I've been using this script on a couple machines and it seems to work
so I'm putting it out there, maybe other people will find it useful.
It is strongly inspired from a similar script in the delve project.
llvm-svn: 334743
There was no way to find out what's wrong if SBProcess SBTarget::LoadCore(const char *core_file) failed.
Additionally, the implementation was unconditionally setting sb_process, so it wasn't even possible to check if the return SBProcess is valid.
This change adds a new overload which surfaces the errors and also returns a valid SBProcess only if the core load succeeds:
SBProcess SBTarget::LoadCore(const char *core_file, SBError &error);
Differential Revision: https://reviews.llvm.org/D48049
llvm-svn: 334439
Instead of assuming that SWIG generated files (e.g. lldb.py) will live
in scripts, we should set it to $LLDB_PYTHON_TARGET_DIR. This variable is set to
scripts, except when building LLDB.framework when it is set to
LLDB_FRAMEWORK_DIR.
Differential Revision: https://reviews.llvm.org/D47742
llvm-svn: 333968
Use proper cmake techniques to detect where the libedit package resides.
This allows for the use of libedit from an alternative location which is
needed for supporting cross-compilation.
llvm-svn: 333041
LLDB.framework to point to the build directory where it is expected by
the top-level CMakeLists.txt.
This should be a no-op in any other configurations.
rdar://problem/38005302
llvm-svn: 326743
Summary:
This adds a SBDebugger::GetBuildConfiguration static function, which
returns a SBStructuredData describing the the build parameters of
liblldb. Right now, it just contains one entry: whether we were built
with XML support.
I use the new functionality to skip a test which requires XML support,
but concievably the new function could be useful to other liblldb
clients as well (making sure the library supports the feature they are
about to use).
Reviewers: zturner, jingham, clayborg, davide
Subscribers: lldb-commits
Differential Revision: https://reviews.llvm.org/D43333
llvm-svn: 325504
an empty Python string object when it reads a 0-length
string out of memory (and a successful SBError object).
<rdar://problem/26186692>
llvm-svn: 321338
SetOututFileHandle to work with IOBase.
I did make one change after checking with Larry --
I renamed SBDebugger::Flush to FlushDebuggerOutputHandles
and added a short docstring to the .i file to make it
a little clearer under which context programs may need
to use this API.
Differential Revision: https://reviews.llvm.org/D39128
<rdar://problem/34870417>
llvm-svn: 317182
SetOututFileHandle to work with IOBase.
I did make one change after checking with Larry --
I renamed SBDebugger::Flush to FlushDebuggerOutputHandles
and added a short docstring to the .i file to make it
a little clearer under which context programs may need
to use this API.
Differential Revision: https://reviews.llvm.org/D38829
llvm-svn: 317180
Summary:
r316368 broke this build when it introduced a reference to a pthread
function to the Utility module. This caused cmake to generate an
incorrect link line (wrong order of libs) because it did not see the
dependency from Utility to the system libraries. Instead these libraries
were being manually added to each final target.
This changes moves the dependency management from the individual targets
to the lldbUtility module, which is consistent with how llvm does it.
The final targets will pick up these libraries as they will be a part of
the link interface of the module.
Technically, some of these dependencies could go into the host module,
as that's where most of the os-specific code is, but I did not try to
investigate which ones.
Reviewers: zturner, sylvestre.ledru
Subscribers: lldb-commits, mgorny
Differential Revision: https://reviews.llvm.org/D39246
llvm-svn: 316997
This patch adds support for passing an arbitrary python stream
(anything inheriting from IOBase) to SetOutputFileHandle or
SetErrorFileHandle.
Differential revision: https://reviews.llvm.org/D38829
<rdar://problem/34870417>
llvm-svn: 315966
The core of this change is the new CommandInterpreter::m_command_state,
which models the state transitions for interactive commands, including
an "interrupted" state transition.
In general, command interruption requires cooperation from the code
executing the command, which needs to poll for interruption requests
through CommandInterpreter::WasInterrupted().
CommandInterpreter::PrintCommandOutput() implements an optionally
interruptible printing of the command output, which for large outputs
was likely the longest blocking part.
(ex. target modules dump symtab on a complex binary could take 10+ minutes)
Differential Revision: https://reviews.llvm.org/D37923
llvm-svn: 315037
The core of this change is the new CommandInterpreter::m_command_state, which
models the state transitions for interactive commands, including an
"interrupted" state transition.
In general, command interruption requires cooperation from the code executing
the command, which needs to poll for interruption requests through
CommandInterpreter::WasInterrupted().
CommandInterpreter::PrintCommandOutput() implements an optionally
interruptible printing of the command output, which for large outputs was
likely the longest blocking part. (ex. target modules dump symtab on a
complex binary could take 10+ minutes)
patch by lemo
Differential Revision: https://reviews.llvm.org/D37923
llvm-svn: 313904
When introduced, breakpoint names were just tags that you could
apply to breakpoints that would allow you to refer to a breakpoint
when you couldn't capture the ID, or to refer to a collection of
breakpoints.
This change makes the names independent holders of breakpoint options
that you can then apply to breakpoints when you add the name to the
breakpoint. It adds the "breakpoint name configure" command to set
up or reconfigure breakpoint names. There is also full support for
then in the SB API, including a new SBBreakpointName class.
The connection between the name and the breakpoints
sharing the name remains live, so if you reconfigure the name, all the
breakpoint options all change as well. This allows a quick way
to share complex breakpoint behavior among a bunch of breakpoints, and
a convenient way to iterate on the set.
You can also create a name from a breakpoint, allowing a quick way
to copy options from one breakpoint to another.
I also added the ability to make hidden and delete/disable protected
names. When applied to a breakpoint, you will only be able to list,
delete or disable that breakpoint if you refer to it explicitly by ID.
This feature will allow GUI's that need to use breakpoints for their
own purposes to keep their breakpoints from getting accidentally
disabled or deleted.
<rdar://problem/22094452>
llvm-svn: 313292
Summary:
The available platform list was previously only accessible via the
`platform list` command, this patch makes it possible to access that
list via the SBDebugger API. The active platform list has likewise
been exposed via the SBDebugger API.
Differential Revision: https://reviews.llvm.org/D35760
llvm-svn: 310452
You can get a breakpoint to auto-continue by adding "continue"
as a command, but that has the disadvantage that if you hit two
breakpoints simultaneously, the continue will force the process
to continue, and maybe even forstalling the commands on the other.
The auto-continue flag means the breakpoints can negotiate about
whether to stop.
Writing tests, I wanted to supply some commands when I made the
breakpoints, so I also added that ability.
llvm-svn: 309969
When an option was set at on a location, I was just copying the whole option set
to the location, and letting it shadow the breakpoint options. That was wrong since
it meant changes to unrelated options on the breakpoint would no longer take on this
location. I added a mask of set options and use that for option propagation.
I also added a "location" property to breakpoints, and added SBBreakpointLocation.{G,S}etCommandLineCommands
since I wanted to use them to write some more test cases.
<rdar://problem/24397798>
llvm-svn: 309772
Summary:
Implement SBProcessInfo to wrap lldb_private::ProcessInstanceInfo,
and add SBProcess::GetProcessInfo() to retrieve info like parent ID,
group ID, user ID etc. from a live process.
Differential Revision: https://reviews.llvm.org/D35881
llvm-svn: 309664
- Don't do any checks of the current SCM repository if the
llvm repositories are already there. Useful for bots.
- When symlinking, remove old symlinks.
- Support loading build-script as a library, not necessarily
under Xcode.
- Stringify args before passing them to subprocess.
llvm-svn: 309631
This adds an explicit step for processing the headers and restructures how the framework bundles are constructed. This should make the frameworks more reliably constructed.
llvm-svn: 309024
Summary:
SBBreakpointLocation exposed the ignore count, but didn't expose
the hit count. Both values were exposed by SBBreakpoint and
SBWatchpoint, so this makes things a bit more consistent.
Reviewers: lldb-commits
Subscribers: lldb-commits
Differential Revision: https://reviews.llvm.org/D31283
llvm-svn: 308480
This makes automatic checkout work even in situations where the
current repository can't be determined, such as in the case of a
Git tag.
llvm-svn: 306460
PyObject_CallFunction returns a PyObject which needs to be
decref'ed when it is no longer needed.
Patch by David Luyer
Differential Revision: https://reviews.llvm.org/D33740
llvm-svn: 305873
The simple module import logic was not sufficient for our distribution
model of lldb, which is without the _lldb.pyd file (normally that would
be a symlink to the shared library, but symlinks are not really a thing
on windows).
With the older swigs it worked (loading of the python scripting
machinery from within lldb) because the normal swig import logic
contained a last-ditch import of a global module _lldb (which is defined
when you run python from lldb). Add back the last-ditch import to our
custom import logic as well.
llvm-svn: 305461
Summary:
- Added API to access data types
-- integer, double, array, string, boolean and dictionary data types
-- Earlier user had to parse through the string output to get these
values
- Added Test cases for API testing
- Added new StructuredDataType enum in public include file
-- Replaced locally-defined enum in StructuredData.h with this new
one
-- Modified other internal files using this locally-defined enum
Signed-off-by: Abhishek Aggarwal <abhishek.a.aggarwal@intel.com>
Reviewers: clayborg, lldb-commits
Reviewed By: clayborg
Subscribers: labath
Differential Revision: https://reviews.llvm.org/D33434
llvm-svn: 304138
Summary:
A change in swig 3.0.9 has caused it to generate modules incompatible
with us using them as __init__.py (bug #769). Swig 3.0.11 adds a setting to help
fix this problem, so use that. Support for older versions of swig remains
unaffected.
Reviewers: zturner
Subscribers: lldb-commits
Differential Revision: https://reviews.llvm.org/D33409
llvm-svn: 303627
The find function in repo.py calls sys.exit on error. Without this import that
call to exit will fail, masking the actual error message. This patch fixes that.
llvm-svn: 302584
Summary:
This patch introduces new SB APIs for tracing support
inside LLDB. The idea is to gather trace data from
LLDB and provide it through this APIs to external
tools integrating with LLDB. These tools will be
responsible for interpreting and presenting the
trace data to their users.
The patch implements the following new SB APIs ->
-> StartTrace - starts tracing with given parameters
-> StopTrace - stops tracing.
-> GetTraceData - read the trace data .
-> GetMetaData - read the meta data assosciated with the trace.
-> GetTraceConfig - read the trace configuration
Tracing is associated with a user_id that is returned
by the StartTrace API and this id needs to be used
for accessing the trace data and also Stopping
the trace. The user_id itself may map to tracing
the complete process or just an individual thread.
The APIs require an additional thread parameter
when the user of these APIs wishes to perform
thread specific manipulations on the tracing instances.
The patch also includes the corresponding
python wrappers for the C++ based APIs.
Reviewers: k8stone, lldb-commits, clayborg
Reviewed By: clayborg
Subscribers: jingham, mgorny
Differential Revision: https://reviews.llvm.org/D29581
llvm-svn: 301389
We currently display a list of all minimal cycles, but it's
useful to be able to see the big picture impact of these cycles
by merging them all together into groups of interconnected
components.
Because the cycle discovery algorithm only considers "minimal"
cycles, it discards all information for dependencies which are
not considered part of the minimal cycle. So all we know is that
the components of each island definitely all depend on each other
but it's still possible that there are hidden dependencies due
to transitive includes.
The cycle list should still be the authoritative reference for
deciding where the easiest places to break cycles are, though.
llvm-svn: 298530
When passing --discover-cycles and --show-counts, it displays
the number of dependencies between each hop of the cycle,
and sorts by the sum. Dependencies at the top of the list
should be the easiest to break.
llvm-svn: 298455
This analyzes the dependency graph and computes all minimal
cycles. Equivalent cycles that differ only by rotation are
excluded, as are cycles that are "super-cycles" of other
smaller cycles. For example, if we discover the cycle
A -> C -> A, and then later A -> B -> C -> D -> A, this latter
cycle is not considered. Thus, it is possible that after
eliminating some cycles, new ones will appear. However,
this is the only way to make the algorithm terminate in
a reasonable amount of time.
llvm-svn: 298324
1) Looks in Plugins and clang
2) Adds a mode to display the deps sorted by the number of times
the deps occurs in a particular project
llvm-svn: 297036