the installed SDK to using the current OS installed headers/libraries.
This change is to address the removal of the Python framework
from the Mac OS X 10.9 (Mavericks) SDK, and is the recommended
workaround via https://developer.apple.com/library/mac/technotes/tn2328/_index.html
llvm-svn: 195557
SmallPtrSet.cpp use different methods if SmallPtrSet.h is included
in C++11 mode. Building llvm in C++03 mode and lldb in C++11 mode
resulted in a link-time failure with the C++11-mode-specific method
not being found in the llvm build.
llvm-svn: 195544
Improved the detection of a valid GDB server where we actually can connect to a socket, but then it doesn't read or write anything (which happens with some USB mux software).
Host::MakeDirectory() now can make as many intermediate directories as needed.
The testsuite now has very initial support for remote test suite running. When running on a remote platform, the setUp function for the test will make a new directory and select it as the working directory on the remote host.
Added a common function that can be used to create the short option string for getopt_long calls.
llvm-svn: 195541
Mainly patched to stop LLDB from crashing. This can easily happen if you debug to a remote gdbserver that doesn't have any dynamic register info and you don't have a target definition file specified.
llvm-svn: 195499
Fixed a bunch of issues with many functions that were added for the platform host IO calls where they might not reply to the packet if the packet was malformed.
Cleaned up error codes.
Added a port offset to allow for connections across a USB mux.
llvm-svn: 195485
0 as CPU subtype never matches anything (at least, it doesn't match x86_64 windows binaries, of which there are correct arch definitions for). It should be created with LLDB_INVALID_CPUTYPE.
llvm-svn: 195435
Rework data formatters matching algorithm
What happens now is that, for each category, the FormatNavigator generates all possible matches, and checks them one by one
Since the possible matches do not actually depend on the category (whether a match is accepted or not does, but that check can be shifted at a more convenient time),
it is actually feasible to generate every possible match upfront and then let individual categories just scan through those
This commit changes things by introducing a notion of formatters match candidate, and shifting responsibility for generating all of them given a (ValueObject,DynamicValueType) pair
from the FormatNavigator back to the FormatManager
A list of these candidates is then passed down to each category for matching
Candidates also need to remember whether they were generated by stripping pointers, references, typedefs, since this is something that individual formatters can choose to reject
This check, however, is conveniently only done once a "textual" match has been found, so that the list of candidates is truly category-independent
While the performance benefit is small (mostly, due to caching), this is much cleaner from a design perspective
llvm-svn: 195395
Added a new "Host/Debug.h" which contains the pure virtual class definitions for NativeProcessProtocol and NativeThreadProtocol. These classes are host layer classes that, over time, every host that supports debugging will implement once.
Then the new "lldb-gdbserver" binary in the tools directory will be able to make a remote debugging binary from these native classes, and we will also be able to have a new lldb_private::Process class that implements native debugging using these classes.
So as soon as linux and MacOSX switch over to using this layer, everyone will get native and remote debugging.
This check-in is primarily to get the needed code in so that poeple can start trying to implement the NativeProcessProtocol and NativeThreadProtocol and use it in the GDBRemoteCommunicationServer class to implement a GDB server for remote debugging.
llvm-svn: 195369
--gdbserver-port PORT
--min-gdbserver-port PORT
--max-gdbserver-port PORT
The --gdbserver-port option can be specified multiple times to tell lldb-platform which ports it can use when launching child GDB server processes.
The --min-gdbserver-port and --max-gdbserver-port options allow a range of ports to be specified for use when launching child GDB server processes.
Fixed the code to manage these ports correctly in GDBRemoteCommunicationServer.
Also changed GDBRemoteCommunicationClient to not set a port when sending the "qLaunchGDBServer" packet so that the remote lldb-platform can decide which ports to use. If the lldb-platform was launched with no --gdbserver-port or --min-gdbserver-port/--max-gdbserver-port options, then port 0 is always used and a unix socket is used between the lldb-platform and child GDB server process to coordinate the use of valid port.
llvm-svn: 195300
Change the NSSet data formatter to not use the expression parser to produce synthetic children
In small-scale experimentation with lldb-perf, this improves our performance by around 25%
llvm-svn: 195294
Example code:
remote_platform = lldb.SBPlatform("remote-macosx");
remote_platform.SetWorkingDirectory("/private/tmp")
debugger.SetSelectedPlatform(remote_platform)
connect_options = lldb.SBPlatformConnectOptions("connect://localhost:1111");
err = remote_platform.ConnectRemote(connect_options)
if err.Success():
print >> result, 'Connected to remote platform:'
print >> result, 'hostname: %s' % (remote_platform.GetHostname())
src = lldb.SBFileSpec("/Applications/Xcode.app/Contents/SharedFrameworks/LLDB.framework", False)
dst = lldb.SBFileSpec()
# copy src to platform working directory since "dst" is empty
err = remote_platform.Install(src, dst);
if err.Success():
print >> result, '%s installed successfully' % (src)
else:
print >> result, 'error: failed to install "%s": %s' % (src, err)
Implemented many calls needed in lldb-platform to be able to install a directory that contains symlinks, file and directories.
The remote lldb-platform can now launch GDB servers on the remote system so that remote debugging can be spawned through the remote platform when connected to a remote platform.
The API in SBPlatform is subject to change and will be getting many new functions.
llvm-svn: 195273
The demangler added in r193708 from cxa_demangle.cpp uses language features which are not supported by the latest visual studio. In order to preserve the msvc build, this patch restores the previous (non)functionality in windows under msvc by disabling the demangler.
llvm-svn: 195254
(and same thing to Thread base class) which can be used when looking
at an ExtendedBacktrace thread; it will try to find the IndexID() of
the original thread that was executing this backtrace when it was
recorded. If lldb can't find a record of that thread, it will return
the same value as IndexID() for the ExtendedBacktrace thread.
llvm-svn: 194912
The failure to demangle 'anonymous namespace' on FreeBSD is fixed (twice)
- the failure in FreeBSD's in-tree __cxa_demangle has been addressed
- FreeBSD now uses the copy of the demangler built into lldb, due to other
remaining limitations in the in-tree __cxa_demangle
llvm.org/pr15302
llvm-svn: 194855
do anything right now. Add a few new methods to the Thread base
class which HistoryThread needs. I think I updated all the
CMakeLists files correctly for the new plugin.
llvm-svn: 194756
Added two new GDB server packets to debugserver: "QSaveRegisterState" and "QRestoreRegiterState".
"QSaveRegisterState" makes the remote GDB server save all register values and it returns a save identifier as an unsigned integer. This packet can be used prior to running expressions to save all registers.
All registers can them we later restored with "QRestoreRegiterState:SAVEID" what SAVEID is the integer identifier that was returned from the call to QSaveRegisterState.
Cleaned up redundant code in lldb_private::Thread, lldb_private::ThreadPlanCallFunction.
Moved the lldb_private::Thread::RegisterCheckpoint into its own header file and it is now in the lldb_private namespace. Trimmed down the RegisterCheckpoint class to omit stuff that wasn't used (the stack ID).
Added a few new virtual methods to lldb_private::RegisterContext that allow subclasses to efficiently save/restore register states and changed the RegisterContextGDBRemote to take advantage of these new calls.
llvm-svn: 194621
Remove the --do-read option, and always provide a small dump of memory at each match spot
Add a --dump-offset (-o) option, to specify a byte offset from which to start dumping relative to the matching address
The real solution is to actually provide the format options found on "memory read" and use those as the key to actually printing memory upon each find
That, however, requires a little refactoring work, so put this in for now until I get a chance to do the required shuffling around of moving parts
llvm-svn: 194600
Implement a "memory find" command for LLDB
This is still fairly rough around the edges but works well enough for simple scenarios where a chunk of text or a number are to be found within a certain range of memory, as in
mem find `buffer` `buffer+0x1000` -s "me" -c 5 -r
llvm-svn: 194544