- Show backtrace of the current thread's call sta
ck. Any numeric argument displays at most that many frames. The argument 'al
l' displays all threads. Use 'settings set frame-format' to customize the pr
inting of individual frames and 'settings set thread-format' to customize th
e thread header. Frame recognizers may filter thelist. Use 'thread backtrace
-u (--unfiltered)' to see them all.
_regexp-display -- Evaluate an expression at every stop (see 'help
target stop-hook'.)
```
After:
```
Available completions:
_regexp-attach -- Attach to process by ID or name.
_regexp-break -- Set a breakpoint using one of several shorth...
_regexp-bt -- Show backtrace of the current thread's call ...
_regexp-display -- Evaluate an expression at every stop (see 'h...
```
rdar://135818198
The motivating use case is being able to "time out" certain operations
(by adding a timed callback which will force the termination of the
loop), but the design is flexible enough to accomodate other use cases
as well (e.g. running a periodic task in the background).
The implementation builds on the existing "pending callback" mechanism,
by associating a time point with each callback -- every time the loop
wakes up, it runs all of the callbacks which are past their point, and
it also makes sure to sleep only until the next callback is scheduled to
run.
I've done some renaming as names like "TriggerPendingCallbacks" were no
longer accurate -- the function may no longer cause any callbacks to be
called (it may just cause the main loop thread to recalculate the time
it wants to sleep).
Change the signal handler to use a pipe to notify about incoming
signals. This has two benefits:
- the signal no longer has to happen on the MainLoop thread. With the
previous implementation, this had to be the case as that was the only
way to ensure that ppoll gets interrupted correctly. In a multithreaded
process, this would mean that all other threads have to have the signal
blocked at all times.
- we don't need the android-specific workaround, which was necessary due
to the syscall being implemented in a non-atomic way
When the MainLoop class was first implemented, we did not have the
interrupt self-pipe, so syscall interruption was the most
straight-forward implementation. Over time, the class gained new
abilities (the pipe being one of them), so we can now piggy-back on
those.
This patch also changes the kevent-based implementation to use the pipe
for signal notification as well. The motivation there is slightly
different:
- it makes the implementations more uniform
- it makes sure we handle all kinds of signals, like we do with the
linux version (EVFILT_SIGNAL only catches process-directed signals)
Fixes warning: cast from 'void (*)(xpc_object_t _Nonnull)' (aka 'void
(*)(NSObject<OS_xpc_object> * _Nonnull)') to 'xpc_finalizer_t' (aka
'void (*)(void * _Nullable)') converts to incompatible function type
[-Wcast-function-type-mismatch]
It's never set to true. Inheritable FDs are also dangerous as they can
end up processes which know nothing about them. It's better to
explicitly pass a specific FD to a specific subprocess, which we already
mostly can do using the ProcessLaunchInfo FileActions.
When `FileAction` opens file with write access, it doesn't clear the
file nor append to the end of the file if it already exists. Instead, it
writes from cursor index 0.
For example, by using the settings `target.output-path` and
`target.error-path`, lldb will redirect process stdout/stderr to files.
It then calls this function to write to the files which the above
symptoms appear.
## Test
- Added unit test checking the file flags
- Added 2 api tests checking
- File content overwritten if the file path already exists
- Stdout and stderr redirection to the same file doesn't change its
behavior
This behavior made sense in the beginning as the class was completely
single threaded, so if the source count ever reached zero, there was no
way to add new ones. In https://reviews.llvm.org/D131160, the class
gained the ability to add events (callbacks) from other threads, which
means that is no longer the case (and indeed, one possible use case for
this class -- acting as a sort of arbiter for multiple threads wanting
to run code while making sure it runs serially -- has this class sit in
an empty Run call most of the time). I'm not aware of us having a use
for such a thing right now, but one of my tests in another patch turned
into something similar by accident.
Another problem with the current approach is that, in a
distributed/dynamic setup (multiple things using the main loop without a
clear coordinator), one can never be sure whether unregistering a
specific event will terminate the loop (it depends on whether there are
other listeners). We had this problem in lldb-platform.cpp, where we had
to add an additional layer of synchronization to avoid premature
termination. We can remove this if we can rely on the loop terminating
only when we tell it to.
Currently all of LLDB is being compiled with
-Wno-deprecated-declarations. That's not desirable, especially as part
of the LLVM monorepo, as we miss deprecation warnings from LLVM and
clang.
According to the git history, this was first introduced to suppress
warnings related to auto_ptr. Since then, other things have been
deprecated and gone unnoticed. This patch limits the flag to Host.mm
which uses a handful of LSApplication headers that have no replacement.
rdar://112040718
Disable -Wdeprecated-declarations for codecvt_utf8 in Editline. This is
in preparation for #112276 which narrows the scope of
-Wno-deprecated-declarations for building LLDB.
As discussed in #111911, we have consensus that as it stands, the system
log is only meaningful on Darwin and that by default it should be a NOOP
on other platforms.
Windows doesn't have a built-in system log. Previously we got away with
writing to stdout and stderr because it was used only sporadically. As
we're trying to make the system log more useful on the other platforms,
the increased use become a concern. Make it a NOOP until someone figures
out a reasonable alternative.
Add an "always on" log category and channel. Unlike other, existing log
channels, it is not exposed to users. The channel is meant to be used
sparsely and deliberately for logging high-value information to the
system log.
We have a similar concept in the downstream Swift fork and this has
proven to be extremely valuable. This is especially true on macOS where
system log messages are automatically captured as part of a sysdiagnose.
As specified in the docs,
1) raw_string_ostream is always unbuffered and
2) the underlying buffer may be used directly
( 65b13610a5 for further reference )
* Don't call raw_string_ostream::flush(), which is essentially a no-op.
* Avoid unneeded calls to raw_string_ostream::str(), to avoid excess
indirection.
(this is lldb part)
Without these explicit includes, removing other headers, who implicitly
include llvm-config.h, may have non-trivial side effects. For example,
`clangd` may report even `llvm-config.h` as "no used" in case it defines
a macro, that is explicitly used with #ifdef. It is actually amplified
with different build configs which use different set of macros.
The existing function already used the MainLoop class, which allows one
to wait on multiple events at once. It needed to do this in order to
wait for v4 and v6 connections simultaneously. However, since it was
creating its own instance of MainLoop, this meant that it was impossible
to multiplex these sockets with anything else.
This patch simply adds a version of this function which uses an
externally provided main loop instance, which allows the caller to add
any events it deems necessary. The previous function becomes a very thin
wrapper over the new one.
This patch removes all of the Set.* methods from Status.
This cleanup is part of a series of patches that make it harder use the
anti-pattern of keeping a long-lives Status object around and updating
it while dropping any errors it contains on the floor.
This patch is largely NFC, the more interesting next steps this enables
is to:
1. remove Status.Clear()
2. assert that Status::operator=() never overwrites an error
3. remove Status::operator=()
Note that step (2) will bring 90% of the benefits for users, and step
(3) will dramatically clean up the error handling code in various
places. In the end my goal is to convert all APIs that are of the form
` ResultTy DoFoo(Status& error)
`
to
` llvm::Expected<ResultTy> DoFoo()
`
How to read this patch?
The interesting changes are in Status.h and Status.cpp, all other
changes are mostly
` perl -pi -e 's/\.SetErrorString/ = Status::FromErrorString/g' $(git
grep -l SetErrorString lldb/source)
`
plus the occasional manual cleanup.
LLDB on OSX is looking at a `bin` directory sibling to the `lib` one
that contains liblldb for its supporting executables. This works well
for CMake, however, for other build systems like bazel, it's not that
easy to have that build structure, for which it's much easier to also
use the `lib` directory as a fallback under the absence of `bin`.
This shouldn't break anything, but instead should make it a bit easier
for LLDB to work with different build systems and folder structures.
As reported in https://github.com/llvm/llvm-project/issues/89710, the %s
code used for `comm` could and probably does, overflow the buffer.
Likely we haven't seen it cause problems because the following data is
overwritten right afterwards.
Also scanf isn't a great choice here as this `comm` can include many
characters that might trip up %s.
We don't actually use `comm`, so parse but don't store it so we're not
overflowing anything.
Don't pass `LOG_CONS` to the openlog call.
> Write directly to the system console if there is an error while
> sending to the system logger.
This seemed like a good idea at the time, but it turns out to be
extremely annoying when this happens and LLDB is overwhelmed by log
messages in the console.
rdar://132243490
HostProcessWindows::Terminate() correctly uses m_process which type is
process_t (HANDLE) to call ::TerminateProcess(). But Host::Kill() uses a
cast from pid, which is wrong.
This patch fixes#51793
To implement SaveCore for elf binaries we need to populate some
additional fields in the prpsinfo struct. Those fields are the nice
value of the process whose core is to be taken as well as a boolean flag
indicating whether or not that process is a zombie. This commit adds
those as well as tests to ensure that the values are consistent with
expectations
Remove setupterm workaround on macOS which caused an issues after the
removal of the terminfo dependency. There's a comment that explains why
the workaround is present, but neither Jim nor I were able to reproduce
the issue by setting TERM to vt100.