//===-- ELFNixPlatform.h -- Utilities for executing ELF in Orc --*- C++ -*-===// // // 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 // //===----------------------------------------------------------------------===// // // Linux/BSD support for executing JIT'd ELF in Orc. // //===----------------------------------------------------------------------===// #ifndef LLVM_EXECUTIONENGINE_ORC_ELFNIXPLATFORM_H #define LLVM_EXECUTIONENGINE_ORC_ELFNIXPLATFORM_H #include "llvm/ADT/StringRef.h" #include "llvm/ExecutionEngine/Orc/Core.h" #include "llvm/ExecutionEngine/Orc/ExecutorProcessControl.h" #include "llvm/ExecutionEngine/Orc/ObjectLinkingLayer.h" #include "llvm/ExecutionEngine/Orc/Shared/ExecutorAddress.h" #include #include #include namespace llvm { namespace orc { struct ELFPerObjectSectionsToRegister { ExecutorAddrRange EHFrameSection; ExecutorAddrRange ThreadDataSection; }; struct ELFNixJITDylibInitializers { using SectionList = std::vector; ELFNixJITDylibInitializers(std::string Name, ExecutorAddr DSOHandleAddress) : Name(std::move(Name)), DSOHandleAddress(std::move(DSOHandleAddress)) {} std::string Name; ExecutorAddr DSOHandleAddress; StringMap InitSections; }; class ELFNixJITDylibDeinitializers {}; using ELFNixJITDylibInitializerSequence = std::vector; using ELFNixJITDylibDeinitializerSequence = std::vector; /// Mediates between ELFNix initialization and ExecutionSession state. class ELFNixPlatform : public Platform { public: /// Try to create a ELFNixPlatform instance, adding the ORC runtime to the /// given JITDylib. /// /// The ORC runtime requires access to a number of symbols in /// libc++. It is up to the caller to ensure that the requried /// symbols can be referenced by code added to PlatformJD. The /// standard way to achieve this is to first attach dynamic library /// search generators for either the given process, or for the /// specific required libraries, to PlatformJD, then to create the /// platform instance: /// /// \code{.cpp} /// auto &PlatformJD = ES.createBareJITDylib("stdlib"); /// PlatformJD.addGenerator( /// ExitOnErr(EPCDynamicLibrarySearchGenerator /// ::GetForTargetProcess(EPC))); /// ES.setPlatform( /// ExitOnErr(ELFNixPlatform::Create(ES, ObjLayer, EPC, PlatformJD, /// "/path/to/orc/runtime"))); /// \endcode /// /// Alternatively, these symbols could be added to another JITDylib that /// PlatformJD links against. /// /// Clients are also responsible for ensuring that any JIT'd code that /// depends on runtime functions (including any code using TLV or static /// destructors) can reference the runtime symbols. This is usually achieved /// by linking any JITDylibs containing regular code against /// PlatformJD. /// /// By default, ELFNixPlatform will add the set of aliases returned by the /// standardPlatformAliases function. This includes both required aliases /// (e.g. __cxa_atexit -> __orc_rt_elf_cxa_atexit for static destructor /// support), and optional aliases that provide JIT versions of common /// functions (e.g. dlopen -> __orc_rt_elf_jit_dlopen). Clients can /// override these defaults by passing a non-None value for the /// RuntimeAliases function, in which case the client is responsible for /// setting up all aliases (including the required ones). static Expected> Create(ExecutionSession &ES, ObjectLinkingLayer &ObjLinkingLayer, JITDylib &PlatformJD, const char *OrcRuntimePath, std::optional RuntimeAliases = std::nullopt); ExecutionSession &getExecutionSession() const { return ES; } ObjectLinkingLayer &getObjectLinkingLayer() const { return ObjLinkingLayer; } Error setupJITDylib(JITDylib &JD) override; Error teardownJITDylib(JITDylib &JD) override; Error notifyAdding(ResourceTracker &RT, const MaterializationUnit &MU) override; Error notifyRemoving(ResourceTracker &RT) override; /// Returns an AliasMap containing the default aliases for the ELFNixPlatform. /// This can be modified by clients when constructing the platform to add /// or remove aliases. static Expected standardPlatformAliases(ExecutionSession &ES, JITDylib &PlatformJD); /// Returns the array of required CXX aliases. static ArrayRef> requiredCXXAliases(); /// Returns the array of standard runtime utility aliases for ELF. static ArrayRef> standardRuntimeUtilityAliases(); /// Returns true if the given section name is an initializer section. static bool isInitializerSection(StringRef SecName); private: // The ELFNixPlatformPlugin scans/modifies LinkGraphs to support ELF // platform features including initializers, exceptions, TLV, and language // runtime registration. class ELFNixPlatformPlugin : public ObjectLinkingLayer::Plugin { public: ELFNixPlatformPlugin(ELFNixPlatform &MP) : MP(MP) {} void modifyPassConfig(MaterializationResponsibility &MR, jitlink::LinkGraph &G, jitlink::PassConfiguration &Config) override; SyntheticSymbolDependenciesMap getSyntheticSymbolDependencies(MaterializationResponsibility &MR) override; // FIXME: We should be tentatively tracking scraped sections and discarding // if the MR fails. Error notifyFailed(MaterializationResponsibility &MR) override { return Error::success(); } Error notifyRemovingResources(JITDylib &JD, ResourceKey K) override { return Error::success(); } void notifyTransferringResources(JITDylib &JD, ResourceKey DstKey, ResourceKey SrcKey) override {} private: using InitSymbolDepMap = DenseMap; void addInitializerSupportPasses(MaterializationResponsibility &MR, jitlink::PassConfiguration &Config); void addDSOHandleSupportPasses(MaterializationResponsibility &MR, jitlink::PassConfiguration &Config); void addEHAndTLVSupportPasses(MaterializationResponsibility &MR, jitlink::PassConfiguration &Config); Error preserveInitSections(jitlink::LinkGraph &G, MaterializationResponsibility &MR); Error registerInitSections(jitlink::LinkGraph &G, JITDylib &JD); Error fixTLVSectionsAndEdges(jitlink::LinkGraph &G, JITDylib &JD); std::mutex PluginMutex; ELFNixPlatform &MP; InitSymbolDepMap InitSymbolDeps; }; using SendInitializerSequenceFn = unique_function)>; using SendDeinitializerSequenceFn = unique_function)>; using SendSymbolAddressFn = unique_function)>; static bool supportedTarget(const Triple &TT); ELFNixPlatform(ExecutionSession &ES, ObjectLinkingLayer &ObjLinkingLayer, JITDylib &PlatformJD, std::unique_ptr OrcRuntimeGenerator, Error &Err); // Associate ELFNixPlatform JIT-side runtime support functions with handlers. Error associateRuntimeSupportFunctions(JITDylib &PlatformJD); void getInitializersBuildSequencePhase(SendInitializerSequenceFn SendResult, JITDylib &JD, std::vector DFSLinkOrder); void getInitializersLookupPhase(SendInitializerSequenceFn SendResult, JITDylib &JD); void rt_getInitializers(SendInitializerSequenceFn SendResult, StringRef JDName); void rt_getDeinitializers(SendDeinitializerSequenceFn SendResult, ExecutorAddr Handle); void rt_lookupSymbol(SendSymbolAddressFn SendResult, ExecutorAddr Handle, StringRef SymbolName); // Records the addresses of runtime symbols used by the platform. Error bootstrapELFNixRuntime(JITDylib &PlatformJD); Error registerInitInfo(JITDylib &JD, ArrayRef InitSections); Error registerPerObjectSections(const ELFPerObjectSectionsToRegister &POSR); Expected createPThreadKey(); ExecutionSession &ES; ObjectLinkingLayer &ObjLinkingLayer; SymbolStringPtr DSOHandleSymbol; std::atomic RuntimeBootstrapped{false}; ExecutorAddr orc_rt_elfnix_platform_bootstrap; ExecutorAddr orc_rt_elfnix_platform_shutdown; ExecutorAddr orc_rt_elfnix_register_object_sections; ExecutorAddr orc_rt_elfnix_create_pthread_key; DenseMap RegisteredInitSymbols; // InitSeqs gets its own mutex to avoid locking the whole session when // aggregating data from the jitlink. std::mutex PlatformMutex; DenseMap InitSeqs; std::vector BootstrapPOSRs; DenseMap HandleAddrToJITDylib; DenseMap JITDylibToPThreadKey; }; namespace shared { using SPSELFPerObjectSectionsToRegister = SPSTuple; template <> class SPSSerializationTraits { public: static size_t size(const ELFPerObjectSectionsToRegister &MOPOSR) { return SPSELFPerObjectSectionsToRegister::AsArgList::size( MOPOSR.EHFrameSection, MOPOSR.ThreadDataSection); } static bool serialize(SPSOutputBuffer &OB, const ELFPerObjectSectionsToRegister &MOPOSR) { return SPSELFPerObjectSectionsToRegister::AsArgList::serialize( OB, MOPOSR.EHFrameSection, MOPOSR.ThreadDataSection); } static bool deserialize(SPSInputBuffer &IB, ELFPerObjectSectionsToRegister &MOPOSR) { return SPSELFPerObjectSectionsToRegister::AsArgList::deserialize( IB, MOPOSR.EHFrameSection, MOPOSR.ThreadDataSection); } }; using SPSNamedExecutorAddrRangeSequenceMap = SPSSequence>; using SPSELFNixJITDylibInitializers = SPSTuple; using SPSELFNixJITDylibInitializerSequence = SPSSequence; /// Serialization traits for ELFNixJITDylibInitializers. template <> class SPSSerializationTraits { public: static size_t size(const ELFNixJITDylibInitializers &MOJDIs) { return SPSELFNixJITDylibInitializers::AsArgList::size( MOJDIs.Name, MOJDIs.DSOHandleAddress, MOJDIs.InitSections); } static bool serialize(SPSOutputBuffer &OB, const ELFNixJITDylibInitializers &MOJDIs) { return SPSELFNixJITDylibInitializers::AsArgList::serialize( OB, MOJDIs.Name, MOJDIs.DSOHandleAddress, MOJDIs.InitSections); } static bool deserialize(SPSInputBuffer &IB, ELFNixJITDylibInitializers &MOJDIs) { return SPSELFNixJITDylibInitializers::AsArgList::deserialize( IB, MOJDIs.Name, MOJDIs.DSOHandleAddress, MOJDIs.InitSections); } }; using SPSELFJITDylibDeinitializers = SPSEmpty; using SPSELFJITDylibDeinitializerSequence = SPSSequence; template <> class SPSSerializationTraits { public: static size_t size(const ELFNixJITDylibDeinitializers &MOJDDs) { return 0; } static bool serialize(SPSOutputBuffer &OB, const ELFNixJITDylibDeinitializers &MOJDDs) { return true; } static bool deserialize(SPSInputBuffer &IB, ELFNixJITDylibDeinitializers &MOJDDs) { MOJDDs = ELFNixJITDylibDeinitializers(); return true; } }; } // end namespace shared } // end namespace orc } // end namespace llvm #endif // LLVM_EXECUTIONENGINE_ORC_ELFNIXPLATFORM_H