[CIR] Split CIR_UnaryOp into individual operations
Split the monolithic cir.unary operation (which dispatched on a
UnaryOpKind enum) into four separate operations: cir.inc, cir.dec,
cir.minus, and cir.not.
This follows the same pattern used when cir.binop was split into
individual binary operations (AddOp, SubOp, etc.).
Changes:
- Add CIR_UnaryOpInterface with getInput()/getResult() methods
- Add CIR_UnaryOp and CIR_UnaryOpWithOverflowFlag base classes
- Define IncOp, DecOp, MinusOp, NotOp with per-op folds
- Add Involution trait to NotOp for not(not(x)) -> x folding
- Replace createUnaryOp() with createInc/Dec/Minus/Not builders
- Split LLVM lowering into four separate patterns
- Split LoweringPrepare complex-type handling per unary op
- Update CIRCanonicalize and CIRSimplify for new op types
- Update all codegen files to use bool params instead of UnaryOpKind
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[LLVM][WebAssembly] Regenerate ct.select test CHECK lines
Update CHECK lines to match the new constant-time AND/OR/XOR expansion
from the CT_SELECT legalization fix.
[LLVM][X86] Add f80 support for ct.select
Add special handling for x86_fp80 types in CTSELECT lowering by splitting
them into three 32-bit chunks, performing constant-time selection on each
chunk, and reassembling the result. This fixes crashes when compiling
tests with f80 types.
Also updated ctselect.ll to match current generic fallback implementation.
[LLVM][X86] Add native ct.select support for X86 and i386
Add native X86 implementation with CMOV instructions and comprehensive tests:
- X86 ISelLowering with CMOV for x86_64 and i386
- Fallback bitwise operations for i386 targets without CMOV
- Post-RA expansion for pseudo-instructions
- Comprehensive test coverage:
- Edge cases (zero conditions, large integers)
- i386-specific tests (FP, MMX, non-CMOV fallback)
- Vector operations
- Optimization patterns
The basic test demonstrating fallback is in the core infrastructure PR.
[LLVM][ARM] Add native ct.select support for ARM32 and Thumb
This patch implements architecture-specific lowering for ct.select on ARM
(both ARM32 and Thumb modes) using conditional move instructions and
bitwise operations for constant-time selection.
Implementation details:
- Uses pseudo-instructions that are expanded Post-RA to bitwise operations
- Post-RA expansion in ARMBaseInstrInfo for BUNDLE pseudo-instructions
- Handles scalar integer types, floating-point, and half-precision types
- Handles vector types with NEON when available
- Support for both ARM and Thumb instruction sets (Thumb1 and Thumb2)
- Special handling for Thumb1 which lacks conditional execution
- Comprehensive test coverage including half-precision and vectors
The implementation includes:
- ISelLowering: Custom lowering to CTSELECT pseudo-instructions
- ISelDAGToDAG: Selection of appropriate pseudo-instructions
- BaseInstrInfo: Post-RA expansion of BUNDLE to bitwise instruction sequences
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[LLVM][AArch64] Add native ct.select support for ARM64
This patch implements architecture-specific lowering for ct.select on AArch64
using CSEL (conditional select) instructions for constant-time selection.
Implementation details:
- Uses CSEL family of instructions for scalar integer types
- Uses FCSEL for floating-point types (F16, BF16, F32, F64)
- Post-RA MC lowering to convert pseudo-instructions to real CSEL/FCSEL
- Handles vector types appropriately
- Comprehensive test coverage for AArch64
The implementation includes:
- ISelLowering: Custom lowering to CTSELECT pseudo-instructions
- InstrInfo: Pseudo-instruction definitions and patterns
- MCInstLower: Post-RA lowering of pseudo-instructions to actual CSEL/FCSEL
- Proper handling of condition codes for constant-time guarantees
[LLVM][RISCV] Regenerate ct.select test CHECK lines
Update CHECK lines to match the new constant-time AND/OR/XOR expansion
from the CT_SELECT legalization fix.
[ConstantTime][RISCV] Add comprehensive tests for ct.select
Add comprehensive test suite for RISC-V fallback implementation:
- Edge cases (zero conditions, large integers, sign extension)
- Pattern matching (nested selects, chains)
- Vector support with RVV extensions
- Side effects and memory operations
The basic fallback test is in the core infrastructure PR.
[LLVM][MIPS] Regenerate ct.select test CHECK lines
Update CHECK lines to match the new constant-time AND/OR/XOR expansion
from the CT_SELECT legalization fix.
Merge tag 'fbdev-for-7.0-rc3' of git://git.kernel.org/pub/scm/linux/kernel/git/deller/linux-fbdev
Pull fbdev fix from Helge Deller:
"Silence build error in au1100fb driver found by kernel test robot"
* tag 'fbdev-for-7.0-rc3' of git://git.kernel.org/pub/scm/linux/kernel/git/deller/linux-fbdev:
fbdev: au1100fb: Fix build on MIPS64
sysutils/whowatch: Update 1.4 => 1.8.6.2, take maintainership
Switch to upstream with FreeBSD support:
- https://github.com/Zedai00/whowatch/
- The new update wasn't working on FreeBSD due to Linuxisms and FreeBSD
wrong API usages.
- Overhauled the codebase in a fork and updated it to work on both
Linux and FreeBSD.
- Uses of sysctl, libprocstat, kvm etc to gather the system informations.
PR: 293113
MFH: 2026Q1
Co-authored-by: Vladimir Druzenko <vvd at FreeBSD.org>
(cherry picked from commit 55476368ccbc3863cec96779d914046a39ac5299)
sysutils/whowatch: Update 1.4 => 1.8.6.2, take maintainership
Switch to upstream with FreeBSD support:
- The new update wasn't working on FreeBSD due to Linuxisms and FreeBSD
wrong API usages.
- Overhauled the codebase in a fork and updated it to work on both
Linux and FreeBSD.
- Uses of sysctl, libprocstat, kvm etc to gather the system informations.
PR: 293113
MFH: 2026Q1
Co-authored-by: Vladimir Druzenko <vvd at FreeBSD.org>
sun4v: hook up trap 0x30 (data_access_exception in the UA2005 spec) properly so the generic slowtrap/trap code path is not used, but the sun4v_datatrap code path is used instead
[clang-format][NFC] Use the newly added AllowLiteralDigitSeparator (#185165)
Use LangOptions::AllowLiteralDigitSeparator added in #184235 for the
IntegerLiteralSeparator option.
[ConstantTime][RISCV] Add comprehensive tests for ct.select
Add comprehensive test suite for RISC-V fallback implementation:
- Edge cases (zero conditions, large integers, sign extension)
- Pattern matching (nested selects, chains)
- Vector support with RVV extensions
- Side effects and memory operations
The basic fallback test is in the core infrastructure PR.
[LLVM][RISCV] Regenerate ct.select test CHECK lines
Update CHECK lines to match the new constant-time AND/OR/XOR expansion
from the CT_SELECT legalization fix.
Merge tag 'parisc-for-7.0-rc3' of git://git.kernel.org/pub/scm/linux/kernel/git/deller/parisc-linux
Pull parisc fixes from Helge Deller:
"While testing Sasha Levin's 'kallsyms: embed source file:line info in
kernel stack traces' patch series, which increases the typical kernel
image size, I found some issues with the parisc initial kernel mapping
which may prevent the kernel to boot.
The three small patches here fix this"
* tag 'parisc-for-7.0-rc3' of git://git.kernel.org/pub/scm/linux/kernel/git/deller/parisc-linux:
parisc: Fix initial page table creation for boot
parisc: Check kernel mapping earlier at bootup
parisc: Increase initial mapping to 64 MB with KALLSYMS
[ConstantTime] Fix CT_SELECT expansion to preserve constant-time guarantees
Create CT_SELECT nodes for scalar types regardless of target support, so
they survive DAGCombiner (visitCT_SELECT is conservative). Expand to
AND/OR/XOR during operation legalization after SETCC is lowered, preventing
the sext(setcc)->select fold chain that converts constant-time patterns
into data-dependent conditional moves (e.g. movn/movz on MIPS).
The mask uses SUB(0, AND(Cond, 1)) instead of SIGN_EXTEND because type
legalization already promoted i1 to the SetCC result type, making
SIGN_EXTEND a no-op for same-width types.