//===-- NVPTXLowerArgs.cpp - Lower arguments ------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // // Arguments to kernel and device functions are passed via param space, // which imposes certain restrictions: // http://docs.nvidia.com/cuda/parallel-thread-execution/#state-spaces // // Kernel parameters are read-only and accessible only via ld.param // instruction, directly or via a pointer. Pointers to kernel // arguments can't be converted to generic address space. // // Device function parameters are directly accessible via // ld.param/st.param, but taking the address of one returns a pointer // to a copy created in local space which *can't* be used with // ld.param/st.param. // // Copying a byval struct into local memory in IR allows us to enforce // the param space restrictions, gives the rest of IR a pointer w/o // param space restrictions, and gives us an opportunity to eliminate // the copy. // // Pointer arguments to kernel functions need more work to be lowered: // // 1. Convert non-byval pointer arguments of CUDA kernels to pointers in the // global address space. This allows later optimizations to emit // ld.global.*/st.global.* for accessing these pointer arguments. For // example, // // define void @foo(float* %input) { // %v = load float, float* %input, align 4 // ... // } // // becomes // // define void @foo(float* %input) { // %input2 = addrspacecast float* %input to float addrspace(1)* // %input3 = addrspacecast float addrspace(1)* %input2 to float* // %v = load float, float* %input3, align 4 // ... // } // // Later, NVPTXInferAddressSpaces will optimize it to // // define void @foo(float* %input) { // %input2 = addrspacecast float* %input to float addrspace(1)* // %v = load float, float addrspace(1)* %input2, align 4 // ... // } // // 2. Convert pointers in a byval kernel parameter to pointers in the global // address space. As #2, it allows NVPTX to emit more ld/st.global. E.g., // // struct S { // int *x; // int *y; // }; // __global__ void foo(S s) { // int *b = s.y; // // use b // } // // "b" points to the global address space. In the IR level, // // define void @foo({i32*, i32*}* byval %input) { // %b_ptr = getelementptr {i32*, i32*}, {i32*, i32*}* %input, i64 0, i32 1 // %b = load i32*, i32** %b_ptr // ; use %b // } // // becomes // // define void @foo({i32*, i32*}* byval %input) { // %b_ptr = getelementptr {i32*, i32*}, {i32*, i32*}* %input, i64 0, i32 1 // %b = load i32*, i32** %b_ptr // %b_global = addrspacecast i32* %b to i32 addrspace(1)* // %b_generic = addrspacecast i32 addrspace(1)* %b_global to i32* // ; use %b_generic // } // // TODO: merge this pass with NVPTXInferAddressSpaces so that other passes don't // cancel the addrspacecast pair this pass emits. //===----------------------------------------------------------------------===// #include "NVPTX.h" #include "NVPTXTargetMachine.h" #include "NVPTXUtilities.h" #include "MCTargetDesc/NVPTXBaseInfo.h" #include "llvm/Analysis/ValueTracking.h" #include "llvm/IR/Function.h" #include "llvm/IR/Instructions.h" #include "llvm/IR/Module.h" #include "llvm/IR/Type.h" #include "llvm/Pass.h" using namespace llvm; namespace llvm { void initializeNVPTXLowerArgsPass(PassRegistry &); } namespace { class NVPTXLowerArgs : public FunctionPass { bool runOnFunction(Function &F) override; bool runOnKernelFunction(Function &F); bool runOnDeviceFunction(Function &F); // handle byval parameters void handleByValParam(Argument *Arg); // Knowing Ptr must point to the global address space, this function // addrspacecasts Ptr to global and then back to generic. This allows // NVPTXInferAddressSpaces to fold the global-to-generic cast into // loads/stores that appear later. void markPointerAsGlobal(Value *Ptr); public: static char ID; // Pass identification, replacement for typeid NVPTXLowerArgs(const NVPTXTargetMachine *TM = nullptr) : FunctionPass(ID), TM(TM) {} StringRef getPassName() const override { return "Lower pointer arguments of CUDA kernels"; } private: const NVPTXTargetMachine *TM; }; } // namespace char NVPTXLowerArgs::ID = 1; INITIALIZE_PASS(NVPTXLowerArgs, "nvptx-lower-args", "Lower arguments (NVPTX)", false, false) // ============================================================================= // If the function had a byval struct ptr arg, say foo(%struct.x* byval %d), // then add the following instructions to the first basic block: // // %temp = alloca %struct.x, align 8 // %tempd = addrspacecast %struct.x* %d to %struct.x addrspace(101)* // %tv = load %struct.x addrspace(101)* %tempd // store %struct.x %tv, %struct.x* %temp, align 8 // // The above code allocates some space in the stack and copies the incoming // struct from param space to local space. // Then replace all occurrences of %d by %temp. // ============================================================================= void NVPTXLowerArgs::handleByValParam(Argument *Arg) { Function *Func = Arg->getParent(); Instruction *FirstInst = &(Func->getEntryBlock().front()); PointerType *PType = dyn_cast(Arg->getType()); assert(PType && "Expecting pointer type in handleByValParam"); Type *StructType = PType->getElementType(); const DataLayout &DL = Func->getParent()->getDataLayout(); unsigned AS = DL.getAllocaAddrSpace(); AllocaInst *AllocA = new AllocaInst(StructType, AS, Arg->getName(), FirstInst); // Set the alignment to alignment of the byval parameter. This is because, // later load/stores assume that alignment, and we are going to replace // the use of the byval parameter with this alloca instruction. AllocA->setAlignment(Func->getParamAlign(Arg->getArgNo()) .getValueOr(DL.getPrefTypeAlign(StructType))); Arg->replaceAllUsesWith(AllocA); Value *ArgInParam = new AddrSpaceCastInst( Arg, PointerType::get(StructType, ADDRESS_SPACE_PARAM), Arg->getName(), FirstInst); // Be sure to propagate alignment to this load; LLVM doesn't know that NVPTX // addrspacecast preserves alignment. Since params are constant, this load is // definitely not volatile. LoadInst *LI = new LoadInst(StructType, ArgInParam, Arg->getName(), /*isVolatile=*/false, AllocA->getAlign(), FirstInst); new StoreInst(LI, AllocA, FirstInst); } void NVPTXLowerArgs::markPointerAsGlobal(Value *Ptr) { if (Ptr->getType()->getPointerAddressSpace() == ADDRESS_SPACE_GLOBAL) return; // Deciding where to emit the addrspacecast pair. BasicBlock::iterator InsertPt; if (Argument *Arg = dyn_cast(Ptr)) { // Insert at the functon entry if Ptr is an argument. InsertPt = Arg->getParent()->getEntryBlock().begin(); } else { // Insert right after Ptr if Ptr is an instruction. InsertPt = ++cast(Ptr)->getIterator(); assert(InsertPt != InsertPt->getParent()->end() && "We don't call this function with Ptr being a terminator."); } Instruction *PtrInGlobal = new AddrSpaceCastInst( Ptr, PointerType::get(Ptr->getType()->getPointerElementType(), ADDRESS_SPACE_GLOBAL), Ptr->getName(), &*InsertPt); Value *PtrInGeneric = new AddrSpaceCastInst(PtrInGlobal, Ptr->getType(), Ptr->getName(), &*InsertPt); // Replace with PtrInGeneric all uses of Ptr except PtrInGlobal. Ptr->replaceAllUsesWith(PtrInGeneric); PtrInGlobal->setOperand(0, Ptr); } // ============================================================================= // Main function for this pass. // ============================================================================= bool NVPTXLowerArgs::runOnKernelFunction(Function &F) { if (TM && TM->getDrvInterface() == NVPTX::CUDA) { // Mark pointers in byval structs as global. for (auto &B : F) { for (auto &I : B) { if (LoadInst *LI = dyn_cast(&I)) { if (LI->getType()->isPointerTy()) { Value *UO = getUnderlyingObject(LI->getPointerOperand()); if (Argument *Arg = dyn_cast(UO)) { if (Arg->hasByValAttr()) { // LI is a load from a pointer within a byval kernel parameter. markPointerAsGlobal(LI); } } } } } } } for (Argument &Arg : F.args()) { if (Arg.getType()->isPointerTy()) { if (Arg.hasByValAttr()) handleByValParam(&Arg); else if (TM && TM->getDrvInterface() == NVPTX::CUDA) markPointerAsGlobal(&Arg); } } return true; } // Device functions only need to copy byval args into local memory. bool NVPTXLowerArgs::runOnDeviceFunction(Function &F) { for (Argument &Arg : F.args()) if (Arg.getType()->isPointerTy() && Arg.hasByValAttr()) handleByValParam(&Arg); return true; } bool NVPTXLowerArgs::runOnFunction(Function &F) { return isKernelFunction(F) ? runOnKernelFunction(F) : runOnDeviceFunction(F); } FunctionPass * llvm::createNVPTXLowerArgsPass(const NVPTXTargetMachine *TM) { return new NVPTXLowerArgs(TM); }