//===------ ELFNixPlatform.cpp - Utilities for executing MachO in Orc -----===// // // 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 // //===----------------------------------------------------------------------===// #include "llvm/ExecutionEngine/Orc/ELFNixPlatform.h" #include "llvm/BinaryFormat/ELF.h" #include "llvm/ExecutionEngine/JITLink/ELF_x86_64.h" #include "llvm/ExecutionEngine/JITLink/x86_64.h" #include "llvm/ExecutionEngine/Orc/DebugUtils.h" #include "llvm/ExecutionEngine/Orc/ExecutionUtils.h" #include "llvm/Support/BinaryByteStream.h" #include "llvm/Support/Debug.h" #define DEBUG_TYPE "orc" using namespace llvm; using namespace llvm::orc; using namespace llvm::orc::shared; namespace { class DSOHandleMaterializationUnit : public MaterializationUnit { public: DSOHandleMaterializationUnit(ELFNixPlatform &ENP, const SymbolStringPtr &DSOHandleSymbol) : MaterializationUnit(createDSOHandleSectionSymbols(ENP, DSOHandleSymbol), DSOHandleSymbol), ENP(ENP) {} StringRef getName() const override { return "DSOHandleMU"; } void materialize(std::unique_ptr R) override { unsigned PointerSize; support::endianness Endianness; jitlink::Edge::Kind EdgeKind; const auto &TT = ENP.getExecutionSession().getExecutorProcessControl().getTargetTriple(); switch (TT.getArch()) { case Triple::x86_64: PointerSize = 8; Endianness = support::endianness::little; EdgeKind = jitlink::x86_64::Pointer64; break; default: llvm_unreachable("Unrecognized architecture"); } // void *__dso_handle = &__dso_handle; auto G = std::make_unique( "", TT, PointerSize, Endianness, jitlink::getGenericEdgeKindName); auto &DSOHandleSection = G->createSection(".data.__dso_handle", jitlink::MemProt::Read); auto &DSOHandleBlock = G->createContentBlock( DSOHandleSection, getDSOHandleContent(PointerSize), 0, 8, 0); auto &DSOHandleSymbol = G->addDefinedSymbol( DSOHandleBlock, 0, *R->getInitializerSymbol(), DSOHandleBlock.getSize(), jitlink::Linkage::Strong, jitlink::Scope::Default, false, true); DSOHandleBlock.addEdge(EdgeKind, 0, DSOHandleSymbol, 0); ENP.getObjectLinkingLayer().emit(std::move(R), std::move(G)); } void discard(const JITDylib &JD, const SymbolStringPtr &Sym) override {} private: static SymbolFlagsMap createDSOHandleSectionSymbols(ELFNixPlatform &ENP, const SymbolStringPtr &DSOHandleSymbol) { SymbolFlagsMap SymbolFlags; SymbolFlags[DSOHandleSymbol] = JITSymbolFlags::Exported; return SymbolFlags; } ArrayRef getDSOHandleContent(size_t PointerSize) { static const char Content[8] = {0}; assert(PointerSize <= sizeof Content); return {Content, PointerSize}; } ELFNixPlatform &ENP; }; StringRef EHFrameSectionName = ".eh_frame"; StringRef InitArrayFuncSectionName = ".init_array"; StringRef ThreadBSSSectionName = ".tbss"; StringRef ThreadDataSectionName = ".tdata"; StringRef InitSectionNames[] = {InitArrayFuncSectionName}; } // end anonymous namespace namespace llvm { namespace orc { Expected> ELFNixPlatform::Create(ExecutionSession &ES, ObjectLinkingLayer &ObjLinkingLayer, JITDylib &PlatformJD, const char *OrcRuntimePath, Optional RuntimeAliases) { auto &EPC = ES.getExecutorProcessControl(); // If the target is not supported then bail out immediately. if (!supportedTarget(EPC.getTargetTriple())) return make_error("Unsupported ELFNixPlatform triple: " + EPC.getTargetTriple().str(), inconvertibleErrorCode()); // Create default aliases if the caller didn't supply any. if (!RuntimeAliases) RuntimeAliases = standardPlatformAliases(ES); // Define the aliases. if (auto Err = PlatformJD.define(symbolAliases(std::move(*RuntimeAliases)))) return std::move(Err); // Add JIT-dispatch function support symbols. if (auto Err = PlatformJD.define(absoluteSymbols( {{ES.intern("__orc_rt_jit_dispatch"), {EPC.getJITDispatchInfo().JITDispatchFunction.getValue(), JITSymbolFlags::Exported}}, {ES.intern("__orc_rt_jit_dispatch_ctx"), {EPC.getJITDispatchInfo().JITDispatchContext.getValue(), JITSymbolFlags::Exported}}}))) return std::move(Err); // Create a generator for the ORC runtime archive. auto OrcRuntimeArchiveGenerator = StaticLibraryDefinitionGenerator::Load( ObjLinkingLayer, OrcRuntimePath, EPC.getTargetTriple()); if (!OrcRuntimeArchiveGenerator) return OrcRuntimeArchiveGenerator.takeError(); // Create the instance. Error Err = Error::success(); auto P = std::unique_ptr( new ELFNixPlatform(ES, ObjLinkingLayer, PlatformJD, std::move(*OrcRuntimeArchiveGenerator), Err)); if (Err) return std::move(Err); return std::move(P); } Error ELFNixPlatform::setupJITDylib(JITDylib &JD) { return JD.define( std::make_unique(*this, DSOHandleSymbol)); return Error::success(); } Error ELFNixPlatform::notifyAdding(ResourceTracker &RT, const MaterializationUnit &MU) { auto &JD = RT.getJITDylib(); const auto &InitSym = MU.getInitializerSymbol(); if (!InitSym) return Error::success(); RegisteredInitSymbols[&JD].add(InitSym, SymbolLookupFlags::WeaklyReferencedSymbol); LLVM_DEBUG({ dbgs() << "ELFNixPlatform: Registered init symbol " << *InitSym << " for MU " << MU.getName() << "\n"; }); return Error::success(); } Error ELFNixPlatform::notifyRemoving(ResourceTracker &RT) { llvm_unreachable("Not supported yet"); } static void addAliases(ExecutionSession &ES, SymbolAliasMap &Aliases, ArrayRef> AL) { for (auto &KV : AL) { auto AliasName = ES.intern(KV.first); assert(!Aliases.count(AliasName) && "Duplicate symbol name in alias map"); Aliases[std::move(AliasName)] = {ES.intern(KV.second), JITSymbolFlags::Exported}; } } SymbolAliasMap ELFNixPlatform::standardPlatformAliases(ExecutionSession &ES) { SymbolAliasMap Aliases; addAliases(ES, Aliases, requiredCXXAliases()); addAliases(ES, Aliases, standardRuntimeUtilityAliases()); return Aliases; } ArrayRef> ELFNixPlatform::requiredCXXAliases() { static const std::pair RequiredCXXAliases[] = { {"__cxa_atexit", "__orc_rt_elfnix_cxa_atexit"}, {"atexit", "__orc_rt_elfnix_atexit"}}; return ArrayRef>(RequiredCXXAliases); } ArrayRef> ELFNixPlatform::standardRuntimeUtilityAliases() { static const std::pair StandardRuntimeUtilityAliases[] = { {"__orc_rt_run_program", "__orc_rt_elfnix_run_program"}, {"__orc_rt_log_error", "__orc_rt_log_error_to_stderr"}}; return ArrayRef>( StandardRuntimeUtilityAliases); } bool ELFNixPlatform::isInitializerSection(StringRef SecName) { for (auto &Name : InitSectionNames) { if (Name.equals(SecName)) return true; } return false; } bool ELFNixPlatform::supportedTarget(const Triple &TT) { switch (TT.getArch()) { case Triple::x86_64: return true; default: return false; } } ELFNixPlatform::ELFNixPlatform( ExecutionSession &ES, ObjectLinkingLayer &ObjLinkingLayer, JITDylib &PlatformJD, std::unique_ptr OrcRuntimeGenerator, Error &Err) : ES(ES), ObjLinkingLayer(ObjLinkingLayer), DSOHandleSymbol(ES.intern("__dso_handle")) { ErrorAsOutParameter _(&Err); ObjLinkingLayer.addPlugin(std::make_unique(*this)); PlatformJD.addGenerator(std::move(OrcRuntimeGenerator)); // PlatformJD hasn't been 'set-up' by the platform yet (since we're creating // the platform now), so set it up. if (auto E2 = setupJITDylib(PlatformJD)) { Err = std::move(E2); return; } RegisteredInitSymbols[&PlatformJD].add( DSOHandleSymbol, SymbolLookupFlags::WeaklyReferencedSymbol); // Associate wrapper function tags with JIT-side function implementations. if (auto E2 = associateRuntimeSupportFunctions(PlatformJD)) { Err = std::move(E2); return; } // Lookup addresses of runtime functions callable by the platform, // call the platform bootstrap function to initialize the platform-state // object in the executor. if (auto E2 = bootstrapELFNixRuntime(PlatformJD)) { Err = std::move(E2); return; } } Error ELFNixPlatform::associateRuntimeSupportFunctions(JITDylib &PlatformJD) { ExecutionSession::JITDispatchHandlerAssociationMap WFs; using GetInitializersSPSSig = SPSExpected(SPSString); WFs[ES.intern("__orc_rt_elfnix_get_initializers_tag")] = ES.wrapAsyncWithSPS( this, &ELFNixPlatform::rt_getInitializers); using GetDeinitializersSPSSig = SPSExpected(SPSExecutorAddr); WFs[ES.intern("__orc_rt_elfnix_get_deinitializers_tag")] = ES.wrapAsyncWithSPS( this, &ELFNixPlatform::rt_getDeinitializers); using LookupSymbolSPSSig = SPSExpected(SPSExecutorAddr, SPSString); WFs[ES.intern("__orc_rt_elfnix_symbol_lookup_tag")] = ES.wrapAsyncWithSPS(this, &ELFNixPlatform::rt_lookupSymbol); return ES.registerJITDispatchHandlers(PlatformJD, std::move(WFs)); } void ELFNixPlatform::getInitializersBuildSequencePhase( SendInitializerSequenceFn SendResult, JITDylib &JD, std::vector DFSLinkOrder) { ELFNixJITDylibInitializerSequence FullInitSeq; { std::lock_guard Lock(PlatformMutex); for (auto &InitJD : reverse(DFSLinkOrder)) { LLVM_DEBUG({ dbgs() << "ELFNixPlatform: Appending inits for \"" << InitJD->getName() << "\" to sequence\n"; }); auto ISItr = InitSeqs.find(InitJD.get()); if (ISItr != InitSeqs.end()) { FullInitSeq.emplace_back(std::move(ISItr->second)); InitSeqs.erase(ISItr); } } } SendResult(std::move(FullInitSeq)); } void ELFNixPlatform::getInitializersLookupPhase( SendInitializerSequenceFn SendResult, JITDylib &JD) { auto DFSLinkOrder = JD.getDFSLinkOrder(); DenseMap NewInitSymbols; ES.runSessionLocked([&]() { for (auto &InitJD : DFSLinkOrder) { auto RISItr = RegisteredInitSymbols.find(InitJD.get()); if (RISItr != RegisteredInitSymbols.end()) { NewInitSymbols[InitJD.get()] = std::move(RISItr->second); RegisteredInitSymbols.erase(RISItr); } } }); // If there are no further init symbols to look up then move on to the next // phase. if (NewInitSymbols.empty()) { getInitializersBuildSequencePhase(std::move(SendResult), JD, std::move(DFSLinkOrder)); return; } // Otherwise issue a lookup and re-run this phase when it completes. lookupInitSymbolsAsync( [this, SendResult = std::move(SendResult), &JD](Error Err) mutable { if (Err) SendResult(std::move(Err)); else getInitializersLookupPhase(std::move(SendResult), JD); }, ES, std::move(NewInitSymbols)); } void ELFNixPlatform::rt_getInitializers(SendInitializerSequenceFn SendResult, StringRef JDName) { LLVM_DEBUG({ dbgs() << "ELFNixPlatform::rt_getInitializers(\"" << JDName << "\")\n"; }); JITDylib *JD = ES.getJITDylibByName(JDName); if (!JD) { LLVM_DEBUG({ dbgs() << " No such JITDylib \"" << JDName << "\". Sending error.\n"; }); SendResult(make_error("No JITDylib named " + JDName, inconvertibleErrorCode())); return; } getInitializersLookupPhase(std::move(SendResult), *JD); } void ELFNixPlatform::rt_getDeinitializers( SendDeinitializerSequenceFn SendResult, ExecutorAddr Handle) { LLVM_DEBUG({ dbgs() << "ELFNixPlatform::rt_getDeinitializers(\"" << formatv("{0:x}", Handle.getValue()) << "\")\n"; }); JITDylib *JD = nullptr; { std::lock_guard Lock(PlatformMutex); auto I = HandleAddrToJITDylib.find(Handle.getValue()); if (I != HandleAddrToJITDylib.end()) JD = I->second; } if (!JD) { LLVM_DEBUG({ dbgs() << " No JITDylib for handle " << formatv("{0:x}", Handle.getValue()) << "\n"; }); SendResult(make_error("No JITDylib associated with handle " + formatv("{0:x}", Handle.getValue()), inconvertibleErrorCode())); return; } SendResult(ELFNixJITDylibDeinitializerSequence()); } void ELFNixPlatform::rt_lookupSymbol(SendSymbolAddressFn SendResult, ExecutorAddr Handle, StringRef SymbolName) { LLVM_DEBUG({ dbgs() << "ELFNixPlatform::rt_lookupSymbol(\"" << formatv("{0:x}", Handle.getValue()) << "\")\n"; }); JITDylib *JD = nullptr; { std::lock_guard Lock(PlatformMutex); auto I = HandleAddrToJITDylib.find(Handle.getValue()); if (I != HandleAddrToJITDylib.end()) JD = I->second; } if (!JD) { LLVM_DEBUG({ dbgs() << " No JITDylib for handle " << formatv("{0:x}", Handle.getValue()) << "\n"; }); SendResult(make_error("No JITDylib associated with handle " + formatv("{0:x}", Handle.getValue()), inconvertibleErrorCode())); return; } // Use functor class to work around XL build compiler issue on AIX. class RtLookupNotifyComplete { public: RtLookupNotifyComplete(SendSymbolAddressFn &&SendResult) : SendResult(std::move(SendResult)) {} void operator()(Expected Result) { if (Result) { assert(Result->size() == 1 && "Unexpected result map count"); SendResult(ExecutorAddr(Result->begin()->second.getAddress())); } else { SendResult(Result.takeError()); } } private: SendSymbolAddressFn SendResult; }; ES.lookup( LookupKind::DLSym, {{JD, JITDylibLookupFlags::MatchExportedSymbolsOnly}}, SymbolLookupSet(ES.intern(SymbolName)), SymbolState::Ready, RtLookupNotifyComplete(std::move(SendResult)), NoDependenciesToRegister); } Error ELFNixPlatform::bootstrapELFNixRuntime(JITDylib &PlatformJD) { std::pair Symbols[] = { {"__orc_rt_elfnix_platform_bootstrap", &orc_rt_elfnix_platform_bootstrap}, {"__orc_rt_elfnix_platform_shutdown", &orc_rt_elfnix_platform_shutdown}, {"__orc_rt_elfnix_register_object_sections", &orc_rt_elfnix_register_object_sections}, {"__orc_rt_elfnix_create_pthread_key", &orc_rt_elfnix_create_pthread_key}}; SymbolLookupSet RuntimeSymbols; std::vector> AddrsToRecord; for (const auto &KV : Symbols) { auto Name = ES.intern(KV.first); RuntimeSymbols.add(Name); AddrsToRecord.push_back({std::move(Name), KV.second}); } auto RuntimeSymbolAddrs = ES.lookup( {{&PlatformJD, JITDylibLookupFlags::MatchAllSymbols}}, RuntimeSymbols); if (!RuntimeSymbolAddrs) return RuntimeSymbolAddrs.takeError(); for (const auto &KV : AddrsToRecord) { auto &Name = KV.first; assert(RuntimeSymbolAddrs->count(Name) && "Missing runtime symbol?"); KV.second->setValue((*RuntimeSymbolAddrs)[Name].getAddress()); } auto PJDDSOHandle = ES.lookup( {{&PlatformJD, JITDylibLookupFlags::MatchAllSymbols}}, DSOHandleSymbol); if (!PJDDSOHandle) return PJDDSOHandle.takeError(); if (auto Err = ES.callSPSWrapper( orc_rt_elfnix_platform_bootstrap, PJDDSOHandle->getAddress())) return Err; // FIXME: Ordering is fuzzy here. We're probably best off saying // "behavior is undefined if code that uses the runtime is added before // the platform constructor returns", then move all this to the constructor. RuntimeBootstrapped = true; std::vector DeferredPOSRs; { std::lock_guard Lock(PlatformMutex); DeferredPOSRs = std::move(BootstrapPOSRs); } for (auto &D : DeferredPOSRs) if (auto Err = registerPerObjectSections(D)) return Err; return Error::success(); } Error ELFNixPlatform::registerInitInfo( JITDylib &JD, ArrayRef InitSections) { std::unique_lock Lock(PlatformMutex); ELFNixJITDylibInitializers *InitSeq = nullptr; { auto I = InitSeqs.find(&JD); if (I == InitSeqs.end()) { // If there's no init sequence entry yet then we need to look up the // header symbol to force creation of one. Lock.unlock(); auto SearchOrder = JD.withLinkOrderDo([](const JITDylibSearchOrder &SO) { return SO; }); if (auto Err = ES.lookup(SearchOrder, DSOHandleSymbol).takeError()) return Err; Lock.lock(); I = InitSeqs.find(&JD); assert(I != InitSeqs.end() && "Entry missing after header symbol lookup?"); } InitSeq = &I->second; } for (auto *Sec : InitSections) { // FIXME: Avoid copy here. jitlink::SectionRange R(*Sec); InitSeq->InitSections[Sec->getName()].push_back( {ExecutorAddr(R.getStart()), ExecutorAddr(R.getEnd())}); } return Error::success(); } Error ELFNixPlatform::registerPerObjectSections( const ELFPerObjectSectionsToRegister &POSR) { if (!orc_rt_elfnix_register_object_sections) return make_error("Attempting to register per-object " "sections, but runtime support has not " "been loaded yet", inconvertibleErrorCode()); Error ErrResult = Error::success(); if (auto Err = ES.callSPSWrapper( orc_rt_elfnix_register_object_sections, ErrResult, POSR)) return Err; return ErrResult; } Expected ELFNixPlatform::createPThreadKey() { if (!orc_rt_elfnix_create_pthread_key) return make_error( "Attempting to create pthread key in target, but runtime support has " "not been loaded yet", inconvertibleErrorCode()); Expected Result(0); if (auto Err = ES.callSPSWrapper(void)>( orc_rt_elfnix_create_pthread_key, Result)) return std::move(Err); return Result; } void ELFNixPlatform::ELFNixPlatformPlugin::modifyPassConfig( MaterializationResponsibility &MR, jitlink::LinkGraph &LG, jitlink::PassConfiguration &Config) { // If the initializer symbol is the __dso_handle symbol then just add // the DSO handle support passes. if (MR.getInitializerSymbol() == MP.DSOHandleSymbol) { addDSOHandleSupportPasses(MR, Config); // The DSOHandle materialization unit doesn't require any other // support, so we can bail out early. return; } // If the object contains initializers then add passes to record them. if (MR.getInitializerSymbol()) addInitializerSupportPasses(MR, Config); // Add passes for eh-frame and TLV support. addEHAndTLVSupportPasses(MR, Config); } ObjectLinkingLayer::Plugin::SyntheticSymbolDependenciesMap ELFNixPlatform::ELFNixPlatformPlugin::getSyntheticSymbolDependencies( MaterializationResponsibility &MR) { std::lock_guard Lock(PluginMutex); auto I = InitSymbolDeps.find(&MR); if (I != InitSymbolDeps.end()) { SyntheticSymbolDependenciesMap Result; Result[MR.getInitializerSymbol()] = std::move(I->second); InitSymbolDeps.erase(&MR); return Result; } return SyntheticSymbolDependenciesMap(); } void ELFNixPlatform::ELFNixPlatformPlugin::addInitializerSupportPasses( MaterializationResponsibility &MR, jitlink::PassConfiguration &Config) { /// Preserve init sections. Config.PrePrunePasses.push_back([this, &MR](jitlink::LinkGraph &G) -> Error { if (auto Err = preserveInitSections(G, MR)) return Err; return Error::success(); }); Config.PostFixupPasses.push_back( [this, &JD = MR.getTargetJITDylib()](jitlink::LinkGraph &G) { return registerInitSections(G, JD); }); } void ELFNixPlatform::ELFNixPlatformPlugin::addDSOHandleSupportPasses( MaterializationResponsibility &MR, jitlink::PassConfiguration &Config) { Config.PostAllocationPasses.push_back([this, &JD = MR.getTargetJITDylib()]( jitlink::LinkGraph &G) -> Error { auto I = llvm::find_if(G.defined_symbols(), [this](jitlink::Symbol *Sym) { return Sym->getName() == *MP.DSOHandleSymbol; }); assert(I != G.defined_symbols().end() && "Missing DSO handle symbol"); { std::lock_guard Lock(MP.PlatformMutex); JITTargetAddress HandleAddr = (*I)->getAddress(); MP.HandleAddrToJITDylib[HandleAddr] = &JD; assert(!MP.InitSeqs.count(&JD) && "InitSeq entry for JD already exists"); MP.InitSeqs.insert(std::make_pair( &JD, ELFNixJITDylibInitializers(JD.getName(), ExecutorAddr(HandleAddr)))); } return Error::success(); }); } void ELFNixPlatform::ELFNixPlatformPlugin::addEHAndTLVSupportPasses( MaterializationResponsibility &MR, jitlink::PassConfiguration &Config) { // Insert TLV lowering at the start of the PostPrunePasses, since we want // it to run before GOT/PLT lowering. // TODO: Check that before the fixTLVSectionsAndEdges pass, the GOT/PLT build // pass has done. Because the TLS descriptor need to be allocate in GOT. Config.PostPrunePasses.push_back( [this, &JD = MR.getTargetJITDylib()](jitlink::LinkGraph &G) { return fixTLVSectionsAndEdges(G, JD); }); // Add a pass to register the final addresses of the eh-frame and TLV sections // with the runtime. Config.PostFixupPasses.push_back([this](jitlink::LinkGraph &G) -> Error { ELFPerObjectSectionsToRegister POSR; if (auto *EHFrameSection = G.findSectionByName(EHFrameSectionName)) { jitlink::SectionRange R(*EHFrameSection); if (!R.empty()) POSR.EHFrameSection = {ExecutorAddr(R.getStart()), ExecutorAddr(R.getEnd())}; } // Get a pointer to the thread data section if there is one. It will be used // below. jitlink::Section *ThreadDataSection = G.findSectionByName(ThreadDataSectionName); // Handle thread BSS section if there is one. if (auto *ThreadBSSSection = G.findSectionByName(ThreadBSSSectionName)) { // If there's already a thread data section in this graph then merge the // thread BSS section content into it, otherwise just treat the thread // BSS section as the thread data section. if (ThreadDataSection) G.mergeSections(*ThreadDataSection, *ThreadBSSSection); else ThreadDataSection = ThreadBSSSection; } // Having merged thread BSS (if present) and thread data (if present), // record the resulting section range. if (ThreadDataSection) { jitlink::SectionRange R(*ThreadDataSection); if (!R.empty()) POSR.ThreadDataSection = {ExecutorAddr(R.getStart()), ExecutorAddr(R.getEnd())}; } if (POSR.EHFrameSection.Start || POSR.ThreadDataSection.Start) { // If we're still bootstrapping the runtime then just record this // frame for now. if (!MP.RuntimeBootstrapped) { std::lock_guard Lock(MP.PlatformMutex); MP.BootstrapPOSRs.push_back(POSR); return Error::success(); } // Otherwise register it immediately. if (auto Err = MP.registerPerObjectSections(POSR)) return Err; } return Error::success(); }); } Error ELFNixPlatform::ELFNixPlatformPlugin::preserveInitSections( jitlink::LinkGraph &G, MaterializationResponsibility &MR) { JITLinkSymbolSet InitSectionSymbols; for (auto &InitSectionName : InitSectionNames) { // Skip non-init sections. auto *InitSection = G.findSectionByName(InitSectionName); if (!InitSection) continue; // Make a pass over live symbols in the section: those blocks are already // preserved. DenseSet AlreadyLiveBlocks; for (auto &Sym : InitSection->symbols()) { auto &B = Sym->getBlock(); if (Sym->isLive() && Sym->getOffset() == 0 && Sym->getSize() == B.getSize() && !AlreadyLiveBlocks.count(&B)) { InitSectionSymbols.insert(Sym); AlreadyLiveBlocks.insert(&B); } } // Add anonymous symbols to preserve any not-already-preserved blocks. for (auto *B : InitSection->blocks()) if (!AlreadyLiveBlocks.count(B)) InitSectionSymbols.insert( &G.addAnonymousSymbol(*B, 0, B->getSize(), false, true)); } if (!InitSectionSymbols.empty()) { std::lock_guard Lock(PluginMutex); InitSymbolDeps[&MR] = std::move(InitSectionSymbols); } return Error::success(); } Error ELFNixPlatform::ELFNixPlatformPlugin::registerInitSections( jitlink::LinkGraph &G, JITDylib &JD) { SmallVector InitSections; LLVM_DEBUG({ dbgs() << "ELFNixPlatform::registerInitSections\n"; }); for (auto InitSectionName : InitSectionNames) { if (auto *Sec = G.findSectionByName(InitSectionName)) { InitSections.push_back(Sec); } } // Dump the scraped inits. LLVM_DEBUG({ dbgs() << "ELFNixPlatform: Scraped " << G.getName() << " init sections:\n"; for (auto *Sec : InitSections) { jitlink::SectionRange R(*Sec); dbgs() << " " << Sec->getName() << ": " << formatv("[ {0:x} -- {1:x} ]", R.getStart(), R.getEnd()) << "\n"; } }); return MP.registerInitInfo(JD, InitSections); } Error ELFNixPlatform::ELFNixPlatformPlugin::fixTLVSectionsAndEdges( jitlink::LinkGraph &G, JITDylib &JD) { // TODO implement TLV support for (auto *Sym : G.external_symbols()) if (Sym->getName() == "__tls_get_addr") { Sym->setName("___orc_rt_elfnix_tls_get_addr"); } auto *TLSInfoEntrySection = G.findSectionByName("$__TLSINFO"); if (TLSInfoEntrySection) { Optional Key; { std::lock_guard Lock(MP.PlatformMutex); auto I = MP.JITDylibToPThreadKey.find(&JD); if (I != MP.JITDylibToPThreadKey.end()) Key = I->second; } if (!Key) { if (auto KeyOrErr = MP.createPThreadKey()) Key = *KeyOrErr; else return KeyOrErr.takeError(); } uint64_t PlatformKeyBits = support::endian::byte_swap(*Key, G.getEndianness()); for (auto *B : TLSInfoEntrySection->blocks()) { // FIXME: The TLS descriptor byte length may different with different // ISA assert(B->getSize() == (G.getPointerSize() * 2) && "TLS descriptor must be 2 words length"); auto TLSInfoEntryContent = B->getMutableContent(G); memcpy(TLSInfoEntryContent.data(), &PlatformKeyBits, G.getPointerSize()); } } return Error::success(); } } // End namespace orc. } // End namespace llvm.