1 //===--- MisExpect.cpp - Check the use of llvm.expect with PGO data -------===// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 // 9 // This contains code to emit warnings for potentially incorrect usage of the 10 // llvm.expect intrinsic. This utility extracts the threshold values from 11 // metadata associated with the instrumented Branch or Switch instruction. The 12 // threshold values are then used to determine if a warning should be emmited. 13 // 14 // MisExpect's implementation relies on two assumptions about how branch weights 15 // are managed in LLVM. 16 // 17 // 1) Frontend profiling weights are always in place before llvm.expect is 18 // lowered in LowerExpectIntrinsic.cpp. Frontend based instrumentation therefore 19 // needs to extract the branch weights and then compare them to the weights 20 // being added by the llvm.expect intrinsic lowering. 21 // 22 // 2) Sampling and IR based profiles will *only* have branch weight metadata 23 // before profiling data is consulted if they are from a lowered llvm.expect 24 // intrinsic. These profiles thus always extract the expected weights and then 25 // compare them to the weights collected during profiling to determine if a 26 // diagnostic message is warranted. 27 // 28 //===----------------------------------------------------------------------===// 29 30 #include "llvm/Transforms/Utils/MisExpect.h" 31 #include "llvm/ADT/Twine.h" 32 #include "llvm/Analysis/OptimizationRemarkEmitter.h" 33 #include "llvm/IR/Constants.h" 34 #include "llvm/IR/DiagnosticInfo.h" 35 #include "llvm/IR/Instruction.h" 36 #include "llvm/IR/Instructions.h" 37 #include "llvm/IR/LLVMContext.h" 38 #include "llvm/IR/ProfDataUtils.h" 39 #include "llvm/Support/BranchProbability.h" 40 #include "llvm/Support/CommandLine.h" 41 #include "llvm/Support/Debug.h" 42 #include "llvm/Support/FormatVariadic.h" 43 #include <algorithm> 44 #include <cstdint> 45 #include <functional> 46 #include <numeric> 47 48 #define DEBUG_TYPE "misexpect" 49 50 using namespace llvm; 51 using namespace misexpect; 52 53 namespace llvm { 54 55 // Command line option to enable/disable the warning when profile data suggests 56 // a mismatch with the use of the llvm.expect intrinsic 57 static cl::opt<bool> PGOWarnMisExpect( 58 "pgo-warn-misexpect", cl::init(false), cl::Hidden, 59 cl::desc("Use this option to turn on/off " 60 "warnings about incorrect usage of llvm.expect intrinsics.")); 61 62 static cl::opt<uint32_t> MisExpectTolerance( 63 "misexpect-tolerance", cl::init(0), 64 cl::desc("Prevents emiting diagnostics when profile counts are " 65 "within N% of the threshold..")); 66 67 } // namespace llvm 68 69 namespace { 70 71 bool isMisExpectDiagEnabled(LLVMContext &Ctx) { 72 return PGOWarnMisExpect || Ctx.getMisExpectWarningRequested(); 73 } 74 75 uint32_t getMisExpectTolerance(LLVMContext &Ctx) { 76 return std::max(static_cast<uint32_t>(MisExpectTolerance), 77 Ctx.getDiagnosticsMisExpectTolerance()); 78 } 79 80 Instruction *getInstCondition(Instruction *I) { 81 assert(I != nullptr && "MisExpect target Instruction cannot be nullptr"); 82 Instruction *Ret = nullptr; 83 if (auto *B = dyn_cast<BranchInst>(I)) { 84 Ret = dyn_cast<Instruction>(B->getCondition()); 85 } 86 // TODO: Find a way to resolve condition location for switches 87 // Using the condition of the switch seems to often resolve to an earlier 88 // point in the program, i.e. the calculation of the switch condition, rather 89 // than the switch's location in the source code. Thus, we should use the 90 // instruction to get source code locations rather than the condition to 91 // improve diagnostic output, such as the caret. If the same problem exists 92 // for branch instructions, then we should remove this function and directly 93 // use the instruction 94 // 95 else if (auto *S = dyn_cast<SwitchInst>(I)) { 96 Ret = dyn_cast<Instruction>(S->getCondition()); 97 } 98 return Ret ? Ret : I; 99 } 100 101 void emitMisexpectDiagnostic(Instruction *I, LLVMContext &Ctx, 102 uint64_t ProfCount, uint64_t TotalCount) { 103 double PercentageCorrect = (double)ProfCount / TotalCount; 104 auto PerString = 105 formatv("{0:P} ({1} / {2})", PercentageCorrect, ProfCount, TotalCount); 106 auto RemStr = formatv( 107 "Potential performance regression from use of the llvm.expect intrinsic: " 108 "Annotation was correct on {0} of profiled executions.", 109 PerString); 110 Twine Msg(PerString); 111 Instruction *Cond = getInstCondition(I); 112 if (isMisExpectDiagEnabled(Ctx)) 113 Ctx.diagnose(DiagnosticInfoMisExpect(Cond, Msg)); 114 OptimizationRemarkEmitter ORE(I->getParent()->getParent()); 115 ORE.emit(OptimizationRemark(DEBUG_TYPE, "misexpect", Cond) << RemStr.str()); 116 } 117 118 } // namespace 119 120 namespace llvm { 121 namespace misexpect { 122 123 void verifyMisExpect(Instruction &I, ArrayRef<uint32_t> RealWeights, 124 ArrayRef<uint32_t> ExpectedWeights) { 125 // To determine if we emit a diagnostic, we need to compare the branch weights 126 // from the profile to those added by the llvm.expect intrinsic. 127 // So first, we extract the "likely" and "unlikely" weights from 128 // ExpectedWeights And determine the correct weight in the profile to compare 129 // against. 130 uint64_t LikelyBranchWeight = 0, 131 UnlikelyBranchWeight = std::numeric_limits<uint32_t>::max(); 132 size_t MaxIndex = 0; 133 for (size_t Idx = 0, End = ExpectedWeights.size(); Idx < End; Idx++) { 134 uint32_t V = ExpectedWeights[Idx]; 135 if (LikelyBranchWeight < V) { 136 LikelyBranchWeight = V; 137 MaxIndex = Idx; 138 } 139 if (UnlikelyBranchWeight > V) { 140 UnlikelyBranchWeight = V; 141 } 142 } 143 144 const uint64_t ProfiledWeight = RealWeights[MaxIndex]; 145 const uint64_t RealWeightsTotal = 146 std::accumulate(RealWeights.begin(), RealWeights.end(), (uint64_t)0, 147 std::plus<uint64_t>()); 148 const uint64_t NumUnlikelyTargets = RealWeights.size() - 1; 149 150 uint64_t TotalBranchWeight = 151 LikelyBranchWeight + (UnlikelyBranchWeight * NumUnlikelyTargets); 152 153 // FIXME: When we've addressed sample profiling, restore the assertion 154 // 155 // We cannot calculate branch probability if either of these invariants aren't 156 // met. However, MisExpect diagnostics should not prevent code from compiling, 157 // so we simply forgo emitting diagnostics here, and return early. 158 // assert((TotalBranchWeight >= LikelyBranchWeight) && (TotalBranchWeight > 0) 159 // && "TotalBranchWeight is less than the Likely branch weight"); 160 if ((TotalBranchWeight == 0) || (TotalBranchWeight <= LikelyBranchWeight)) 161 return; 162 163 // To determine our threshold value we need to obtain the branch probability 164 // for the weights added by llvm.expect and use that proportion to calculate 165 // our threshold based on the collected profile data. 166 auto LikelyProbablilty = BranchProbability::getBranchProbability( 167 LikelyBranchWeight, TotalBranchWeight); 168 169 uint64_t ScaledThreshold = LikelyProbablilty.scale(RealWeightsTotal); 170 171 // clamp tolerance range to [0, 100) 172 auto Tolerance = getMisExpectTolerance(I.getContext()); 173 Tolerance = std::clamp(Tolerance, 0u, 99u); 174 175 // Allow users to relax checking by N% i.e., if they use a 5% tolerance, 176 // then we check against 0.95*ScaledThreshold 177 if (Tolerance > 0) 178 ScaledThreshold *= (1.0 - Tolerance / 100.0); 179 180 // When the profile weight is below the threshold, we emit the diagnostic 181 if (ProfiledWeight < ScaledThreshold) 182 emitMisexpectDiagnostic(&I, I.getContext(), ProfiledWeight, 183 RealWeightsTotal); 184 } 185 186 void checkBackendInstrumentation(Instruction &I, 187 const ArrayRef<uint32_t> RealWeights) { 188 SmallVector<uint32_t> ExpectedWeights; 189 if (!extractBranchWeights(I, ExpectedWeights)) 190 return; 191 verifyMisExpect(I, RealWeights, ExpectedWeights); 192 } 193 194 void checkFrontendInstrumentation(Instruction &I, 195 const ArrayRef<uint32_t> ExpectedWeights) { 196 SmallVector<uint32_t> RealWeights; 197 if (!extractBranchWeights(I, RealWeights)) 198 return; 199 verifyMisExpect(I, RealWeights, ExpectedWeights); 200 } 201 202 void checkExpectAnnotations(Instruction &I, 203 const ArrayRef<uint32_t> ExistingWeights, 204 bool IsFrontend) { 205 if (IsFrontend) { 206 checkFrontendInstrumentation(I, ExistingWeights); 207 } else { 208 checkBackendInstrumentation(I, ExistingWeights); 209 } 210 } 211 212 } // namespace misexpect 213 } // namespace llvm 214 #undef DEBUG_TYPE 215