1f1a49e85SMircea Trofin //===------- X86InsertPrefetch.cpp - Insert cache prefetch hints ----------===//
2f1a49e85SMircea Trofin //
32946cd70SChandler Carruth // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
42946cd70SChandler Carruth // See https://llvm.org/LICENSE.txt for license information.
52946cd70SChandler Carruth // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6f1a49e85SMircea Trofin //
7f1a49e85SMircea Trofin //===----------------------------------------------------------------------===//
8f1a49e85SMircea Trofin //
9f1a49e85SMircea Trofin // This pass applies cache prefetch instructions based on a profile. The pass
10f1a49e85SMircea Trofin // assumes DiscriminateMemOps ran immediately before, to ensure debug info
11f1a49e85SMircea Trofin // matches the one used at profile generation time. The profile is encoded in
12f1a49e85SMircea Trofin // afdo format (text or binary). It contains prefetch hints recommendations.
13f1a49e85SMircea Trofin // Each recommendation is made in terms of debug info locations, a type (i.e.
14f1a49e85SMircea Trofin // nta, t{0|1|2}) and a delta. The debug info identifies an instruction with a
15f1a49e85SMircea Trofin // memory operand (see X86DiscriminateMemOps). The prefetch will be made for
16f1a49e85SMircea Trofin // a location at that memory operand + the delta specified in the
17f1a49e85SMircea Trofin // recommendation.
18f1a49e85SMircea Trofin //
19f1a49e85SMircea Trofin //===----------------------------------------------------------------------===//
20f1a49e85SMircea Trofin
21f1a49e85SMircea Trofin #include "X86.h"
22f1a49e85SMircea Trofin #include "X86InstrBuilder.h"
23f1a49e85SMircea Trofin #include "X86InstrInfo.h"
24f1a49e85SMircea Trofin #include "X86MachineFunctionInfo.h"
25f1a49e85SMircea Trofin #include "X86Subtarget.h"
26*989f1c72Sserge-sans-paille #include "llvm/CodeGen/MachineFunctionPass.h"
27f1a49e85SMircea Trofin #include "llvm/CodeGen/MachineModuleInfo.h"
28f1a49e85SMircea Trofin #include "llvm/IR/DebugInfoMetadata.h"
29f1a49e85SMircea Trofin #include "llvm/ProfileData/SampleProf.h"
30f1a49e85SMircea Trofin #include "llvm/ProfileData/SampleProfReader.h"
31f1a49e85SMircea Trofin #include "llvm/Transforms/IPO/SampleProfile.h"
32f1a49e85SMircea Trofin using namespace llvm;
33f1a49e85SMircea Trofin using namespace sampleprof;
34f1a49e85SMircea Trofin
35f1a49e85SMircea Trofin static cl::opt<std::string>
36f1a49e85SMircea Trofin PrefetchHintsFile("prefetch-hints-file",
37519f42d9SMircea Trofin cl::desc("Path to the prefetch hints profile. See also "
38519f42d9SMircea Trofin "-x86-discriminate-memops"),
39f1a49e85SMircea Trofin cl::Hidden);
40f1a49e85SMircea Trofin namespace {
41f1a49e85SMircea Trofin
42f1a49e85SMircea Trofin class X86InsertPrefetch : public MachineFunctionPass {
43f1a49e85SMircea Trofin void getAnalysisUsage(AnalysisUsage &AU) const override;
44f1a49e85SMircea Trofin bool doInitialization(Module &) override;
45f1a49e85SMircea Trofin
46f1a49e85SMircea Trofin bool runOnMachineFunction(MachineFunction &MF) override;
47f1a49e85SMircea Trofin struct PrefetchInfo {
48f1a49e85SMircea Trofin unsigned InstructionID;
49f1a49e85SMircea Trofin int64_t Delta;
50f1a49e85SMircea Trofin };
51f1a49e85SMircea Trofin typedef SmallVectorImpl<PrefetchInfo> Prefetches;
52f1a49e85SMircea Trofin bool findPrefetchInfo(const FunctionSamples *Samples, const MachineInstr &MI,
53f1a49e85SMircea Trofin Prefetches &prefetches) const;
54f1a49e85SMircea Trofin
55f1a49e85SMircea Trofin public:
56f1a49e85SMircea Trofin static char ID;
57f1a49e85SMircea Trofin X86InsertPrefetch(const std::string &PrefetchHintsFilename);
getPassName() const58f1a49e85SMircea Trofin StringRef getPassName() const override {
59f1a49e85SMircea Trofin return "X86 Insert Cache Prefetches";
60f1a49e85SMircea Trofin }
61f1a49e85SMircea Trofin
62f1a49e85SMircea Trofin private:
63f1a49e85SMircea Trofin std::string Filename;
64f1a49e85SMircea Trofin std::unique_ptr<SampleProfileReader> Reader;
65f1a49e85SMircea Trofin };
66f1a49e85SMircea Trofin
67f1a49e85SMircea Trofin using PrefetchHints = SampleRecord::CallTargetMap;
68f1a49e85SMircea Trofin
69f1a49e85SMircea Trofin // Return any prefetching hints for the specified MachineInstruction. The hints
70f1a49e85SMircea Trofin // are returned as pairs (name, delta).
getPrefetchHints(const FunctionSamples * TopSamples,const MachineInstr & MI)71f1a49e85SMircea Trofin ErrorOr<PrefetchHints> getPrefetchHints(const FunctionSamples *TopSamples,
72f1a49e85SMircea Trofin const MachineInstr &MI) {
73f1a49e85SMircea Trofin if (const auto &Loc = MI.getDebugLoc())
74f1a49e85SMircea Trofin if (const auto *Samples = TopSamples->findFunctionSamples(Loc))
75f1a49e85SMircea Trofin return Samples->findCallTargetMapAt(FunctionSamples::getOffset(Loc),
76f1a49e85SMircea Trofin Loc->getBaseDiscriminator());
77f1a49e85SMircea Trofin return std::error_code();
78f1a49e85SMircea Trofin }
79f1a49e85SMircea Trofin
80f1a49e85SMircea Trofin // The prefetch instruction can't take memory operands involving vector
81f1a49e85SMircea Trofin // registers.
IsMemOpCompatibleWithPrefetch(const MachineInstr & MI,int Op)82f1a49e85SMircea Trofin bool IsMemOpCompatibleWithPrefetch(const MachineInstr &MI, int Op) {
830c476111SDaniel Sanders Register BaseReg = MI.getOperand(Op + X86::AddrBaseReg).getReg();
840c476111SDaniel Sanders Register IndexReg = MI.getOperand(Op + X86::AddrIndexReg).getReg();
85f1a49e85SMircea Trofin return (BaseReg == 0 ||
86f1a49e85SMircea Trofin X86MCRegisterClasses[X86::GR64RegClassID].contains(BaseReg) ||
87f1a49e85SMircea Trofin X86MCRegisterClasses[X86::GR32RegClassID].contains(BaseReg)) &&
88f1a49e85SMircea Trofin (IndexReg == 0 ||
89f1a49e85SMircea Trofin X86MCRegisterClasses[X86::GR64RegClassID].contains(IndexReg) ||
90f1a49e85SMircea Trofin X86MCRegisterClasses[X86::GR32RegClassID].contains(IndexReg));
91f1a49e85SMircea Trofin }
92f1a49e85SMircea Trofin
93f1a49e85SMircea Trofin } // end anonymous namespace
94f1a49e85SMircea Trofin
95f1a49e85SMircea Trofin //===----------------------------------------------------------------------===//
96f1a49e85SMircea Trofin // Implementation
97f1a49e85SMircea Trofin //===----------------------------------------------------------------------===//
98f1a49e85SMircea Trofin
99f1a49e85SMircea Trofin char X86InsertPrefetch::ID = 0;
100f1a49e85SMircea Trofin
X86InsertPrefetch(const std::string & PrefetchHintsFilename)101f1a49e85SMircea Trofin X86InsertPrefetch::X86InsertPrefetch(const std::string &PrefetchHintsFilename)
102f1a49e85SMircea Trofin : MachineFunctionPass(ID), Filename(PrefetchHintsFilename) {}
103f1a49e85SMircea Trofin
104f1a49e85SMircea Trofin /// Return true if the provided MachineInstruction has cache prefetch hints. In
105f1a49e85SMircea Trofin /// that case, the prefetch hints are stored, in order, in the Prefetches
106f1a49e85SMircea Trofin /// vector.
findPrefetchInfo(const FunctionSamples * TopSamples,const MachineInstr & MI,Prefetches & Prefetches) const107f1a49e85SMircea Trofin bool X86InsertPrefetch::findPrefetchInfo(const FunctionSamples *TopSamples,
108f1a49e85SMircea Trofin const MachineInstr &MI,
109f1a49e85SMircea Trofin Prefetches &Prefetches) const {
110f1a49e85SMircea Trofin assert(Prefetches.empty() &&
111f1a49e85SMircea Trofin "Expected caller passed empty PrefetchInfo vector.");
112084801bdSFangrui Song static constexpr std::pair<StringLiteral, unsigned> HintTypes[] = {
113f1a49e85SMircea Trofin {"_nta_", X86::PREFETCHNTA},
114f1a49e85SMircea Trofin {"_t0_", X86::PREFETCHT0},
115f1a49e85SMircea Trofin {"_t1_", X86::PREFETCHT1},
116f1a49e85SMircea Trofin {"_t2_", X86::PREFETCHT2},
117f1a49e85SMircea Trofin };
118f1a49e85SMircea Trofin static const char *SerializedPrefetchPrefix = "__prefetch";
119f1a49e85SMircea Trofin
120f1a49e85SMircea Trofin const ErrorOr<PrefetchHints> T = getPrefetchHints(TopSamples, MI);
121f1a49e85SMircea Trofin if (!T)
122f1a49e85SMircea Trofin return false;
123f1a49e85SMircea Trofin int16_t max_index = -1;
124f1a49e85SMircea Trofin // Convert serialized prefetch hints into PrefetchInfo objects, and populate
125f1a49e85SMircea Trofin // the Prefetches vector.
126f1a49e85SMircea Trofin for (const auto &S_V : *T) {
127f1a49e85SMircea Trofin StringRef Name = S_V.getKey();
128f1a49e85SMircea Trofin if (Name.consume_front(SerializedPrefetchPrefix)) {
129f1a49e85SMircea Trofin int64_t D = static_cast<int64_t>(S_V.second);
130f1a49e85SMircea Trofin unsigned IID = 0;
131f1a49e85SMircea Trofin for (const auto &HintType : HintTypes) {
132f1a49e85SMircea Trofin if (Name.startswith(HintType.first)) {
133f1a49e85SMircea Trofin Name = Name.drop_front(HintType.first.size());
134f1a49e85SMircea Trofin IID = HintType.second;
135f1a49e85SMircea Trofin break;
136f1a49e85SMircea Trofin }
137f1a49e85SMircea Trofin }
138f1a49e85SMircea Trofin if (IID == 0)
139f1a49e85SMircea Trofin return false;
140f1a49e85SMircea Trofin uint8_t index = 0;
141f1a49e85SMircea Trofin Name.consumeInteger(10, index);
142f1a49e85SMircea Trofin
143f1a49e85SMircea Trofin if (index >= Prefetches.size())
144f1a49e85SMircea Trofin Prefetches.resize(index + 1);
145f1a49e85SMircea Trofin Prefetches[index] = {IID, D};
146f1a49e85SMircea Trofin max_index = std::max(max_index, static_cast<int16_t>(index));
147f1a49e85SMircea Trofin }
148f1a49e85SMircea Trofin }
149f1a49e85SMircea Trofin assert(max_index + 1 >= 0 &&
150f1a49e85SMircea Trofin "Possible overflow: max_index + 1 should be positive.");
151f1a49e85SMircea Trofin assert(static_cast<size_t>(max_index + 1) == Prefetches.size() &&
152f1a49e85SMircea Trofin "The number of prefetch hints received should match the number of "
153f1a49e85SMircea Trofin "PrefetchInfo objects returned");
154f1a49e85SMircea Trofin return !Prefetches.empty();
155f1a49e85SMircea Trofin }
156f1a49e85SMircea Trofin
doInitialization(Module & M)157f1a49e85SMircea Trofin bool X86InsertPrefetch::doInitialization(Module &M) {
158f1a49e85SMircea Trofin if (Filename.empty())
159f1a49e85SMircea Trofin return false;
160f1a49e85SMircea Trofin
161f1a49e85SMircea Trofin LLVMContext &Ctx = M.getContext();
162f1a49e85SMircea Trofin ErrorOr<std::unique_ptr<SampleProfileReader>> ReaderOrErr =
163f1a49e85SMircea Trofin SampleProfileReader::create(Filename, Ctx);
164f1a49e85SMircea Trofin if (std::error_code EC = ReaderOrErr.getError()) {
165f1a49e85SMircea Trofin std::string Msg = "Could not open profile: " + EC.message();
166f1a49e85SMircea Trofin Ctx.diagnose(DiagnosticInfoSampleProfile(Filename, Msg,
167f1a49e85SMircea Trofin DiagnosticSeverity::DS_Warning));
168f1a49e85SMircea Trofin return false;
169f1a49e85SMircea Trofin }
170f1a49e85SMircea Trofin Reader = std::move(ReaderOrErr.get());
171f1a49e85SMircea Trofin Reader->read();
172f1a49e85SMircea Trofin return true;
173f1a49e85SMircea Trofin }
174f1a49e85SMircea Trofin
getAnalysisUsage(AnalysisUsage & AU) const175f1a49e85SMircea Trofin void X86InsertPrefetch::getAnalysisUsage(AnalysisUsage &AU) const {
176f1a49e85SMircea Trofin AU.setPreservesAll();
17778c69a00SYuanfang Chen MachineFunctionPass::getAnalysisUsage(AU);
178f1a49e85SMircea Trofin }
179f1a49e85SMircea Trofin
runOnMachineFunction(MachineFunction & MF)180f1a49e85SMircea Trofin bool X86InsertPrefetch::runOnMachineFunction(MachineFunction &MF) {
181f1a49e85SMircea Trofin if (!Reader)
182f1a49e85SMircea Trofin return false;
183f1a49e85SMircea Trofin const FunctionSamples *Samples = Reader->getSamplesFor(MF.getFunction());
184f1a49e85SMircea Trofin if (!Samples)
185f1a49e85SMircea Trofin return false;
186f1a49e85SMircea Trofin
187f1a49e85SMircea Trofin bool Changed = false;
188f1a49e85SMircea Trofin
189f1a49e85SMircea Trofin const TargetInstrInfo *TII = MF.getSubtarget().getInstrInfo();
190f1a49e85SMircea Trofin SmallVector<PrefetchInfo, 4> Prefetches;
191f1a49e85SMircea Trofin for (auto &MBB : MF) {
192f1a49e85SMircea Trofin for (auto MI = MBB.instr_begin(); MI != MBB.instr_end();) {
193f1a49e85SMircea Trofin auto Current = MI;
194f1a49e85SMircea Trofin ++MI;
195f1a49e85SMircea Trofin
196f1a49e85SMircea Trofin int Offset = X86II::getMemoryOperandNo(Current->getDesc().TSFlags);
197f1a49e85SMircea Trofin if (Offset < 0)
198f1a49e85SMircea Trofin continue;
199f1a49e85SMircea Trofin unsigned Bias = X86II::getOperandBias(Current->getDesc());
200f1a49e85SMircea Trofin int MemOpOffset = Offset + Bias;
201f1a49e85SMircea Trofin // FIXME(mtrofin): ORE message when the recommendation cannot be taken.
202f1a49e85SMircea Trofin if (!IsMemOpCompatibleWithPrefetch(*Current, MemOpOffset))
203f1a49e85SMircea Trofin continue;
204f1a49e85SMircea Trofin Prefetches.clear();
205f1a49e85SMircea Trofin if (!findPrefetchInfo(Samples, *Current, Prefetches))
206f1a49e85SMircea Trofin continue;
207f1a49e85SMircea Trofin assert(!Prefetches.empty() &&
208f1a49e85SMircea Trofin "The Prefetches vector should contain at least a value if "
209f1a49e85SMircea Trofin "findPrefetchInfo returned true.");
210f1a49e85SMircea Trofin for (auto &PrefInfo : Prefetches) {
211f1a49e85SMircea Trofin unsigned PFetchInstrID = PrefInfo.InstructionID;
212f1a49e85SMircea Trofin int64_t Delta = PrefInfo.Delta;
213f1a49e85SMircea Trofin const MCInstrDesc &Desc = TII->get(PFetchInstrID);
214f1a49e85SMircea Trofin MachineInstr *PFetch =
215f1a49e85SMircea Trofin MF.CreateMachineInstr(Desc, Current->getDebugLoc(), true);
216f1a49e85SMircea Trofin MachineInstrBuilder MIB(MF, PFetch);
217f1a49e85SMircea Trofin
21849231c1fSKazu Hirata static_assert(X86::AddrBaseReg == 0 && X86::AddrScaleAmt == 1 &&
219f1a49e85SMircea Trofin X86::AddrIndexReg == 2 && X86::AddrDisp == 3 &&
22049231c1fSKazu Hirata X86::AddrSegmentReg == 4,
221f1a49e85SMircea Trofin "Unexpected change in X86 operand offset order.");
222f1a49e85SMircea Trofin
223f1a49e85SMircea Trofin // This assumes X86::AddBaseReg = 0, {...}ScaleAmt = 1, etc.
224f1a49e85SMircea Trofin // FIXME(mtrofin): consider adding a:
225f1a49e85SMircea Trofin // MachineInstrBuilder::set(unsigned offset, op).
226f1a49e85SMircea Trofin MIB.addReg(Current->getOperand(MemOpOffset + X86::AddrBaseReg).getReg())
227f1a49e85SMircea Trofin .addImm(
228f1a49e85SMircea Trofin Current->getOperand(MemOpOffset + X86::AddrScaleAmt).getImm())
229f1a49e85SMircea Trofin .addReg(
230f1a49e85SMircea Trofin Current->getOperand(MemOpOffset + X86::AddrIndexReg).getReg())
231f1a49e85SMircea Trofin .addImm(Current->getOperand(MemOpOffset + X86::AddrDisp).getImm() +
232f1a49e85SMircea Trofin Delta)
233f1a49e85SMircea Trofin .addReg(Current->getOperand(MemOpOffset + X86::AddrSegmentReg)
234f1a49e85SMircea Trofin .getReg());
235f1a49e85SMircea Trofin
236f1a49e85SMircea Trofin if (!Current->memoperands_empty()) {
237f1a49e85SMircea Trofin MachineMemOperand *CurrentOp = *(Current->memoperands_begin());
238f1a49e85SMircea Trofin MIB.addMemOperand(MF.getMachineMemOperand(
239f1a49e85SMircea Trofin CurrentOp, CurrentOp->getOffset() + Delta, CurrentOp->getSize()));
240f1a49e85SMircea Trofin }
241f1a49e85SMircea Trofin
242f1a49e85SMircea Trofin // Insert before Current. This is because Current may clobber some of
243f1a49e85SMircea Trofin // the registers used to describe the input memory operand.
244f1a49e85SMircea Trofin MBB.insert(Current, PFetch);
245f1a49e85SMircea Trofin Changed = true;
246f1a49e85SMircea Trofin }
247f1a49e85SMircea Trofin }
248f1a49e85SMircea Trofin }
249f1a49e85SMircea Trofin return Changed;
250f1a49e85SMircea Trofin }
251f1a49e85SMircea Trofin
createX86InsertPrefetchPass()252f1a49e85SMircea Trofin FunctionPass *llvm::createX86InsertPrefetchPass() {
253f1a49e85SMircea Trofin return new X86InsertPrefetch(PrefetchHintsFile);
254f1a49e85SMircea Trofin }
255