352 lines
11 KiB
C++
352 lines
11 KiB
C++
//===-- RTDyldObjectLinkingLayer.cpp - RuntimeDyld backed ORC ObjectLayer -===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ExecutionEngine/Orc/RTDyldObjectLinkingLayer.h"
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#include "llvm/Object/COFF.h"
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namespace {
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using namespace llvm;
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using namespace llvm::orc;
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class JITDylibSearchOrderResolver : public JITSymbolResolver {
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public:
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JITDylibSearchOrderResolver(MaterializationResponsibility &MR) : MR(MR) {}
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void lookup(const LookupSet &Symbols, OnResolvedFunction OnResolved) override {
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auto &ES = MR.getTargetJITDylib().getExecutionSession();
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SymbolLookupSet InternedSymbols;
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// Intern the requested symbols: lookup takes interned strings.
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for (auto &S : Symbols)
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InternedSymbols.add(ES.intern(S));
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// Build an OnResolve callback to unwrap the interned strings and pass them
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// to the OnResolved callback.
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auto OnResolvedWithUnwrap =
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[OnResolved = std::move(OnResolved)](
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Expected<SymbolMap> InternedResult) mutable {
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if (!InternedResult) {
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OnResolved(InternedResult.takeError());
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return;
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}
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LookupResult Result;
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for (auto &KV : *InternedResult)
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Result[*KV.first] = std::move(KV.second);
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OnResolved(Result);
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};
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// Register dependencies for all symbols contained in this set.
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auto RegisterDependencies = [&](const SymbolDependenceMap &Deps) {
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MR.addDependenciesForAll(Deps);
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};
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JITDylibSearchOrder LinkOrder;
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MR.getTargetJITDylib().withLinkOrderDo(
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[&](const JITDylibSearchOrder &LO) { LinkOrder = LO; });
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ES.lookup(LookupKind::Static, LinkOrder, InternedSymbols,
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SymbolState::Resolved, std::move(OnResolvedWithUnwrap),
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RegisterDependencies);
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}
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Expected<LookupSet> getResponsibilitySet(const LookupSet &Symbols) override {
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LookupSet Result;
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for (auto &KV : MR.getSymbols()) {
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if (Symbols.count(*KV.first))
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Result.insert(*KV.first);
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}
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return Result;
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}
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private:
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MaterializationResponsibility &MR;
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};
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} // end anonymous namespace
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namespace llvm {
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namespace orc {
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RTDyldObjectLinkingLayer::RTDyldObjectLinkingLayer(
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ExecutionSession &ES, GetMemoryManagerFunction GetMemoryManager)
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: ObjectLayer(ES), GetMemoryManager(GetMemoryManager) {
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ES.registerResourceManager(*this);
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}
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RTDyldObjectLinkingLayer::~RTDyldObjectLinkingLayer() {
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assert(MemMgrs.empty() && "Layer destroyed with resources still attached");
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}
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void RTDyldObjectLinkingLayer::emit(
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std::unique_ptr<MaterializationResponsibility> R,
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std::unique_ptr<MemoryBuffer> O) {
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assert(O && "Object must not be null");
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auto &ES = getExecutionSession();
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auto Obj = object::ObjectFile::createObjectFile(*O);
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if (!Obj) {
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getExecutionSession().reportError(Obj.takeError());
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R->failMaterialization();
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return;
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}
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// Collect the internal symbols from the object file: We will need to
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// filter these later.
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auto InternalSymbols = std::make_shared<std::set<StringRef>>();
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{
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for (auto &Sym : (*Obj)->symbols()) {
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// Skip file symbols.
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if (auto SymType = Sym.getType()) {
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if (*SymType == object::SymbolRef::ST_File)
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continue;
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} else {
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ES.reportError(SymType.takeError());
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R->failMaterialization();
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return;
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}
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Expected<uint32_t> SymFlagsOrErr = Sym.getFlags();
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if (!SymFlagsOrErr) {
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// TODO: Test this error.
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ES.reportError(SymFlagsOrErr.takeError());
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R->failMaterialization();
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return;
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}
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// Don't include symbols that aren't global.
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if (!(*SymFlagsOrErr & object::BasicSymbolRef::SF_Global)) {
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if (auto SymName = Sym.getName())
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InternalSymbols->insert(*SymName);
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else {
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ES.reportError(SymName.takeError());
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R->failMaterialization();
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return;
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}
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}
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}
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}
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auto MemMgr = GetMemoryManager();
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auto &MemMgrRef = *MemMgr;
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// Switch to shared ownership of MR so that it can be captured by both
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// lambdas below.
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std::shared_ptr<MaterializationResponsibility> SharedR(std::move(R));
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JITDylibSearchOrderResolver Resolver(*SharedR);
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jitLinkForORC(
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object::OwningBinary<object::ObjectFile>(std::move(*Obj), std::move(O)),
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MemMgrRef, Resolver, ProcessAllSections,
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[this, SharedR, &MemMgrRef, InternalSymbols](
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const object::ObjectFile &Obj,
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RuntimeDyld::LoadedObjectInfo &LoadedObjInfo,
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std::map<StringRef, JITEvaluatedSymbol> ResolvedSymbols) {
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return onObjLoad(*SharedR, Obj, MemMgrRef, LoadedObjInfo,
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ResolvedSymbols, *InternalSymbols);
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},
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[this, SharedR, MemMgr = std::move(MemMgr)](
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object::OwningBinary<object::ObjectFile> Obj,
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std::unique_ptr<RuntimeDyld::LoadedObjectInfo> LoadedObjInfo,
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Error Err) mutable {
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onObjEmit(*SharedR, std::move(Obj), std::move(MemMgr),
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std::move(LoadedObjInfo), std::move(Err));
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});
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}
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void RTDyldObjectLinkingLayer::registerJITEventListener(JITEventListener &L) {
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std::lock_guard<std::mutex> Lock(RTDyldLayerMutex);
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assert(!llvm::is_contained(EventListeners, &L) &&
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"Listener has already been registered");
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EventListeners.push_back(&L);
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}
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void RTDyldObjectLinkingLayer::unregisterJITEventListener(JITEventListener &L) {
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std::lock_guard<std::mutex> Lock(RTDyldLayerMutex);
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auto I = llvm::find(EventListeners, &L);
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assert(I != EventListeners.end() && "Listener not registered");
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EventListeners.erase(I);
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}
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Error RTDyldObjectLinkingLayer::onObjLoad(
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MaterializationResponsibility &R, const object::ObjectFile &Obj,
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RuntimeDyld::MemoryManager &MemMgr,
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RuntimeDyld::LoadedObjectInfo &LoadedObjInfo,
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std::map<StringRef, JITEvaluatedSymbol> Resolved,
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std::set<StringRef> &InternalSymbols) {
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SymbolFlagsMap ExtraSymbolsToClaim;
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SymbolMap Symbols;
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// Hack to support COFF constant pool comdats introduced during compilation:
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// (See http://llvm.org/PR40074)
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if (auto *COFFObj = dyn_cast<object::COFFObjectFile>(&Obj)) {
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auto &ES = getExecutionSession();
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// For all resolved symbols that are not already in the responsibilty set:
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// check whether the symbol is in a comdat section and if so mark it as
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// weak.
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for (auto &Sym : COFFObj->symbols()) {
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// getFlags() on COFF symbols can't fail.
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uint32_t SymFlags = cantFail(Sym.getFlags());
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if (SymFlags & object::BasicSymbolRef::SF_Undefined)
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continue;
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auto Name = Sym.getName();
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if (!Name)
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return Name.takeError();
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auto I = Resolved.find(*Name);
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// Skip unresolved symbols, internal symbols, and symbols that are
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// already in the responsibility set.
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if (I == Resolved.end() || InternalSymbols.count(*Name) ||
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R.getSymbols().count(ES.intern(*Name)))
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continue;
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auto Sec = Sym.getSection();
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if (!Sec)
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return Sec.takeError();
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if (*Sec == COFFObj->section_end())
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continue;
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auto &COFFSec = *COFFObj->getCOFFSection(**Sec);
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if (COFFSec.Characteristics & COFF::IMAGE_SCN_LNK_COMDAT)
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I->second.setFlags(I->second.getFlags() | JITSymbolFlags::Weak);
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}
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}
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for (auto &KV : Resolved) {
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// Scan the symbols and add them to the Symbols map for resolution.
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// We never claim internal symbols.
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if (InternalSymbols.count(KV.first))
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continue;
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auto InternedName = getExecutionSession().intern(KV.first);
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auto Flags = KV.second.getFlags();
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// Override object flags and claim responsibility for symbols if
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// requested.
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if (OverrideObjectFlags || AutoClaimObjectSymbols) {
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auto I = R.getSymbols().find(InternedName);
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if (OverrideObjectFlags && I != R.getSymbols().end())
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Flags = I->second;
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else if (AutoClaimObjectSymbols && I == R.getSymbols().end())
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ExtraSymbolsToClaim[InternedName] = Flags;
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}
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Symbols[InternedName] = JITEvaluatedSymbol(KV.second.getAddress(), Flags);
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}
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if (!ExtraSymbolsToClaim.empty()) {
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if (auto Err = R.defineMaterializing(ExtraSymbolsToClaim))
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return Err;
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// If we claimed responsibility for any weak symbols but were rejected then
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// we need to remove them from the resolved set.
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for (auto &KV : ExtraSymbolsToClaim)
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if (KV.second.isWeak() && !R.getSymbols().count(KV.first))
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Symbols.erase(KV.first);
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}
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if (auto Err = R.notifyResolved(Symbols)) {
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R.failMaterialization();
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return Err;
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}
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if (NotifyLoaded)
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NotifyLoaded(R, Obj, LoadedObjInfo);
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return Error::success();
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}
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void RTDyldObjectLinkingLayer::onObjEmit(
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MaterializationResponsibility &R,
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object::OwningBinary<object::ObjectFile> O,
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std::unique_ptr<RuntimeDyld::MemoryManager> MemMgr,
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std::unique_ptr<RuntimeDyld::LoadedObjectInfo> LoadedObjInfo, Error Err) {
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if (Err) {
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getExecutionSession().reportError(std::move(Err));
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R.failMaterialization();
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return;
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}
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if (auto Err = R.notifyEmitted()) {
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getExecutionSession().reportError(std::move(Err));
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R.failMaterialization();
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return;
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}
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std::unique_ptr<object::ObjectFile> Obj;
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std::unique_ptr<MemoryBuffer> ObjBuffer;
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std::tie(Obj, ObjBuffer) = O.takeBinary();
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// Run EventListener notifyLoaded callbacks.
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{
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std::lock_guard<std::mutex> Lock(RTDyldLayerMutex);
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for (auto *L : EventListeners)
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L->notifyObjectLoaded(pointerToJITTargetAddress(MemMgr.get()), *Obj,
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*LoadedObjInfo);
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}
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if (NotifyEmitted)
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NotifyEmitted(R, std::move(ObjBuffer));
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if (auto Err = R.withResourceKeyDo(
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[&](ResourceKey K) { MemMgrs[K].push_back(std::move(MemMgr)); })) {
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getExecutionSession().reportError(std::move(Err));
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R.failMaterialization();
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}
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}
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Error RTDyldObjectLinkingLayer::handleRemoveResources(ResourceKey K) {
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std::vector<MemoryManagerUP> MemMgrsToRemove;
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getExecutionSession().runSessionLocked([&] {
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auto I = MemMgrs.find(K);
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if (I != MemMgrs.end()) {
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std::swap(MemMgrsToRemove, I->second);
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MemMgrs.erase(I);
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}
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});
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{
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std::lock_guard<std::mutex> Lock(RTDyldLayerMutex);
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for (auto &MemMgr : MemMgrsToRemove) {
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for (auto *L : EventListeners)
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L->notifyFreeingObject(pointerToJITTargetAddress(MemMgr.get()));
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MemMgr->deregisterEHFrames();
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}
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}
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return Error::success();
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}
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void RTDyldObjectLinkingLayer::handleTransferResources(ResourceKey DstKey,
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ResourceKey SrcKey) {
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auto I = MemMgrs.find(SrcKey);
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if (I != MemMgrs.end()) {
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auto &SrcMemMgrs = I->second;
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auto &DstMemMgrs = MemMgrs[DstKey];
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DstMemMgrs.reserve(DstMemMgrs.size() + SrcMemMgrs.size());
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for (auto &MemMgr : SrcMemMgrs)
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DstMemMgrs.push_back(std::move(MemMgr));
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// Erase SrcKey entry using value rather than iterator I: I may have been
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// invalidated when we looked up DstKey.
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MemMgrs.erase(SrcKey);
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}
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}
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} // End namespace orc.
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} // End namespace llvm.
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