The test assumes that HW breakpoints are not implemented by the debug
server. Windows doesn't use these and might actually support HW
breakpoints so these tests are expected fail because they don't raise
the expected error.
llvm-svn: 348010
This reverts commit dec87759523b2f22fcff3325bc2cd543e4cda0e7.
This commit caused the tests on Windows to run forever rather than complete.
Reverting until the commit can be fixed to not stall.
llvm-svn: 348009
Summary:
This patch fixes the next situation. On Windows clang-cl makes no stub before
the main function, so the main function is located exactly on module entry
point. May be it is the same on other platforms. So consider the following
sequence:
- set a breakpoint on main and stop there;
- try to evaluate expression, which requires a code execution on the debuggee
side. Such an execution always returns to the module entry, and the plan waits
for it there;
- the plan understands that it is complete now and removes its breakpoint. But
the breakpoint site is still there, because we also have a breakpoint on
entry;
- StopInfo analyzes a situation. It sees that we have stopped on the breakpoint
site, and it sees that the breakpoint site has owners, and no one logical
breakpoint is internal (because the plan is already completed and it have
removed its breakpoint);
- StopInfo thinks that it's a user breakpoint and skips it to avoid recursive
computations;
- the program continues.
So in this situation the program continues without a stop right after
the expression evaluation. To avoid this an additional check that
the plan was completed was added.
Reviewers: jingham, zturner, boris.ulasevich
Reviewed by: jingham
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D53761
llvm-svn: 347974
Summary:
This patch contains several small fixes, which makes it possible to evaluate
expressions on Windows using information from PDB. The changes are:
- several sanitize checks;
- make IRExecutionUnit::MemoryManager::getSymbolAddress to not return a magic
value on a failure, because callers wait 0 in this case;
- entry point required to be a file address, not RVA, in the ObjectFilePECOFF;
- do not crash on a debuggee second chance exception - it may be an expression
evaluation crash;
- create parameter declarations for functions in AST to make it possible to call
debugee functions from expressions;
- relax name searching rules for variables, functions, namespaces and types. Now
it works just like in the DWARF plugin;
- fix endless recursion in SymbolFilePDB::ParseCompileUnitFunctionForPDBFunc.
Reviewers: zturner, asmith, stella.stamenova
Reviewed By: stella.stamenova, asmith
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D53759
llvm-svn: 347962
Summary:
This patch adds possibility of searching a public symbol with name and type in
a symbol file, not only in a symtab. It is helpful when working with PE, because
PE's symtabs contain only imported / exported symbols only. Such a search is
required for e.g. evaluation of an expression that calls some function of
the debuggee.
Reviewers: zturner, asmith, labath, clayborg, espindola
Reviewed By: clayborg
Subscribers: davide, emaste, arichardson, aleksandr.urakov, jingham,
lldb-commits, stella.stamenova
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D53368
llvm-svn: 347960
Apparently LLVM's libSupport depends on libDemangle to print the stack
trace. I'm not sure if this is desired but for now we don't have much
choice if we want to turn to bot green again.
llvm-svn: 347952
This fixes the driver with the Xcode project. We need to link the driver
against the correct LLVM libraries and make sure we're disabling
exceptions/rtti.
Thanks to Jim for helping me figure this out.
llvm-svn: 347936
Earlier this month there was a change in clang that defaulted to using codeview rather than dwarf on Windows. Since all the tests rely on dwarf, we need to explicitly request dwarf when building on Windows.
llvm-svn: 347924
A skeleton compilation unit may contain the DW_AT_str_offsets_base attribute
that points to the first string offset of the CU contribution to the
.debug_str_offsets. At the same time, when we use split dwarf,
the corresponding split debug unit also
may use DW_FORM_strx* forms pointing to its own .debug_str_offsets.dwo.
In that case, DWO does not contain DW_AT_str_offsets_base, but LLDB
still need to know and skip the .debug_str_offsets.dwo section header to
access the offsets.
The patch implements the support of DW_AT_str_offsets_base.
Differential revision: https://reviews.llvm.org/D54844
llvm-svn: 347859
The changed order of includes caused compile errors on MSVC due to
snprintf macro definition. snprintf should available since VS2015, and
the rest of the code seems to be able to use snprintf just fine without
this macro, so this removes it from the lldb driver as well.
llvm-svn: 347855
They are not needed now that we use LLVMOption for command-line parsing
thank you, Jonas). This also allows us to avoid linking of lldbHost
into the driver which was breaking liblldb encapsulation.
(Technically, there is still a lldb/Host/windows/windows.h include which
is needed on windows, but this is a header-only wrapper for <windows.h>,
so it is not necessary to link lldbHost for that. But ideally, that
should go away too.)
llvm-svn: 347846
The issue happens because starting from DWARF v5
DW_AT_addr_base attribute should be used
instead of DW_AT_GNU_addr_base. LLDB does not do that and
we end up reading the .debug_addr header as section content
(as addresses) instead of skipping it and reading the real addresses.
Then LLDB is unable to match 2 similar locations and
thinks they are different.
Differential revision: https://reviews.llvm.org/D54751
llvm-svn: 347842
Because the optarg variable was shadowed we didn't notice we weren't
extracting the value from the option. This patch fixes that and renames
the variable to prevent this from happening in the future.
I also added two tests to check the error output for --core and --file
when the given value doesn't exist.
llvm-svn: 347821
This adds new APIs and a command to deal with exceptions (mostly Obj-C exceptions): SBThread and Thread get GetCurrentException API, which returns an SBValue/ValueObjectSP with the current exception for a thread. "Current" means an exception that is currently being thrown, caught or otherwise processed. In this patch, we only know about the exception when in objc_exception_throw, but subsequent patches will expand this (and add GetCurrentExceptionBacktrace, which will return an SBThread/ThreadSP containing a historical thread backtrace retrieved from the exception object. Currently unimplemented, subsequent patches will implement this).
Extracting the exception from objc_exception_throw is implemented by adding a frame recognizer.
This also add a new sub-command "thread exception", which prints the current exception.
Differential Revision: https://reviews.llvm.org/D43886
llvm-svn: 347813
Two of the file system tests are failing on Windows - this updates them to expect the correct values after the refactor of the file system code.
llvm-svn: 347796
A couple of new tests have been added that use existing class names. This causes failures on Windows if the tests run at the same time and on any platform it results in the logs being overwritten.
llvm-svn: 347717
When I landed the initial reproducer framework I knew there were some
things that needed improvement. Rather than bundling it with a patch
that adds more functionality I split it off into this patch. I also
think the API is stable enough to add unit testing, which is included in
this patch as well.
Other improvements include:
- Refactor how we initialize the loader and generator.
- Improve naming consistency: capture and replay seems the least ambiguous.
- Index providers by name and make sure there's only one of each.
- Add convenience methods for creating and accessing providers.
Differential revision: https://reviews.llvm.org/D54616
llvm-svn: 347716
On Windows, when using the VFS without going through FileSpec, the
absolute path to `/foo` is `\\foo`. This updates the unittest to expect
that.
llvm-svn: 347712
This patch modifies the lldb driver to use libOption for option parsing.
It allows us to decouple option parsing from option processing which is
important when arguments affect initialization. This was previously not
possible because the debugger need to be initialized as some option
interpretation (like the scripting language etc) was handled by the
debugger, rather than in the driver.
Differential revision: https://reviews.llvm.org/D54692
llvm-svn: 347709
When trying to fix the bots we expected that the cast would be needed in
different places. Ultimately it turned out only the
SymbolFileDWARFDebugMap was affected so, as Pavel correctly notes, it
makes more sense to do the cast just there instead of in teh FS.
llvm-svn: 347660
Summary:
This change adds eLanguageTypeDylan to the set of languages supported
by ClangASTContext. Debug info generated by the Open Dylan compiler's
LLVM back-end was designed to be compatible with C debug info.
Patch by Peter Housel.
Reviewers: clayborg
Reviewed By: clayborg
Subscribers: brucem, lldb-commits, aprantl
Differential Revision: https://reviews.llvm.org/D54886
llvm-svn: 347637
After a recent change in LLVM the TimePoint encoding become more
precise, exceeding the precision of the TimePoint obtained from the
DebugMap. This patch adds a flag to the GetModificationTime helper in
the FileSystem to return the modification time with less precision.
Thanks to Davide for bisecting this failure on the LLDB bots.
llvm-svn: 347615
Summary: SetMustBuildLookupTable() must always be called on a primary context.
Reviewers: labath, shafik, a.sidorin
Subscribers: rnkovacs, dkrupp, Szelethus, gamesh411
Differential Revision: https://reviews.llvm.org/D54863
llvm-svn: 347575
Summary: Right now only some platforms add pthread to the compilation, however, at least one of the tests requires the pthread library on Linux as well. Since the library is available, this change adds it by default on Linux.
Reviewers: labath, zturner, asmith
Subscribers: stella.stamenova, jfb, lldb-commits
Differential Revision: https://reviews.llvm.org/D54808
llvm-svn: 347412
If we just invoke clang-cl without specifying the linker, the tests fail on Windows because they cannot find the correct linker to use, so it needs to be specified explicitly
llvm-svn: 347323
Summary:
Use llvm_codesign to sign debugserver with entitlements.
Set global LLVM_CODESIGNING_IDENTITY from LLDB_CODESIGN_IDENTITY (if given).
Pass through ENTITLEMENTS from add_lldb_executable to add_llvm_executable.
Handle reconfigurations correctly.
We have a lot of cases, make them explicit:
(1) build and sign debugserver, if all conditions apply:
* LLDB_NO_DEBUGSERVER=OFF (default)
* On Darwin: LLDB_USE_SYSTEM_DEBUGSERVER=OFF (default)
* On Darwin: LLVM_CODESIGNING_IDENTITY == lldb_codesign
(2) use system debugserver, if on Darwin and any of:
* LLDB_USE_SYSTEM_DEBUGSERVER=ON and found on system (explicit case)
* LLVM_CODESIGNING_IDENTITY != lldb_codesign and found on system (fallback case)
(3) debugserver will not be available, in case of:
* LLDB_NO_DEBUGSERVER=ON
* On Darwin: LLVM_CODESIGNING_IDENTITY != lldb_codesign and not found on system
(4) error state, in case of:
* LLDB_USE_SYSTEM_DEBUGSERVER=ON and not found on system
* LLDB_USE_SYSTEM_DEBUGSERVER=ON and LLDB_NO_DEBUGSERVER=ON
Reviewers: xiaobai, beanz, vsk, JDevlieghere
Subscribers: mgorny, lldb-commits, llvm-commits
Differential Revision: https://reviews.llvm.org/D54476
llvm-svn: 347305
Otherwise, the clang analyzer tests fail on Windows when attempting to
unpickle AnalyzerTest objects in the worker processes. The pattern of,
add to path, import, remove from path, serialize, deserialize, doesn't
work. Once something gets added to the path, if we want to move it
across the wire for multiprocessing, we need to keep the module on
sys.path.
llvm-svn: 347254
Summary: In order to invoke sed on Windows, we need to quote the command correctly. Since we already have commands which do that, move the definitions at the beginning of the file and then re-use them for each command.
Reviewers: aprantl, zturner
Subscribers: teemperor, lldb-commits
Differential Revision: https://reviews.llvm.org/D54709
llvm-svn: 347243
Recently I tried to port LLDB's lit configuration files over to use a
on the surface, but broke some cases that weren't broken before and also
exposed some additional problems with the old approach that we were just
getting lucky with.
When we set up a lit environment, the goal is to make it as hermetic as
possible. We should not be relying on PATH and enabling the use of
arbitrary shell commands. Instead, only whitelisted commands should be
allowed. These are, generally speaking, the lit builtins such as echo,
cd, etc, as well as anything for which substitutions have been
explicitly set up for. These substitutions should map to the build
output directory, but in some cases it's useful to be able to override
this (for example to point to an installed tools directory).
This is, of course, how it's supposed to work. What was actually
happening is that we were bringing in PATH and LD_LIBRARY_PATH and then
just running the given run line as a shell command. This led to problems
such as finding the wrong version of clang-cl on PATH since it wasn't
even a substitution, and flakiness / non-determinism since the
environment the tests were running in would change per-machine. On the
other hand, it also made other things possible. For example, we had some
tests that were explicitly running cl.exe and link.exe instead of
clang-cl and lld-link and the only reason it worked at all is because it
was finding them on PATH. Unfortunately we can't entirely get rid of
these tests, because they support a few things in debug info that
clang-cl and lld-link don't (notably, the LF_UDT_MOD_SRC_LINE record
which makes some of the tests fail.
The high level changes introduced in this patch are:
1. Removal of functionality - The lit test suite no longer respects
LLDB_TEST_C_COMPILER and LLDB_TEST_CXX_COMPILER. This means there is no
more support for gcc, but nobody was using this anyway (note: The
functionality is still there for the dotest suite, just not the lit test
suite). There is no longer a single substitution %cxx and %cc which maps
to <arbitrary-compiler>, you now explicitly specify the compiler with a
substitution like %clang or %clangxx or %clang_cl. We can revisit this
in the future when someone needs gcc.
2. Introduction of the LLDB_LIT_TOOLS_DIR directory. This does in spirit
what LLDB_TEST_C_COMPILER and LLDB_TEST_CXX_COMPILER used to do, but now
more friendly. If this is not specified, all tools are expected to be
the just-built tools. If it is specified, the tools which are not
themselves being tested but are being used to construct and run checks
(e.g. clang, FileCheck, llvm-mc, etc) will be searched for in this
directory first, then the build output directory.
3. Changes to core llvm lit files. The use_lld() and use_clang()
functions were introduced long ago in anticipation of using them in
lldb, but since they were never actually used anywhere but their
respective problems, there were some issues to be resolved regarding
generality and ability to use them outside their project.
4. Changes to .test files - These are all just replacing things like
clang-cl with %clang_cl and %cxx with %clangxx, etc.
5. Changes to lit.cfg.py - Previously we would load up some system
environment variables and then add some new things to them. Then do a
bunch of work building out our own substitutions. First, we delete the
system environment variable code, making the environment hermetic. Then,
we refactor the substitution logic into two separate helper functions,
one which sets up substitutions for the tools we want to test (which
must come from the build output directory), and another which sets up
substitutions for support tools (like compilers, etc).
6. New substitutions for MSVC -- Previously we relied on location of
MSVC by bringing in the entire parent's PATH and letting
subprocess.Popen just run the command line. Now we set up real
substitutions that should have the same effect. We use PATH to find
them, and then look for INCLUDE and LIB to construct a substitution
command line with appropriate /I and /LIBPATH: arguments. The nice thing
about this is that it opens the door to having separate %msvc-cl32 and
%msvc-cl64 substitutions, rather than only requiring the user to run
vcvars first. Because we can deduce the path to 32-bit libraries from
64-bit library directories, and vice versa. Without these substitutions
this would have been impossible.
Differential Revision: https://reviews.llvm.org/D54567
llvm-svn: 347216
Jonas Devlieghere