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230 lines
8.4 KiB
230 lines
8.4 KiB
//===- ModuleSummaryAnalysis.cpp - Module summary index builder -----------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This pass builds a ModuleSummaryIndex object for the module, to be written
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// to bitcode or LLVM assembly.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Analysis/ModuleSummaryAnalysis.h"
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#include "llvm/Analysis/BlockFrequencyInfo.h"
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#include "llvm/Analysis/BlockFrequencyInfoImpl.h"
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#include "llvm/Analysis/BranchProbabilityInfo.h"
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#include "llvm/Analysis/LoopInfo.h"
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#include "llvm/IR/CallSite.h"
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#include "llvm/IR/Dominators.h"
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#include "llvm/IR/InstIterator.h"
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#include "llvm/IR/IntrinsicInst.h"
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#include "llvm/IR/ValueSymbolTable.h"
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#include "llvm/Pass.h"
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using namespace llvm;
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#define DEBUG_TYPE "module-summary-analysis"
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// Walk through the operands of a given User via worklist iteration and populate
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// the set of GlobalValue references encountered. Invoked either on an
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// Instruction or a GlobalVariable (which walks its initializer).
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static void findRefEdges(const User *CurUser, DenseSet<const Value *> &RefEdges,
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SmallPtrSet<const User *, 8> &Visited) {
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SmallVector<const User *, 32> Worklist;
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Worklist.push_back(CurUser);
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while (!Worklist.empty()) {
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const User *U = Worklist.pop_back_val();
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if (!Visited.insert(U).second)
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continue;
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ImmutableCallSite CS(U);
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for (const auto &OI : U->operands()) {
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const User *Operand = dyn_cast<User>(OI);
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if (!Operand)
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continue;
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if (isa<BlockAddress>(Operand))
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continue;
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if (isa<GlobalValue>(Operand)) {
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// We have a reference to a global value. This should be added to
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// the reference set unless it is a callee. Callees are handled
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// specially by WriteFunction and are added to a separate list.
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if (!(CS && CS.isCallee(&OI)))
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RefEdges.insert(Operand);
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continue;
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}
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Worklist.push_back(Operand);
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}
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}
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}
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void ModuleSummaryIndexBuilder::computeFunctionSummary(
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const Function &F, BlockFrequencyInfo *BFI) {
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// Summary not currently supported for anonymous functions, they must
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// be renamed.
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if (!F.hasName())
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return;
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unsigned NumInsts = 0;
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// Map from callee ValueId to profile count. Used to accumulate profile
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// counts for all static calls to a given callee.
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DenseMap<const Value *, CalleeInfo> CallGraphEdges;
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DenseSet<const Value *> RefEdges;
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SmallPtrSet<const User *, 8> Visited;
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for (const BasicBlock &BB : F)
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for (const Instruction &I : BB) {
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if (!isa<DbgInfoIntrinsic>(I))
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++NumInsts;
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if (auto CS = ImmutableCallSite(&I)) {
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auto *CalledFunction = CS.getCalledFunction();
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if (CalledFunction && CalledFunction->hasName() &&
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!CalledFunction->isIntrinsic()) {
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auto ScaledCount = BFI ? BFI->getBlockProfileCount(&BB) : None;
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auto *CalleeId =
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M->getValueSymbolTable().lookup(CalledFunction->getName());
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CallGraphEdges[CalleeId] +=
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(ScaledCount ? ScaledCount.getValue() : 0);
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}
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}
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findRefEdges(&I, RefEdges, Visited);
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}
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GlobalValueSummary::GVFlags Flags(F);
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std::unique_ptr<FunctionSummary> FuncSummary =
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llvm::make_unique<FunctionSummary>(Flags, NumInsts);
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FuncSummary->addCallGraphEdges(CallGraphEdges);
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FuncSummary->addRefEdges(RefEdges);
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Index->addGlobalValueSummary(F.getName(), std::move(FuncSummary));
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}
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void ModuleSummaryIndexBuilder::computeVariableSummary(
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const GlobalVariable &V) {
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DenseSet<const Value *> RefEdges;
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SmallPtrSet<const User *, 8> Visited;
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findRefEdges(&V, RefEdges, Visited);
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GlobalValueSummary::GVFlags Flags(V);
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std::unique_ptr<GlobalVarSummary> GVarSummary =
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llvm::make_unique<GlobalVarSummary>(Flags);
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GVarSummary->addRefEdges(RefEdges);
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Index->addGlobalValueSummary(V.getName(), std::move(GVarSummary));
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}
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ModuleSummaryIndexBuilder::ModuleSummaryIndexBuilder(
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const Module *M,
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std::function<BlockFrequencyInfo *(const Function &F)> Ftor)
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: Index(llvm::make_unique<ModuleSummaryIndex>()), M(M) {
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// Check if the module can be promoted, otherwise just disable importing from
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// it by not emitting any summary.
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// FIXME: we could still import *into* it most of the time.
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if (!moduleCanBeRenamedForThinLTO(*M))
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return;
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// Compute summaries for all functions defined in module, and save in the
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// index.
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for (auto &F : *M) {
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if (F.isDeclaration())
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continue;
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BlockFrequencyInfo *BFI = nullptr;
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std::unique_ptr<BlockFrequencyInfo> BFIPtr;
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if (Ftor)
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BFI = Ftor(F);
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else if (F.getEntryCount().hasValue()) {
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LoopInfo LI{DominatorTree(const_cast<Function &>(F))};
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BranchProbabilityInfo BPI{F, LI};
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BFIPtr = llvm::make_unique<BlockFrequencyInfo>(F, BPI, LI);
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BFI = BFIPtr.get();
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}
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computeFunctionSummary(F, BFI);
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}
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// Compute summaries for all variables defined in module, and save in the
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// index.
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for (const GlobalVariable &G : M->globals()) {
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if (G.isDeclaration())
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continue;
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computeVariableSummary(G);
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}
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}
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char ModuleSummaryIndexWrapperPass::ID = 0;
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INITIALIZE_PASS_BEGIN(ModuleSummaryIndexWrapperPass, "module-summary-analysis",
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"Module Summary Analysis", false, true)
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INITIALIZE_PASS_DEPENDENCY(BlockFrequencyInfoWrapperPass)
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INITIALIZE_PASS_END(ModuleSummaryIndexWrapperPass, "module-summary-analysis",
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"Module Summary Analysis", false, true)
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ModulePass *llvm::createModuleSummaryIndexWrapperPass() {
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return new ModuleSummaryIndexWrapperPass();
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}
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ModuleSummaryIndexWrapperPass::ModuleSummaryIndexWrapperPass()
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: ModulePass(ID) {
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initializeModuleSummaryIndexWrapperPassPass(*PassRegistry::getPassRegistry());
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}
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bool ModuleSummaryIndexWrapperPass::runOnModule(Module &M) {
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IndexBuilder = llvm::make_unique<ModuleSummaryIndexBuilder>(
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&M, [this](const Function &F) {
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return &(this->getAnalysis<BlockFrequencyInfoWrapperPass>(
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*const_cast<Function *>(&F))
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.getBFI());
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});
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return false;
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}
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bool ModuleSummaryIndexWrapperPass::doFinalization(Module &M) {
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IndexBuilder.reset();
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return false;
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}
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void ModuleSummaryIndexWrapperPass::getAnalysisUsage(AnalysisUsage &AU) const {
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AU.setPreservesAll();
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AU.addRequired<BlockFrequencyInfoWrapperPass>();
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}
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bool llvm::moduleCanBeRenamedForThinLTO(const Module &M) {
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// We cannot currently promote or rename anything used in inline assembly,
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// which are not visible to the compiler. Detect a possible case by looking
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// for a llvm.used local value, in conjunction with an inline assembly call
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// in the module. Prevent importing of any modules containing these uses by
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// suppressing generation of the index. This also prevents importing
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// into this module, which is also necessary to avoid needing to rename
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// in case of a name clash between a local in this module and an imported
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// global.
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// FIXME: If we find we need a finer-grained approach of preventing promotion
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// and renaming of just the functions using inline assembly we will need to:
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// - Add flag in the function summaries to identify those with inline asm.
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// - Prevent importing of any functions with flag set.
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// - Prevent importing of any global function with the same name as a
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// function in current module that has the flag set.
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// - For any llvm.used value that is exported and promoted, add a private
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// alias to the original name in the current module (even if we don't
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// export the function using those values in inline asm, another function
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// with a reference could be exported).
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SmallPtrSet<GlobalValue *, 8> Used;
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collectUsedGlobalVariables(M, Used, /*CompilerUsed*/ false);
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bool LocalIsUsed =
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llvm::any_of(Used, [](GlobalValue *V) { return V->hasLocalLinkage(); });
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if (!LocalIsUsed)
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return true;
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// Walk all the instructions in the module and find if one is inline ASM
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auto HasInlineAsm = llvm::any_of(M, [](const Function &F) {
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return llvm::any_of(instructions(F), [](const Instruction &I) {
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const CallInst *CallI = dyn_cast<CallInst>(&I);
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if (!CallI)
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return false;
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return CallI->isInlineAsm();
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});
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});
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return !HasInlineAsm;
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}
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