…n in DWARF. (#167666)"
This reverts commit 418ba6e8ae2cde7924388142b8ab90c636d2c21f.
The commit caused an ICE due to hitting unreachable in
llvm/lib/CodeGen/AsmPrinter/DwarfCompileUnit.cpp:1307
Fixes#182337
Given the test case:
struct CBase {
virtual void foo();
};
void bar(CBase *Base) {
Base->foo();
}
and using '-emit-call-site-info' with llc, the following DWARF
is produced for the indirect call 'Base->foo()':
1$: DW_TAG_structure_type "CBase"
...
2$: DW_TAG_subprogram "foo"
...
3$: DW_TAG_subprogram "bar"
...
4$: DW_TAG_call_site
...
We add DW_AT_LLVM_virtual_call_origin to existing call-site
information, linking indirect calls to the function-declaration
they correspond to.
4$: DW_TAG_call_site
...
DW_AT_LLVM_virtual_call_origin (2$ "_ZN5CBase3fooEv")
The new attribute DW_AT_LLVM_virtual_call_origin helps to
address the ambiguity to any consumer due to the usage of
DW_AT_call_origin.
The functionality is available to all supported debuggers.
This work is a continuation of
[PR#140530](https://github.com/llvm/llvm-project/pull/140530),
co-authored by @optimisan.
The PR refactors `MachineModuleSlotTracker` to support both the Legacy
Pass Manager and New Pass Manager by removing its direct dependency on
`MachineModuleInfo`.
`MachineModuleSlotTracker` requires `MachineModuleInfo` to obtain
`MachineFunction` instances when printing MIR. But
`MachineFunctionAnalysis` provides `MachineFunction` for NPM.
This patch refactors `MachineModuleSlotTracker` to use a function
callback (`MFGetterFnT`) instead of directly depending on
`MachineModuleInfo`.
---------
Co-authored-by: vikhegde <vikram.hegde@amd.com>
Introduce MO_LaneMask as new machine operand type. This can be used to
hold liveness infomation at sub-register granularity for register-type
operands. We also introduce a new COPY_LANEMASK instruction that uses
MO_lanemask operand to perform partial copy from source register
opernad.
One such use case of MO_LaneMask can be seen in #151123, where it can be
used to store live regUnits information corresponding to the source
register of the COPY instructions, later can be used during CopyPhysReg
expansion.
Fix a whitespace regression in MIR printing that was introduced in
https://github.com/llvm/llvm-project/pull/137361.
The default value for `ListSeparator` is `", "`, so we don't need to
print an additional space in front of tokens for optional symbols and
other things printed after operands.
Note, the modified LIT test will fail at trunk without the fix,
demonstrating that the extra space before `, pre-instr-symbol <mcsymbol
>` on Line 63 exists currently and is fixed with this change.
Remove the type alias now that the std::variant aspect is gone, directly
using std::vector in the few places that need it is more idiomatic.
Move a routine from a core header to single user.
In review of bbde6b, I had originally proposed that we support the
legacy text format. As review evolved, it bacame clear this had been a
bad idea (too much complexity), but in order to let that patch finally
move forward, I approved the change with the variant. This change undoes
the variant, and updates all the tests to just use the array form.
This flag applies to G_PTR_ADD instructions and indicates that the operation
implements an inbounds getelementptr operation, i.e., the pointer operand is in
bounds wrt. the allocated object it is based on, and the arithmetic does not
change that.
It is set when the IRTranslator lowers inbounds GEPs (currently only in some
cases, to be extended with a future PR), and in the
(build|materialize)ObjectPtrOffset functions.
Inbounds information is useful in ISel when we have instructions that perform
address computations whose intermediate steps must be in the same memory region
as the final result. A follow-up patch will start using it for AMDGPU's flat
memory instructions, where the immediate offset must not affect the memory
aperture of the address.
This is analogous to a concurrent effort in SDAG: #131862
(related: #140017, #141725).
For SWDEV-516125.
This reverts commit 05e08cdb3e576cc0887d1507ebd2f756460c7db7.
Adding the missing -mtriple flags in MIR/X86 test files which caused
these tests to fail which was the reason for reverting the patch.
If the update_mir_test_checks.py script is aware of MIFlags, it can produce
meaningful identifiers in generated FileCheck lines. A few MIFlags that were
introduced more recently have been missing from the script.
Ideally, the MIFlags would be specified in a single place and automatically
made known to the script to avoid this divergence, but for now adding a comment
pointing to the script at the place where the MIFlags are printed seems like a
reasonable trade-off.
This PR only regenerates check lines for a single test as an example of the
effect; other affected tests are not regenerated for now to avoid unnecessary
test churn.
Introducing `EnableCallGraphSection` target option to add
CalleeTypeIds field in CallSiteInfo. Read the callee type ids
in and out by the MIR parser/printer.
Reviewers: ilovepi
Reviewed By: ilovepi
Pull Request: https://github.com/llvm/llvm-project/pull/87574
This was a utility for flipping between intrinsic and debug record mode
-- we don't need it any more. The "IsNewDbgInfoFormat" should be true
everywhere.
Start removing debug intrinsics support -- starting with the flag that
controls production of their replacement, debug records. This patch
removes the command-line-flag and with it the ability to switch back to
intrinsics. The module / function / block level "IsNewDbgInfoFormat"
flags get hardcoded to true, I'll to incrementally remove things that
depend on those flags.
Moves `MIRPRinter` and `MIPrinter` fields into a new `MFPrintState`
struct. Turns methods into independent functions.
- This slightly simplifies the code.
- In the future this will allow to pass the state around to other printing functions
without the need to expose classes in the public headers.
std::tie simplifies the lexicographical comparison while making the
code a little more consistent within MIRPrinter.cpp as we have a very
similar comparison functor in MIRPrinter::convertCalledGlobals, about
30 lines below the code this patch touches.
- Move `MIPrinter` class to anonymous namespace, and remove it as a
friend of `MachineBasicBlock`.
- Move `canPredictBranchProbabilities` to `MachineBasicBlock` and change
it to use the new `BranchProbability::normalizeProbabilities` function
that accepts a range, and also to use `llvm::equal()` to check equality
of the two vectors.
- Use `ListSeparator` to print comma separate lists instead of manual
code to do that.
During the transition from debug intrinsics to debug records, we used
several different command line options to customise handling: the
printing of debug records to bitcode and textual could be independent of
how the debug-info was represented inside a module, whether the
autoupgrader ran could be customised. This was all valuable during
development, but now that totally removing debug intrinsics is coming
up, this patch removes those options in favour of a single flag
(experimental-debuginfo-iterators), which enables autoupgrade, in-memory
debug records, and debug record printing to bitcode and textual IR.
We need to do this ahead of removing the
experimental-debuginfo-iterators flag, to reduce the amount of
test-juggling that happens at that time.
There are quite a number of weird test behaviours related to this --
some of which I simply delete in this commit. Things like
print-non-instruction-debug-info.ll , the test suite now checks for
debug records in all tests, and we don't want to check we can print as
intrinsics. Or the update_test_checks tests -- these are duplicated with
write-experimental-debuginfo=false to ensure file writing for intrinsics
is correct, but that's something we're imminently going to delete.
A short survey of curious test changes:
* free-intrinsics.ll: we don't need to test that debug-info is a zero
cost intrinsic, because we won't be using intrinsics in the future.
* undef-dbg-val.ll: apparently we pinned this to non-RemoveDIs in-memory
mode while we sorted something out; it works now either way.
* salvage-cast-debug-info.ll: was testing intrinsics-in-memory get
salvaged, isn't necessary now
* localize-constexpr-debuginfo.ll: was producing "dead metadata"
intrinsics for optimised-out variable values, dbg-records takes the
(correct) representation of poison/undef as an operand. Looks like we
didn't update this in the past to avoid spurious test differences.
* Transforms/Scalarizer/dbginfo.ll: this test was explicitly testing
that debug-info affected codegen, and we deferred updating the tests
until now. This is just one of those silent gnochange issues that get
fixed by RemoveDIs.
Finally: I've added a bitcode test, dbg-intrinsics-autoupgrade.ll.bc,
that checks we can autoupgrade debug intrinsics that are in bitcode into
the new debug records.
Fixes the "use after poison" issue introduced by #121516 (see
<https://github.com/llvm/llvm-project/pull/121516#issuecomment-2585912395>).
The root cause of this issue is that #121516 introduced "Called Global"
information for call instructions modeling how "Call Site" info is
stored in the machine function, HOWEVER it didn't copy the
copy/move/erase operations for call site information.
The fix is to rename and update the existing copy/move/erase functions
so they also take care of Called Global info.
This change implements import call optimization for AArch64 Windows
(equivalent to the undocumented MSVC `/d2ImportCallOptimization` flag).
Import call optimization adds additional data to the binary which can be
used by the Windows kernel loader to rewrite indirect calls to imported
functions as direct calls. It uses the same [Dynamic Value Relocation
Table mechanism that was leveraged on x64 to implement
`/d2GuardRetpoline`](https://techcommunity.microsoft.com/blog/windowsosplatform/mitigating-spectre-variant-2-with-retpoline-on-windows/295618).
The change to the obj file is to add a new `.impcall` section with the
following layout:
```cpp
// Per section that contains calls to imported functions:
// uint32_t SectionSize: Size in bytes for information in this section.
// uint32_t Section Number
// Per call to imported function in section:
// uint32_t Kind: the kind of imported function.
// uint32_t BranchOffset: the offset of the branch instruction in its
// parent section.
// uint32_t TargetSymbolId: the symbol id of the called function.
```
NOTE: If the import call optimization feature is enabled, then the
`.impcall` section must be emitted, even if there are no calls to
imported functions.
The implementation is split across a few parts of LLVM:
* During AArch64 instruction selection, the `GlobalValue` for each call
to a global is recorded into the Extra Information for that node.
* During lowering to machine instructions, the called global value for
each call is noted in its containing `MachineFunction`.
* During AArch64 asm printing, if the import call optimization feature
is enabled:
- A (new) `.impcall` directive is emitted for each call to an imported
function.
- The `.impcall` section is emitted with its magic header (but is not
filled in).
* During COFF object writing, the `.impcall` section is filled in based
on each `.impcall` directive that were encountered.
The `.impcall` section can only be filled in when we are writing the
COFF object as it requires the actual section numbers, which are only
assigned at that point (i.e., they don't exist during asm printing).
I had tried to avoid using the Extra Information during instruction
selection and instead implement this either purely during asm printing
or in a `MachineFunctionPass` (as suggested in [on the
forums](https://discourse.llvm.org/t/design-gathering-locations-of-instructions-to-emit-into-a-section/83729/3))
but this was not possible due to how loading and calling an imported
function works on AArch64. Specifically, they are emitted as `ADRP` +
`LDR` (to load the symbol) then a `BR` (to do the call), so at the point
when we have machine instructions, we would have to work backwards
through the instructions to discover what is being called. An initial
prototype did work by inspecting instructions; however, it didn't
correctly handle the case where the same function was called twice in a
row, which caused LLVM to elide the `ADRP` + `LDR` and reuse the
previously loaded address. Worse than that, sometimes for the
double-call case LLVM decided to spill the loaded address to the stack
and then reload it before making the second call. So, instead of trying
to implement logic to discover where the value in a register came from,
I instead recorded the symbol being called at the last place where it
was easy to do: instruction selection.
[MIR] Serialize virtual register flags
This introduces target-specific vreg flag serialization. Flags are represented as `uint8_t` and the `TargetRegisterInfo` override provides methods `getVRegFlagValue` to deserialize and `getVRegFlagsOfReg` to serialize.
Following the addition of the llvm.fake.use intrinsic and corresponding
MIR instruction, two further changes are planned: to add an
-fextend-lifetimes flag to Clang that emits these intrinsics, and to
have -Og enable this flag by default. Currently, some logic for handling
fake uses is gated by the optdebug attribute, which is intended to be
switched on by -fextend-lifetimes (and by extension -Og later on).
However, the decision was made that a general optdebug attribute should
be incompatible with other opt_ attributes (e.g. optsize, optnone),
since they all express different intents for how to optimize the
program. We would still like to allow -fextend-lifetimes with optsize
however (i.e. -Os -fextend-lifetimes should be legal), since it may be a
useful configuration and there is no technical reason to not allow it.
This patch resolves this by tracking MachineFunctions that have fake
uses, allowing us to run passes that interact with them and skip passes
that clash with them.
Allow setting the computed properties IsSSA, NoPHIs, NoVRegs for MIR
functions in MIR input. The default value is still the computed value.
If the property is set to false, the computed result is ignored. Conflicting
values (e.g. setting IsSSA where the input MIR is clearly not SSA) lead to
an error.
Closes#37787
Don't call raw_string_ostream::flush(), which is essentially a no-op.
As specified in the docs, raw_string_ostream is always unbuffered.
( 65b13610a5226b84889b923bae884ba395ad084d for further reference )
Since `raw_string_ostream` doesn't own the string buffer, it is
desirable (in terms of memory safety) for users to directly reference
the string buffer rather than use `raw_string_ostream::str()`.
Work towards TODO comment to remove `raw_string_ostream::str()`.
In case of functions without a stack frame no "stack" field is
serialized into MIR which leads to isCalleeSavedInfoValid being false
when reading a MIR file back in. To fix this we should serialize
MachineFrameInfo::isCalleeSavedInfoValid() into MIR.
The class `ScopedDbgInfoFormatSetter` was added as a convenient way to
temporarily change the debug info format of a function or module, as
part of IR printing; since this process is repeated in a number of other
places, this patch uses the format-setter class in those places as well.
CallSiteInfo is originally used only for argument - register pairs. Make
it struct, in which we can store additional data for call sites.
Also, the variables/methods used for CallSiteInfo are named for its
original use case, e.g., CallFwdRegsInfo. Refactor these for the
upcoming
use, e.g. addCallArgsForwardingRegs() -> addCallSiteInfo().
An upcoming patch will add type ids for indirect calls to propogate them
from
middle-end to the back-end. The type ids will be then used to emit the
call
graph section.
Original RFC:
https://lists.llvm.org/pipermail/llvm-dev/2021-June/151044.html
Updated RFC:
https://lists.llvm.org/pipermail/llvm-dev/2021-July/151739.html
Differential Revision: https://reviews.llvm.org/D107109?id=362888
Co-authored-by: Necip Fazil Yildiran <necip@google.com>
