saved/restored across a mid-function epilogue. We ignore
repeated push/pops of a register so once we saw one 'pop %rbp',
we'd ignore it the second time we saw it.
<rdar://problem/19417410>
llvm-svn: 225853
This is currently controlled by a setting:
(lldb) settings set target.process.python-os-plugin-path <path>
Or clearing it with:
(lldb) settings clear target.process.python-os-plugin-path
The process will now reload the OperatingSystem plug-in.
This was implemented by:
- adding the ability to set a notify callback for when an option value is changed
- added the ability for the process plug-in to load the operating system plug-in on the fly
- fixed bugs in the Process::GetStatus() so all threads are displayed if their thread IDs are larger than 32 bits
- adding a callback in ProcessProperties to tell when the "python-os-plugin-path" is changed by the user
- fixing a crasher in ProcessMachCore that happens when updating the thread list when the OS plugin is reloaded
llvm-svn: 225831
it will do the right thing on x86 routines with a mid-function
epilogue sequence (where the unwind rules need to be reinstalled
after the epilogue has completed).
<rdar://problem/19417410>
llvm-svn: 225773
which will verify if the eh_frame instructions include details about
the prologue or not. Both clang and gcc include prologue instructions
but there's no requirement for them to do so -- and I'm sure we'll
have to interoperate with a compiler that doesn't generate prologue
info at some point.
I don't have any compilers that omit the prologue instructions so the
testing was of the "makre sure augmented unwind info is still created".
With an eh_frame without prologue, this code should reject the
augmentation scheme altogether and we should fall back to using assembly
instruction profiling.
llvm-svn: 225771
step through the complete function looking for any epilogue
instructions. If we find an epilogue sequence, re-instate
the correct unwind instructions if there is more code past
that epilogue -- this will correctly handle an x86 function
with multiple epilogues in it.
NB there is still a bug with the "eh_frame augmented"
UnwindPlans and mid-function epilogues. Looking at that next.
<rdar://problem/18863406>
llvm-svn: 225770
This will allow, in a subsequent patch, the addition of a global
setting that allows the user to specify a single character that
LLDB will recognize as an escape character when processing arg
strings to accomodate differences in Windows/non-Windows path
handling.
Differential Revision: http://reviews.llvm.org/D6887
Reviewed by: Jim Ingham
llvm-svn: 225694
it more generally available.
Add checks to UnwindAssembly_x86::AugmentUnwindPlanFromCallSite() so
that it won't try to augment an UnwindPlan that already describes
the function epilogue.
Add a test case for backtracing out of _sigtramp on Darwin systems.
This could probably be adapted to test the same thing on linux/bsd but
the function names of sigtramp and kill are probably platform
specific and I'm not sure what they should be.
llvm-svn: 225578
This fixes an issue of running "script" commands via SBDebugger::HandleCommand(...) and SBCommandInterpreter::HandleCommand(...) deadlocking Xcode.
<rdar://problem/18075038>
llvm-svn: 225567
MS ABI guard variables end with @4IA, so this patch teaches the
interpreter about that. Additionally, there was an issue with
TurnGuardLoadIntoZero which was causing some guard uses of a
variable to be missed. This fixes that by calling
Instruction::replaceAllUsesWith() instead of trying to replicate
that function.
llvm-svn: 225547
Variable was being declared as signed, but treated as unsigned at
every point of use.
Patch by Dan Sinclair
Differential Revision: http://reviews.llvm.org/D6897
llvm-svn: 225540
I have been seeing a few crashes where LLDB tries to acquire a cached synthetic child by index, and crashes in the ClusterManager obtaining a shared_ptr for that ValueObject
That kind of crash most often means that I am holding on to a raw pointer to a ValueObject that was let go from the cluster
The main way that could happen is that the synthetic provider is being updated at the same time that some child is being accessed from the previous provider state
This fixes the problem by making the children be stored in a thread-safe map
Fixes rdar://18627964
llvm-svn: 225538
This new command will delete user defined regular commands, but not aliases. We still have "command unalias" to remove aliases as they are currently in different buckets. Appropriate error messages are displayed to inform the user when "command unalias" is used on removable user defined commands that points users to the "command delete" command.
Added a test to verify we can remove user defined commands and also verify that "command unalias" fails when used on a user defined command.
<rdar://problem/18248300>
llvm-svn: 225535
Change the default of prefer-dynamic-value to eDynamicDontRunTarget (i.e. enable dynamic values, but do not run code to do so)
Of course, disable this for the test suite, since testing no-dynamic-values is actually valuable
Fixes rdar://17363061
llvm-svn: 225486
It also comes with a (rudimentary) test case that gets itself in a failed update scenario, and checks that we don't crash
This is the easiest case I could think of that forces the failed update case Zachary was seeing
llvm-svn: 225463
which registers have been spilled (saved to the stack) - and
if we see that same register being saved to the stack again,
don't record that, it's something specific to this stack frame.
I found a code sequence for i386 where clang did a push %esi
and then later in the function it did movl %esi, -0x7c(%ebp)
and that second save of a scratch value overrode the original
push location.
<rdar://problem/19171178>
llvm-svn: 225431
so that we will use the UnwindPlan's rule for providing the stack
pointer BEFORE we use the trick of using the callee's CFA address
as the stack pointer. When we're in a _sigtramp frame, the CFA of
the _sigtramp stack frame is not the same as the stack pointer value
when the async interrupt occurred -- we need to use the eh_frame
rules for retrieving the correct value.
<rdar://problem/18913548>
llvm-svn: 225427
This was causing a race condition where DoDestroy() would acquire
the lock and then initiate a shutdown and then wait for it to
complete. But part of the shutdown involved acquiring the same
lock from a different thread. So the main thread would timeout
waiting for the shutdown to complete and return too soon.
The end result of this is that SBProcess::Kill() was broken on
Windows.
llvm-svn: 225297
Summary:
GCC emits DW_TAG_subrange_type for static member arrays, but with no
attributes. This in turn results in wrong type/value of the array when
printing with 'target variable <array var name>'. This patch fixes this
so that the array value is printed in this format:
(<element type> []) <array var name> = {}
Earlier, the array was being interpreted to be of its element type.
Note: This does not fix anything to do with 'expr' or 'p' commands.
Those commands still error out complaining about incomplete types.
Test Plan: dotest.py -p TestStaticVariables
Reviewers: emaste, clayborg
Reviewed By: clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D6799
llvm-svn: 225219
variable (now provided both by the normal parent LLVM CMake files and by
the LLVMConfig.cmake file used by the standalone build).
This allows LLDB to build into and install into correctly suffixed
libdirs. This is especially significant for LLDB because the python
extension building done by CMake directly uses multilib suffixes when
the host OS does, and the host OS will not always look back and forth
between them. As a consequence, before LLVM, Clang, and LLDB (and every
other subproject) had support for using LLVM_LIBDIR_SUFFIX, you couldn't
build or install LLDB on a multilib system with its python extensions
enabled. With this patch (on top of all the others I have submitted
throughout the project), I'm finally able to build and install LLDB on
my system with Python support enabled. I'm also able to actually run the
LLDB test suite, etc. Now, a *huge* number of the tests still fail on my
Linux system, but hey, actually running them and them testing the
debugger is a huge step forward. =D
llvm-svn: 224930
This completes the compact unwind support for x86 targets.
I'm still skipping the UNWIND_X86_64_MODE_STACK_IND encodings for
x86_64 right now because clang was emitting bad data for this form
until it was fixed in r217020 circa Sep 2014.
arm64 parsing still needs to be added.
llvm-svn: 224698
Most of the changes are to the FuncUnwinders class -- as we've added
more types of unwind information, the way this class was written was
making it a mess to maintain. Instead of trying to keep one
"non-call site" unwind plan and one "call site" unwind plan, track
all the different types of unwind plans we can possibly retrieve for
each function and have the call-site/non-call-site accessor methods
retrieve those.
Add a real "fast unwind plan" for x86_64 / i386 -- when doing an
unwind through a function, this only has to read the first 4 bytes
to tell if the function has a standard prologue sequence. If so,
we can use the architecture default unwind plan to backtrace
through this function. If we try to retrieve the save location for
other registers later on, a real unwind plan will be used. This
one is just for doing fast backtraces.
Change the compact unwind plan importer to fill in the valid address
range it is valid for.
Compact unwind, in theory, may have multiple entries for a single
function. The FuncUnwinders rewrite includes the start of supporting
this correctly. In practice compact unwind encodings are used for
the entire range of the function today -- in fact, sometimes the same
encoding is used for multiple functions that have the same unwind
rules. But I want to handle a single function that has multiple
different compact unwind UnwindPlans eventually.
llvm-svn: 224689
When lldb has a binary with protected section contents,
don't use the on-disk representation of that compact
uwnind -- read it only out of live memory where it has
been decrypted.
llvm-svn: 224670
The issue was we had a global variable that was a pointer, and the address type of the children wasn't "load address" when it needed to be. Full details are in the comments of the changes.
<rdar://problem/15107937>
llvm-svn: 224559
Summary:
This is part of the Linux remote platform work. Displaying the local
kernel information when remote debugging doesn't make sense, so we
should verify if we are in host mode before doing so.
Test Plan:
Connect to a remote linux platform mode daemon with `platform select
remote-linux` followed by `platform connect ...`, and look at the output
of `platform status`.
Reviewers: tfiala, clayborg, vharron, compnerd
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D5928
llvm-svn: 224540
This fixes compilation failures in the 64-bit build of LLDB on Windows.
Patch by Aidan Dodds
Differential Revision: http://reviews.llvm.org/D6704
llvm-svn: 224528
This patch makes a number of improvements to the Pipe interface.
1) An interface (PipeBase) is provided which exposes pure virtual
methods for any implementation of Pipe to override. While not
strictly necessary, this helps catch errors where the interfaces
are out of sync.
2) All methods return lldb_private::Error instead of returning bool
or void. This allows richer error information to be propagated
up to LLDB.
3) A new ReadWithTimeout() method is exposed in the base class and
implemented on Windows.
4) Support for both named and anonymous pipes is exposed through the
base interface and implemented on Windows. For creating a new
pipe, both named and anonymous pipes are supported, and for
opening an existing pipe, only named pipes are supported.
New methods described in points #3 and #4 are stubbed out on posix,
but fully implemented on Windows. These should be implemented by
someone on the linux / mac / bsd side.
Reviewed by: Greg Clayton, Oleksiy Vyalov
Differential Revision: http://reviews.llvm.org/D6686
llvm-svn: 224442
names can then be used in place of breakpoint id's or breakpoint id
ranges in all the commands that operate on breakpoints.
<rdar://problem/10103959>
llvm-svn: 224392
Oleksiy Vyalov