Reland D147506 after fixing the failure in bot
https://lab.llvm.org/buildbot/#/builders/247/builds/4125
Some debuggers like DBX on AIX assume the address in debug line
entries is always incremental. But clang generates two entries (entry
for file scope line and entry for prologue end) with same address if
prologue is empty
And if the prologue is empty, seems the first debug line entry for the
function is unnecessary(i.e. removing the first entry won't impact the
behavior in GDB on Linux), so I implement this for all debuggers.
Reviewed By: dblaikie
Differential Revision: https://reviews.llvm.org/D147506
Prevent optimization of DebugLoc across section boundaries, such optimization will yield incorrect source location if memory layout of sections does not strictly match the Asm file.
Reviewed By: #debug-info, dblaikie, MaskRay
Differential Revision: https://reviews.llvm.org/D149294
This change will allow to put code pointers in DWARF info fields that are larger than actual pointer size, e.g. 16-bit pointers into 32-bit fields.
The need for this came up while creating support for MSP430 in LLDB. MSP430-GCC already generates DWARF info with 32-bit fields, so this change is necessary for LLDB to maintain compatibility with both GCC and LLVM binaries. Moreover, right now in LLDB there is no support for having DWARF pointer size different from ELF header type, e.g. 16-bit DWARF info within ELF32, and it seems there is no such thing as ELF16.
Since other mainline targets are made to have the same pointer size in both MCAsmInfo and DataLayout, there is no need to change anything there.
Reviewed By: dblaikie
Differential Revision: https://reviews.llvm.org/D148042
Some debuggers like DBX on AIX assume the address in debug line
entries is always incremental. But clang generates two entries (entry
for file scope line and entry for prologue end) with same address if
prologue is empty
And if the prologue is empty, seems the first debug line entry for the
function is unnecessary(i.e. removing the first entry won't impact the
behavior in GDB on Linux), so I implement this for all debuggers.
Reviewed By: dblaikie
Differential Revision: https://reviews.llvm.org/D147506
The S_LPROC32_ID and S_GPROC32_ID CodeView Debug Symbols have a flags
field which LLVM has had the values for (in the ProcSymFlags enum) but
has never actually set.
These flags are used by Microsoft-internal tooling that leverages debug
information to do binary analysis.
Modified LLVM to set the correct flags:
- ProcSymFlags::HasOptimizedDebugInfo - always set, as this indicates that
debug info is present for optimized builds (if debug info is not emitted
for optimized builds, then LLVM won't emit a debug symbol at all).
- ProcSymFlags::IsNoReturn and ProcSymFlags::IsNoInline - set if the
function has the NoReturn or NoInline attributes respectively.
- ProcSymFlags::HasFP - set if the function requires a frame pointer (per
TargetFrameLowering::hasFP).
Differential Revision: https://reviews.llvm.org/D148761
This reduces dependencies on `llvm-tblgen` so much.
`CodeGenTypes` depends on `Support` at the moment.
Be careful to append deps on this, since Targets' tablegens
depend on this.
Depends on D149024
Differential Revision: https://reviews.llvm.org/D148769
The placement is currently wrong in the presence of function entry related
instrumentations (prefixdata, -fpatchable-function-entry=, -fsanitize=kcfi,
etc).
This patch replaces the uses of PointerUnion.is function by llvm::isa,
PointerUnion.get function by llvm::cast, and PointerUnion.dyn_cast by
llvm::dyn_cast_if_present. This is according to the FIXME in
the definition of the class PointerUnion.
This patch does not remove them as they are being used in other
subprojects.
Reviewed By: mehdi_amini
Differential Revision: https://reviews.llvm.org/D148449
This fixes two problems:
1. When crossing compiling for windows on linux, source file path in debug info is concatenated with directory by host native separator ('/'). For windows local build, they are concatenated by '\'. This causes non-determinism bug.
The solution here is to let `LangOptions.UseTargetPathSeparator` to control if we should use host native separator or not.
2. Objectfile path in CodeView also uses host native separator when generated.
It's fixed by changing the path separator in `/Fo` to '\' if the path is not an absolute path when adding the `-object-file-name=` flag.
Reviewed By: hans
Differential Revision: https://reviews.llvm.org/D147256
This change initializes the members TSI, LI, DT, PSI, and ORE pointer feilds of the SelectOptimize class to nullptr.
Reviewed By: LuoYuanke
Differential Revision: https://reviews.llvm.org/D148303
Currenty, setting the -mbb-profile-dump dumps a CSV file with blocks
inside an individual function identified by their MBB numbers. This
patch changes the MBBs to be identified by their ID which is set at MBB
creation and not changed afterwards, making it inherently stable
throughout the backend. This alleviates concerns with the MBB IDs
changing between the profile dump and what ends up in the final object
file. The MBBs inside the SHT_LLVM_BB_ADDR_MAP sections are also
identified using their MBB ID rather than number, so if we want to match
them up we need to identify the MBBs here by number.
Reviewed By: mtrofin, rahmanl
Differential Revision: https://reviews.llvm.org/D147366
I've found that a frequent source of debug information loss in optimized
code is due to DEBUG_VALUE intrinsics in a position of the instruction
stream that is outside the scope of the variable it describes.
Tracking these is pretty difficult with the existing debug messages of
the history calculator; this patch addresses the issue by making it
obvious when this event happens.
Differential Revision: https://reviews.llvm.org/D147718
Given the intent of Split DWARF is to minimize .o file size it seems
like adequate signal that it's worth a minor tradeoff in .dwo size to
significantly reduce .o size (though it doesn't reduce linked executable
size - the cost is mostly in the static relocations resolved by the
linker).
For Big Endian, the function `emitGlobalConstantLargeInt` tries to right shift `Realigned` by an amount `ExtraBitSize` in place. However, if the constant to emit has a bit width less than 64 and the bit width is not a multiple of 8, the shift amount will be greater than the bit width of `Realigned`, which causes assertion error described in issue [[ https://github.com/llvm/llvm-project/issues/59055 | issue #59055 ]].
This patch fixes the issue by avoiding right shift when bit width is under 64 to avoid the assertion error.
Reviewed By: Peter
Differential Revision: https://reviews.llvm.org/D138246
This reverts commit db6a979ae82410e42430e47afa488936ba8e3025.
Reland D102817 without any change. The previous revert was a mistake.
Differential Revision: https://reviews.llvm.org/D102817
This adds debug info support for
- `thread_local` global variables, both in non-PIC and PIC modes
- (non-thread_local) Global variables in PIC mode
The former needs to read the value from an offset relative to
`__tls_base` and the latter an offset from `__memory_base`. The code for
doing this overlaps with some of the existing code to add
`__stack_pointer` global, so this adds a new member function to add a
a global in `TI_GLOBAL_RELOC` mode and use it in all three places.
Split DWARF support is currently patchy at best, because the index for
`__tls_base` is not fixed after dynamic linking. The preexisting split
DWARF support for `__stack_pointer` relies on that in practice it is
always index 0. This does similar hardcoding for `__tls_base` and
`__memory_base`, but `__tls_base`'s index in dynamic linking is not
fixed now (See
19afbfe331/lld/wasm/Driver.cpp (L786-L823)
for details), TLS + dynamic linking will not work at the moment.
Fixes https://bugs.chromium.org/p/chromium/issues/detail?id=1416702.
Reviewed By: dschuff
Differential Revision: https://reviews.llvm.org/D145626
This patch adds llvm::codeview::SourceLanguage entries, DWARF translations, and PDB source file extensions in LLVM and allow LLDB's PDB parsers to recognize them correctly.
The CV_CFL_LANG enum in the Visual Studio 2022 documentation https://learn.microsoft.com/en-us/visualstudio/debugger/debug-interface-access/cv-cfl-lang defines:
```
CV_CFL_OBJC = 0x11,
CV_CFL_OBJCXX = 0x12,
```
Since the initial commit in D24317, ObjC was emitted as C language and ObjC++ as Masm.
Reviewed By: DavidSpickett
Differential Revision: https://reviews.llvm.org/D146221
This change improves FS discriminators in the following ways:
(1) use call-stack debug information in the the to generate
discriminators: the same (src/line) DILs can now have same
discriminator value if they come from different call-stacks.
This effectively increases the usable discriminator values
for each round of FS discriminator pass.
(2) don't generate the FS discriminator for meta instructions
(i.e. instructions not emitted). This reduces the number
discriminators conflicts (for the case we run out of discriminator
bits for that pass).
(3) use less expensive hashing of xxHash64.
These improvements should bring better performance for FSAFDO
and they should be used by default. But this change creates
incompatible FS discriminators. For the iterative profile users,
they might see a performance drop in the first release with
this change (due to the fact that the profiles have the old
discriminators and the compiler uses the new discriminator).
We have measured that this is not more than 1.5% on several
benchmarks. Note the degradation should be gone in the second
release and one should expect a performance gain over the binary
without this change.
One possible solution to the iterative profile issue would be
separating discriminators for profile-use and the ones emitted to
the binary. This would require a mechanism to allow two sets of
discriminators to be maintained and then phasing out the first
approach. This is too much churn in the compiler and the
performance implications do not seem to be worth the effort.
Instead, we put the changes under an option so iterative profile
users can do a gradual rollout of this change. We will make the
option default value to true in a later patch and eventually
purge this option from the code base.
Differential Revision: https://reviews.llvm.org/D145171
In Codeview, the basic type of a complex represents the size
of an individual component rather than the sum of the real
and imaginary components.
Differential Revision: https://reviews.llvm.org/D143760
This fixes a few places where the addrx3 and strx3 forms were missed.
Previously this meant if one of these forms appeared somewhere various
errors could occur. This now also adds an extra test case for the addrx3
form (which previously failed).
Differential Revision: https://reviews.llvm.org/D143488
**Summary**
After this patch, `DW_TAG_imported_declaration`s will be emitted into
the DWARF accelerator tables (under `.apple_namespaces`)
**Motivation**
Currently LLDB expression evaluation doesn't see through namespace
aliases. This is because LLDB only considers namespaces that are
part of `.apple_namespaces` when building a nested namespace
identifier for C++, which currently doesn't include import
declarations. The alternative to putting imports into accelerator
tables is to do a linear scan of a `DW_TAG_namespace` and look
for import declarations that look like they would satisfy the lookup
request, which is prohibitively expensive.
**Testing**
* Added unit-test
Differential Revision: https://reviews.llvm.org/D143397
This patch adds a basic block profile dump option within the AsmPrinter
and dumps basic block profile information so that cost models can use
the data for downstream analysis.
Differential Revision: https://reviews.llvm.org/D143311
Emit all constant integers produced by SanitizerBinaryMetadata as
ULEB128 to further reduce binary space used. Increasing the version is
not necessary given this change depends on (and will land) along with
the bump to v2.
To support this, the !pcsections metadata format is extended to allow
for per-section options, encoded in the first MD operator which must
always be a string and contain the section: "<section>!<options>".
Reviewed By: dvyukov
Differential Revision: https://reviews.llvm.org/D143484
Summary: For functions that accept an rvalue reference type
parameter, use move to avoid copying the parameter.
These were found when implementing CppCoreGuideline F.18 in
clang-tidy.
Committed on behalf of ccotter (Chris Cotter)
Reviewers: Michael137 thieta
Differential Revision: https://reviews.llvm.org/D142825
The Language Reference says that aliases can have available_externally
linkage if their aliasee is an available_externally global value. Using
this kind of aliases resulted in crashes during code generation, filter
them out (the same that the AsmPrinter also filters out GlobalVariables
in emitSpecialLLVMGlobal(); Functions are discarded in the machine pass
infrastructure).
Differential Revision: https://reviews.llvm.org/D142352
Old behavior was to add to .debug_aranges only when we create a DIE. As the
result we could end up in situation where DW_AT_ranges have addresses that are
not in .debug_aranges. This has caused issues for LLDB: D136395.
Changed it to add addresses to .debug_aranges even when DIE is not created.
Reviewed By: dblaikie
Differential Revision: https://reviews.llvm.org/D137139
Computing EH-related information was only relevant for analysis passes so far. Lifting it to IR will allow the IR Verifier to calculate EH funclet coloring and validate funclet operand bundles in a follow-up step.
Reviewed By: rnk, compnerd
Differential Revision: https://reviews.llvm.org/D138122
When finding call-site argument locations, don't consider registers to be
location candidates if they will be clobbered between the copy to/from them
and call site. Doing so would present overwritten register values as entry
values in called functions.
This patch adds a collection of register units defined as we walk back from
the call site, and prevents the acceptance of a call-site parameter
location if it will be clobbered on that path.
Fixes https://github.com/llvm/llvm-project/issues/57444
Differential Revision: https://reviews.llvm.org/D141279
Let Propeller use specialized IDs for basic blocks, instead of MBB number.
This allows optimizations not just prior to asm-printer, but throughout the entire codegen.
This patch only implements the functionality under the new `LLVM_BB_ADDR_MAP` version, but the old version is still being used. A later patch will change the used version.
####Background
Today Propeller uses machine basic block (MBB) numbers, which already exist, to map native assembly to machine IR. This is done as follows.
- Basic block addresses are captured and dumped into the `LLVM_BB_ADDR_MAP` section just before the AsmPrinter pass which writes out object files. This ensures that we have a mapping that is close to assembly.
- Profiling mapping works by taking a virtual address of an instruction and looking up the `LLVM_BB_ADDR_MAP` section to find the MBB number it corresponds to.
- While this works well today, we need to do better when we scale Propeller to target other Machine IR optimizations like spill code optimization. Register allocation happens earlier in the Machine IR pipeline and we need an annotation mechanism that is valid at that point.
- The current scheme will not work in this scenario because the MBB number of a particular basic block is not fixed and changes over the course of codegen (via renumbering, adding, and removing the basic blocks).
- In other words, the volatile MBB numbers do not provide a one-to-one correspondence throughout the lifetime of Machine IR. Profile annotation using MBB numbers is restricted to a fixed point; only valid at the exact point where it was dumped.
- Further, the object file can only be dumped before AsmPrinter and cannot be dumped at an arbitrary point in the Machine IR pass pipeline. Hence, MBB numbers are not suitable and we need something else.
####Solution
We propose using fixed unique incremental MBB IDs for basic blocks instead of volatile MBB numbers. These IDs are assigned upon the creation of machine basic blocks. We modify `MachineFunction::CreateMachineBasicBlock` to assign the fixed ID to every newly created basic block. It assigns `MachineFunction::NextMBBID` to the MBB ID and then increments it, which ensures having unique IDs.
To ensure correct profile attribution, multiple equivalent compilations must generate the same Propeller IDs. This is guaranteed as long as the MachineFunction passes run in the same order. Since the `NextBBID` variable is scoped to `MachineFunction`, interleaving of codegen for different functions won't cause any inconsistencies.
The new encoding is generated under the new version number 2 and we keep backward-compatibility with older versions.
####Impact on Size of the `LLVM_BB_ADDR_MAP` Section
Emitting the Propeller ID results in a 23% increase in the size of the `LLVM_BB_ADDR_MAP` section for the clang binary.
Reviewed By: tmsriram
Differential Revision: https://reviews.llvm.org/D100808
It was only ever used there, already. The previous location seems
left-over from when the personality function was specified on a
per-landingpad basis, instead of per-function.
generation code from DWARFLinker. It adds command line option:
--build-accelerator [none,DWARF]
Build accelerator tables(default: none)
=none - Do not build accelerators
=DWARF - Build accelerator tables according to the resulting DWARF version
DWARFv4: .debug_pubnames and .debug_pubtypes
DWARFv5: .debug_names
Differential Revision: https://reviews.llvm.org/D139638
This is a follow up to D141317 which extends the common code to include a target independent pseudo instruction. This is an alternative to (subset of) D92842 which tries to be as close to NFC as possible.
A couple things to call out.
* The test change in X86 is because we loose the scheduling information on the instruction. However, I think this was actually a bug in x86 since no instruction was emitted for a MEMBARRIER. Concluding that a meta instruction has latency just seems wrong?
* I intentionally left some parts of D92842 out. Specifically, several of the changes in the X86 code (data independence and outlining) appear functional, and likely worthy of their own review. Additionally, I'm not handling ARM/AArch64 at all. Those targets need the ordering whereas none of the others do. I want to get this in and tested before retrofitting in ordering to support those targets.
Differential Revision: https://reviews.llvm.org/D141408
Following support from the previous patches in this stack being added for
variadic DBG_INSTR_REFs to exist, this patch modifies LiveDebugValues to
handle those instructions. Support already exists for DBG_VALUE_LISTs, which
covers most of the work needed to handle these instructions; this patch only
modifies the transferDebugInstrRef function to correctly track them.
Reviewed By: jmorse
Differential Revision: https://reviews.llvm.org/D133927
Prior to this patch, variadic DIExpressions (i.e. ones that contain
DW_OP_LLVM_arg) could only be created by salvaging debug values to create
stack value expressions, resulting in a DBG_VALUE_LIST being created. As of
the previous patch in this patch stack, DBG_INSTR_REF's syntax has been
changed to match DBG_VALUE_LIST in preparation for supporting variadic
expressions. This patch adds some minor changes needed to allow variadic
expressions that aren't stack values to exist, and allows variadic expressions
that are trivially reduceable to non-variadic expressions to be handled
similarly to non-variadic expressions.
Reviewed by: jmorse
Differential Revision: https://reviews.llvm.org/D133926
This change removes the `tidyLandingPads` function, which previously
had a few responsibilities:
1. Dealing with the deletion of an invoke, after MachineFunction lowering.
2. Dealing with the deletion of a landing pad BB, after MachineFunction lowering.
3. Cleaning up the type-id list generated by `MachineFunction::addLandingPad`.
Case 3 has been fixed in the generator, and the others are now handled
during table emission.
This change also removes `MachineFunction`'s `addCatchTypeInfo`,
`addFilterTypeInfo`, and `addCleanup` helper fns, as they had a single
caller, and being outlined didn't make it simpler.
Finally, as calling `tidyLandingPads` was effectively the only thing
`DwarfCFIExceptionBase` did, that class has been eliminated.
Use deduction guides instead of helper functions.
The only non-automatic changes have been:
1. ArrayRef(some_uint8_pointer, 0) needs to be changed into ArrayRef(some_uint8_pointer, (size_t)0) to avoid an ambiguous call with ArrayRef((uint8_t*), (uint8_t*))
2. CVSymbol sym(makeArrayRef(symStorage)); needed to be rewritten as CVSymbol sym{ArrayRef(symStorage)}; otherwise the compiler is confused and thinks we have a (bad) function prototype. There was a few similar situation across the codebase.
3. ADL doesn't seem to work the same for deduction-guides and functions, so at some point the llvm namespace must be explicitly stated.
4. The "reference mode" of makeArrayRef(ArrayRef<T> &) that acts as no-op is not supported (a constructor cannot achieve that).
Per reviewers' comment, some useless makeArrayRef have been removed in the process.
This is a follow-up to https://reviews.llvm.org/D140896 that introduced
the deduction guides.
Differential Revision: https://reviews.llvm.org/D140955