This makes -mode=compile support multiple inputs (and hence
multiple outputs).
It also makes the value of -arch for compiling inferiors default
to the architecture that LLDB is built in. This can still be
overridden however.
Differential Revision: https://reviews.llvm.org/D55230
llvm-svn: 348305
As Pavel noted on the mailing list we should only create the bottom-most
directory if it doesn't exist. This should also fix the test case on
Windows as we can use lit's temp directory.
llvm-svn: 348289
This patch changes the way the reproducer is initialized. Rather than
making changes at run time we now do everything at initialization time.
To make this happen we had to introduce initializer options and their SB
variant. This allows us to tell the initializer that we're running in
reproducer capture/replay mode.
Because of this change we also had to alter our testing strategy. We
cannot reinitialize LLDB when using the dotest infrastructure. Instead
we use lit and invoke two instances of the driver.
Another consequence is that we can no longer enable capture or replay
through commands. This was bound to go away form the beginning, but I
had something in mind where you could enable/disable specific providers.
However this seems like it adds very little value right now so the
corresponding commands were removed.
Finally this change also means you now have to control this through the
driver, for which I replaced --reproducer with --capture and --replay to
differentiate between the two modes.
Differential revision: https://reviews.llvm.org/D55038
llvm-svn: 348152
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. Also fix detection of "crushed" threads in tests;
- 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: 348136
This adds a script called build.py as well as a lit substitution
called %build that we can use to invoke it. The idea is that
this allows a lit test to build test inferiors without having
to worry about architecture / platform specific differences,
command line syntax, finding / configurationg a proper toolchain,
and other issues. They can simply write something like:
%build --arch=32 -o %t.exe %p/Inputs/foo.cpp
and it will just work. This paves the way for being able to
run lit tests with multiple configurations, platforms, and
compilers with a single test.
Differential Revision: https://reviews.llvm.org/D54914
llvm-svn: 348058
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 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
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 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 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
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
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
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
Because of different shell quoting rules, and the fact that LLDB
commands often contain spaces, -O is not portable for writing command
lines. Instead, we should use explicit lldbinit files.
Differential Revision: https://reviews.llvm.org/D54680
llvm-svn: 347213
Those tests were using pexpect and being flaky on some of ours bots.
This patch reimplmeents the tests usinf FileCheck, and it also
extends the test coverage to a few more stop-hook options.
llvm-svn: 347109
This saves about 3 redundant gigabytes from the Objective-C test build
directories. Tests that must do unsavory things with the LLDB clang
module cache, already specify a per-test module cache in their .py
test instructions.
<rdar://problem/36002081>
Differential Revision: https://reviews.llvm.org/D54602
llvm-svn: 347057
Just to be safe, up until now each test used its own Clang module
cache directory. Since the compiler within one testsuite doesn't
change it is just as safe to share a clang module directory inside the
LLDB test build directory. This saves us from compiling tens of
gigabytes of redundant Darwin and Foundation .pcm files and also
speeds up running the test suite quite significantly.
rdar://problem/36002081
Differential Revision: https://reviews.llvm.org/D54601
llvm-svn: 347056
Test cases were updated to not use the local compilation dir which
is different between development pc and build bots.
Original commit message:
[LLDB] - Support the single file split DWARF.
DWARF5 spec describes a single file split dwarf case
(when .dwo sections are in the .o files).
Problem is that LLDB does not work correctly in that case.
The issue is that, for example, both .debug_info and .debug_info.dwo
has the same type: eSectionTypeDWARFDebugInfo. And when code searches
section by type it might find the regular debug section
and not the .dwo one.
The patch fixes that. With it, LLDB is able to work with
output compiled with -gsplit-dwarf=single flag correctly.
Differential revision: https://reviews.llvm.org/D52403
llvm-svn: 346855
Summary:
While parsing a childless compile unit DIE we could crash if the DIE was
followed by any extra data (such as a superfluous end-of-children
marker). This happened because the break-on-depth=0 check was performed
only when parsing the null DIE, which was not correct because with a
childless root DIE, we could reach the end of the unit without ever
encountering the null DIE.
If the compile unit contribution ended directly after the CU DIE,
everything would be fine as we would terminate parsing due to reaching
EOF. However, if the contribution contained extra data (perhaps a
superfluous end-of-children marker), we would crash because we would
treat that data as the begging of another compile unit.
This fixes the crash by moving the depth=0 check to a more generic
place, and also adds a regression test.
Reviewers: clayborg, jankratochvil, JDevlieghere
Subscribers: lldb-commits
Differential Revision: https://reviews.llvm.org/D54417
llvm-svn: 346849
DWARF5 spec describes a single file split dwarf case
(when .dwo sections are in the .o files).
Problem is that LLDB does not work correctly in that case.
The issue is that, for example, both .debug_info and .debug_info.dwo
has the same type: eSectionTypeDWARFDebugInfo. And when code searches
section by type it might find the regular debug section
and not the .dwo one.
The patch fixes that. With it, LLDB is able to work with
output compiled with -gsplit-dwarf=single flag correctly.
Differential revision: https://reviews.llvm.org/D52296
llvm-svn: 346848
LC_BUILD_VERSION records are of variable length. The original code
would use uninitialized memory when the size of a record was exactly 24.
rdar://problem/46032185
llvm-svn: 346812
clang-cl does not emit these, but MSVC does, so we need to be able to
handle them.
Because clang-cl does not generate them, it was a bit hard to write a
test. So what I had to do was get an PDB file with some S_CONSTANT
records in using cl and link, dump it using llvm-pdbutil dump -globals
-sym-data to get the bytes of the records, generate the same object file
using clang-cl but with -S to emit an assembly file, and replace all the
S_LDATA32 records with the bytes of the S_CONSTANT records. This way, we
can compile the file using llvm-mc and link it with lld-link.
Differential Revision: https://reviews.llvm.org/D54452
llvm-svn: 346787
In a previous patch, we pre-processed the TPI stream in order to build
the reverse mapping from nested type -> parent type so that we could
accurately reconstruct a DeclContext hierarchy.
However, there were some issues. An LF_NESTTYPE record is really just a
typedef, so although it happens to be used to indicate the name of the
nested type and referring to the global record which defines the type,
it is also used for every other kind of nested typedef. When we rebuild
the DeclContext hierarchy, we want it to be as accurate as possible,
which means that if we have something like:
struct A {
struct B {};
using C = B;
};
We don't want to create two CXXRecordDecls in the AST each with the
exact same definition. We just want to create one for B and then
define C as an alias to B. Previously, however, it would not be able
to distinguish between the two cases and it would treat A::B and
A::C as being two classes each with separate definitions. We address
the first half of improving the pre-processing logic so that only
actual definitions are treated this way.
Later, in a followup patch, we can handle the case of nested
typedefs since we're already going to be enumerating the field list
anyway and this patch introduces the general framework for
distinguishing between the two cases.
Differential Revision: https://reviews.llvm.org/D54357
llvm-svn: 346786
This patch processes the case of retrieving a virtual base when the object is
already read from the debuggee memory.
To achieve that ValueObject::GetCPPVTableAddress was removed and was
reimplemented in ClangASTContext (because access to the process is needed to
retrieve the VTable pointer in general, and because this is the only place that
used old version of ValueObject::GetCPPVTableAddress).
This patch allows to use real object's VTable instead of searching virtual bases
by offsets restored by MicrosoftRecordLayoutBuilder. PDB has no enough info to
restore VBase offsets properly, so we have to read real VTable instead.
Differential revision: https://reviews.llvm.org/D53506
llvm-svn: 346669
This patch removes the comments grouping header includes. They were
added after running IWYU over the LLDB codebase. However they add little
value, are often outdates and burdensome to maintain.
llvm-svn: 346626
This was originally submitted in a patch which fixed two unrelated
bugs at the same time. This portion of the fix was reverted because
it broke several other things. However, the fix employed originally
was totally wrong, and attempted to change something in the ValueObject
printer when actually the bug was in the NativePDB plugin. We need
to mark forward enum decls as having external storage, otherwise
we won't be asked to complete them when the time comes. This patch
implements the proper fix, and updates tests accordingly.
llvm-svn: 346517
Bitfields are represented as LF_MEMBER records whose TypeIndex
points to an LF_BITFIELD record that describes the bit width,
bit offset, and underlying type of the bitfield. All we need to
do is resolve these when resolving record types.
llvm-svn: 346511
The original commit was actually 2 unrelated bug fixes, but it turns
out the second bug fix wasn't quite correct, so the entire patch was
reverted. Resubmitting this half of the patch by itself, then will
follow up with a new patch which fixes the rest of the issue in a
more appropriate way.
llvm-svn: 346505
A previous commit fixed an issue with our AST generation where
we were outputting enum decls incorrectly. But we forgot to
update the test output. This patch updates the test output
accordingly.
llvm-svn: 346459
There are two bugs here. The first is that MSVC and clang-cl
emit their bss section under the name '.data' instead of '.bss'
but with the size and file offset set to 0. ObjectFilePECOFF
didn't handle this, and would only recognize a section as bss
if it was actually called '.bss'. The effect of this is that
if we tried to print the value of a variable that lived in BSS
we would fail.
The second bug is that ValueObjectVariable was only returning
the forward type, which is insufficient to print the value of an
enum. So we bump this up to the layout type.
Differential Revision: https://reviews.llvm.org/D54241
llvm-svn: 346430
In order to accurately put a type into the correct location in the AST
we construct from debug info, we need to be able to determine what
DeclContext (namespace, global, nested class, etc) that it goes into.
PDB doesn't contain this mapping. It does, however, contain the reverse
mapping. That is, for a given class type T, you can determine all
classes Q1, Q2, ..., Qn that are nested inside of T. We need to know,
for a given class type Q, what type T is it nested inside of.
This patch builds this map as a pre-processing step when we first
load the PDB by scanning every type. Initial tests show that while
this can be slow in debug builds of LLDB, it is quite fast in release
builds (less than 2 seconds for a ~1GB PDB, and it only needs to happen
once).
Furthermore, having this pre-processing step in place allows us to
repurpose it for building up other kinds of indexing to it down the
line. For the time being, this gives us very accurate reconstruction
of the DeclContext hierarchy.
Differential Revision: https://reviews.llvm.org/D54216
llvm-svn: 346429
This patch introduces the simple MSVCUndecoratedNameParser. It is needed for
parsing names of PDB symbols corresponding to template instantiations. For
example, for the name `operator<<A>'::`2'::B::operator> we can't just split the
name with :: (as it is implemented for now) to retrieve its scopes. This parser
processes such names in a more correct way.
Differential Revision: https://reviews.llvm.org/D52461
llvm-svn: 346213
For the lldb unit test suite, we forgot to add the mapping from
site config to main config, so when it found the main config in
the source tree, it wasn't going and loading the configured version
in the build tree first, so the required properties weren't getting
set up properly.
llvm-svn: 346057
I'm not sure why this has to be CMAKE_CURRENT_SOURCE_DIR, but
it causes all kinds of strange cmake generation errors when it's
the binary dir.
llvm-svn: 346035
A year or so ago, I re-wrote most of the lit infrastructure in LLVM so
that it wasn't so boilerplate-y. I added lots of common helper type
stuff, simplifed usage patterns, and made the code more elegant and
maintainable.
We migrated to this in LLVM, clang, and lld's lit files, but not in
LLDBs. This started to bite me recently, as the 4 most recent times I
tried to run the lit test suite in LLDB on a fresh checkout the first
thing that would happen is that python would just start crashing with
unhelpful backtraces and I would have to spend time investigating.
You can reproduce this today by doing a fresh cmake generation, doing
ninja lldb and then python bin/llvm-lit.py -sv ~/lldb/lit/SymbolFile at
which point you'll get a segfault that tells you nothing about what your
problem is.
I started trying to fix the issues with bandaids, but it became clear
that the proper solution was to just bring in the work I did in the rest
of the projects. The side benefit of this is that the lit configuration
files become much cleaner and more understandable as a result.
Differential Revision: https://reviews.llvm.org/D54009
llvm-svn: 346008
Summary:
This patch fixes the NativePDB tests to make them work from x86 command line too
Reviewers: zturner, stella.stamenova
Subscribers: aleksandr.urakov, teemperor, lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D54031
llvm-svn: 345974
This adds support for DW_RLE_base_addressx, DW_RLE_startx_endx,
DW_RLE_startx_length, DW_FORM_rnglistx.
Differential revision: https://reviews.llvm.org/D53929
llvm-svn: 345958
This adds basic support for getting function signature types
into LLDB's type system, including into clang's AST. There are
a few edge cases which are not correctly handled, mostly dealing
with nested classes, but this isn't specific to functions and
apply equally to variable types. Note that no attempt has been
made yet to deal with member function types, which will happen
in subsequent patches.
Differential Revision: https://reviews.llvm.org/D53951
llvm-svn: 345848
Summary:
This patch adds a basic implementation of `DoAllocateMemory` and
`DoDeallocateMemory` for Windows processes. For now it considers only the
executable permission (and always allows reads and writes).
Reviewers: zturner, asmith, stella.stamenova, labath, clayborg
Reviewed By: zturner
Subscribers: Hui, vsk, jingham, aleksandr.urakov, clayborg, abidh, teemperor, lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D52618
llvm-svn: 345815
This adds the support for DW_FORM_addrx, DW_FORM_addrx1,
DW_FORM_addrx2, DW_FORM_addrx3, DW_FORM_addrx4 forms.
Differential revision: https://reviews.llvm.org/D53813
llvm-svn: 345706
Previous patches added support for dumping global variables of
primitive types, so we now do the same for class types.
For the most part, everything just worked, there was only one
minor bug needing fixed, which was that for variables of modified
types (e.g. const, volatile, etc) we can't resolve the forward
decl in CreateAndCacheType because the PdbSymUid must point to the
LF_MODIFIER which must point to the forward decl. So when it comes
time to call CompleteType, an assert was firing because we expected
to get a class, struct, union, or enum, but we were getting an
LF_MODIFIER instead.
The other issue is that one the newly added tests is for an array
member, which was not yet supported, so we add support for that
now in this patch.
There's probably room for other interesting layout test cases
here, but this at least should test the basics.
Differential Revision: https://reviews.llvm.org/D53822
llvm-svn: 345629
Summary:
This allows creating pending breakpoint automatically when a location is not found.
This is used by some front-ends instead of doing "-break-insert -f" every time.
See also https://sourceware.org/gdb/onlinedocs/gdb/Set-Breaks.html
Signed-off-by: Marc-Andre Laperle <malaperle@gmail.com>
Subscribers: MaskRay, llvm-commits, lldb-commits, ki.stfu
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D52953
llvm-svn: 345563
I committed this test without updating the old `settings export` to
settings write. Since the functionality was renamed I also renamed the
test case.
llvm-svn: 345435
LLDB has the ability to display global variables, even without a running
process, via the target variable command. This is because global
variables are linker initialized, so their values are embedded directly
into the executables. This gives us great power for testing native PDB
functionality in a cross-platform manner, because we don't actually need
a running process. We can just create a target using an EXE file, and
display global variables. And global variables can have arbitrarily
complex types, so in theory we can fully exercise the type system,
record layout, and data formatters for native PDB files and PE/COFF
executables on any host platform, as long as our type does not require a
dynamic initializer.
This patch adds basic support for finding variables by name, and adds an
exhaustive test for fundamental data types and pointers / references to
fundamental data types.
Subsequent patches will extend this to typedefs, classes, pointers to
functions, and other cases.
Differential Revision: https://reviews.llvm.org/D53731
llvm-svn: 345373
For the reproducer feature I need to be able to export and import the
current LLDB configuration. To realize this I've extended the existing
functionality to print settings. With the help of a new formatting
option, we can now write the settings and their values to a file
structured as regular commands.
Concretely the functionality works as follows:
(lldb) settings export -f /path/to/file
This file contains a bunch of settings set commands, followed by the
setting's name and value.
...
settings set use-external-editor false
settings set use-color true
settings set auto-one-line-summaries true
settings set auto-indent true
...
You can import the settings again by either sourcing the file or using
the settings read command.
(lldb) settings read -f /path/to/file
Differential revision: https://reviews.llvm.org/D52651
llvm-svn: 345346
With the fix: do not forget to hanlde the DW_RLE_start_end, which seems was
omited/forgotten/removed by mistake.
Original commit message:
The patch implements the support for DW_RLE_base_address and DW_RLE_offset_pair
.debug_rnglists entries
Differential revision: https://reviews.llvm.org/D53140
----
Added : /lldb/trunk/lit/Breakpoint/Inputs/debug_rnglist_offset_pair.yaml
Added : /lldb/trunk/lit/Breakpoint/debug_rnglist_offset_pair.test
Modified : /lldb/trunk/source/Plugins/SymbolFile/DWARF/DWARFDebugInfoEntry.cpp
Modified : /lldb/trunk/source/Plugins/SymbolFile/DWARF/DWARFDebugRanges.cpp
Modified : /lldb/trunk/source/Plugins/SymbolFile/DWARF/DWARFDebugRanges.h
Modified : /lldb/trunk/source/Plugins/SymbolFile/DWARF/SymbolFileDWARF.cpp
Modified : /lldb/trunk/source/Plugins/SymbolFile/DWARF/SymbolFileDWARF.h
llvm-svn: 345251
The -force option allows you to pass an empty value to settings set to
reset the value to its default. This means that the following operations
are equivalent:
settings set -f <setting>
settings clear <setting>
The motivation for this change is the ability to export and import
settings from LLDB. Because of the way the dumpers work, we don't know
whether a value is going to be the default or not. Hence we cannot use
settings clear and use settings set -f, potentially providing an empty
value.
Differential revision: https://reviews.llvm.org/D52772
llvm-svn: 345207
The patch implements the support for DW_RLE_base_address and DW_RLE_offset_pair
.debug_rnglists entries
Differential revision: https://reviews.llvm.org/D53140
llvm-svn: 345127
This adds support to LLDB for named types (class, struct, union, and
enum). This is true cross platform support, and hits the PDB file
directly without a dependency on Windows. Tests are added which
compile a program with certain interesting types and then use
load the target in LLDB and use "type lookup -- <TypeName>" to
dump the layout of the type in LLDB without a running process.
Currently only fields are parsed -- we do not parse methods. Also
we don't deal with bitfields or virtual bases correctly. Those
will make good followups.
Differential Revision: https://reviews.llvm.org/D53511
llvm-svn: 345047
DWARF5 describes DW_RLE_start_end as:
This is a form of bounded range entry that has two target address operands.
Each operand is the same size as used in DW_FORM_addr. These indicate
the starting and ending addresses, respectively, that define the address range
for which the following location is valid.
The patch implements the support.
Differential revision: https://reviews.llvm.org/D53193
llvm-svn: 344674
This adds -- before any filenames, so that /U doesn't get interpreted
as a command line.
It also adds better error checking, so that we don't get assertions
on the failure path when a file fails to parse as a PDB.
llvm-svn: 344429
This was originally reverted due to some test failures on
Linux. Those problems turned out to require several additional
patches to lld and clang in order to fix, which have since been
submitted. This patch is resubmitted unchanged. All tests now
pass on both Linux and Windows.
llvm-svn: 344409
LLDB does not support this DWARF5 form atm.
At least gcc emits it in some cases when doing optimization
for abbreviations.
As far I can tell, clang does not support it yet, though
the rest LLVM code already knows about it.
The patch adds the support.
Differential revision: https://reviews.llvm.org/D52689
llvm-svn: 344328
This was originally causing some test failures on non-Windows
platforms, which required fixes in the compiler and linker. After
those fixes, however, other tests started failing. Reverting
temporarily until I can address everything.
llvm-svn: 344279
While it doesn't make a *ton* of sense for POSIX paths to be
in PDBs, it's possible to occur in real scenarios involving
cross compilation.
The tools need to be able to handle this, because certain types
of debugging scenarios are possible without a running process
and so don't necessarily require you to be on a Windows system.
These include post-mortem debugging and binary forensics (e.g.
using a debugger to disassemble functions and examine symbols
without running the process).
There's changes in clang, LLD, and lldb in this patch. After
this the cross-platform disassembly and source-list tests pass
on Linux.
Furthermore, the behavior of LLD can now be summarized by a much
simpler rule than before: Unless you specify /pdbsourcepath and
/pdbaltpath, the PDB ends up with paths that are valid within
the context of the machine that the link is performed on.
Differential Revision: https://reviews.llvm.org/D53149
llvm-svn: 344269
LC_BUILD_VERSION load command handling - this
commit is a combination of patches by Adrian
Prantl and myself. llvm::Triple::BridgeOS
isn't defined yet, so all references to that
are currently commented out.
Also update Xcode project file to build the
NativePDB etc plugins.
<rdar://problem/43353615>
llvm-svn: 344209
The existing SymbolFilePDB only works on Windows, as it is written
against a closed-source Microsoft SDK that ships with their debugging
tools.
There are several reasons we want to bypass this and go straight to the
bits of the PDB, but just to list a few:
More room for optimization. We can't see inside the implementation of
the Microsoft SDK, so we don't always know if we're doing things in the
most efficient way possible. For example, setting a breakpoint on main
of a big program currently takes several seconds. With the
implementation here, the time is unnoticeable.
We want to be able to symbolize Windows minidumps even if not on
Windows. Someone should be able to debug Windows minidumps as if they
were on Windows, given that no running process is necessary.
This patch is a very crude first attempt at filling out some of the
basic pieces.
I've implemented FindFunctions, ParseCompileUnitLineTable, and
ResolveSymbolContext for a limited subset of possible parameter values,
which is just enough to get it to display something nice for the
breakpoint location.
I've added several tests exercising this functionality which are limited
enough to work on all platforms but still exercise this functionality.
I'll try to add as many tests of this nature as I can, but at some
point we'll need a live process.
For now, this plugin is enabled always on non-Windows, and by setting
the environment variable LLDB_USE_NATIVE_PDB_READER=1 on Windows.
Eventually, once it's at parity with the Windows implementation, we'll
delete the Windows DIA-based implementation.
Differential Revision: https://reviews.llvm.org/D53002
llvm-svn: 344154
This adds a basic support of the .debug_rnglists section.
Only the DW_RLE_start_length and DW_RLE_end_of_list entries are supported.
Differential revision: https://reviews.llvm.org/D52981
llvm-svn: 344119
Summary:
When LLDB successfully parses a command (like "expression" in this case) and determines incomplete input, the user can continue typing on multiple lines (in this case "2+3"). This should provide the correct result.
Note that LLDB reverts input from the additional lines, so they are not present in the output.
Reviewers: vsk, davide, aprantl
Subscribers: lldb-commits
Differential Revision: https://reviews.llvm.org/D52270
llvm-svn: 343860
Summary:
Add settings to control command echoing:
```
(lldb) settings set interpreter.echo-commands true
(lldb) settings set interpreter.echo-comment-commands true
```
Both settings default to true, which keeps LLDB's existing behavior in non-interactive mode (echo all command inputs to the output).
So far the only way to change this behavior was the `--source-quietly` flag, which disables all output including evaluation results.
Now `echo-commands` allows to turn off echoing for commands, while evaluation results are still printed. No effect if `--source-quietly` was present.
`echo-comment-commands` allows to turn off echoing for commands in case they are pure comment lines. No effect if `echo-commands` is false.
Note that the behavior does not change immediately! The new settings take effect only with the next command source.
LLDB lit test are the main motivation for this feature. So far incoming `#CHECK` line have always been echoed to the output and so they could never fail. Now we can disable it in lit-lldb-init.
Todos: Finish test for this feature. Add to lit-lldb-init. Check for failing lit tests.
Reviewers: aprantl, jasonmolenda, JDevlieghere
Subscribers: friss, lldb-commits
Differential Revision: https://reviews.llvm.org/D52788
llvm-svn: 343859
Currently we reject our own default disassembly-format string because it
contains two backticks which causes everything in between to be
interpreter as an expression by the command interpreter. This patch
fixes that by escaping backticks when dumping format strings.
llvm-svn: 343471
Summary:
This patch implements restoring of the calling convention from PDB.
It is necessary for expressions evaluation, if we want to call a function
of the debuggee process with a calling convention other than ccall.
Reviewers: clayborg, zturner, labath, asmith
Reviewed By: clayborg
Subscribers: teemperor, lldb-commits, stella.stamenova
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D52501
llvm-svn: 343084
Summary:
* This patch fixes hanging of the test in case of using python3, changes callback
function that will be called if the timer ends, changes python interpreter to
`%python` that is set up by llvm-lit.
* Also, the test didn't work properly since it didn't contain a call of
filecheck_proc.communicate(), that means that filecheck didn't run and its
return code was equal to 0 in all cases.
Reviewers: teemperor, labath, tatyana-krasnukha, aprantl
Reviewed By: teemperor, labath
Subscribers: ki.stfu, lldb-commits
Differential Revision: https://reviews.llvm.org/D52498
llvm-svn: 343033
Summary:
The target-select-so-path test might hang on
some platforms. The reason of that behavior
was in incorrect usage of Filecheck and lldb-mi
processes. Instead of redirecting lldb-mi's output
to Filecheck, we should run lldb-mi session,
finish the session, collect its output and then pass
it to Filecheck.
Also, this patch adds a timer to the test to prevent
it from hanging in the future.
Reviewers: tatyana-krasnukha, aprantl, teemperor
Reviewed By: tatyana-krasnukha, teemperor
Subscribers: apolyakov, aprantl, teemperor, ki.stfu, abidh, lldb-commits
Differential Revision: https://reviews.llvm.org/D52139
llvm-svn: 342915
Summary:
The test failed in case of compiling a test suite with
gcc (checked versions are 5.2.0 and 7.3.0) because it
adds one more line entry comparing to clang. It doesn't
break the test's logic, so I just added a regex that matches
this case.
Reviewers: tatyana-krasnukha, aprantl, clayborg
Reviewed By: aprantl
Subscribers: ki.stfu, lldb-commits
Differential Revision: https://reviews.llvm.org/D52101
llvm-svn: 342329
Summary:
This patch adds an implementation of retrieving of declarations and declaration
contexts based on PDB symbols.
PDB has different type symbols for const-qualified types, and this
implementation ensures that only one declaration was created for both const
and non-const types, but creates different compiler types for them.
The implementation also processes the case when there are two symbols
corresponding to a variable. It's possible e.g. for class static variables,
they has one global symbol and one symbol belonging to a class.
PDB has no info about namespaces, so this implementation parses the full symbol
name and tries to figure out if the symbol belongs to namespace or not,
and then creates nested namespaces if necessary.
Reviewers: asmith, zturner, labath
Reviewed By: asmith
Subscribers: aleksandr.urakov, teemperor, lldb-commits, stella.stamenova
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D51162
llvm-svn: 341782
Summary:
`dwarf5-index-is-used.cpp` have been failing after rL340206, because `clang`
have stopped to emit pubnames by default after that change. Current patch adds
`-gpubnames` option to the `clang` command line in the test to emit pubnames.
Reviewers: labath, dblaikie
Reviewed By: labath
Subscribers: clayborg, probinson, teemperor, lldb-commits, aprantl, JDevlieghere, abidh, stella.stamenova
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D51208
llvm-svn: 341296
presumably the or subexpression was meant to be evaluated first. The way
it is now means that we apply the workaround for any python in `/usr`,
which matches pretty much every unix system.
llvm-svn: 341167
Summary:
This patch allows to resolve a symbol context block info even if a function
info was not requested. Also it adds the correct resolving of nested blocks
(the previous implementation used function blocks instead of them).
Reviewers: zturner, asmith, labath
Reviewed By: asmith
Subscribers: lldb-commits, stella.stamenova
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D51104
llvm-svn: 340901
Summary:
LLDB currently only checks the output terminal for color support by looking
at the `TERM` environment variable and comparing it to `"dumb"`. This causes that
when running LLDB on a CI node, the syntax highlighter will not be deactivated by
LLDB and the output log is filled with color codes (unless the terminal emulator
actually exposes itself as dumb).
This patch now relies on the LLVM code for detecting color support which is more
reliable. We now also correctly actually initialize the `m_supports_colors` variable in `File`.
`m_supports_colors` was so far uninitialized, but the code path that uses `m_supports_colors`
was also dead so the sanitizers didn't sound an alarm.
The old check that compares `TERM` is not removed by this patch as the new LLVM code
doesn't seem to handle this case (and it's a good thing to check for "dumb" terminals).
Reviewers: aprantl, javed.absar
Reviewed By: aprantl
Subscribers: kristof.beyls, abidh, lldb-commits
Differential Revision: https://reviews.llvm.org/D51243
llvm-svn: 340747
Summary:
`variables.test` depends on mangled names, but the mangling depends
on the bitness. This patch specifies the bitness explicitly, so mangled names
doesn't differ when a 32-bit version of the compiler is used.
Reviewers: stella.stamenova, asmith
Reviewed By: stella.stamenova
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D51158
llvm-svn: 340597
Summary:
In this patch I've tried to combine the best ideas from D49368 and D49410,
so it implements following:
- Completion of UDTs from a PDB with a filling of a layout info;
- Pointers to members;
- Fixes the bug relating to a virtual base offset reading from `vbtable`.
The offset was treated as an unsigned, but it can be a negative sometimes.
- Support of MSInheritance attribute
Reviewers: asmith, zturner, rnk, labath, clayborg, lldb-commits
Reviewed By: zturner
Subscribers: aleksandr.urakov, stella.stamenova, JDevlieghere, lldb-commits
Differential Revision: https://reviews.llvm.org/D49980
llvm-svn: 339649
This test relies on communicating with debugserver via an unnamed (pre-opened)
pipe, but macOS's version of debugserver doesn't seem to support that mode of
operation. So disable the test for now.
llvm-svn: 339343
Double quotes are always correct in paths on windows while single quotes only work sometimes. By swapping the order of the quotes in the subsitution we guarantee that the quotes will be correct on Windows. Both sets work correctly on Linux in the test environment.
llvm-svn: 339180
Now target-select uses SB API instead of HandleCommand.
This patch has been reviewed along with the r339175.
Differential Revision: https://reviews.llvm.org/D49739
llvm-svn: 339178
This change improves the logging for the lldb.module category to note a few interesting cases:
1. Local object file found, but specs not matching
2. Local object file not found, using a placeholder module
The handling and logging for the cases wehre we fail to load compressed dwarf
symbols is also improved.
Differential Revision: https://reviews.llvm.org/D50274
llvm-svn: 339161
Summary:
The issue with the python path is that the path to python on Windows can contain spaces. To make the tests always work, the path to python needs to be surrounded by quotes.
This is a companion change to: https://reviews.llvm.org/D50206
Reviewers: asmith, zturner
Differential Revision: https://reviews.llvm.org/D50280
llvm-svn: 339076
The new test checks that we are actually able to read data from these
kinds of elf headers correctly instead of just that we read the section
number correctly. It is also easier to figure out what's going on in the
test.
llvm-svn: 337459
Summary: This one fixes variables.test after D49018. The test was broken because D49018 adds a location information to variables, but I hadn't noticed that, because I used 32-bit build to run tests, so the test looked to me already broken before that commit (the test relies on mangled names, but the mangling schemes are different for 32-bit and 64-bit).
Reviewers: stella.stamenova, lldb-commits
Reviewed By: stella.stamenova
Patch By: Aleksandr Urakov
Differential Revision: https://reviews.llvm.org/D49475
llvm-svn: 337397
Summary: Several tests exist in both lit and lldbsuite. This removes the lit version of the duplicated tests.
Reviewers: asmith, zturner
Subscribers: llvm-commits
Differential Revision: https://reviews.llvm.org/D49450
llvm-svn: 337393
llvm-lit uses `map_config` directives (generated at configuration-time) to
make it possible to pass a test path relative to the source instead of
the build folder (CMAKE_CURRENT_BINARY_DIR).
However, this doesn't work in the case of swift where the build
directory layout prevents llvm-lit from knowing about lldb and its test
paths. This caused check-lldb-unit to fail in this configuration, while
everything was working as expected upstream. This patch fixes the issue
by passing a path relative to the build directory. This was already the
case for check-lldb-lit.
llvm-svn: 337291
Wrong FileCheck header meant that we were not matching what we should.
This allows us to get rid of the -allow-deprecated-dag-overlap flag in
the test.
llvm-svn: 337188
The current version of SymbolFilePDB::ParseVariableForPDBData function
always initializes variables with an empty location. This patch adds the
converter of a location information from PDB to a DWARF expression, so
it becomes possible to watch values of variables of primitive data
types. At the moment the converter supports only Static, TLS, RegRel,
Enregistered and Constant PDB location types, but it seems that it's
enough for most cases. There are still some problems with retrieving
values of variables (e.g. we can't watch variables of composite types),
but they look not relevant to the conversion to DWARF.
Patch by: Aleksandr Urakov
Differential revision: https://reviews.llvm.org/D49018
llvm-svn: 336988
Summary:
This patch adds the possibility to specify an exit code when calling quit.
We accept any int, even though it depends on the user what happens if the int is
out of the range of what the operating system supports as exit codes.
Fixes rdar://problem/38452312
Reviewers: davide, jingham, clayborg
Reviewed By: jingham
Subscribers: clayborg, jingham, lldb-commits
Differential Revision: https://reviews.llvm.org/D48659
llvm-svn: 336824
Summary:
This patch fixes a problem with retrieving a function symbol by an address in a nested block. In the current implementation of ResolveSymbolContext function it retrieves a symbol with PDB_SymType::None and then checks if found symbol's tag equals to PDB_SymType::Function. So, if nested block's symbol was found, ResolveSymbolContext does not resolve a function.
It is very simple to reproduce this. For example, in the next program
```
int main() {
auto r = 0;
for (auto i = 1; i <= 10; i++) {
r += i & 1 + (i - 1) & 1 - 1;
}
return r;
}
```
if we will stop inside the cycle and will do a backtrace, the top element will be broken. But how we can test this? I thought to add an option to lldb-test to allow search a function by address, but the address may change when the compiler will be changed.
Patch by: Aleksandr Urakov
Reviewers: asmith, labath, zturner
Reviewed By: asmith, labath
Subscribers: stella.stamenova, llvm-commits
Differential Revision: https://reviews.llvm.org/D47939
llvm-svn: 336564
This patch removes the requirement for a semicolon as a separator when
passing arguments to lit. It relies on the shlex module that is part of
Python to do simple lexical analysis, similar to what happens in a Unix
shell.
llvm-svn: 336290
Summary:
This test makes sure we are able to read the shorter build-ids which are
generated by lld.
To make this work, I've extended lldb-test to print the UUID of the
loaded object file. I've renamed the lldb-test subcommand from
"module-sections" to "object-file" to reflect the fact it prints more
than just the sections.
I've also added the module Architecture to the output, so we could avoid
printing the entire symbol file information just to get the ArchSpec
details in the lc_version_min test (which was also the only test in it's
folder not using the module-sections command).
Reviewers: aprantl, zturner
Subscribers: lldb-commits
Differential Revision: https://reviews.llvm.org/D48646
llvm-svn: 335967
Summary:
This patch fixes a problem with retrieving a function symbol by an
address in a nested block. In the current implementation of
ResolveSymbolContext function it retrieves a symbol with
PDB_SymType::None and then checks if found symbol's tag equals to
PDB_SymType::Function. So, if nested block's symbol was found,
ResolveSymbolContext does not resolve a function.
Reviewers: asmith, labath, zturner
Reviewed By: asmith, labath
Differential Revision: https://reviews.llvm.org/D47939
Patch by Aleksandr Urakov <aleksandr.urakov@jetbrains.com>
llvm-svn: 335822
This fixes a silly bug where we were accidentally freeing the memory
used to store the decompressed .debug_names data. I had actually
considered this scenario when writing the class and put appropriate
precautions in place -- I just failed to wire it all up correctly.
This was only an issue for compressed sections because in case of
uncompressed ones we would access the data straight out of the mmapped
object file.
llvm-svn: 334717
The motivation for this is to be able to Dwarf index ability to look up
variables within a given compilation unit. It also fits in with the
patch in progress at D47939, which will add the ability to look up
funtions using file+line pairs.
The verification of which lldb-test options can be used together was
getting a bit unwieldy, so I moved the logic out into a separate
function.
llvm-svn: 334498
The getDIESectionOffset function is not correct for split dwarf files
(and will probably be removed in D48009).
This patch implements correct section offset computation for split and
non-split compile units -- we first need to check if the referenced unit
is a skeleton unit, and if it is, we add the die offset to the full unit
base offset (as the full unit is the one which contains the die).
llvm-svn: 334402
This also fixes a bug where SymbolFileDWARF was returning the same
function multiple times - this can happen if both mangled and demangled
names match the regex. Other lookup lookup functions had code to handle
this case, but it was forgotten here.
llvm-svn: 334277
Summary:
This patch implements the non-regex variant of GetFunctions. To share
more code with the Apple implementation, I've extracted the common
filtering code from that class into a utility function on the DWARFIndex
base class.
The new implementation also searching the accelerator table multiple
times -- previously it could happen that the apple table would return
the same die more than once if one specified multiple search flags in
name_type_mask. This way, I separate table iteration from filtering, and
so we can be sure each die is inserted at most once.
Reviewers: clayborg, JDevlieghere
Subscribers: aprantl, lldb-commits
Differential Revision: https://reviews.llvm.org/D47881
llvm-svn: 334273
Summary:
The patch adds support of splitted functions (when MSVC is used with PGO) and function-level linking feature.
SymbolFilePDB::ParseCompileUnitLineTable function relies on fact that ranges of compiled source files in the binary are continuous and don't intersect each other. The function creates LineSequence for each file and inserts it into LineTable, and implementation of last one relies on continuity of the sequence. But it's not always true when function-level linking enabled, e.g. in added input test file test-pdb-function-level-linking.exe there is xstring's std__basic_string_char_std__char_traits_char__std__allocator_char_____max_size (.00454820) between test-pdb-function-level-linking.cpp's foo (.00454770) and main (.004548F0).
To fix the problem this patch renews the sequence on each address gap.
Reviewers: asmith, zturner
Reviewed By: asmith
Subscribers: aleksandr.urakov, labath, mgorny, lldb-commits
Differential Revision: https://reviews.llvm.org/D47708
llvm-svn: 334260
Summary: They all correspond to bugs that are already logged and I've added the appropriate (or most appropriate) bug numbers. This leaves only a handful of failing tests.
Reviewers: asmith, zturner, labath
Reviewed By: zturner
Subscribers: eraman, llvm-commits
Differential Revision: https://reviews.llvm.org/D47892
llvm-svn: 334210
This implements just one of the GetTypes overloads. The other is not
testable from lldb-test so I'm leaving it unimplemented until I figure
out what to do with testing.
llvm-svn: 334190
Summary:
It possible that a single module has indexed and non-indexed compile
units. In this case, we can use the fast indexed lookup for the first
ones and fall back to the manual index for the others.
This patch implements this functionality by adding a units_to_avoid
argument to the ManualDWARFIndex constructor. Any units present in that
list will be ignored for the purposes of manual index. Individual
DebugNamesDWARFIndex then always consult both the manual fallback index
as well as the index in the .debug_names section.
Reviewers: JDevlieghere, clayborg
Subscribers: aprantl, lldb-commits
Differential Revision: https://reviews.llvm.org/D47832
llvm-svn: 334185
Summary:
This patch adds the ability to lookup variables to the DWARF v5 index
class.
During review we discovered an inconsistency between how the existing
two indexes handle looking up qualified names of the variables:
- manual index would return a value if the input string exactly matched
the demangled name of some variable.
- apple index ignored the context and returned any variable with the
same base name.
So, this patch also rectifies that situation:
- it removes all context handling from the index classes. The
GetGlobalVariables functions now just take a base name. For manual
index, this meant we can stop putting demangled names into the
variable index (this matches the behavior for functions).
- context extraction is put into SymbolFileDWARF, so that it is common
to all indexes.
- additional filtering based on the context is also done in
SymbolFileDWARF. This is done via a simple substring search, which is
not ideal, but it matches what we are doing for functions (cf.
Module::LookupInfo::Prune).
Reviewers: clayborg, JDevlieghere
Subscribers: aprantl, lldb-commits
Differential Revision: https://reviews.llvm.org/D47781
llvm-svn: 334181
Summary:
This patch adds the skeleton for implementing the DWARF v5 name index
class. All of the methods are stubbed out and will be implemented in
subsequent patches. The interesting part of the patch is the addition of
a "ignore-file-indexes" setting to the dwarf plugin which enables a
user to force using manual indexing path in lldb (for example as a
debugging aid). I have also added a test that verifies that file indexes
are used by default.
Reviewers: JDevlieghere, clayborg, jingham
Subscribers: mgorny, mehdi_amini, aprantl, lldb-commits
Differential Revision: https://reviews.llvm.org/D47629
llvm-svn: 334088
Skip all Python-based tests as unsupported when LLDB_DISABLE_PYTHON is
enabled. Otherwise, those tests simply fail being unable to import lldb
module.
Differential Revision: https://reviews.llvm.org/D47812
llvm-svn: 334080
Summary: This test was failing sporadically on windows because the order in which the symbols are generated was different between builds. To fix the test, we need to run FileCheck twice - once for each set of symbols we want to verify. The test only runs on Windows.
Reviewers: asmith, zturner, labath
Subscribers: stella.stamenova, llvm-commits
Differential Revision: https://reviews.llvm.org/D47746
llvm-svn: 334025
Summary:
The default name for a compiler output on Linux is `a.out`,
while on Windows it's `a.exe`. But if we add option `-o a.exe`,
the compiler will create the executable `a.exe` on the both systems.
Reviewers: aprantl, stella.stamenova
Reviewed By: stella.stamenova
Subscribers: ki.stfu, llvm-commits, lldb-commits
Differential Revision: https://reviews.llvm.org/D47679
llvm-svn: 333963
Change the syntax of the malloc and free commands in lldb-test's
ir-memory-map subcommand to:
<malloc> ::= <label> = malloc <size> <alignment>
<free> ::= free <label>
This should make it easier to read and extend tests in the future, e.g
to test IRMemoryMap::WriteMemory or double-free behavior.
Differential Revision: https://reviews.llvm.org/D47646
llvm-svn: 333930
Add OpenBSD python module in order to support unit tests.
Reviewers: labath, zturner
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D47692
llvm-svn: 333888
Summary:
When searching for methods only, we need to do extra work to make sure
the functions we get from the apple tables are indeed methods.
Previously we were resolving the DIE into a SymbolContext and then
checked whether the enclosing CompilerDeclContext is a
class (or struct, or union).
This patch changes that to operate on the debug info directly. This
should be:
- simpler
- faster
- more consistent with the ManualDWARFIndex (which does the same check,
only at indexing time).
What we lose this ways is for the language plugin to have a say in what
it considers to be a "class", but that's probably more flexibility than
we need (and if we really wanted to do that in the future, we could
implement a more direct way to consult the plugin about this).
This also fixes the find-method-local-struct test, which was failing
because we were not able to construct a CompilerDeclContext for a local
struct correctly.
As a drive-by, I rename the DWARFDIE's IsStructClassOrUnion method to
match the name on the CompilerDeclContext class.
Reviewers: clayborg, JDevlieghere
Subscribers: aprantl, lldb-commits
Differential Revision: https://reviews.llvm.org/D47470
llvm-svn: 333878
Summary: One of the tests is failing to build because it needs GS-, the second test does not correctly match all the expected function names because newer DIA SDKs annotate the function names with their return type and inputs (e.g. "static long `anonymous namespace'::StaticFunction(int)")
Reviewers: asmith, zturner
Reviewed By: zturner
Subscribers: llvm-commits
Differential Revision: https://reviews.llvm.org/D47653
llvm-svn: 333790
Summary: Skip the new break-insert test on Windows because it hangs and so the test suite never completes. All other lldb-mi tests in the test suite are also skipped on windows
Reviewers: asmith, aprantl, polyakov.alex
Reviewed By: aprantl
Subscribers: ki.stfu, llvm-commits
Differential Revision: https://reviews.llvm.org/D47651
llvm-svn: 333789
It's been pointed out in https://reviews.llvm.org/D47646 that lldb-test
fails to create a usable process on Windows when running this test.
llvm-svn: 333785
This adds a new command to the ir-memory-map tester:
free <allocation-index>
The argument to free is an index which identifies which live allocation
to free. Index 0 identifies the first live allocation in the address
space, index 1 identifies the second, etc. where the allocations are
sorted in increasing order.
For illustrative purposes, assume malloc returns monotonically
increasing addresses. Here are some examples of how free would work:
Example 1
---------
malloc 16 1
malloc 32 1
free 1 //< Free the 32-byte allocation.
free 0 //< Next, free the 16-byte allocation.
Example 2
---------
malloc 16 1
malloc 32 1
free 0 //< Free the 16-byte allocation.
free 0 //< Next, free the 32-byte allocation.
llvm-svn: 333700
r333583 introduced testing for IRMemoryMap's process-side allocations
(eAllocationPolicyProcessOnly). This adds support for the host-side
variety (eAllocationPolicyHostOnly).
llvm-svn: 333698
This prevents Malloc from allocating the same chunk of memory twice, as
a byproduct of an alignment adjustment which gave the client access to
unallocated memory.
Prior to this patch, the newly-added test failed with:
$ lldb-test ir-memory-map ... ir-memory-map-overlap1.test
...
Command: malloc(size=64, alignment=32)
Malloc: address = 0x1000cd080
Command: malloc(size=64, alignment=8)
Malloc: address = 0x1000cd0b0
Malloc error: overlapping allocation detected, previous allocation at [0x1000cd080, 0x1000cd0c0)
Differential Revision: https://reviews.llvm.org/D47551
llvm-svn: 333697
This teaches lldb-test how to launch a process, set up an IRMemoryMap,
and issue memory allocations in the target process through the map. This
makes it possible to test IRMemoryMap in a targeted way.
This has uncovered two bugs so far. The first bug is that Malloc
performs an adjustment on the pointer returned from AllocateMemory (for
alignment purposes) which ultimately allows overlapping memory regions
to be created. The second bug is that after most of the address space on
the host side is exhausted, Malloc may return the same address multiple
times. These bugs (and hopefully more!) can be uncovered and tested for
with targeted lldb-test commands.
At an even higher level, the motivation for addressing these bugs is
that they can lead to strange user-visible failures (e.g, variables
assume the wrong value during expression evaluation, or the debugger
crashes). See my third comment on this swift-lldb PR for an example:
https://github.com/apple/swift-lldb/pull/652
I hope lldb-test is the right place to add this testing harness. Setting
up a gtest-style unit test proved too cumbersome (you need to recreate
or mock way too much debugger state), as did writing end-to-end tests
(it's hard to write a test that actually hits a buggy path).
With lldb-test, it's easy to read/generate the test input and parse the
test output. I'll attach a simple "fuzz" tester which generates failing
test cases to the Phab review. Here's an example:
```
Command: malloc(size=1024, alignment=32)
Malloc: address = 0xca000
Command: malloc(size=64, alignment=16)
Malloc: address = 0xca400
Command: malloc(size=1024, alignment=16)
Malloc: address = 0xca440
Command: malloc(size=16, alignment=8)
Malloc: address = 0xca840
Command: malloc(size=2048, alignment=16)
Malloc: address = 0xcb000
Command: malloc(size=64, alignment=32)
Malloc: address = 0xca860
Command: malloc(size=1024, alignment=16)
Malloc: address = 0xca890
Malloc error: overlapping allocation detected, previous allocation at [0xca860, 0xca8a0)
```
{F6288839}
Differential Revision: https://reviews.llvm.org/D47508
llvm-svn: 333583
The lldb test suite is highly configurable. While part of this
configuration takes place at configure/build-time, a common scenario
involves running the test suite several times with different
configuration. For example, we might want to test the current lldb
against inferiors built with different compilers.
This configuration was already possible for lldb-dotest, but was lacking
for the lit counterpart. It is now possible to pass arguments to pass
arguments like this:
./bin/llvm-lit ../llvm/tools/lldb/lit/Suite/ -Ddotest-args="-foo;-bar"
llvm-svn: 333432
Summary:
We were treating subprograms and inlined subroutines differently when
building the index. The difference was in which indexes were individual
tags inserted (subprograms went to all indexes, where as inlined
subroutines only into the basename and full name indexes).
This seems like an error, because an inlined subroutine can still
represent an C++ or an ObjC method. I don't see anything in the
subprogram branch which should not apply to an inlined subroutine, so I
propose to just treat them identically. This makes searching for an
inlined method behave the same way as for the apple index.
I write an assembly-based test because I did not want to depend on
particular clang inlining behavior (and because I wanted to see how hard
would it be).
Reviewers: clayborg, JDevlieghere
Subscribers: eraman, lldb-commits
Differential Revision: https://reviews.llvm.org/D47368
llvm-svn: 333398
Now it's possible to set breakpoints before selecting a target, they
will be set to the dummy target and then copied to an each added one.
Patch by Alexander Polyakov!
Differential Revision: https://reviews.llvm.org/D46588
llvm-svn: 333205
Summary:
Implement FindGlobalVariables and ParseVariableContext methods.
Compile unit information is necessary for resolving variable context, however some PDB symbols do not have this information. For now an empty DWARFExpression is used to construct a lldb::Variable instance with the limitation that using lldb to lookup the value of a global or local variable is not available.
This commit may slow down lit/SymbolFile/PDB/compilands.test since the test includes MS specific modules that spend more time parsing variables.
Reviewers: rnk, zturner, lldb-commits
Subscribers: aprantl, JDevlieghere, llvm-commits
Differential Revision: https://reviews.llvm.org/D45224
llvm-svn: 333049
After closer examination, it turns out we mis-classify one of the
methods only if two of the structs have the same name. Since this was
meant to be a basic test, I rename one of the structs in the test so
that we have at least some coverage for the apple tables lookup.
Instead, I create an XFAILed test which specifically targets the
same-name case (and file a bug to track it).
llvm-svn: 332833
Summary:
Now that we are able to parse MachO files everywhere, we can write some
cross-platform tests for handling of apple accelerator tables. This
reruns the same lookup tests we have for manual indexes on MachO files
which will use the accelerator tables instead. This makes sure we return
the same results regardless of the method we used to access the debug
info.
The tests confirm we return the same results for looking up types,
namespaces and variables, but have found an inconsistency in the
treatment of function lookup. In the function case we mis-classify the
method "foo" declared in the local struct sbar (inside function ffbar).
We classify it as a function whereas it really is a method. Preliminary
analysis suggests this is because
DWARFASTParserClang::GetClangDeclContextForDIE returns null when given
the local "struct sbar" DIE. This causes us to get the wrong
CompilerDeclContext when we ask for the context of the inner foo, which
means CompilerDeclContext::ISStructUnionOrClass returns false.
Until this is fixed, I do not include the darwin versions of the "base"
and "method" function lookup tests.
Reviewers: JDevlieghere, clayborg
Subscribers: aprantl, ilya-biryukov, ioeric, lldb-commits
Differential Revision: https://reviews.llvm.org/D47064
llvm-svn: 332831
Summary:
Before this patch we were unable to write cross-platform MachO tests
because the parsing code did not compile on other platforms. The reason
for that was that ObjectFileMachO depended on
RegisterContextDarwin_arm(64)? (presumably for core file parsing) and
the two Register Context classes uses constants from the system headers
(KERN_SUCCESS, KERN_INVALID_ARGUMENT).
As far as I can tell, these two files don't actually interact with the
darwin kernel -- they are used only in ObjectFileMachO and MacOSX-Kernel
process plugin (even though it has "kernel" in the name, this one
communicates with it via network packets and not syscalls). For the time
being I have created OS-independent definitions of these constants and
made the register context classes use those. Long term, the error
handling in these classes should be probably changed to use more
standard mechanisms such as Status or Error classes.
This is the only change necessary (apart from build system glue) to make
ObjectFileMachO work on other platforms. To demonstrate that, I remove
REQUIRES:darwin from our (only) cross-platform mach-o test.
Reviewers: jasonmolenda, aprantl, clayborg, javed.absar
Subscribers: mgorny, lldb-commits, kristof.beyls
Differential Revision: https://reviews.llvm.org/D46934
llvm-svn: 332702
Getting the deployment target can be significant information when
rebuilding clang modules since availability information could depend
on it.
rdar://problem/40039633
Differential Revision: https://reviews.llvm.org/D46669
llvm-svn: 332067
Summary:
Before this patch the two paths were doing very different things
- the apple path searched the .apple_names section, which contained
mangled names, as well as basenames of all functions. It returned any
name it found.
- the non-accelerated path looked in the "full name" index we built
ourselves, which contained mangled as well as demangled names of all
functions (but no basenames). Then however, if it did not find a match
it did an extra search in the basename index, with some special
handling for anonymous namespaces.
This aligns the two paths by changing the non-accelerated path to return
the same results as in the apple-tables one. In pratice, this means we
will search in both the "basename", "method" and "fullname" indexes (in
the manual indexes these are separate indexes. This means the function
will return some slightly inappropriate results (e.g. bar::baz::foo when
one asks for a "full name" foo), but this can be handled by additional
filtering, independently indexing method. I've also stopped inserting
demangled names into the "fullname" index, as that is inconsistent with
the apple path.
Reviewers: clayborg, JDevlieghere
Subscribers: lldb-commits
Differential Revision: https://reviews.llvm.org/D46576
llvm-svn: 331855
In an effort to make the .debug_types patch smaller, breaking out the part that reads the .debug_types from object files into a separate patch
Differential Revision: https://reviews.llvm.org/D46529
llvm-svn: 331777
This patch restructures part of LLDB's testing configuration:
1. I moved the test dependencies up the chain so every dotest dependency
becomes a lit dependency as well. It wouldn't make sense for dotest to
have other dependencies when it's being run by lit. Lit on the other
hand can still specify extra dependencies.
2. I replaced as much generator expressions with variables as possible.
This is consistent with the rest of LLVM and doesn't break generators
that support multiple targets (MSVC, Xcode). This wasn't a problem
before, but now we need to expand the dotest arguments in the lit
configuration and there's only one test suite even with multiple
targets.
3. I moved lldb-dotest into it's own directory under utils since there's
no need anymore for it to located under `test/`.
Differential revision: https://reviews.llvm.org/D46334
llvm-svn: 331463
Summary:
lldb-test already had the ability to dump all symbol information in a
module. This is interesting, but it can be too verbose, and it also does
not use the same APIs that lldb uses to query symbol information. The
last part is interesting to me now, because I am about to add DWARF v5
debug_names support, which needs to implement these APIs.
This patch adds a set of arguments to lldb-test, which modify it's
behavior from dumping all symbols to dumping only the requested
information:
- --find={function,namespace,type,variable} - search for the given
kind of objects.
- --name - the name to search for.
- --regex - whether to treat the "name" as a regular expression. This is
not available for all lookup types (we do not have the required APIs
for namespaces and types).
- --context - specifies the context, which can be used to restrict the
search. This argument takes a variable name (which must be defined and
be unique), and we then use the context that this variable is defined
in as the search context.
- --function-flags={auto,full,base,method,selector} - a set of flags to
further restrict the search for function symbols.
Together, these flags and their combinations cover the main SymbolFile
entry points which I will need to modify for the accelerator table
support, and so I plan to do most of the regression testing this way.
(I've also found this a useful tool for exploration of what the given
APIs are supposed to do.)
I add a couple of tests to demonstrate the usage of the usage of the
various options, and also an xfailed test which demonstrates a bug I
found while playing with this. The only requirement for these tests is
the presence of lld -- the should run on any platform which is able to
build lldb.
These tests use c++ code as input, but this isn't a requirement. It is also
possible to use IR, assembly or json to create the test module.
Reviewers: davide, zturner, asmith, JDevlieghere, clayborg, alexshap
Subscribers: mgorny, aprantl, lldb-commits
Differential Revision: https://reviews.llvm.org/D46318
llvm-svn: 331447
ObjectFileELF assumes that code section has ".text" name. There is an
exception for kalimba toolchain that can use arbitrary names, but other
toolchains also could use arbitrary names for code sections. For
example, corert uses separate section for compiled managed code. As lldb
doesn't recognize such section it leads to problem with breakpoints on
arm, because debugger cannot determine instruction set (arm/thumb) and
uses incorrect breakpoint opcode that breaks program execution.
This change allows debugger to correctly handle such code sections. We
assume that section is a code section if it has SHF_EXECINSTR flag set
and has SHT_PROGBITS type.
Patch by Konstantin Baladurin <k.baladurin@partner.samsung.com>.
Differential Revision: https://reviews.llvm.org/D44998
llvm-svn: 331173
Summary:
The new script to run the lldbtests as part of lit invokes each test by calling dotest.py, however, we cannot rely on the system to always correctly interpret the script as python causing the tests to be unresolved on windows (at least). To fix this, we need to make sure that the first parameter in the command line is the python executable itself.
In Makefile.rules, there are a number of windows specific definitions that rely on the HOST_OS being set as Windows_NT but the logic detecting the OS currently does not detect server versions of windows correctly. This change updates the logic to detect windows server as well.
Reviewers: asmith, labath, JDevlieghere, zturner
Reviewed By: JDevlieghere, zturner
Subscribers: zturner, llvm-commits
Differential Revision: https://reviews.llvm.org/D46020
llvm-svn: 330740
The current way that the lit configuration is generated for the LLDB
tests that run using dotest causes cmake to fail when using a generator
which supports multiple configurations (such as Visual Studio). The
failure is because file GENERATE will create a file *per possible
configuration* resulting in the same lit configuration file being
overwritten multiple times.
To fix the issue, we need to create a single lit file that is agnostic
of the configurations and can be used for any configuration.
Patch by: Stella Stamenova
Differential revision: https://reviews.llvm.org/D45918
llvm-svn: 330518
This is the first in what will hopefully become a series of patches to
replace the driver logic in dotest.py with LIT. The motivation for this
change is that there's no point in maintaining two driver
implementations. Since all of the LLVM projects are using lit, this is
the obvious choice.
Obviously the goal is maintain full compatibility with the functionality
offered by dotest. As such we won't be removing anything until that
point has been reached.
This patch is the initial attempt (referred to as v1) to run the lldb
test suite with lit. To do so we introduced a custom LLDB test format
that invokes dotest.py with a single test file.
Differential revision: https://reviews.llvm.org/D45333
llvm-svn: 330275
Instead of applying the sledgehammer of refusing to insert any
C++ symbol in the ASTContext, try to validate the decl if what
we have is an operator. There was other code in lldb which was
responsible for this, just not really exposed (or used) in this
codepath. Also, add a better/more comprehensive test.
<rdar://problem/35645893>
llvm-svn: 328025
Until we have a better story for putting commands and check lines
in the same file (they're currently ignored), it seems that inline
tests are actually more concise and easier to understand.
Too bad we have still some python boilerplate, but that's not
really substantial so we can live with it.
Thanks to Fred for pointing out and Jim for explaining me how
to use the inline test format.
<rdar://problem/34806516>
llvm-svn: 327592
Before the patch:
(lldb) frame var emptyDictionary
(__NSDictionary0 *) emptyDictionary = 0x0000000100304420
After:
(lldb) frame var emptyDictionary
(__NSDictionary0 *) emptyDictionary = 0x0000000100304420 0 key/value pairs
There's nothing much else we can do, as this is always empty by
definition.
<rdar://problem/34806516>
llvm-svn: 327587
Typical example, illformed comparisons (operator== where LHS and
RHS are not compatible). If a symbol matched `operator==` in any
of the object files lldb inserted a generic function declaration
in the ASTContext on which Sema operates. Maintaining the AST
context invariants is fairly tricky and sometimes resulted in
crashes inside clang (or assertions hit).
The real reason why this feature exists in the first place is
that of allowing users to do something like:
(lldb) call printf("patatino")
even if the debug informations for printf() is not available.
Eventually, we might reconsider this feature in its
entirety, but for now we can't remove it as it would break
a bunch of users. Instead, try to limit it to non-C++ symbols,
where getting the invariants right is hopefully easier.
Now you can't do in lldb anymore
(lldb) call _Zsomethingsomething(1,2,3)
but that doesn't seem to be such a big loss.
<rdar://problem/35645893>
llvm-svn: 327356
This is a more principled approach to disabling Spotlight .dSYM
lookups while running the testsuite, most importantly it also works
for the LIT-based tests, which I overlooked in my initial fix
(renaming the test build dir to lldb-tests.noindex).
Differential Revision: https://reviews.llvm.org/D44342
llvm-svn: 327330
This reverts commit r327318. It breaks the Xcode and CMake Darwin
builders:
clang: error: no such file or directory:
'.../source/Plugins/Architecture/PPC64/ArchitecturePPC64.cpp'
clang: error: no input files
More details are in https://reviews.llvm.org/D42582.
llvm-svn: 327327
Summary:
Besides being superfluous, this double merging was actually wrong and
causing some sections to be added twice. The reason for that was that
the code assumes section IDs are unique in the section list, but this is
only true if all sections in the list come from the same object file.
Reviewers: fjricci, jankratochvil
Subscribers: emaste, lldb-commits, arichardson
Differential Revision: https://reviews.llvm.org/D44157
llvm-svn: 327123
There's now a test using llvm-objcopy in lit/.
This doesn't fail on the bot(s) because `llvm-objcopy` is probably
already available there, but if you get a fresh checkout and run
`ninja check-lldb` you'll observe the failure as it's not tracking
the dependency correctly. This fixes the problem on my machine,
and probably everywhere else.
llvm-svn: 326919
Summary:
- Complete element type of PDBSymbolTypeArray.
- Add a test to check types of multi-dimensional array and pointers with CVR.
Reviewers: zturner, rnk, lldb-commits
Reviewed By: zturner
Subscribers: llvm-commits
Differential Revision: https://reviews.llvm.org/D44167
llvm-svn: 326859
Summary:
The test was failing in remote debugging scenario with windows as a host
as cmd.exe is not able to parse the complicated shell commands in the
Makefile.
The test seemed like a perfect candidate for a more focused testing
approach, so I have rewritten in on top of lldb-test's module-sections
functionality. The slight gotcha there was that the
Module::GetSectionList does not include the sections from the symbol
file until someone manually calls Module::GetSymbolVendor. Normally,
this is not an issue, because someone will have initialized the symbol
vendor by the time anyone starts looking at the sections. However, when
all one this is dump the section list, we run into this problem.
I've tried making this behavior more automatic, but it turns out it's
not that easy, so for now, I just manually initialize the Symbol Vendor
before dumping out the sections in lldb-test.
Reviewers: jankratochvil
Subscribers: lldb-commits
Differential Revision: https://reviews.llvm.org/D42914
llvm-svn: 326805
Summary:
The command takes two input arguments: a module to use as a debug target
and a file containing a list of commands. The command will execute each
of the breakpoint commands in the file and dump the breakpoint state
after each one.
The commands are expected to be breakpoint set/remove/etc. commands, but
I explicitly allow any lldb command here, so you can do things like
change setting which impact breakpoint resolution, etc. There is also a
"-persistent" flag, which causes lldb-test to *not* automatically clear
the breakpoint list after each command. Right now I don't use it, but
the idea behind it was that it could be used to test more complex
combinations of breakpoint commands (set+modify, set+disable, etc.).
Right now the command prints out only the basic breakpoint state, but
more information can be easily added there. To enable easy matching of
the "at least one breakpoint location found" state, the command
explicitly prints out the string "At least one breakpoint location.".
To enable testing of breakpoints set with an absolute paths, I add the
ability to perform rudimentary substitutions on the commands: right now
the string %p is replaced by the directory which contains the command
file (so, under normal circumstances, this will perform the same
substitution as lit would do for %p).
I use this command to rewrite the TestBreakpointCaseSensitivity test --
the test was checking about a dozen breakpoint commands, but it was
launching a new process for each one, so it took about 90 seconds to
run. The new test takes about 0.3 seconds for me, which is approximately
a 300x speedup.
Reviewers: davide, zturner, jingham
Subscribers: luporl, lldb-commits
Differential Revision: https://reviews.llvm.org/D43686
llvm-svn: 326112
This test is consistently reporting unexpected pass for me, and the
expectedFailure decorator was removed from the legacy test in r310626.
Apply the same change to the lit version of this test.
Will investigate further if this fails once the new buildbot is running
tests.
llvm.org/pr17807
llvm-svn: 325856
Also, fix a missing dependency, as lit requires llvm-config
to run. This is becoming more and more important as we
write more FileCheck style tests.
Differential Revision: https://reviews.llvm.org/D43591
llvm-svn: 325719
Summary:
This is modeled after the clang and llvm lit tests.
Several properties have CMAKE_CFG_INTDIR as part of the path - this works correctly when the cmake generator only supports one configuration which is known at configuration time, but it does not work correctly when the cmake generator supports multiple configurations (for example, VS).
For VS, CMAKE_CFG_INTDIR ends up set as $Configuration and then it is never updated correctly. Instead, the lit configuration can use a property that can be overwritten at run time. AddLLVM does that for several properties (such as LLVM_TOOLS_DIR).
This change is also removing properties from the lit/CMakeLists.txt that are actually set during the call to configure_lit_site_cfg
Reviewers: zturner, lldb-commits
Reviewed By: zturner
Subscribers: llvm-commits, labath, stella.stamenova, mgorny, hintonda
Differential Revision: https://reviews.llvm.org/D43096
llvm-svn: 325652
Before this patch, LLDB was not able to evaluate expressions that
resulted in a value with a typeof- or decltype-type. This patch fixes
that.
Before:
(lldb) p int i; __typeof__(i) j = 1; j
(typeof (i)) $0 =
After:
(lldb) p int i; __typeof__(i) j = 1; j
(typeof (i)) $0 = 1
Differential revision: https://reviews.llvm.org/D43471
rdar://37461520
llvm-svn: 325568
Summary:
This is combination of following changes,
- Resolve function symbols in PDB symbol file. `lldb-test symbols` will display information about function symbols.
- Implement SymbolFilePDB::FindFunctions methods. On lldb console, searching function symbol by name and by regular expression are both available.
- Create lldb type for PDBSymbolFunc.
- Add tests to check whether functions with the same name but from different sources can be resolved correctly.
Reviewers: zturner, lldb-commits
Reviewed By: zturner
Subscribers: amccarth, labath, llvm-commits
Differential Revision: https://reviews.llvm.org/D42443
llvm-svn: 324707
Summary:
- Fix a null array access bug. This happens when creating the lldb type for a function that has no argument.
- Implement SymbolFilePDB::ParseTypes method. Using `lldb-test symbols` will show all supported types in the target.
- Create lldb types for variadic function, PDBSymbolTypePointer, PDBSymbolTypeBuiltin
- The underlying builtin type for PDBSymbolTypeEnum is always `Int`, correct it with the very first enumerator's encoding if any. This is more accurate when the underlying type is not signed or another integer type.
- Fix a bug when the compiler type is not created based on PDB_BuiltinType. For example, basic type `long` is of same width as `int` in a 32-bit target, and the compiler type of former one will be represented by the one generated for latter if using the default method. Introduce a static function GetBuiltinTypeForPDBEncodingAndBitSize to correct this issue.
- Basic type `long double` and `double` have the same bit size in MSVC and there is no information in a PDB to distinguish them. The compiler type of the former one is represented by the latter's.
- There is no line information about typedef, enum etc in a PDB and the source and line information for them are not shown.
- There is no information about scoped enumeration. The compiler type is represented as an unscoped one.
Reviewers: zturner, lldb-commits
Reviewed By: zturner
Subscribers: majnemer, llvm-commits
Differential Revision: https://reviews.llvm.org/D42434
llvm-svn: 323255
Summary:
- Fix a null array access bug. This happens when creating the lldb type for a function that has no argument.
- Implement SymbolFilePDB::ParseTypes method. Using `lldb-test symbols` will show all supported types in the target.
- Create lldb types for variadic function, PDBSymbolTypePointer, PDBSymbolTypeBuiltin
- The underlying builtin type for PDBSymbolTypeEnum is always `Int`, correct it with the very first enumerator's encoding if any. This is more accurate when the underlying type is not signed or another integer type.
- Fix a bug when the compiler type is not created based on PDB_BuiltinType. For example, basic type `long` is of same width as `int` in a 32-bit target, and the compiler type of former one will be represented by the one generated for latter if using the default method. Introduce a static function GetBuiltinTypeForPDBEncodingAndBitSize to correct this issue.
- Basic type `long double` and `double` have the same bit size in MSVC and there is no information in a PDB to distinguish them. The compiler type of the former one is represented by the latter's.
- There is no line informaton about typedef, enum etc in a PDB and the source and line information for them are not shown.
- There is no information about scoped enumeration. The compiler type is represented as an unscoped one.
Reviewers: zturner, lldb-commits, davide, asmith
Reviewed By: zturner, asmith
Subscribers: llvm-commits, davide
Differential Revision: https://reviews.llvm.org/D41427
llvm-svn: 322995
Zachary Turner