RegisterContextLLDB. I have core files of half a dozen tricky
unwind situations on x86/arm and they're all working pretty much
correctly at this point, but we'll need to keep an eye out for
unwinder regressions for a little while; it's tricky to get these
heuristics completely correct in all unwind situations.
<rdar://problem/18937193>
llvm-svn: 221866
This sends notifications for module load / unload to the process
plugin, and also manages the state more accurately during the
loading sequence.
Similar work by Virgile Bello was referenced during the
implementation of this patch.
Differential Revision: http://reviews.llvm.org/D6224
llvm-svn: 221807
Due to a previous multi-threaded design involving message
passing, we used message classes to pass event information
to the delegate. Since the multi-threaded design has gone
away, we simplify this by passing event arguments as direct
function parameters, which is more clear and easier to
understand.
llvm-svn: 221806
After r221575 TestCallStopAndContinue and TestCallThatRestarts started
crashing on FreeBSD with a null temporary_module_sp in
RegisterContextLLDB::InitializeNonZerothFrame().
llvm-svn: 221805
The addition of RegisterNumber introduced a bug where if the PC is stored in a
return address register, such as on ARM and PowerPC, this register number is
retrieved and used, but never checked in the row if it's saved. Correct this by
setting the variable that's used to the new register number.
Patch by Jason Molenda.
llvm-svn: 221790
Summary:
Taking advantage of the new 'CFAIsRegisterDereferenced' CFA register type, add
full stack unwind support to the PowerPC/PowerPC64 ABI. Also, add a new
register set for powerpc32-on-64, so the register sizes are correct. This also
requires modifying the ProcessMonitor to add support for non-uintptr_t-sized
register values.
Reviewers: jasonmolenda, emaste
Subscribers: emaste, lldb-commits
Differential Revision: http://reviews.llvm.org/D6183
llvm-svn: 221789
Summary:
PowerPC handles the stack chain with the current stack pointer being a pointer
to the backchain (CFA). LLDB currently has no way of handling this, so this
adds a "CFA is dereferenced from a register" type.
Discussed with Jason Molenda, who also provided the initial patch for this.
Reviewers: jasonmolenda
Reviewed By: jasonmolenda
Subscribers: emaste, lldb-commits
Differential Revision: http://reviews.llvm.org/D6182
llvm-svn: 221788
This patch implements basic support for stopping at breakpoints
and resuming later. While a breakpoint is stopped at, LLDB will
cease to process events in the debug loop, effectively suspending
the process, and then resume later when ProcessWindows::DoResume
is called.
As a side effect, this also correctly handles the loader breakpoint
(i.e. the initial stop) so that LLDB goes through the correct state
sequence during the initial process launch.
llvm-svn: 221642
it in RegisterContext.cpp.
There's a lot of bookkeeping code in RegisterContextLLDB where it has
to convert between different register numbering schemes and it makes
some methods like SavedLocationForRegister very hard to read or
maintain. Abstract all of the details about different register numbering
systems for a given register into this new class to make it easier
to understand what the method is doing.
Also add register name printing to all of the logging -- that's easy to
get now that I've got an object to represent the register numbers.
There were some gnarly corner cases of this method that I believe
I've translated correctly - initial testing looks good but it's
possible I missed a corner case, especially with architectures which
uses a link-register aka return address register like arm32/arm64.
Basic behavior is correct but there are a lot of corner casese that are
handled in this method ...
llvm-svn: 221577
If a noreturn function was the last function in a section,
we wouldn't correctly back up the saved-pc value into the
correct section leading to us showing the wrong function in
the backtrace.
Also add a backtrace test with an attempt to elicit this
particular layout. It happens to work out with clang -Os
but other compilers may not quite get the same layout I'm
getting at that opt setting. We'll still be exercising the
basic noreturn handling in the unwinder even if we don't get
one function at the very end of a section.
<rdar://problem/16051613>
llvm-svn: 221575
Originally the idea was that we would queue requests to a master
thread that would dispatch them to other slave threads each
responsible for debugging an individual process. This might make
some scenarios more scalable and responsive, but for now it seems
to be unwarranted complexity for no observable benefit.
llvm-svn: 221561
In the llgs world, ProcessWindows will eventually go away and
we'll implement a different protocol. This patch decouples
ProcessWindows from the core debug loop so that this transition
will not be more difficult than it needs to be.
llvm-svn: 221405
Renamed monitor -> driver, to make clear that the implementation here
is in no way related to that of other process plugins which have also
implemented classes with similar names such as DebugMonitor.
Also created a DebugEventHandler interface, which will be used by
implementors to get notified when debugging events happen in the
inferiors.
llvm-svn: 221322
let's let lldb try the arch default unwind every time but not destructively --
it doesn't permanently replace the main unwind method for that function from
now on.
This fix is for <rdar://problem/18683658>.
I tested it against Ryan Brown's go program test case and also a
collection of core files of tricky unwind scenarios
<rdar://problem/15664282> <rdar://problem/15835846>
<rdar://problem/15982682> <rdar://problem/16099440>
<rdar://problem/17364005> <rdar://problem/18556719>
that I've fixed over the last 6-9 months.
llvm-svn: 221238
is "invalid" -- it is past the end of the stack trace. Add a new
method IsCompletedStackWalk() so we can tell if an invalid stack
frame is from a complete backtrace or if it might be worth re-trying
the last unwind with a different method.
This fixes the unwinder problems Ryan Brown was having with go
programs. The unwinder can (under the right circumstances) still
destructively replace unwind plans permanently - I'll work on
that in a different patch.
<rdar://problem/18683658>
llvm-svn: 221229
When processes are launched for debugging on Windows now, LLDB
will detect changes such as DLL loads and unloads, breakpoints,
thread creation and deletion, etc.
These notifications are not yet propagated to LLDB in a way that
LLDB understands what is happening with the process. This only
picks up the notifications from the OS in a way that they can be
sent to LLDB with subsequent patches.
Reviewed by: Scott Graham
Differential Revision: http://reviews.llvm.org/D6037
llvm-svn: 221207
The details are: large packets (like large memory reads (m packets) or large binary memory reads (x packet)) can get responses that come in across multiple read() calls. The while loop that was added meant that if only a partial packet came in (like only "$abc" coming for a response) GDBRemoteCommunication::CheckForPacket() was called, it would deadlock in the while loop because no more data is going to come in as this function needs to be called again with more data from another read. So the original fix will need to be corrected and resubmitted.
<rdar://problem/18853744>
llvm-svn: 221181
Summary:
SIGPROF is used for profiling processes (with google-perftools for
instance), which results in the inferior receiving a SIGPROF from the
kernel every few milliseconds. Instead of stopping the debugging session
and notifying the user of this, we should just pass the signal and keep
running.
This follows the behavior we have in UnixSignals.cpp.
Test Plan: Run LLDB on linux with a binary using google-perftools, see that execution gets interrupted all the time because we receive SIGPROF. Apply the patch, everything works fine.
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D5953
llvm-svn: 221011
Summary:
This adds preliminary support for PowerPC/PowerPC64, for FreeBSD. There are
some issues still:
* Breakpoints don't work well on powerpc64.
* Shared libraries don't yet get loaded for a 32-bit process on powerpc64 host.
* Backtraces don't work. This is due to PowerPC ABI using a backchain pointer
in memory, instead of a dedicated frame pointer register for the backchain.
* Breakpoints on functions without debug info may not work correctly for 32-bit
powerpc.
Reviewers: emaste, tfiala, jingham, clayborg
Reviewed By: clayborg
Subscribers: emaste, lldb-commits
Differential Revision: http://reviews.llvm.org/D5988
llvm-svn: 220944
function because of a '1u' making it a 32-bit value
when it really needed to be a 64-bit value. Trivial to fix
once I figured out what was going on.
clang static analzyer fixit.
llvm-svn: 220022
in GetFullUnwindPlanForFrame() - the code was mostly checking
that we had an active Process and ABI but not always.
clang static analyzer fixit.
llvm-svn: 219772
This implements Host::LaunchProcess for windows, and in doing so
does some minor refactor to move towards a more modular process
launching design.
The original motivation for this is that launching processes on
windows needs some very windows specific code, which would live
most appropriately in source/Host/windows somewhere. However,
there is already some common code that all platforms use when
launching a process before delegating to the platform specific
stuff, which lives in source/Host/common/Host.cpp which would
be nice to reuse without duplicating.
This commonality has been abstracted into MonitoringProcessLauncher,
a class which abstracts out the notion of launching a process using
an arbitrary algorithm, and then monitoring it for state changes.
The windows specific launching code lives in ProcessLauncherWindows,
and the posix specific launching code lives in ProcessLauncherPosix.
When launching a process MonitoringProcessLauncher is created, and
then an appropriate delegate launcher is created and given to the
MonitoringProcessLauncher.
Reviewed by: Greg Clayton
Differential Revision: http://reviews.llvm.org/D5781
llvm-svn: 219731
With this change, both local-process llgs and remote-target llgs stdout/stderr
handling from inferior work correctly.
Several log lines have been added around PTY and stdout/stderr redirection
logic on the lldb client side.
Regarding remote llgs execution, see the following:
With these changes, remote llgs with $O now works properly:
$ lldb
(lldb) platform select remote-linux
(lldb) target create ~/some/inferior/exe
(lldb) gdb-remote {some-target}:{port}
(lldb) run
The sequence above will correctly redirect stdout/stderr over gdb-remote $O,
as is needed for remote debugging. That sequence assumes there is a lldb-gdbserver
exe running on the target with {some-host}:{port}.
You can replace the gdb-remote command with a '(lldb) platform connect
connect://{target-ip}:{target-port}'. If you do this and have a
lldb-platform running on the remote end, it will go ahead and launch
llgs for lldb for each target instance that is run/attached.
For local debugging with llgs, the following sequence also works, and
uses local PTYs instead to avoid $O and extra gdb-remote messages:
$ lldb
(lldb) settings set platform.plugin.linux.use-llgs true
(lldb) target create ~/some/inferior/exe
(lldb) run
The above will run the inferior using llgs on the local host, and
will use PTYs rather than $O redirection.
This change also removes the logging that happened after the fork but
before the exec when llgs is launching a new inferior process. Some
aspect of the file handling during that portion of code would not do
the right thing with log handling. We might want to go back later
and have that communicate over a pipe from the child to parent to pass
along any messages that previously were logged in that section of code.
llvm-svn: 219578
See http://reviews.llvm.org/D5695 for details.
This change does the following:
Enable lldb-gdbserver (llgs) usage for local-process Linux debugging.
To turn on local llgs debugging support, which is disabled by default, enable this setting:
(lldb) settings set platform.plugin.linux.use-llgs-for-local true
Adds a stream-based Dump() function to FileAction.
Pushes some platform methods that Linux (and FreeBSD) will want to share with MacOSX from PlatformDarwin into PlatformPOSIX.
Reviewed by Greg Clayton.
llvm-svn: 219457
Adds a test to verify that a thread resume request marks the thread as running
after doing the resume callback. This test fails without the corresponding
ThreadStateCoordinator.cpp change.
Fixes the code where that state was not maintained.
llvm-svn: 219412
the backtrace, try falling back to the architecture default
unwind plan and see if we can backtrace a little further.
<rdar://problem/18556719>
llvm-svn: 219247
As part of getting ConnectionFileDescriptor working on Windows,
there is going to be alot of platform specific work to be done.
As a result, the implementation is moving into Host. This patch
performs the code move and fixes up call-sites appropriately.
Reviewed by: Greg Clayton
Differential Revision: http://reviews.llvm.org/D5548
llvm-svn: 219143
Added tests and impl to make sure the following errors are reported:
* Notifying a created thread that we are already tracking.
* Notifying a thread death for a thread we don't know about.
llvm-svn: 218900
Now that ThreadStateCoordinator errors out on threads in unexpected states,
it has enough information to know which threads need stop requests fired
when we want to do a deferred callback on a thread's behalf. This change
adds a new method, CallAfterRunningThreadsStop(...), which no longer
takes a set of thread ids that require stop requests. It's much harder
to misuse this method and (with newer error logic) it's harder to
correctly use the original method. Expect the original method that takes
the set of thread ids to stop to disappear in the near future.
Adds several tests for CallAfterRunningThreadsStop().
llvm-svn: 218897
Added tests to verify that the coordinator signals an error if
the given thread to resume is unknown, and if the thread is through to
be running already.
Modified resume handling code to match tests.
llvm-svn: 218872
ThreadStateCoordinator changes:
* Most commands that run in the queue now take an error handler that
will be called with an error string if an error occurs during processing.
Errors generally stop the operation in progress. The errors are checked
at time of execution. This is intended to help flush out ptrace/waitpid/state management
issues as quickly as possible.
* Threads now must be known to the coordinator before stops can be reported,
resumes can be requested, thread deaths can be reported, or deferred stop
notifications can be made. Failure to know the thread will cause the coordinator
to call the error callback for the event being processed. Threads are introduced
to the system by the NotifyThreadCreate method.
* The NotifyThreadCreate method now takes the initial state of the thread being
introduces to the system. We no longer just assume the thread is running.
The test cases were cleaned up, too:
* A gtest test fixture is now used, which allows creating less verbose helper
methods that setup common pieces of callback code for some method invocations.
Net result: the tests are simpler to read and shorter to write.
llvm-svn: 218833
ThreadIDFunc => ThreadIDFunction
LogFunc => LogIDFunction
We try to avoid abbreviations/shortened names. Adjusted function parameter names
as well to replace _func with _function.
llvm-svn: 218773
r218568 added an explicit #include of the Linux ProcessMonitor.h to
POSIXThread.cpp, rather than including just "ProcessMonitor.h" and
relying on the build infrastructure for the appropriate paths.
For now add #ifdefs in the source to use the FreeBSD or Linux header
as appropriate; a cleaner fix (and perhaps some refactoring of the
POSIX classes) should still be done later.
llvm-svn: 218762
There is a state transition that seems potentially buggy that I am capturing and
logging here, and including an explicit test to demonstrate expected behavior. See new test
for detailed description. Added logging around this area since, if we hit it, we
may have a usage bug, or a new state transition we really need to investigate.
This is around this scenario:
Thread C deferred stop notification awaiting thread A and thread B to stop.
Thread A stops.
Thread A requests resume.
Thread B stops.
Here we will explicitly signal the deferred stop notification after thread B
stops even though thread A is now resumed. Copious logging happens here.
llvm-svn: 218683
