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[CHERI-RISC-V] Support capability-based integer atomic RMW ops
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This allows expanding all integer atomic RMW operations using capability
pointers inline in hybrid mode.
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@arichardson
arichardson committed Oct 1, 2021
1 parent 5fdb001 commit d58fe61
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Showing 6 changed files with 1,092 additions and 512 deletions.
26 changes: 26 additions & 0 deletions llvm/lib/Target/RISCV/RISCVExpandAtomicPseudoInsts.cpp
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Original file line number Diff line number Diff line change
Expand Up @@ -235,6 +235,32 @@ bool RISCVExpandAtomicPseudo::expandMI(MachineBasicBlock &MBB,
case RISCV::PseudoCheriCmpXchgCapExplicitCap:
return expandAtomicCmpXchgCap(MBB, MBBI, true, NextMBBI,
/*ExplicitAddrMode=*/true);

// To avoid the combinatorics explosion of cases here, we use a macro to
// handle the explicit addressing mode atomics.
#define EXPLICIT_ADDRMODE_CASE(name, op, fn, size) \
case RISCV::PseudoCheriAtomicExplicitCap##name##size: \
return fn(MBB, MBBI, AtomicRMWInst::op, false, size, true, NextMBBI, true);
#define HANDLE_EXPLICIT_ADDRMODE_RMW_PSEUDOS(size) \
EXPLICIT_ADDRMODE_CASE(Swap, Xchg, expandAtomicBinOp, size) \
EXPLICIT_ADDRMODE_CASE(LoadAdd, Add, expandAtomicBinOp, size) \
EXPLICIT_ADDRMODE_CASE(LoadSub, Sub, expandAtomicBinOp, size) \
EXPLICIT_ADDRMODE_CASE(LoadAnd, And, expandAtomicBinOp, size) \
EXPLICIT_ADDRMODE_CASE(LoadOr, Or, expandAtomicBinOp, size) \
EXPLICIT_ADDRMODE_CASE(LoadXor, Xor, expandAtomicBinOp, size) \
EXPLICIT_ADDRMODE_CASE(LoadNand, Nand, expandAtomicBinOp, size) \
EXPLICIT_ADDRMODE_CASE(LoadMax, Max, expandAtomicMinMaxOp, size) \
EXPLICIT_ADDRMODE_CASE(LoadMin, Min, expandAtomicMinMaxOp, size) \
EXPLICIT_ADDRMODE_CASE(LoadUMax, UMax, expandAtomicMinMaxOp, size) \
EXPLICIT_ADDRMODE_CASE(LoadUMin, UMin, expandAtomicMinMaxOp, size)

HANDLE_EXPLICIT_ADDRMODE_RMW_PSEUDOS(8)
HANDLE_EXPLICIT_ADDRMODE_RMW_PSEUDOS(16)
HANDLE_EXPLICIT_ADDRMODE_RMW_PSEUDOS(32)
HANDLE_EXPLICIT_ADDRMODE_RMW_PSEUDOS(64)

#undef HANDLE_EXPLICIT_ADDRMODE_RMW_PSEUDOS
#undef EXPLICIT_ADDRMODE_CASE
}

return false;
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24 changes: 16 additions & 8 deletions llvm/lib/Target/RISCV/RISCVISelLowering.cpp
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Original file line number Diff line number Diff line change
Expand Up @@ -9276,9 +9276,14 @@ RISCVTargetLowering::shouldExpandAtomicRMWInIR(AtomicRMWInst *AI) const {
if (AI->isFloatingPointOperation())
return AtomicExpansionKind::CmpXChg;

unsigned Size = AI->getType()->getPrimitiveSizeInBits();
if ((Size == 8 || Size == 16) &&
!RISCVABI::isCheriPureCapABI(Subtarget.getTargetABI()))
// For capability pointers we must always use the smallest possible type
// instead of promoting to i32/i64 to ensure we don't trigger bounds errors.
const DataLayout &DL = AI->getModule()->getDataLayout();
if (DL.isFatPointer(AI->getPointerOperand()->getType()))
return AtomicExpansionKind::None;

uint64_t Size = DL.getTypeSizeInBits(AI->getType()).getFixedSize();
if (Size == 8 || Size == 16)
return AtomicExpansionKind::MaskedIntrinsic;
return AtomicExpansionKind::None;
}
Expand Down Expand Up @@ -9420,11 +9425,14 @@ bool RISCVTargetLowering::supportsAtomicOperation(const DataLayout &DL,
Type *ValueTy,
Type *PointerTy,
Align Alignment) const {
// FIXME: we current have to expand RMW to libcalls since we are missing
// the SelectionDAG nodes+expansions to use the explicit addressing mode.
if (DL.isFatPointer(PointerTy) && isa<AtomicRMWInst>(AI) &&
!RISCVABI::isCheriPureCapABI(Subtarget.getTargetABI()))
return false;
if (auto *RMWI = dyn_cast<AtomicRMWInst>(AI)) {
// FIXME: We do not support AtomicRMW for a capability arguments (other than
// XCHG in the purecap ABI).
if (DL.isFatPointer(ValueTy) && DL.isFatPointer(PointerTy) &&
(RMWI->getOperation() != AtomicRMWInst::Xchg ||
!RISCVABI::isCheriPureCapABI(Subtarget.getTargetABI())))
return false;
}
return TargetLowering::supportsAtomicOperation(DL, AI, ValueTy, PointerTy,
Alignment);
}
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27 changes: 19 additions & 8 deletions llvm/lib/Target/RISCV/RISCVInstrInfo.cpp
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Original file line number Diff line number Diff line change
Expand Up @@ -832,6 +832,11 @@ bool RISCVInstrInfo::isBranchOffsetInRange(unsigned BranchOp,
}
}

// clang-format off
#define FOR_ALL_INT_SIZES(Pseudo) \
Pseudo##8: case Pseudo##16: case Pseudo##32: case Pseudo##64
// clang-format on

unsigned RISCVInstrInfo::getInstSizeInBytes(const MachineInstr &MI) const {
unsigned Opcode = MI.getOpcode();

Expand Down Expand Up @@ -908,11 +913,15 @@ unsigned RISCVInstrInfo::getInstSizeInBytes(const MachineInstr &MI) const {
case RISCV::PseudoCheriAtomicLoadXor16:
case RISCV::PseudoCheriAtomicLoadSub8:
case RISCV::PseudoCheriAtomicLoadSub16:
case FOR_ALL_INT_SIZES(RISCV::PseudoCheriAtomicExplicitCapSwap):
case FOR_ALL_INT_SIZES(RISCV::PseudoCheriAtomicExplicitCapLoadAdd):
case FOR_ALL_INT_SIZES(RISCV::PseudoCheriAtomicExplicitCapLoadAnd):
case FOR_ALL_INT_SIZES(RISCV::PseudoCheriAtomicExplicitCapLoadOr):
case FOR_ALL_INT_SIZES(RISCV::PseudoCheriAtomicExplicitCapLoadXor):
case FOR_ALL_INT_SIZES(RISCV::PseudoCheriAtomicExplicitCapLoadSub):
return 16;
case RISCV::PseudoCheriAtomicLoadNand8:
case RISCV::PseudoCheriAtomicLoadNand16:
case RISCV::PseudoCheriAtomicLoadNand32:
case RISCV::PseudoCheriAtomicLoadNand64:
case FOR_ALL_INT_SIZES(RISCV::PseudoCheriAtomicLoadNand):
case FOR_ALL_INT_SIZES(RISCV::PseudoCheriAtomicExplicitCapLoadNand):
return 20;
case RISCV::PseudoCheriAtomicLoadMax8:
case RISCV::PseudoCheriAtomicLoadMax16:
Expand All @@ -922,11 +931,12 @@ unsigned RISCVInstrInfo::getInstSizeInBytes(const MachineInstr &MI) const {
case RISCV::PseudoCheriAtomicLoadUMax16:
case RISCV::PseudoCheriAtomicLoadUMin8:
case RISCV::PseudoCheriAtomicLoadUMin16:
case FOR_ALL_INT_SIZES(RISCV::PseudoCheriAtomicExplicitCapLoadMax):
case FOR_ALL_INT_SIZES(RISCV::PseudoCheriAtomicExplicitCapLoadMin):
case FOR_ALL_INT_SIZES(RISCV::PseudoCheriAtomicExplicitCapLoadUMax):
case FOR_ALL_INT_SIZES(RISCV::PseudoCheriAtomicExplicitCapLoadUMin):
return 24;
case RISCV::PseudoCheriCmpXchg8:
case RISCV::PseudoCheriCmpXchg16:
case RISCV::PseudoCheriCmpXchg32:
case RISCV::PseudoCheriCmpXchg64:
case FOR_ALL_INT_SIZES(RISCV::PseudoCheriCmpXchg):
return 16;
case RISCV::PseudoCheriCmpXchg8ExplicitCap:
case RISCV::PseudoCheriCmpXchg16ExplicitCap:
Expand Down Expand Up @@ -971,6 +981,7 @@ unsigned RISCVInstrInfo::getInstSizeInBytes(const MachineInstr &MI) const {
}
}
}
#undef FOR_ALL_INT_SIZES

bool RISCVInstrInfo::isAsCheapAsAMove(const MachineInstr &MI) const {
const unsigned Opcode = MI.getOpcode();
Expand Down
61 changes: 59 additions & 2 deletions llvm/lib/Target/RISCV/RISCVInstrInfoXCheri.td
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Original file line number Diff line number Diff line change
Expand Up @@ -1574,6 +1574,15 @@ class PseudoCheriAMO : Pseudo<(outs GPR:$res, GPR:$scratch),
let mayStore = 1;
let hasSideEffects = 0;
}
class PseudoCheriAMOExplicitAddrMode<RegisterClass PtrTy,
RegisterClass ValTy=GPR>
: Pseudo<(outs ValTy:$res, ValTy:$scratch),
(ins PtrTy:$addr, ValTy:$incr, ixlenimm:$ordering), []> {
let Constraints = "@earlyclobber $res,@earlyclobber $scratch";
let mayLoad = 1;
let mayStore = 1;
let hasSideEffects = 0;
}

multiclass PseudoCheriAMOPat<string AtomicOp, Instruction BaseInst> {
def : Pat<(!cast<PatFrag>(AtomicOp#"_monotonic") GPCR:$addr, GPR:$incr),
Expand All @@ -1588,6 +1597,45 @@ multiclass PseudoCheriAMOPat<string AtomicOp, Instruction BaseInst> {
(BaseInst GPCR:$addr, GPR:$incr, 7)>;
}

multiclass CheriAMOExplicitCapPseudos<string Size, RegisterClass PtrTy,
RegisterClass ValTy=GPR> {
def NAME#Swap#Size : PseudoCheriAMOExplicitAddrMode<PtrTy, ValTy>;
def NAME#LoadAdd#Size : PseudoCheriAMOExplicitAddrMode<PtrTy, ValTy>;
def NAME#LoadSub#Size : PseudoCheriAMOExplicitAddrMode<PtrTy, ValTy>;
def NAME#LoadAnd#Size : PseudoCheriAMOExplicitAddrMode<PtrTy, ValTy>;
def NAME#LoadOr#Size : PseudoCheriAMOExplicitAddrMode<PtrTy, ValTy>;
def NAME#LoadXor#Size : PseudoCheriAMOExplicitAddrMode<PtrTy, ValTy>;
def NAME#LoadMax#Size : PseudoCheriAMOExplicitAddrMode<PtrTy, ValTy>;
def NAME#LoadMin#Size : PseudoCheriAMOExplicitAddrMode<PtrTy, ValTy>;
def NAME#LoadUMax#Size : PseudoCheriAMOExplicitAddrMode<PtrTy, ValTy>;
def NAME#LoadUMin#Size : PseudoCheriAMOExplicitAddrMode<PtrTy, ValTy>;
def NAME#LoadNand#Size : PseudoCheriAMOExplicitAddrMode<PtrTy, ValTy>;
}

// The explicit address mode atomics are always relaxed, so we only need
// _monotonic patterns.
class CheriAMOExplicitModePat<string PatOp, string InsnOp, string Size,
RegisterClass PtrTy, RegisterClass ValTy>
: Pat<(!cast<PatFrag>("atomic_" # PatOp # "_" # Size # "_monotonic")
PtrTy:$addr, ValTy:$incr),
(!cast<Pseudo>("PseudoCheriAtomicExplicitCap" # InsnOp # Size)
PtrTy:$addr, ValTy:$incr, 2)>;

multiclass PseudoCheriAMOExplicitCapPats<string Size, RegisterClass PtrTy,
RegisterClass ValTy> {
def : CheriAMOExplicitModePat<"swap", "Swap", Size, PtrTy, ValTy>;
def : CheriAMOExplicitModePat<"load_add", "LoadAdd", Size, PtrTy, ValTy>;
def : CheriAMOExplicitModePat<"load_sub", "LoadSub", Size, PtrTy, ValTy>;
def : CheriAMOExplicitModePat<"load_and", "LoadAnd", Size, PtrTy, ValTy>;
def : CheriAMOExplicitModePat<"load_or", "LoadOr", Size, PtrTy, ValTy>;
def : CheriAMOExplicitModePat<"load_xor", "LoadXor", Size, PtrTy, ValTy>;
def : CheriAMOExplicitModePat<"load_nand", "LoadNand", Size, PtrTy, ValTy>;
def : CheriAMOExplicitModePat<"load_max", "LoadMax", Size, PtrTy, ValTy>;
def : CheriAMOExplicitModePat<"load_min", "LoadMin", Size, PtrTy, ValTy>;
def : CheriAMOExplicitModePat<"load_umax", "LoadUMax", Size, PtrTy, ValTy>;
def : CheriAMOExplicitModePat<"load_umin", "LoadUMin", Size, PtrTy, ValTy>;
}

class PseudoCheriCmpXchg<RegisterClass ValTy=GPR>
: Pseudo<(outs ValTy:$res, GPR:$scratch),
(ins GPCR:$addr, ValTy:$cmpval, ValTy:$newval, ixlenimm:$ordering), []> {
Expand Down Expand Up @@ -1654,6 +1702,7 @@ def PseudoCheriAtomicLoadMin8 : PseudoCheriAMO;
def PseudoCheriAtomicLoadUMax8 : PseudoCheriAMO;
def PseudoCheriAtomicLoadUMin8 : PseudoCheriAMO;
def PseudoCheriAtomicLoadNand8 : PseudoCheriAMO;
defm PseudoCheriAtomicExplicitCap : CheriAMOExplicitCapPseudos<"8", GPCR>;
def PseudoCheriCmpXchg8 : PseudoCheriCmpXchg;
def PseudoCheriCmpXchg8ExplicitCap : PseudoCheriCmpXchgExplicitAddrMode<GPCR>;

Expand All @@ -1668,10 +1717,12 @@ def PseudoCheriAtomicLoadMin16 : PseudoCheriAMO;
def PseudoCheriAtomicLoadUMax16 : PseudoCheriAMO;
def PseudoCheriAtomicLoadUMin16 : PseudoCheriAMO;
def PseudoCheriAtomicLoadNand16 : PseudoCheriAMO;
defm PseudoCheriAtomicExplicitCap : CheriAMOExplicitCapPseudos<"16", GPCR>;
def PseudoCheriCmpXchg16 : PseudoCheriCmpXchg;
def PseudoCheriCmpXchg16ExplicitCap : PseudoCheriCmpXchgExplicitAddrMode<GPCR>;

def PseudoCheriAtomicLoadNand32 : PseudoCheriAMO;
defm PseudoCheriAtomicExplicitCap : CheriAMOExplicitCapPseudos<"32", GPCR>;
def PseudoCheriCmpXchg32 : PseudoCheriCmpXchg;
def PseudoCheriCmpXchg32ExplicitCap : PseudoCheriCmpXchgExplicitAddrMode<GPCR>;

Expand All @@ -1681,6 +1732,7 @@ def PseudoCheriCmpXchgCapExplicitCap : PseudoCheriCmpXchgExplicitAddrMode<GPCR,

let Predicates = [HasCheri, HasStdExtA, IsRV64] in {
def PseudoCheriAtomicLoadNand64 : PseudoCheriAMO;
defm PseudoCheriAtomicExplicitCap : CheriAMOExplicitCapPseudos<"64", GPCR>;
def PseudoCheriCmpXchg64 : PseudoCheriCmpXchg;
def PseudoCheriCmpXchg64ExplicitCap : PseudoCheriCmpXchgExplicitAddrMode<GPCR>;
} // Predicates = [HasCheri, HasStdExtA, IsRV64]
Expand Down Expand Up @@ -1915,7 +1967,6 @@ defm : CheriAMOCapPat<"128", "atomic_swap_cap", "CAMOSWAP_C">;


/// Patterns for atomics with explicit capability base register
/// Only atomic_cmp_swap is supported since all other operations are expanded.

let Predicates = [HasCheri, HasStdExtA, NotCapMode] in {
defm : PseudoCheriCmpXchgPatExplicit<"atomic_cmp_swap_8",
Expand All @@ -1926,10 +1977,16 @@ defm : PseudoCheriCmpXchgPatExplicit<"atomic_cmp_swap_32",
PseudoCheriCmpXchg32ExplicitCap>;
defm : PseudoCheriCmpXchgPatExplicit<"atomic_cmp_swap_cap",
PseudoCheriCmpXchgCapExplicitCap, GPCR>;
defm : PseudoCheriAMOExplicitCapPats<"8", GPCR, GPR>;
defm : PseudoCheriAMOExplicitCapPats<"16", GPCR, GPR>;
defm : PseudoCheriAMOExplicitCapPats<"32", GPCR, GPR>;

} // Predicates = [HasCheri, HasStdExtA, NotCapMode]
let Predicates = [HasCheri, HasStdExtA, IsRV64, NotCapMode] in
let Predicates = [HasCheri, HasStdExtA, IsRV64, NotCapMode] in {
defm : PseudoCheriCmpXchgPatExplicit<"atomic_cmp_swap_64",
PseudoCheriCmpXchg64ExplicitCap>;
defm : PseudoCheriAMOExplicitCapPats<"64", GPCR, GPR>;
} // Predicates = [HasCheri, HasStdExtA, IsRV64, NotCapMode]


/// 'F' (Single-Precision Floating-Point) extension
Expand Down
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