doxygen/MachOPlatform_8cpp_source.html

//===------ MachOPlatform.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/MachOPlatform.h"


#include "llvm/BinaryFormat/MachO.h"

#include "llvm/ExecutionEngine/JITLink/MachO.h"

#include "llvm/ExecutionEngine/JITLink/aarch64.h"

#include "llvm/ExecutionEngine/JITLink/x86_64.h"

#include "llvm/ExecutionEngine/Orc/DebugUtils.h"

#include "llvm/ExecutionEngine/Orc/ExecutionUtils.h"

#include "llvm/ExecutionEngine/Orc/LookupAndRecordAddrs.h"

#include "llvm/ExecutionEngine/Orc/MachOBuilder.h"

#include "llvm/ExecutionEngine/Orc/Shared/ObjectFormats.h"

#include "llvm/Support/BinaryByteStream.h"

#include "llvm/Support/Debug.h"

#include <optional>


#define DEBUG_TYPE "orc"


using namespace llvm;

using namespace llvm::orc;

using namespace llvm::orc::shared;


namespace llvm {

namespace orc {

namespace shared {


using SPSMachOJITDylibDepInfo = SPSTuple<bool, SPSSequence<SPSExecutorAddr>>;

using SPSMachOJITDylibDepInfoMap =

    SPSSequence<SPSTuple<SPSExecutorAddr, SPSMachOJITDylibDepInfo>>;


class SPSMachOExecutorSymbolFlags;


template <>

class SPSSerializationTraits<SPSMachOJITDylibDepInfo,

                             MachOPlatform::MachOJITDylibDepInfo> {

public:

  static size_t size(const MachOPlatform::MachOJITDylibDepInfo &DDI) {

    return SPSMachOJITDylibDepInfo::AsArgList::size(DDI.Sealed, DDI.DepHeaders);

  }


  static bool serialize(SPSOutputBuffer &OB,

                        const MachOPlatform::MachOJITDylibDepInfo &DDI) {

    return SPSMachOJITDylibDepInfo::AsArgList::serialize(OB, DDI.Sealed,

                                                         DDI.DepHeaders);

  }


  static bool deserialize(SPSInputBuffer &IB,

                          MachOPlatform::MachOJITDylibDepInfo &DDI) {

    return SPSMachOJITDylibDepInfo::AsArgList::deserialize(IB, DDI.Sealed,

                                                           DDI.DepHeaders);

  }

};


template <>

class SPSSerializationTraits<SPSMachOExecutorSymbolFlags,

                             MachOPlatform::MachOExecutorSymbolFlags> {

private:

  using UT = std::underlying_type_t<MachOPlatform::MachOExecutorSymbolFlags>;


public:

  static size_t size(const MachOPlatform::MachOExecutorSymbolFlags &SF) {

    return sizeof(UT);

  }


  static bool serialize(SPSOutputBuffer &OB,

                        const MachOPlatform::MachOExecutorSymbolFlags &SF) {

    return SPSArgList<UT>::serialize(OB, static_cast<UT>(SF));

  }


  static bool deserialize(SPSInputBuffer &IB,

                          MachOPlatform::MachOExecutorSymbolFlags &SF) {

    UT Tmp;

    if (!SPSArgList<UT>::deserialize(IB, Tmp))

      return false;

    SF = static_cast<MachOPlatform::MachOExecutorSymbolFlags>(Tmp);

    return true;

  }

};


} // namespace shared

} // namespace orc

} // namespace llvm


namespace {


using SPSRegisterSymbolsArgs =

    SPSArgList<SPSExecutorAddr,

               SPSSequence<SPSTuple<SPSExecutorAddr, SPSExecutorAddr,

                                    SPSMachOExecutorSymbolFlags>>>;


std::unique_ptr<jitlink::LinkGraph> createPlatformGraph(MachOPlatform &MOP,

                                                        std::string Name) {

  unsigned PointerSize;

  llvm::endianness Endianness;

  const auto &TT = MOP.getExecutionSession().getTargetTriple();


  switch (TT.getArch()) {

  case Triple::aarch64:

  case Triple::x86_64:

    PointerSize = 8;

    Endianness = llvm::endianness::little;

    break;

  default:

    llvm_unreachable("Unrecognized architecture");

  }


  return std::make_unique<jitlink::LinkGraph>(std::move(Name), TT, PointerSize,

                                              Endianness,

                                              jitlink::getGenericEdgeKindName);

}


// Creates a Bootstrap-Complete LinkGraph to run deferred actions.

class MachOPlatformCompleteBootstrapMaterializationUnit

    : public MaterializationUnit {

public:

  using SymbolTableVector =

      SmallVector<std::tuple<ExecutorAddr, ExecutorAddr,

                             MachOPlatform::MachOExecutorSymbolFlags>>;


  MachOPlatformCompleteBootstrapMaterializationUnit(

      MachOPlatform &MOP, StringRef PlatformJDName,

      SymbolStringPtr CompleteBootstrapSymbol, SymbolTableVector SymTab,

      shared::AllocActions DeferredAAs, ExecutorAddr MachOHeaderAddr,

      ExecutorAddr PlatformBootstrap, ExecutorAddr PlatformShutdown,

      ExecutorAddr RegisterJITDylib, ExecutorAddr DeregisterJITDylib,

      ExecutorAddr RegisterObjectSymbolTable,

      ExecutorAddr DeregisterObjectSymbolTable)

      : MaterializationUnit(

            {{{CompleteBootstrapSymbol, JITSymbolFlags::None}}, nullptr}),

        MOP(MOP), PlatformJDName(PlatformJDName),

        CompleteBootstrapSymbol(std::move(CompleteBootstrapSymbol)),

        SymTab(std::move(SymTab)), DeferredAAs(std::move(DeferredAAs)),

        MachOHeaderAddr(MachOHeaderAddr), PlatformBootstrap(PlatformBootstrap),

        PlatformShutdown(PlatformShutdown), RegisterJITDylib(RegisterJITDylib),

        DeregisterJITDylib(DeregisterJITDylib),

        RegisterObjectSymbolTable(RegisterObjectSymbolTable),

        DeregisterObjectSymbolTable(DeregisterObjectSymbolTable) {}


  StringRef getName() const override {

    return "MachOPlatformCompleteBootstrap";

  }


  void materialize(std::unique_ptr<MaterializationResponsibility> R) override {

    using namespace jitlink;

    auto G = createPlatformGraph(MOP, "<OrcRTCompleteBootstrap>");

    auto &PlaceholderSection =

        G->createSection("__orc_rt_cplt_bs", MemProt::Read);

    auto &PlaceholderBlock =

        G->createZeroFillBlock(PlaceholderSection, 1, ExecutorAddr(), 1, 0);

    G->addDefinedSymbol(PlaceholderBlock, 0, *CompleteBootstrapSymbol, 1,

                        Linkage::Strong, Scope::Hidden, false, true);


    // Reserve space for the stolen actions, plus two extras.

    G->allocActions().reserve(DeferredAAs.size() + 3);


    // 1. Bootstrap the platform support code.

    G->allocActions().push_back(

        {cantFail(WrapperFunctionCall::Create<SPSArgList<>>(PlatformBootstrap)),

         cantFail(

             WrapperFunctionCall::Create<SPSArgList<>>(PlatformShutdown))});


    // 2. Register the platform JITDylib.

    G->allocActions().push_back(

        {cantFail(WrapperFunctionCall::Create<

                  SPSArgList<SPSString, SPSExecutorAddr>>(

             RegisterJITDylib, PlatformJDName, MachOHeaderAddr)),

         cantFail(WrapperFunctionCall::Create<SPSArgList<SPSExecutorAddr>>(

             DeregisterJITDylib, MachOHeaderAddr))});


    // 3. Register deferred symbols.

    G->allocActions().push_back(

        {cantFail(WrapperFunctionCall::Create<SPSRegisterSymbolsArgs>(

             RegisterObjectSymbolTable, MachOHeaderAddr, SymTab)),

         cantFail(WrapperFunctionCall::Create<SPSRegisterSymbolsArgs>(

             DeregisterObjectSymbolTable, MachOHeaderAddr, SymTab))});


    // 4. Add the deferred actions to the graph.

    std::move(DeferredAAs.begin(), DeferredAAs.end(),

              std::back_inserter(G->allocActions()));


    MOP.getObjectLinkingLayer().emit(std::move(R), std::move(G));

  }


  void discard(const JITDylib &JD, const SymbolStringPtr &Sym) override {}


private:

  MachOPlatform &MOP;

  StringRef PlatformJDName;

  SymbolStringPtr CompleteBootstrapSymbol;

  SymbolTableVector SymTab;

  shared::AllocActions DeferredAAs;

  ExecutorAddr MachOHeaderAddr;

  ExecutorAddr PlatformBootstrap;

  ExecutorAddr PlatformShutdown;

  ExecutorAddr RegisterJITDylib;

  ExecutorAddr DeregisterJITDylib;

  ExecutorAddr RegisterObjectSymbolTable;

  ExecutorAddr DeregisterObjectSymbolTable;

};


static StringRef ObjCRuntimeObjectSectionsData[] = {

    MachOObjCCatListSectionName,   MachOObjCCatList2SectionName,

    MachOObjCClassListSectionName, MachOObjCClassRefsSectionName,

    MachOObjCConstSectionName,     MachOObjCDataSectionName,

    MachOObjCProtoListSectionName, MachOObjCProtoRefsSectionName,

    MachOObjCNLCatListSectionName, MachOObjCNLClassListSectionName,

    MachOObjCSelRefsSectionName};


static StringRef ObjCRuntimeObjectSectionsText[] = {

    MachOObjCClassNameSectionName, MachOObjCMethNameSectionName,

    MachOObjCMethTypeSectionName,  MachOSwift5TypesSectionName,

    MachOSwift5TypeRefSectionName, MachOSwift5FieldMetadataSectionName,

    MachOSwift5EntrySectionName,   MachOSwift5ProtoSectionName,

    MachOSwift5ProtosSectionName};


static StringRef ObjCRuntimeObjectSectionName =

    "__llvm_jitlink_ObjCRuntimeRegistrationObject";


static StringRef ObjCImageInfoSymbolName =

    "__llvm_jitlink_macho_objc_imageinfo";


struct ObjCImageInfoFlags {

  uint16_t SwiftABIVersion;

  uint16_t SwiftVersion;

  bool HasCategoryClassProperties;

  bool HasSignedObjCClassROs;


  static constexpr uint32_t SIGNED_CLASS_RO = (1 << 4);

  static constexpr uint32_t HAS_CATEGORY_CLASS_PROPERTIES = (1 << 6);


  explicit ObjCImageInfoFlags(uint32_t RawFlags) {

    HasSignedObjCClassROs = RawFlags & SIGNED_CLASS_RO;

    HasCategoryClassProperties = RawFlags & HAS_CATEGORY_CLASS_PROPERTIES;

    SwiftABIVersion = (RawFlags >> 8) & 0xFF;

    SwiftVersion = (RawFlags >> 16) & 0xFFFF;

  }


  uint32_t rawFlags() const {

    uint32_t Result = 0;

    if (HasCategoryClassProperties)

      Result |= HAS_CATEGORY_CLASS_PROPERTIES;

    if (HasSignedObjCClassROs)

      Result |= SIGNED_CLASS_RO;

    Result |= (SwiftABIVersion << 8);

    Result |= (SwiftVersion << 16);

    return Result;

  }

};

} // end anonymous namespace


namespace llvm {

namespace orc {


std::optional<MachOPlatform::HeaderOptions::BuildVersionOpts>

MachOPlatform::HeaderOptions::BuildVersionOpts::fromTriple(const Triple &TT,

                                                           uint32_t MinOS,

                                                           uint32_t SDK) {


  uint32_t Platform;

  switch (TT.getOS()) {

  case Triple::IOS:

    Platform = TT.isSimulatorEnvironment() ? MachO::PLATFORM_IOSSIMULATOR

                                           : MachO::PLATFORM_IOS;

    break;

  case Triple::MacOSX:

    Platform = MachO::PLATFORM_MACOS;

    break;

  case Triple::TvOS:

    Platform = TT.isSimulatorEnvironment() ? MachO::PLATFORM_TVOSSIMULATOR

                                           : MachO::PLATFORM_TVOS;

    break;

  case Triple::WatchOS:

    Platform = TT.isSimulatorEnvironment() ? MachO::PLATFORM_WATCHOSSIMULATOR

                                           : MachO::PLATFORM_WATCHOS;

    break;

  case Triple::XROS:

    Platform = TT.isSimulatorEnvironment() ? MachO::PLATFORM_XROS_SIMULATOR

                                           : MachO::PLATFORM_XROS;

    break;

  default:

    return std::nullopt;

  }


  return MachOPlatform::HeaderOptions::BuildVersionOpts{Platform, MinOS, SDK};

}


Expected<std::unique_ptr<MachOPlatform>> MachOPlatform::Create(

    ExecutionSession &ES, ObjectLinkingLayer &ObjLinkingLayer,

    JITDylib &PlatformJD, std::unique_ptr<DefinitionGenerator> OrcRuntime,

    HeaderOptions PlatformJDOpts, MachOHeaderMUBuilder BuildMachOHeaderMU,

    std::optional<SymbolAliasMap> RuntimeAliases) {


  // If the target is not supported then bail out immediately.

  if (!supportedTarget(ES.getTargetTriple()))

    return make_error<StringError>("Unsupported MachOPlatform triple: " +

                                       ES.getTargetTriple().str(),

                                   inconvertibleErrorCode());


  auto &EPC = ES.getExecutorProcessControl();


  // 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,

                             JITSymbolFlags::Exported}},

                           {ES.intern("___orc_rt_jit_dispatch_ctx"),

                            {EPC.getJITDispatchInfo().JITDispatchContext,

                             JITSymbolFlags::Exported}}})))

    return std::move(Err);


  // Create the instance.

  Error Err = Error::success();

  auto P = std::unique_ptr<MachOPlatform>(new MachOPlatform(

      ES, ObjLinkingLayer, PlatformJD, std::move(OrcRuntime),

      std::move(PlatformJDOpts), std::move(BuildMachOHeaderMU), Err));

  if (Err)

    return std::move(Err);

  return std::move(P);

}


Expected<std::unique_ptr<MachOPlatform>>

MachOPlatform::Create(ExecutionSession &ES, ObjectLinkingLayer &ObjLinkingLayer,

                      JITDylib &PlatformJD, const char *OrcRuntimePath,

                      HeaderOptions PlatformJDOpts,

                      MachOHeaderMUBuilder BuildMachOHeaderMU,

                      std::optional<SymbolAliasMap> RuntimeAliases) {


  // Create a generator for the ORC runtime archive.

  auto OrcRuntimeArchiveGenerator =

      StaticLibraryDefinitionGenerator::Load(ObjLinkingLayer, OrcRuntimePath);

  if (!OrcRuntimeArchiveGenerator)

    return OrcRuntimeArchiveGenerator.takeError();


  return Create(ES, ObjLinkingLayer, PlatformJD,

                std::move(*OrcRuntimeArchiveGenerator),

                std::move(PlatformJDOpts), std::move(BuildMachOHeaderMU),

                std::move(RuntimeAliases));

}


Error MachOPlatform::setupJITDylib(JITDylib &JD) {

  return setupJITDylib(JD, /*Opts=*/{});

}


Error MachOPlatform::setupJITDylib(JITDylib &JD, HeaderOptions Opts) {

  if (auto Err = JD.define(BuildMachOHeaderMU(*this, std::move(Opts))))

    return Err;


  return ES.lookup({&JD}, MachOHeaderStartSymbol).takeError();

}


Error MachOPlatform::teardownJITDylib(JITDylib &JD) {

  std::lock_guard<std::mutex> Lock(PlatformMutex);

  auto I = JITDylibToHeaderAddr.find(&JD);

  if (I != JITDylibToHeaderAddr.end()) {

    assert(HeaderAddrToJITDylib.count(I->second) &&

           "HeaderAddrToJITDylib missing entry");

    HeaderAddrToJITDylib.erase(I->second);

    JITDylibToHeaderAddr.erase(I);

  }

  JITDylibToPThreadKey.erase(&JD);

  return Error::success();

}


Error MachOPlatform::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() << "MachOPlatform: Registered init symbol " << *InitSym << " for MU "

           << MU.getName() << "\n";

  });

  return Error::success();

}


Error MachOPlatform::notifyRemoving(ResourceTracker &RT) {

  llvm_unreachable("Not supported yet");

}


static void addAliases(ExecutionSession &ES, SymbolAliasMap &Aliases,

                       ArrayRef<std::pair<const char *, const char *>> 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 MachOPlatform::standardPlatformAliases(ExecutionSession &ES) {

  SymbolAliasMap Aliases;

  addAliases(ES, Aliases, requiredCXXAliases());

  addAliases(ES, Aliases, standardRuntimeUtilityAliases());

  return Aliases;

}


ArrayRef<std::pair<const char *, const char *>>

MachOPlatform::requiredCXXAliases() {

  static const std::pair<const char *, const char *> RequiredCXXAliases[] = {

      {"___cxa_atexit", "___orc_rt_macho_cxa_atexit"}};


  return ArrayRef<std::pair<const char *, const char *>>(RequiredCXXAliases);

}


ArrayRef<std::pair<const char *, const char *>>

MachOPlatform::standardRuntimeUtilityAliases() {

  static const std::pair<const char *, const char *>

      StandardRuntimeUtilityAliases[] = {

          {"___orc_rt_run_program", "___orc_rt_macho_run_program"},

          {"___orc_rt_jit_dlerror", "___orc_rt_macho_jit_dlerror"},

          {"___orc_rt_jit_dlopen", "___orc_rt_macho_jit_dlopen"},

          {"___orc_rt_jit_dlclose", "___orc_rt_macho_jit_dlclose"},

          {"___orc_rt_jit_dlsym", "___orc_rt_macho_jit_dlsym"},

          {"___orc_rt_log_error", "___orc_rt_log_error_to_stderr"}};


  return ArrayRef<std::pair<const char *, const char *>>(

      StandardRuntimeUtilityAliases);

}


bool MachOPlatform::supportedTarget(const Triple &TT) {

  switch (TT.getArch()) {

  case Triple::aarch64:

  case Triple::x86_64:

    return true;

  default:

    return false;

  }

}


jitlink::Edge::Kind MachOPlatform::getPointerEdgeKind(jitlink::LinkGraph &G) {

  switch (G.getTargetTriple().getArch()) {

  case Triple::aarch64:

    return jitlink::aarch64::Pointer64;

  case Triple::x86_64:

    return jitlink::x86_64::Pointer64;

  default:

    llvm_unreachable("Unsupported architecture");

  }

}


MachOPlatform::MachOExecutorSymbolFlags

MachOPlatform::flagsForSymbol(jitlink::Symbol &Sym) {

  MachOPlatform::MachOExecutorSymbolFlags Flags{};

  if (Sym.getLinkage() == jitlink::Linkage::Weak)

    Flags |= MachOExecutorSymbolFlags::Weak;


  if (Sym.isCallable())

    Flags |= MachOExecutorSymbolFlags::Callable;


  return Flags;

}


MachOPlatform::MachOPlatform(

    ExecutionSession &ES, ObjectLinkingLayer &ObjLinkingLayer,

    JITDylib &PlatformJD,

    std::unique_ptr<DefinitionGenerator> OrcRuntimeGenerator,

    HeaderOptions PlatformJDOpts, MachOHeaderMUBuilder BuildMachOHeaderMU,

    Error &Err)

    : ES(ES), PlatformJD(PlatformJD), ObjLinkingLayer(ObjLinkingLayer),

      BuildMachOHeaderMU(std::move(BuildMachOHeaderMU)) {

  ErrorAsOutParameter _(&Err);

  ObjLinkingLayer.addPlugin(std::make_unique<MachOPlatformPlugin>(*this));

  PlatformJD.addGenerator(std::move(OrcRuntimeGenerator));


  BootstrapInfo BI;

  Bootstrap = &BI;


  // Bootstrap process -- here be phase-ordering dragons.

  //

  // The MachOPlatform class uses allocation actions to register metadata

  // sections with the ORC runtime, however the runtime contains metadata

  // registration functions that have their own metadata that they need to

  // register (e.g. the frame-info registration functions have frame-info).

  // We can't use an ordinary lookup to find these registration functions

  // because their address is needed during the link of the containing graph

  // itself (to build the allocation actions that will call the registration

  // functions). Further complicating the situation (a) the graph containing

  // the registration functions is allowed to depend on other graphs (e.g. the

  // graph containing the ORC runtime RTTI support) so we need to handle an

  // unknown set of dependencies during bootstrap, and (b) these graphs may

  // be linked concurrently if the user has installed a concurrent dispatcher.

  //

  // We satisfy these constraints by implementing a bootstrap phase during which

  // allocation actions generated by MachOPlatform are appended to a list of

  // deferred allocation actions, rather than to the graphs themselves. At the

  // end of the bootstrap process the deferred actions are attached to a final

  // "complete-bootstrap" graph that causes them to be run.

  //

  // The bootstrap steps are as follows:

  //

  // 1. Request the graph containing the mach header. This graph is guaranteed

  //    not to have any metadata so the fact that the registration functions

  //    are not available yet is not a problem.

  //

  // 2. Look up the registration functions and discard the results. This will

  //    trigger linking of the graph containing these functions, and

  //    consequently any graphs that it depends on. We do not use the lookup

  //    result to find the addresses of the functions requested (as described

  //    above the lookup will return too late for that), instead we capture the

  //    addresses in a post-allocation pass injected by the platform runtime

  //    during bootstrap only.

  //

  // 3. During bootstrap the MachOPlatformPlugin keeps a count of the number of

  //    graphs being linked (potentially concurrently), and we block until all

  //    of these graphs have completed linking. This is to avoid a race on the

  //    deferred-actions vector: the lookup for the runtime registration

  //    functions may return while some functions (those that are being

  //    incidentally linked in, but aren't reachable via the runtime functions)

  //    are still being linked, and we need to capture any allocation actions

  //    for this incidental code before we proceed.

  //

  // 4. Once all active links are complete we transfer the deferred actions to

  //    a newly added CompleteBootstrap graph and then request a symbol from

  //    the CompleteBootstrap graph to trigger materialization. This will cause

  //    all deferred actions to be run, and once this lookup returns we can

  //    proceed.

  //

  // 5. Finally, we associate runtime support methods in MachOPlatform with

  //    the corresponding jit-dispatch tag variables in the ORC runtime to make

  //    the support methods callable. The bootstrap is now complete.


  // Step (1) Add header materialization unit and request.

  if ((Err = PlatformJD.define(

           this->BuildMachOHeaderMU(*this, std::move(PlatformJDOpts)))))

    return;

  if ((Err = ES.lookup(&PlatformJD, MachOHeaderStartSymbol).takeError()))

    return;


  // Step (2) Request runtime registration functions to trigger

  // materialization..

  if ((Err = ES.lookup(makeJITDylibSearchOrder(&PlatformJD),

                       SymbolLookupSet(

                           {PlatformBootstrap.Name, PlatformShutdown.Name,

                            RegisterJITDylib.Name, DeregisterJITDylib.Name,

                            RegisterObjectSymbolTable.Name,

                            DeregisterObjectSymbolTable.Name,

                            RegisterObjectPlatformSections.Name,

                            DeregisterObjectPlatformSections.Name,

                            CreatePThreadKey.Name}))

                 .takeError()))

    return;


  // Step (3) Wait for any incidental linker work to complete.

  {

    std::unique_lock<std::mutex> Lock(BI.Mutex);

    BI.CV.wait(Lock, [&]() { return BI.ActiveGraphs == 0; });

    Bootstrap = nullptr;

  }


  // Step (4) Add complete-bootstrap materialization unit and request.

  auto BootstrapCompleteSymbol = ES.intern("__orc_rt_macho_complete_bootstrap");

  if ((Err = PlatformJD.define(

           std::make_unique<MachOPlatformCompleteBootstrapMaterializationUnit>(

               *this, PlatformJD.getName(), BootstrapCompleteSymbol,

               std::move(BI.SymTab), std::move(BI.DeferredAAs),

               BI.MachOHeaderAddr, PlatformBootstrap.Addr,

               PlatformShutdown.Addr, RegisterJITDylib.Addr,

               DeregisterJITDylib.Addr, RegisterObjectSymbolTable.Addr,

               DeregisterObjectSymbolTable.Addr))))

    return;

  if ((Err = ES.lookup(makeJITDylibSearchOrder(

                           &PlatformJD, JITDylibLookupFlags::MatchAllSymbols),

                       std::move(BootstrapCompleteSymbol))

                 .takeError()))

    return;


  // (5) Associate runtime support functions.

  if ((Err = associateRuntimeSupportFunctions()))

    return;

}


Error MachOPlatform::associateRuntimeSupportFunctions() {

  ExecutionSession::JITDispatchHandlerAssociationMap WFs;


  using PushInitializersSPSSig =

      SPSExpected<SPSMachOJITDylibDepInfoMap>(SPSExecutorAddr);

  WFs[ES.intern("___orc_rt_macho_push_initializers_tag")] =

      ES.wrapAsyncWithSPS<PushInitializersSPSSig>(

          this, &MachOPlatform::rt_pushInitializers);


  using PushSymbolsSPSSig =

      SPSError(SPSExecutorAddr, SPSSequence<SPSTuple<SPSString, bool>>);

  WFs[ES.intern("___orc_rt_macho_push_symbols_tag")] =

      ES.wrapAsyncWithSPS<PushSymbolsSPSSig>(this,

                                             &MachOPlatform::rt_pushSymbols);


  return ES.registerJITDispatchHandlers(PlatformJD, std::move(WFs));

}


void MachOPlatform::pushInitializersLoop(

    PushInitializersSendResultFn SendResult, JITDylibSP JD) {

  DenseMap<JITDylib *, SymbolLookupSet> NewInitSymbols;

  DenseMap<JITDylib *, SmallVector<JITDylib *>> JDDepMap;

  SmallVector<JITDylib *, 16> Worklist({JD.get()});


  ES.runSessionLocked([&]() {

    while (!Worklist.empty()) {

      // FIXME: Check for defunct dylibs.


      auto DepJD = Worklist.back();

      Worklist.pop_back();


      // If we've already visited this JITDylib on this iteration then continue.

      if (JDDepMap.count(DepJD))

        continue;


      // Add dep info.

      auto &DM = JDDepMap[DepJD];

      DepJD->withLinkOrderDo([&](const JITDylibSearchOrder &O) {

        for (auto &KV : O) {

          if (KV.first == DepJD)

            continue;

          DM.push_back(KV.first);

          Worklist.push_back(KV.first);

        }

      });


      // Add any registered init symbols.

      auto RISItr = RegisteredInitSymbols.find(DepJD);

      if (RISItr != RegisteredInitSymbols.end()) {

        NewInitSymbols[DepJD] = std::move(RISItr->second);

        RegisteredInitSymbols.erase(RISItr);

      }

    }

  });


  // If there are no further init symbols to look up then send the link order

  // (as a list of header addresses) to the caller.

  if (NewInitSymbols.empty()) {


    // To make the list intelligible to the runtime we need to convert all

    // JITDylib pointers to their header addresses. Only include JITDylibs

    // that appear in the JITDylibToHeaderAddr map (i.e. those that have been

    // through setupJITDylib) -- bare JITDylibs aren't managed by the platform.

    DenseMap<JITDylib *, ExecutorAddr> HeaderAddrs;

    HeaderAddrs.reserve(JDDepMap.size());

    {

      std::lock_guard<std::mutex> Lock(PlatformMutex);

      for (auto &KV : JDDepMap) {

        auto I = JITDylibToHeaderAddr.find(KV.first);

        if (I != JITDylibToHeaderAddr.end())

          HeaderAddrs[KV.first] = I->second;

      }

    }


    // Build the dep info map to return.

    MachOJITDylibDepInfoMap DIM;

    DIM.reserve(JDDepMap.size());

    for (auto &KV : JDDepMap) {

      auto HI = HeaderAddrs.find(KV.first);

      // Skip unmanaged JITDylibs.

      if (HI == HeaderAddrs.end())

        continue;

      auto H = HI->second;

      MachOJITDylibDepInfo DepInfo;

      for (auto &Dep : KV.second) {

        auto HJ = HeaderAddrs.find(Dep);

        if (HJ != HeaderAddrs.end())

          DepInfo.DepHeaders.push_back(HJ->second);

      }

      DIM.push_back(std::make_pair(H, std::move(DepInfo)));

    }

    SendResult(DIM);

    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

          pushInitializersLoop(std::move(SendResult), JD);

      },

      ES, std::move(NewInitSymbols));

}


void MachOPlatform::rt_pushInitializers(PushInitializersSendResultFn SendResult,

                                        ExecutorAddr JDHeaderAddr) {

  JITDylibSP JD;

  {

    std::lock_guard<std::mutex> Lock(PlatformMutex);

    auto I = HeaderAddrToJITDylib.find(JDHeaderAddr);

    if (I != HeaderAddrToJITDylib.end())

      JD = I->second;

  }


  LLVM_DEBUG({

    dbgs() << "MachOPlatform::rt_pushInitializers(" << JDHeaderAddr << ") ";

    if (JD)

      dbgs() << "pushing initializers for " << JD->getName() << "\n";

    else

      dbgs() << "No JITDylib for header address.\n";

  });


  if (!JD) {

    SendResult(make_error<StringError>("No JITDylib with header addr " +

                                           formatv("{0:x}", JDHeaderAddr),

                                       inconvertibleErrorCode()));

    return;

  }


  pushInitializersLoop(std::move(SendResult), JD);

}


void MachOPlatform::rt_pushSymbols(

    PushSymbolsInSendResultFn SendResult, ExecutorAddr Handle,

    const std::vector<std::pair<StringRef, bool>> &SymbolNames) {


  JITDylib *JD = nullptr;


  {

    std::lock_guard<std::mutex> Lock(PlatformMutex);

    auto I = HeaderAddrToJITDylib.find(Handle);

    if (I != HeaderAddrToJITDylib.end())

      JD = I->second;

  }

  LLVM_DEBUG({

    dbgs() << "MachOPlatform::rt_pushSymbols(";

    if (JD)

      dbgs() << "\"" << JD->getName() << "\", [ ";

    else

      dbgs() << "<invalid handle " << Handle << ">, [ ";

    for (auto &Name : SymbolNames)

      dbgs() << "\"" << Name.first << "\" ";

    dbgs() << "])\n";

  });


  if (!JD) {

    SendResult(make_error<StringError>("No JITDylib associated with handle " +

                                           formatv("{0:x}", Handle),

                                       inconvertibleErrorCode()));

    return;

  }


  SymbolLookupSet LS;

  for (auto &[Name, Required] : SymbolNames)

    LS.add(ES.intern(Name), Required

                                ? SymbolLookupFlags::RequiredSymbol

                                : SymbolLookupFlags::WeaklyReferencedSymbol);


  ES.lookup(

      LookupKind::DLSym, {{JD, JITDylibLookupFlags::MatchExportedSymbolsOnly}},

      std::move(LS), SymbolState::Ready,

      [SendResult = std::move(SendResult)](Expected<SymbolMap> Result) mutable {

        SendResult(Result.takeError());

      },

      NoDependenciesToRegister);

}


Expected<uint64_t> MachOPlatform::createPThreadKey() {

  if (!CreatePThreadKey.Addr)

    return make_error<StringError>(

        "Attempting to create pthread key in target, but runtime support has "

        "not been loaded yet",

        inconvertibleErrorCode());


  Expected<uint64_t> Result(0);

  if (auto Err = ES.callSPSWrapper<SPSExpected<uint64_t>(void)>(

          CreatePThreadKey.Addr, Result))

    return std::move(Err);

  return Result;

}


void MachOPlatform::MachOPlatformPlugin::modifyPassConfig(

    MaterializationResponsibility &MR, jitlink::LinkGraph &LG,

    jitlink::PassConfiguration &Config) {


  using namespace jitlink;


  bool InBootstrapPhase =

      &MR.getTargetJITDylib() == &MP.PlatformJD && MP.Bootstrap;


  // If we're in the bootstrap phase then increment the active graphs.

  if (InBootstrapPhase) {

    Config.PrePrunePasses.push_back(

        [this](LinkGraph &G) { return bootstrapPipelineStart(G); });

    Config.PostAllocationPasses.push_back([this](LinkGraph &G) {

      return bootstrapPipelineRecordRuntimeFunctions(G);

    });

  }


  // --- Handle Initializers ---

  if (auto InitSymbol = MR.getInitializerSymbol()) {


    // If the initializer symbol is the MachOHeader start symbol then just

    // register it and then bail out -- the header materialization unit

    // definitely doesn't need any other passes.

    if (InitSymbol == MP.MachOHeaderStartSymbol && !InBootstrapPhase) {

      Config.PostAllocationPasses.push_back([this, &MR](LinkGraph &G) {

        return associateJITDylibHeaderSymbol(G, MR);

      });

      return;

    }


    // If the object contains an init symbol other than the header start symbol

    // then add passes to preserve, process and register the init

    // sections/symbols.

    Config.PrePrunePasses.push_back([this, &MR](LinkGraph &G) {

      if (auto Err = preserveImportantSections(G, MR))

        return Err;

      return processObjCImageInfo(G, MR);

    });

    Config.PostPrunePasses.push_back(

        [this](LinkGraph &G) { return createObjCRuntimeObject(G); });

    Config.PostAllocationPasses.push_back(

        [this, &MR](LinkGraph &G) { return populateObjCRuntimeObject(G, MR); });

  }


  // Insert TLV lowering at the start of the PostPrunePasses, since we want

  // it to run before GOT/PLT lowering.

  Config.PostPrunePasses.insert(

      Config.PostPrunePasses.begin(),

      [this, &JD = MR.getTargetJITDylib()](LinkGraph &G) {

        return fixTLVSectionsAndEdges(G, JD);

      });


  // Add symbol table prepare and register passes: These will add strings for

  // all symbols to the c-strings section, and build a symbol table registration

  // call.

  auto JITSymTabInfo = std::make_shared<JITSymTabVector>();

  Config.PostPrunePasses.push_back([this, JITSymTabInfo](LinkGraph &G) {

    return prepareSymbolTableRegistration(G, *JITSymTabInfo);

  });

  Config.PostFixupPasses.push_back([this, &MR, JITSymTabInfo,

                                    InBootstrapPhase](LinkGraph &G) {

    return addSymbolTableRegistration(G, MR, *JITSymTabInfo, InBootstrapPhase);

  });


  // Add a pass to register the final addresses of any special sections in the

  // object with the runtime.

  Config.PostAllocationPasses.push_back(

      [this, &JD = MR.getTargetJITDylib(), InBootstrapPhase](LinkGraph &G) {

        return registerObjectPlatformSections(G, JD, InBootstrapPhase);

      });


  // If we're in the bootstrap phase then steal allocation actions and then

  // decrement the active graphs.

  if (InBootstrapPhase)

    Config.PostFixupPasses.push_back(

        [this](LinkGraph &G) { return bootstrapPipelineEnd(G); });

}


ObjectLinkingLayer::Plugin::SyntheticSymbolDependenciesMap

MachOPlatform::MachOPlatformPlugin::getSyntheticSymbolDependencies(

    MaterializationResponsibility &MR) {

  std::lock_guard<std::mutex> 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();

}


Error MachOPlatform::MachOPlatformPlugin::bootstrapPipelineStart(

    jitlink::LinkGraph &G) {

  // Increment the active graphs count in BootstrapInfo.

  std::lock_guard<std::mutex> Lock(MP.Bootstrap.load()->Mutex);

  ++MP.Bootstrap.load()->ActiveGraphs;

  return Error::success();

}


Error MachOPlatform::MachOPlatformPlugin::

    bootstrapPipelineRecordRuntimeFunctions(jitlink::LinkGraph &G) {

  // Record bootstrap function names.

  std::pair<StringRef, ExecutorAddr *> RuntimeSymbols[] = {

      {*MP.MachOHeaderStartSymbol, &MP.Bootstrap.load()->MachOHeaderAddr},

      {*MP.PlatformBootstrap.Name, &MP.PlatformBootstrap.Addr},

      {*MP.PlatformShutdown.Name, &MP.PlatformShutdown.Addr},

      {*MP.RegisterJITDylib.Name, &MP.RegisterJITDylib.Addr},

      {*MP.DeregisterJITDylib.Name, &MP.DeregisterJITDylib.Addr},

      {*MP.RegisterObjectSymbolTable.Name, &MP.RegisterObjectSymbolTable.Addr},

      {*MP.DeregisterObjectSymbolTable.Name,

       &MP.DeregisterObjectSymbolTable.Addr},

      {*MP.RegisterObjectPlatformSections.Name,

       &MP.RegisterObjectPlatformSections.Addr},

      {*MP.DeregisterObjectPlatformSections.Name,

       &MP.DeregisterObjectPlatformSections.Addr},

      {*MP.CreatePThreadKey.Name, &MP.CreatePThreadKey.Addr},

      {*MP.RegisterObjCRuntimeObject.Name, &MP.RegisterObjCRuntimeObject.Addr},

      {*MP.DeregisterObjCRuntimeObject.Name,

       &MP.DeregisterObjCRuntimeObject.Addr}};


  bool RegisterMachOHeader = false;


  for (auto *Sym : G.defined_symbols()) {

    for (auto &RTSym : RuntimeSymbols) {

      if (Sym->hasName() && Sym->getName() == RTSym.first) {

        if (*RTSym.second)

          return make_error<StringError>(

              "Duplicate " + RTSym.first +

                  " detected during MachOPlatform bootstrap",

              inconvertibleErrorCode());


        if (Sym->getName() == *MP.MachOHeaderStartSymbol)

          RegisterMachOHeader = true;


        *RTSym.second = Sym->getAddress();

      }

    }

  }


  if (RegisterMachOHeader) {

    // If this graph defines the macho header symbol then create the internal

    // mapping between it and PlatformJD.

    std::lock_guard<std::mutex> Lock(MP.PlatformMutex);

    MP.JITDylibToHeaderAddr[&MP.PlatformJD] =

        MP.Bootstrap.load()->MachOHeaderAddr;

    MP.HeaderAddrToJITDylib[MP.Bootstrap.load()->MachOHeaderAddr] =

        &MP.PlatformJD;

  }


  return Error::success();

}


Error MachOPlatform::MachOPlatformPlugin::bootstrapPipelineEnd(

    jitlink::LinkGraph &G) {

  std::lock_guard<std::mutex> Lock(MP.Bootstrap.load()->Mutex);

  assert(MP.Bootstrap && "DeferredAAs reset before bootstrap completed");

  --MP.Bootstrap.load()->ActiveGraphs;

  // Notify Bootstrap->CV while holding the mutex because the mutex is

  // also keeping Bootstrap->CV alive.

  if (MP.Bootstrap.load()->ActiveGraphs == 0)

    MP.Bootstrap.load()->CV.notify_all();

  return Error::success();

}


Error MachOPlatform::MachOPlatformPlugin::associateJITDylibHeaderSymbol(

    jitlink::LinkGraph &G, MaterializationResponsibility &MR) {

  auto I = llvm::find_if(G.defined_symbols(), [this](jitlink::Symbol *Sym) {

    return Sym->getName() == *MP.MachOHeaderStartSymbol;

  });

  assert(I != G.defined_symbols().end() && "Missing MachO header start symbol");


  auto &JD = MR.getTargetJITDylib();

  std::lock_guard<std::mutex> Lock(MP.PlatformMutex);

  auto HeaderAddr = (*I)->getAddress();

  MP.JITDylibToHeaderAddr[&JD] = HeaderAddr;

  MP.HeaderAddrToJITDylib[HeaderAddr] = &JD;

  // We can unconditionally add these actions to the Graph because this pass

  // isn't used during bootstrap.

  G.allocActions().push_back(

      {cantFail(

           WrapperFunctionCall::Create<SPSArgList<SPSString, SPSExecutorAddr>>(

               MP.RegisterJITDylib.Addr, JD.getName(), HeaderAddr)),

       cantFail(WrapperFunctionCall::Create<SPSArgList<SPSExecutorAddr>>(

           MP.DeregisterJITDylib.Addr, HeaderAddr))});

  return Error::success();

}


Error MachOPlatform::MachOPlatformPlugin::preserveImportantSections(

    jitlink::LinkGraph &G, MaterializationResponsibility &MR) {

  // __objc_imageinfo is "important": we want to preserve it and record its

  // address in the first graph that it appears in, then verify and discard it

  // in all subsequent graphs. In this pass we preserve unconditionally -- we'll

  // manually throw it away in the processObjCImageInfo pass.

  if (auto *ObjCImageInfoSec =

          G.findSectionByName(MachOObjCImageInfoSectionName)) {

    if (ObjCImageInfoSec->blocks_size() != 1)

      return make_error<StringError>(

          "In " + G.getName() +

              "__DATA,__objc_imageinfo contains multiple blocks",

          inconvertibleErrorCode());

    G.addAnonymousSymbol(**ObjCImageInfoSec->blocks().begin(), 0, 0, false,

                         true);


    for (auto *B : ObjCImageInfoSec->blocks())

      if (!B->edges_empty())

        return make_error<StringError>("In " + G.getName() + ", " +

                                           MachOObjCImageInfoSectionName +

                                           " contains references to symbols",

                                       inconvertibleErrorCode());

  }


  // Init sections are important: We need to preserve them and so that their

  // addresses can be captured and reported to the ORC runtime in

  // registerObjectPlatformSections.

  JITLinkSymbolSet InitSectionSymbols;

  for (auto &InitSectionName : MachOInitSectionNames) {

    // Skip ObjCImageInfo -- this shouldn't have any dependencies, and we may

    // remove it later.

    if (InitSectionName == MachOObjCImageInfoSectionName)

      continue;


    // 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<jitlink::Block *> 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<std::mutex> Lock(PluginMutex);

    InitSymbolDeps[&MR] = std::move(InitSectionSymbols);

  }


  return Error::success();

}


Error MachOPlatform::MachOPlatformPlugin::processObjCImageInfo(

    jitlink::LinkGraph &G, MaterializationResponsibility &MR) {


  // If there's an ObjC imagine info then either

  //   (1) It's the first __objc_imageinfo we've seen in this JITDylib. In

  //       this case we name and record it.

  // OR

  //   (2) We already have a recorded __objc_imageinfo for this JITDylib,

  //       in which case we just verify it.

  auto *ObjCImageInfo = G.findSectionByName(MachOObjCImageInfoSectionName);

  if (!ObjCImageInfo)

    return Error::success();


  auto ObjCImageInfoBlocks = ObjCImageInfo->blocks();


  // Check that the section is not empty if present.

  if (ObjCImageInfoBlocks.empty())

    return make_error<StringError>("Empty " + MachOObjCImageInfoSectionName +

                                       " section in " + G.getName(),

                                   inconvertibleErrorCode());


  // Check that there's only one block in the section.

  if (std::next(ObjCImageInfoBlocks.begin()) != ObjCImageInfoBlocks.end())

    return make_error<StringError>("Multiple blocks in " +

                                       MachOObjCImageInfoSectionName +

                                       " section in " + G.getName(),

                                   inconvertibleErrorCode());


  // Check that the __objc_imageinfo section is unreferenced.

  // FIXME: We could optimize this check if Symbols had a ref-count.

  for (auto &Sec : G.sections()) {

    if (&Sec != ObjCImageInfo)

      for (auto *B : Sec.blocks())

        for (auto &E : B->edges())

          if (E.getTarget().isDefined() &&

              &E.getTarget().getBlock().getSection() == ObjCImageInfo)

            return make_error<StringError>(MachOObjCImageInfoSectionName +

                                               " is referenced within file " +

                                               G.getName(),

                                           inconvertibleErrorCode());

  }


  auto &ObjCImageInfoBlock = **ObjCImageInfoBlocks.begin();

  auto *ObjCImageInfoData = ObjCImageInfoBlock.getContent().data();

  auto Version = support::endian::read32(ObjCImageInfoData, G.getEndianness());

  auto Flags =

      support::endian::read32(ObjCImageInfoData + 4, G.getEndianness());


  // Lock the mutex while we verify / update the ObjCImageInfos map.

  std::lock_guard<std::mutex> Lock(PluginMutex);


  auto ObjCImageInfoItr = ObjCImageInfos.find(&MR.getTargetJITDylib());

  if (ObjCImageInfoItr != ObjCImageInfos.end()) {

    // We've already registered an __objc_imageinfo section. Verify the

    // content of this new section matches, then delete it.

    if (ObjCImageInfoItr->second.Version != Version)

      return make_error<StringError>(

          "ObjC version in " + G.getName() +

              " does not match first registered version",

          inconvertibleErrorCode());

    if (ObjCImageInfoItr->second.Flags != Flags)

      if (Error E = mergeImageInfoFlags(G, MR, ObjCImageInfoItr->second, Flags))

        return E;


    // __objc_imageinfo is valid. Delete the block.

    for (auto *S : ObjCImageInfo->symbols())

      G.removeDefinedSymbol(*S);

    G.removeBlock(ObjCImageInfoBlock);

  } else {

    LLVM_DEBUG({

      dbgs() << "MachOPlatform: Registered __objc_imageinfo for "

             << MR.getTargetJITDylib().getName() << " in " << G.getName()

             << "; flags = " << formatv("{0:x4}", Flags) << "\n";

    });

    // We haven't registered an __objc_imageinfo section yet. Register and

    // move on. The section should already be marked no-dead-strip.

    G.addDefinedSymbol(ObjCImageInfoBlock, 0, ObjCImageInfoSymbolName,

                       ObjCImageInfoBlock.getSize(), jitlink::Linkage::Strong,

                       jitlink::Scope::Hidden, false, true);

    if (auto Err = MR.defineMaterializing(

            {{MR.getExecutionSession().intern(ObjCImageInfoSymbolName),

              JITSymbolFlags()}}))

      return Err;

    ObjCImageInfos[&MR.getTargetJITDylib()] = {Version, Flags, false};

  }


  return Error::success();

}


Error MachOPlatform::MachOPlatformPlugin::mergeImageInfoFlags(

    jitlink::LinkGraph &G, MaterializationResponsibility &MR,

    ObjCImageInfo &Info, uint32_t NewFlags) {

  if (Info.Flags == NewFlags)

    return Error::success();


  ObjCImageInfoFlags Old(Info.Flags);

  ObjCImageInfoFlags New(NewFlags);


  // Check for incompatible flags.

  if (Old.SwiftABIVersion && New.SwiftABIVersion &&

      Old.SwiftABIVersion != New.SwiftABIVersion)

    return make_error<StringError>("Swift ABI version in " + G.getName() +

                                       " does not match first registered flags",

                                   inconvertibleErrorCode());


  // HasCategoryClassProperties and HasSignedObjCClassROs can be disabled before

  // they are registered, if necessary, but once they are in use must be

  // supported by subsequent objects.

  if (Info.Finalized && Old.HasCategoryClassProperties &&

      !New.HasCategoryClassProperties)

    return make_error<StringError>("ObjC category class property support in " +

                                       G.getName() +

                                       " does not match first registered flags",

                                   inconvertibleErrorCode());

  if (Info.Finalized && Old.HasSignedObjCClassROs && !New.HasSignedObjCClassROs)

    return make_error<StringError>("ObjC class_ro_t pointer signing in " +

                                       G.getName() +

                                       " does not match first registered flags",

                                   inconvertibleErrorCode());


  // If we cannot change the flags, ignore any remaining differences. Adding

  // Swift or changing its version are unlikely to cause problems in practice.

  if (Info.Finalized)

    return Error::success();


  // Use the minimum Swift version.

  if (Old.SwiftVersion && New.SwiftVersion)

    New.SwiftVersion = std::min(Old.SwiftVersion, New.SwiftVersion);

  else if (Old.SwiftVersion)

    New.SwiftVersion = Old.SwiftVersion;

  // Add a Swift ABI version if it was pure objc before.

  if (!New.SwiftABIVersion)

    New.SwiftABIVersion = Old.SwiftABIVersion;

  // Disable class properties if any object does not support it.

  if (Old.HasCategoryClassProperties != New.HasCategoryClassProperties)

    New.HasCategoryClassProperties = false;

  // Disable signed class ro data if any object does not support it.

  if (Old.HasSignedObjCClassROs != New.HasSignedObjCClassROs)

    New.HasSignedObjCClassROs = false;


  LLVM_DEBUG({

    dbgs() << "MachOPlatform: Merging __objc_imageinfo flags for "

           << MR.getTargetJITDylib().getName() << " (was "

           << formatv("{0:x4}", Old.rawFlags()) << ")"

           << " with " << G.getName() << " (" << formatv("{0:x4}", NewFlags)

           << ")"

           << " -> " << formatv("{0:x4}", New.rawFlags()) << "\n";

  });


  Info.Flags = New.rawFlags();

  return Error::success();

}


Error MachOPlatform::MachOPlatformPlugin::fixTLVSectionsAndEdges(

    jitlink::LinkGraph &G, JITDylib &JD) {


  // Rename external references to __tlv_bootstrap to ___orc_rt_tlv_get_addr.

  for (auto *Sym : G.external_symbols())

    if (Sym->getName() == "__tlv_bootstrap") {

      Sym->setName("___orc_rt_macho_tlv_get_addr");

      break;

    }


  // Store key in __thread_vars struct fields.

  if (auto *ThreadDataSec = G.findSectionByName(MachOThreadVarsSectionName)) {

    std::optional<uint64_t> Key;

    {

      std::lock_guard<std::mutex> 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 : ThreadDataSec->blocks()) {

      if (B->getSize() != 3 * G.getPointerSize())

        return make_error<StringError>("__thread_vars block at " +

                                           formatv("{0:x}", B->getAddress()) +

                                           " has unexpected size",

                                       inconvertibleErrorCode());


      auto NewBlockContent = G.allocateBuffer(B->getSize());

      llvm::copy(B->getContent(), NewBlockContent.data());

      memcpy(NewBlockContent.data() + G.getPointerSize(), &PlatformKeyBits,

             G.getPointerSize());

      B->setContent(NewBlockContent);

    }

  }


  // Transform any TLV edges into GOT edges.

  for (auto *B : G.blocks())

    for (auto &E : B->edges())

      if (E.getKind() ==

          jitlink::x86_64::RequestTLVPAndTransformToPCRel32TLVPLoadREXRelaxable)

        E.setKind(jitlink::x86_64::

                      RequestGOTAndTransformToPCRel32GOTLoadREXRelaxable);


  return Error::success();

}


std::optional<MachOPlatform::MachOPlatformPlugin::UnwindSections>

MachOPlatform::MachOPlatformPlugin::findUnwindSectionInfo(

    jitlink::LinkGraph &G) {

  using namespace jitlink;


  UnwindSections US;


  // ScanSection records a section range and adds any executable blocks that

  // that section points to to the CodeBlocks vector.

  SmallVector<Block *> CodeBlocks;

  auto ScanUnwindInfoSection = [&](Section &Sec, ExecutorAddrRange &SecRange) {

    if (Sec.blocks().empty())

      return;

    SecRange = (*Sec.blocks().begin())->getRange();

    for (auto *B : Sec.blocks()) {

      auto R = B->getRange();

      SecRange.Start = std::min(SecRange.Start, R.Start);

      SecRange.End = std::max(SecRange.End, R.End);

      for (auto &E : B->edges()) {

        if (!E.getTarget().isDefined())

          continue;

        auto &TargetBlock = E.getTarget().getBlock();

        auto &TargetSection = TargetBlock.getSection();

        if ((TargetSection.getMemProt() & MemProt::Exec) == MemProt::Exec)

          CodeBlocks.push_back(&TargetBlock);

      }

    }

  };


  if (Section *EHFrameSec = G.findSectionByName(MachOEHFrameSectionName))

    ScanUnwindInfoSection(*EHFrameSec, US.DwarfSection);


  if (Section *CUInfoSec =

          G.findSectionByName(MachOCompactUnwindInfoSectionName))

    ScanUnwindInfoSection(*CUInfoSec, US.CompactUnwindSection);


  // If we didn't find any pointed-to code-blocks then there's no need to

  // register any info.

  if (CodeBlocks.empty())

    return std::nullopt;


  // We have info to register. Sort the code blocks into address order and

  // build a list of contiguous address ranges covering them all.

  llvm::sort(CodeBlocks, [](const Block *LHS, const Block *RHS) {

    return LHS->getAddress() < RHS->getAddress();

  });

  for (auto *B : CodeBlocks) {

    if (US.CodeRanges.empty() || US.CodeRanges.back().End != B->getAddress())

      US.CodeRanges.push_back(B->getRange());

    else

      US.CodeRanges.back().End = B->getRange().End;

  }


  LLVM_DEBUG({

    dbgs() << "MachOPlatform identified unwind info in " << G.getName() << ":\n"

           << "  DWARF: ";

    if (US.DwarfSection.Start)

      dbgs() << US.DwarfSection << "\n";

    else

      dbgs() << "none\n";

    dbgs() << "  Compact-unwind: ";

    if (US.CompactUnwindSection.Start)

      dbgs() << US.CompactUnwindSection << "\n";

    else

      dbgs() << "none\n"

             << "for code ranges:\n";

    for (auto &CR : US.CodeRanges)

      dbgs() << "  " << CR << "\n";

    if (US.CodeRanges.size() >= G.sections_size())

      dbgs() << "WARNING: High number of discontiguous code ranges! "

                "Padding may be interfering with coalescing.\n";

  });


  return US;

}


Error MachOPlatform::MachOPlatformPlugin::registerObjectPlatformSections(

    jitlink::LinkGraph &G, JITDylib &JD, bool InBootstrapPhase) {


  // Get a pointer to the thread data section if there is one. It will be used

  // below.

  jitlink::Section *ThreadDataSection =

      G.findSectionByName(MachOThreadDataSectionName);


  // Handle thread BSS section if there is one.

  if (auto *ThreadBSSSection = G.findSectionByName(MachOThreadBSSSectionName)) {

    // 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;

  }


  SmallVector<std::pair<StringRef, ExecutorAddrRange>, 8> MachOPlatformSecs;


  // Collect data sections to register.

  StringRef DataSections[] = {MachODataDataSectionName,

                              MachODataCommonSectionName,

                              MachOEHFrameSectionName};

  for (auto &SecName : DataSections) {

    if (auto *Sec = G.findSectionByName(SecName)) {

      jitlink::SectionRange R(*Sec);

      if (!R.empty())

        MachOPlatformSecs.push_back({SecName, R.getRange()});

    }

  }


  // 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())

      MachOPlatformSecs.push_back({MachOThreadDataSectionName, R.getRange()});

  }


  // If any platform sections were found then add an allocation action to call

  // the registration function.

  StringRef PlatformSections[] = {MachOModInitFuncSectionName,

                                  ObjCRuntimeObjectSectionName};


  for (auto &SecName : PlatformSections) {

    auto *Sec = G.findSectionByName(SecName);

    if (!Sec)

      continue;

    jitlink::SectionRange R(*Sec);

    if (R.empty())

      continue;


    MachOPlatformSecs.push_back({SecName, R.getRange()});

  }


  std::optional<std::tuple<SmallVector<ExecutorAddrRange>, ExecutorAddrRange,

                           ExecutorAddrRange>>

      UnwindInfo;

  if (auto UI = findUnwindSectionInfo(G))

    UnwindInfo = std::make_tuple(std::move(UI->CodeRanges), UI->DwarfSection,

                                 UI->CompactUnwindSection);


  if (!MachOPlatformSecs.empty() || UnwindInfo) {

    // Dump the scraped inits.

    LLVM_DEBUG({

      dbgs() << "MachOPlatform: Scraped " << G.getName() << " init sections:\n";

      for (auto &KV : MachOPlatformSecs)

        dbgs() << "  " << KV.first << ": " << KV.second << "\n";

    });


    using SPSRegisterObjectPlatformSectionsArgs = SPSArgList<

        SPSExecutorAddr,

        SPSOptional<SPSTuple<SPSSequence<SPSExecutorAddrRange>,

                             SPSExecutorAddrRange, SPSExecutorAddrRange>>,

        SPSSequence<SPSTuple<SPSString, SPSExecutorAddrRange>>>;


    shared::AllocActions &allocActions = LLVM_LIKELY(!InBootstrapPhase)

                                             ? G.allocActions()

                                             : MP.Bootstrap.load()->DeferredAAs;


    ExecutorAddr HeaderAddr;

    {

      std::lock_guard<std::mutex> Lock(MP.PlatformMutex);

      auto I = MP.JITDylibToHeaderAddr.find(&JD);

      assert(I != MP.JITDylibToHeaderAddr.end() &&

             "No header registered for JD");

      assert(I->second && "Null header registered for JD");

      HeaderAddr = I->second;

    }

    allocActions.push_back(

        {cantFail(

             WrapperFunctionCall::Create<SPSRegisterObjectPlatformSectionsArgs>(

                 MP.RegisterObjectPlatformSections.Addr, HeaderAddr, UnwindInfo,

                 MachOPlatformSecs)),

         cantFail(

             WrapperFunctionCall::Create<SPSRegisterObjectPlatformSectionsArgs>(

                 MP.DeregisterObjectPlatformSections.Addr, HeaderAddr,

                 UnwindInfo, MachOPlatformSecs))});

  }


  return Error::success();

}


Error MachOPlatform::MachOPlatformPlugin::createObjCRuntimeObject(

    jitlink::LinkGraph &G) {


  bool NeedTextSegment = false;

  size_t NumRuntimeSections = 0;


  for (auto ObjCRuntimeSectionName : ObjCRuntimeObjectSectionsData)

    if (G.findSectionByName(ObjCRuntimeSectionName))

      ++NumRuntimeSections;


  for (auto ObjCRuntimeSectionName : ObjCRuntimeObjectSectionsText) {

    if (G.findSectionByName(ObjCRuntimeSectionName)) {

      ++NumRuntimeSections;

      NeedTextSegment = true;

    }

  }


  // Early out for no runtime sections.

  if (NumRuntimeSections == 0)

    return Error::success();


  // If there were any runtime sections then we need to add an __objc_imageinfo

  // section.

  ++NumRuntimeSections;


  size_t MachOSize = sizeof(MachO::mach_header_64) +

                     (NeedTextSegment + 1) * sizeof(MachO::segment_command_64) +

                     NumRuntimeSections * sizeof(MachO::section_64);


  auto &Sec = G.createSection(ObjCRuntimeObjectSectionName,

                              MemProt::Read | MemProt::Write);

  G.createMutableContentBlock(Sec, MachOSize, ExecutorAddr(), 16, 0, true);


  return Error::success();

}


Error MachOPlatform::MachOPlatformPlugin::populateObjCRuntimeObject(

    jitlink::LinkGraph &G, MaterializationResponsibility &MR) {


  auto *ObjCRuntimeObjectSec =

      G.findSectionByName(ObjCRuntimeObjectSectionName);


  if (!ObjCRuntimeObjectSec)

    return Error::success();


  switch (G.getTargetTriple().getArch()) {

  case Triple::aarch64:

  case Triple::x86_64:

    // Supported.

    break;

  default:

    return make_error<StringError>("Unrecognized MachO arch in triple " +

                                       G.getTargetTriple().str(),

                                   inconvertibleErrorCode());

  }


  auto &SecBlock = **ObjCRuntimeObjectSec->blocks().begin();


  struct SecDesc {

    MachO::section_64 Sec;

    unique_function<void(size_t RecordOffset)> AddFixups;

  };


  std::vector<SecDesc> TextSections, DataSections;

  auto AddSection = [&](SecDesc &SD, jitlink::Section &GraphSec) {

    jitlink::SectionRange SR(GraphSec);

    StringRef FQName = GraphSec.getName();

    memset(&SD.Sec, 0, sizeof(MachO::section_64));

    memcpy(SD.Sec.sectname, FQName.drop_front(7).data(), FQName.size() - 7);

    memcpy(SD.Sec.segname, FQName.data(), 6);

    SD.Sec.addr = SR.getStart() - SecBlock.getAddress();

    SD.Sec.size = SR.getSize();

    SD.Sec.flags = MachO::S_REGULAR;

  };


  // Add the __objc_imageinfo section.

  {

    DataSections.push_back({});

    auto &SD = DataSections.back();

    memset(&SD.Sec, 0, sizeof(SD.Sec));

    memcpy(SD.Sec.sectname, "__objc_imageinfo", 16);

    strcpy(SD.Sec.segname, "__DATA");

    SD.Sec.size = 8;

    SD.AddFixups = [&](size_t RecordOffset) {

      auto PointerEdge = getPointerEdgeKind(G);


      // Look for an existing __objc_imageinfo symbol.

      jitlink::Symbol *ObjCImageInfoSym = nullptr;

      for (auto *Sym : G.external_symbols())

        if (Sym->getName() == ObjCImageInfoSymbolName) {

          ObjCImageInfoSym = Sym;

          break;

        }

      if (!ObjCImageInfoSym)

        for (auto *Sym : G.absolute_symbols())

          if (Sym->getName() == ObjCImageInfoSymbolName) {

            ObjCImageInfoSym = Sym;

            break;

          }

      if (!ObjCImageInfoSym)

        for (auto *Sym : G.defined_symbols())

          if (Sym->hasName() && Sym->getName() == ObjCImageInfoSymbolName) {

            ObjCImageInfoSym = Sym;

            std::optional<uint32_t> Flags;

            {

              std::lock_guard<std::mutex> Lock(PluginMutex);

              auto It = ObjCImageInfos.find(&MR.getTargetJITDylib());

              if (It != ObjCImageInfos.end()) {

                It->second.Finalized = true;

                Flags = It->second.Flags;

              }

            }


            if (Flags) {

              // We own the definition of __objc_image_info; write the final

              // merged flags value.

              auto Content = Sym->getBlock().getMutableContent(G);

              assert(Content.size() == 8 &&

                  "__objc_image_info size should have been verified already");

              support::endian::write32(&Content[4], *Flags, G.getEndianness());

            }

            break;

          }

      if (!ObjCImageInfoSym)

        ObjCImageInfoSym =

            &G.addExternalSymbol(ObjCImageInfoSymbolName, 8, false);


      SecBlock.addEdge(PointerEdge,

                       RecordOffset + ((char *)&SD.Sec.addr - (char *)&SD.Sec),

                       *ObjCImageInfoSym, -SecBlock.getAddress().getValue());

    };

  }


  for (auto ObjCRuntimeSectionName : ObjCRuntimeObjectSectionsData) {

    if (auto *GraphSec = G.findSectionByName(ObjCRuntimeSectionName)) {

      DataSections.push_back({});

      AddSection(DataSections.back(), *GraphSec);

    }

  }


  for (auto ObjCRuntimeSectionName : ObjCRuntimeObjectSectionsText) {

    if (auto *GraphSec = G.findSectionByName(ObjCRuntimeSectionName)) {

      TextSections.push_back({});

      AddSection(TextSections.back(), *GraphSec);

    }

  }


  assert(ObjCRuntimeObjectSec->blocks_size() == 1 &&

         "Unexpected number of blocks in runtime sections object");


  // Build the header struct up-front. This also gives us a chance to check

  // that the triple is supported, which we'll assume below.

  MachO::mach_header_64 Hdr;

  Hdr.magic = MachO::MH_MAGIC_64;

  switch (G.getTargetTriple().getArch()) {

  case Triple::aarch64:

    Hdr.cputype = MachO::CPU_TYPE_ARM64;

    Hdr.cpusubtype = MachO::CPU_SUBTYPE_ARM64_ALL;

    break;

  case Triple::x86_64:

    Hdr.cputype = MachO::CPU_TYPE_X86_64;

    Hdr.cpusubtype = MachO::CPU_SUBTYPE_X86_64_ALL;

    break;

  default:

    llvm_unreachable("Unsupported architecture");

  }


  Hdr.filetype = MachO::MH_DYLIB;

  Hdr.ncmds = 1 + !TextSections.empty();

  Hdr.sizeofcmds =

      Hdr.ncmds * sizeof(MachO::segment_command_64) +

      (TextSections.size() + DataSections.size()) * sizeof(MachO::section_64);

  Hdr.flags = 0;

  Hdr.reserved = 0;


  auto SecContent = SecBlock.getAlreadyMutableContent();

  char *P = SecContent.data();

  auto WriteMachOStruct = [&](auto S) {

    if (G.getEndianness() != llvm::endianness::native)

      MachO::swapStruct(S);

    memcpy(P, &S, sizeof(S));

    P += sizeof(S);

  };


  auto WriteSegment = [&](StringRef Name, std::vector<SecDesc> &Secs) {

    MachO::segment_command_64 SegLC;

    memset(&SegLC, 0, sizeof(SegLC));

    memcpy(SegLC.segname, Name.data(), Name.size());

    SegLC.cmd = MachO::LC_SEGMENT_64;

    SegLC.cmdsize = sizeof(MachO::segment_command_64) +

                    Secs.size() * sizeof(MachO::section_64);

    SegLC.nsects = Secs.size();

    WriteMachOStruct(SegLC);

    for (auto &SD : Secs) {

      if (SD.AddFixups)

        SD.AddFixups(P - SecContent.data());

      WriteMachOStruct(SD.Sec);

    }

  };


  WriteMachOStruct(Hdr);

  if (!TextSections.empty())

    WriteSegment("__TEXT", TextSections);

  if (!DataSections.empty())

    WriteSegment("__DATA", DataSections);


  assert(P == SecContent.end() && "Underflow writing ObjC runtime object");

  return Error::success();

}


Error MachOPlatform::MachOPlatformPlugin::prepareSymbolTableRegistration(

    jitlink::LinkGraph &G, JITSymTabVector &JITSymTabInfo) {


  auto *CStringSec = G.findSectionByName(MachOCStringSectionName);

  if (!CStringSec)

    CStringSec = &G.createSection(MachOCStringSectionName,

                                  MemProt::Read | MemProt::Exec);


  // Make a map of existing strings so that we can re-use them:

  DenseMap<StringRef, jitlink::Symbol *> ExistingStrings;

  for (auto *Sym : CStringSec->symbols()) {


    // The LinkGraph builder should have created single strings blocks, and all

    // plugins should have maintained this invariant.

    auto Content = Sym->getBlock().getContent();

    ExistingStrings.insert(

        std::make_pair(StringRef(Content.data(), Content.size()), Sym));

  }


  // Add all symbol names to the string section, and record the symbols for

  // those names.

  {

    SmallVector<jitlink::Symbol *> SymsToProcess;

    for (auto *Sym : G.defined_symbols())

      SymsToProcess.push_back(Sym);

    for (auto *Sym : G.absolute_symbols())

      SymsToProcess.push_back(Sym);


    for (auto *Sym : SymsToProcess) {

      if (!Sym->hasName())

        continue;


      auto I = ExistingStrings.find(Sym->getName());

      if (I == ExistingStrings.end()) {

        auto &NameBlock = G.createMutableContentBlock(

            *CStringSec, G.allocateCString(Sym->getName()), orc::ExecutorAddr(),

            1, 0);

        auto &SymbolNameSym = G.addAnonymousSymbol(

            NameBlock, 0, NameBlock.getSize(), false, true);

        JITSymTabInfo.push_back({Sym, &SymbolNameSym});

      } else

        JITSymTabInfo.push_back({Sym, I->second});

    }

  }


  return Error::success();

}


Error MachOPlatform::MachOPlatformPlugin::addSymbolTableRegistration(

    jitlink::LinkGraph &G, MaterializationResponsibility &MR,

    JITSymTabVector &JITSymTabInfo, bool InBootstrapPhase) {


  ExecutorAddr HeaderAddr;

  {

    std::lock_guard<std::mutex> Lock(MP.PlatformMutex);

    auto I = MP.JITDylibToHeaderAddr.find(&MR.getTargetJITDylib());

    assert(I != MP.JITDylibToHeaderAddr.end() && "No header registered for JD");

    assert(I->second && "Null header registered for JD");

    HeaderAddr = I->second;

  }


  SymbolTableVector LocalSymTab;

  auto &SymTab = LLVM_LIKELY(!InBootstrapPhase) ? LocalSymTab

                                                : MP.Bootstrap.load()->SymTab;

  for (auto &[OriginalSymbol, NameSym] : JITSymTabInfo)

    SymTab.push_back({NameSym->getAddress(), OriginalSymbol->getAddress(),

                      flagsForSymbol(*OriginalSymbol)});


  // Bail out if we're in the bootstrap phase -- registration of thees symbols

  // will be attached to the bootstrap graph.

  if (LLVM_UNLIKELY(InBootstrapPhase))

    return Error::success();


  shared::AllocActions &allocActions = LLVM_LIKELY(!InBootstrapPhase)

                                           ? G.allocActions()

                                           : MP.Bootstrap.load()->DeferredAAs;

  allocActions.push_back(

      {cantFail(WrapperFunctionCall::Create<SPSRegisterSymbolsArgs>(

           MP.RegisterObjectSymbolTable.Addr, HeaderAddr, SymTab)),

       cantFail(WrapperFunctionCall::Create<SPSRegisterSymbolsArgs>(

           MP.DeregisterObjectSymbolTable.Addr, HeaderAddr, SymTab))});


  return Error::success();

}


template <typename MachOTraits>

jitlink::Block &createHeaderBlock(MachOPlatform &MOP,

                                  const MachOPlatform::HeaderOptions &Opts,

                                  JITDylib &JD, jitlink::LinkGraph &G,

                                  jitlink::Section &HeaderSection) {

  auto HdrInfo =

      getMachOHeaderInfoFromTriple(MOP.getExecutionSession().getTargetTriple());

  MachOBuilder<MachOTraits> B(HdrInfo.PageSize);


  B.Header.filetype = MachO::MH_DYLIB;

  B.Header.cputype = HdrInfo.CPUType;

  B.Header.cpusubtype = HdrInfo.CPUSubType;


  if (Opts.IDDylib)

    B.template addLoadCommand<MachO::LC_ID_DYLIB>(

        Opts.IDDylib->Name, Opts.IDDylib->Timestamp,

        Opts.IDDylib->CurrentVersion, Opts.IDDylib->CompatibilityVersion);

  else

    B.template addLoadCommand<MachO::LC_ID_DYLIB>(JD.getName(), 0, 0, 0);


  for (auto &BV : Opts.BuildVersions)

    B.template addLoadCommand<MachO::LC_BUILD_VERSION>(

        BV.Platform, BV.MinOS, BV.SDK, static_cast<uint32_t>(0));

  for (auto &D : Opts.LoadDylibs)

    B.template addLoadCommand<MachO::LC_LOAD_DYLIB>(

        D.Name, D.Timestamp, D.CurrentVersion, D.CompatibilityVersion);

  for (auto &P : Opts.RPaths)

    B.template addLoadCommand<MachO::LC_RPATH>(P);


  auto HeaderContent = G.allocateBuffer(B.layout());

  B.write(HeaderContent);


  return G.createContentBlock(HeaderSection, HeaderContent, ExecutorAddr(), 8,

                              0);

}


SimpleMachOHeaderMU::SimpleMachOHeaderMU(MachOPlatform &MOP,

                                         SymbolStringPtr HeaderStartSymbol,

                                         MachOPlatform::HeaderOptions Opts)

    : MaterializationUnit(

          createHeaderInterface(MOP, std::move(HeaderStartSymbol))),

      MOP(MOP), Opts(std::move(Opts)) {}


void SimpleMachOHeaderMU::materialize(

    std::unique_ptr<MaterializationResponsibility> R) {

  auto G = createPlatformGraph(MOP, "<MachOHeaderMU>");

  addMachOHeader(R->getTargetJITDylib(), *G, R->getInitializerSymbol());

  MOP.getObjectLinkingLayer().emit(std::move(R), std::move(G));

}


void SimpleMachOHeaderMU::discard(const JITDylib &JD,

                                  const SymbolStringPtr &Sym) {}


void SimpleMachOHeaderMU::addMachOHeader(

    JITDylib &JD, jitlink::LinkGraph &G,

    const SymbolStringPtr &InitializerSymbol) {

  auto &HeaderSection = G.createSection("__header", MemProt::Read);

  auto &HeaderBlock = createHeaderBlock(JD, G, HeaderSection);


  // Init symbol is header-start symbol.

  G.addDefinedSymbol(HeaderBlock, 0, *InitializerSymbol, HeaderBlock.getSize(),

                     jitlink::Linkage::Strong, jitlink::Scope::Default, false,

                     true);

  for (auto &HS : AdditionalHeaderSymbols)

    G.addDefinedSymbol(HeaderBlock, HS.Offset, HS.Name, HeaderBlock.getSize(),

                       jitlink::Linkage::Strong, jitlink::Scope::Default, false,

                       true);

}


jitlink::Block &

SimpleMachOHeaderMU::createHeaderBlock(JITDylib &JD, jitlink::LinkGraph &G,

                                       jitlink::Section &HeaderSection) {

  switch (MOP.getExecutionSession().getTargetTriple().getArch()) {

  case Triple::aarch64:

  case Triple::x86_64:

    return ::createHeaderBlock<MachO64LE>(MOP, Opts, JD, G, HeaderSection);

  default:

    llvm_unreachable("Unsupported architecture");

  }

}


MaterializationUnit::Interface SimpleMachOHeaderMU::createHeaderInterface(

    MachOPlatform &MOP, const SymbolStringPtr &HeaderStartSymbol) {

  SymbolFlagsMap HeaderSymbolFlags;


  HeaderSymbolFlags[HeaderStartSymbol] = JITSymbolFlags::Exported;

  for (auto &HS : AdditionalHeaderSymbols)

    HeaderSymbolFlags[MOP.getExecutionSession().intern(HS.Name)] =

        JITSymbolFlags::Exported;


  return MaterializationUnit::Interface(std::move(HeaderSymbolFlags),

                                        HeaderStartSymbol);

}


MachOHeaderInfo getMachOHeaderInfoFromTriple(const Triple &TT) {

  switch (TT.getArch()) {

  case Triple::aarch64:

    return {/* PageSize   = */ 16 * 1024,

            /* CPUType    = */ MachO::CPU_TYPE_ARM64,

            /* CPUSubType = */ MachO::CPU_SUBTYPE_ARM64_ALL};

  case Triple::x86_64:

    return {/* PageSize   = */ 4 * 1024,

            /* CPUType    = */ MachO::CPU_TYPE_X86_64,

            /* CPUSubType = */ MachO::CPU_SUBTYPE_X86_64_ALL};

  default:

    llvm_unreachable("Unrecognized architecture");

  }

}


} // End namespace orc.

} // End namespace llvm.

BinaryByteStream.h

MachO.h

B
static GCRegistry::Add< OcamlGC > B("ocaml", "ocaml 3.10-compatible GC")

D
static GCRegistry::Add< StatepointGC > D("statepoint-example", "an example strategy for statepoint")

Info
Analysis containing CSE Info
Definition: CSEInfo.cpp:27

LLVM_UNLIKELY
#define LLVM_UNLIKELY(EXPR)
Definition: Compiler.h:241

LLVM_LIKELY
#define LLVM_LIKELY(EXPR)
Definition: Compiler.h:240

DebugUtils.h

Debug.h

LLVM_DEBUG
#define LLVM_DEBUG(X)
Definition: Debug.h:101

Content
T Content
Definition: ELFObjHandler.cpp:89

Name
std::string Name
Definition: ELFObjHandler.cpp:77

Config
RelaxConfig Config
Definition: ELF_riscv.cpp:506

Sym
Symbol * Sym
Definition: ELF_riscv.cpp:479

MachO.h

ExecutionUtils.h

_
#define _
Definition: HexagonMCCodeEmitter.cpp:47

getRange
static std::optional< ConstantRange > getRange(Value *V, const InstrInfoQuery &IIQ)
Helper method to get range from metadata or attribute.
Definition: InstructionSimplify.cpp:3723

LookupAndRecordAddrs.h

I
#define I(x, y, z)
Definition: MD5.cpp:58

G
#define G(x, y, z)
Definition: MD5.cpp:56

H
#define H(x, y, z)
Definition: MD5.cpp:57

MachOBuilder.h

MachOPlatform.h

ObjectFormats.h

P
#define P(N)

assert
assert(ImpDefSCC.getReg()==AMDGPU::SCC &&ImpDefSCC.isDef())

RHS
Value * RHS
Definition: X86PartialReduction.cpp:76

LHS
Value * LHS
Definition: X86PartialReduction.cpp:75

aarch64.h

llvm::ArrayRef
ArrayRef - Represent a constant reference to an array (0 or more elements consecutively in memory),...
Definition: ArrayRef.h:41

llvm::DenseMapBase::find
iterator find(const_arg_type_t< KeyT > Val)
Definition: DenseMap.h:155

llvm::DenseMapBase::size
unsigned size() const
Definition: DenseMap.h:99

llvm::DenseMapBase::empty
bool empty() const
Definition: DenseMap.h:98

llvm::DenseMapBase::count
size_type count(const_arg_type_t< KeyT > Val) const
Return 1 if the specified key is in the map, 0 otherwise.
Definition: DenseMap.h:151

llvm::DenseMapBase::end
iterator end()
Definition: DenseMap.h:84

llvm::DenseMapBase::insert
std::pair< iterator, bool > insert(const std::pair< KeyT, ValueT > &KV)
Definition: DenseMap.h:220

llvm::DenseMapBase::reserve
void reserve(size_type NumEntries)
Grow the densemap so that it can contain at least NumEntries items before resizing again.
Definition: DenseMap.h:103

llvm::DenseMap< SymbolStringPtr, SymbolAliasMapEntry >

llvm::DenseSet
Implements a dense probed hash-table based set.
Definition: DenseSet.h:271

llvm::ErrorAsOutParameter
Helper for Errors used as out-parameters.
Definition: Error.h:1130

llvm::Error
Lightweight error class with error context and mandatory checking.
Definition: Error.h:160

llvm::Error::success
static ErrorSuccess success()
Create a success value.
Definition: Error.h:337

llvm::Expected
Tagged union holding either a T or a Error.
Definition: Error.h:481

llvm::IntrusiveRefCntPtr< JITDylib >

llvm::IntrusiveRefCntPtr::get
T * get() const
Definition: IntrusiveRefCntPtr.h:205

llvm::JITSymbolFlags::None
@ None
Definition: JITSymbol.h:80

llvm::JITSymbolFlags::Exported
@ Exported
Definition: JITSymbol.h:85

llvm::SmallVectorBase::empty
bool empty() const
Definition: SmallVector.h:94

llvm::SmallVectorTemplateBase::push_back
void push_back(const T &Elt)
Definition: SmallVector.h:426

llvm::SmallVector
This is a 'vector' (really, a variable-sized array), optimized for the case when the array is small.
Definition: SmallVector.h:1209

llvm::StringRef
StringRef - Represent a constant reference to a string, i.e.
Definition: StringRef.h:50

llvm::StringRef::drop_front
StringRef drop_front(size_t N=1) const
Return a StringRef equal to 'this' but with the first N elements dropped.
Definition: StringRef.h:602

llvm::StringRef::size
constexpr size_t size() const
size - Get the string size.
Definition: StringRef.h:137

llvm::StringRef::data
constexpr const char * data() const
data - Get a pointer to the start of the string (which may not be null terminated).
Definition: StringRef.h:131

llvm::Triple
Triple - Helper class for working with autoconf configuration names.
Definition: Triple.h:44

llvm::Triple::TvOS
@ TvOS
Definition: Triple.h:227

llvm::Triple::MacOSX
@ MacOSX
Definition: Triple.h:210

llvm::Triple::WatchOS
@ WatchOS
Definition: Triple.h:228

llvm::Triple::XROS
@ XROS
Definition: Triple.h:231

llvm::Triple::IOS
@ IOS
Definition: Triple.h:206

llvm::Triple::x86_64
@ x86_64
Definition: Triple.h:86

llvm::Triple::aarch64
@ aarch64
Definition: Triple.h:51

llvm::Triple::getArch
ArchType getArch() const
Get the parsed architecture type of this triple.
Definition: Triple.h:373

llvm::Triple::str
const std::string & str() const
Definition: Triple.h:440

llvm::detail::DenseSetImpl::insert
std::pair< iterator, bool > insert(const ValueT &V)
Definition: DenseSet.h:206

llvm::detail::DenseSetImpl::count
size_type count(const_arg_type_t< ValueT > V) const
Return 1 if the specified key is in the set, 0 otherwise.
Definition: DenseSet.h:97

llvm::jitlink::Block
An Addressable with content and edges.
Definition: JITLink.h:158

llvm::jitlink::Edge::Kind
uint8_t Kind
Definition: JITLink.h:69

llvm::jitlink::JITLinkDylib::getName
const std::string & getName() const
Get the name for this JITLinkDylib.
Definition: JITLinkDylib.h:26

llvm::jitlink::LinkGraph
Definition: JITLink.h:849

llvm::jitlink::SectionRange
Represents a section address range via a pair of Block pointers to the first and last Blocks in the s...
Definition: JITLink.h:806

llvm::jitlink::Section
Represents an object file section.
Definition: JITLink.h:692

llvm::jitlink::Symbol
Symbol representation.
Definition: JITLink.h:416

llvm::orc::ExecutionSession
An ExecutionSession represents a running JIT program.
Definition: Core.h:1431

llvm::orc::ExecutionSession::getExecutorProcessControl
ExecutorProcessControl & getExecutorProcessControl()
Get the ExecutorProcessControl object associated with this ExecutionSession.
Definition: Core.h:1471

llvm::orc::ExecutionSession::getTargetTriple
const Triple & getTargetTriple() const
Return the triple for the executor.
Definition: Core.h:1474

llvm::orc::ExecutionSession::callSPSWrapper
Error callSPSWrapper(ExecutorAddr WrapperFnAddr, WrapperCallArgTs &&...WrapperCallArgs)
Run a wrapper function using SPS to serialize the arguments and deserialize the results.
Definition: Core.h:1685

llvm::orc::ExecutionSession::intern
SymbolStringPtr intern(StringRef SymName)
Add a symbol name to the SymbolStringPool and return a pointer to it.
Definition: Core.h:1485

llvm::orc::ExecutionSession::wrapAsyncWithSPS
static JITDispatchHandlerFunction wrapAsyncWithSPS(HandlerT &&H)
Wrap a handler that takes concrete argument types (and a sender for a concrete return type) to produc...
Definition: Core.h:1699

llvm::orc::ExecutionSession::lookup
void lookup(LookupKind K, const JITDylibSearchOrder &SearchOrder, SymbolLookupSet Symbols, SymbolState RequiredState, SymbolsResolvedCallback NotifyComplete, RegisterDependenciesFunction RegisterDependencies)
Search the given JITDylibs for the given symbols.
Definition: Core.cpp:1802

llvm::orc::ExecutionSession::registerJITDispatchHandlers
Error registerJITDispatchHandlers(JITDylib &JD, JITDispatchHandlerAssociationMap WFs)
For each tag symbol name, associate the corresponding AsyncHandlerWrapperFunction with the address of...
Definition: Core.cpp:1911

llvm::orc::ExecutionSession::runSessionLocked
decltype(auto) runSessionLocked(Func &&F)
Run the given lambda with the session mutex locked.
Definition: Core.h:1495

llvm::orc::ExecutorAddr
Represents an address in the executor process.
Definition: ExecutorAddress.h:31

llvm::orc::JITDylib
Represents a JIT'd dynamic library.
Definition: Core.h:989

llvm::orc::JITDylib::define
Error define(std::unique_ptr< MaterializationUnitType > &&MU, ResourceTrackerSP RT=nullptr)
Define all symbols provided by the materialization unit to be part of this JITDylib.
Definition: Core.h:1910

llvm::orc::JITDylib::addGenerator
GeneratorT & addGenerator(std::unique_ptr< GeneratorT > DefGenerator)
Adds a definition generator to this JITDylib and returns a referenece to it.
Definition: Core.h:1893

llvm::orc::MachOBuilder
Definition: MachOBuilder.h:149

llvm::orc::MachOPlatform
Mediates between MachO initialization and ExecutionSession state.
Definition: MachOPlatform.h:30

llvm::orc::MachOPlatform::getObjectLinkingLayer
ObjectLinkingLayer & getObjectLinkingLayer() const
Definition: MachOPlatform.h:151

llvm::orc::MachOPlatform::MachOExecutorSymbolFlags
MachOExecutorSymbolFlags
Definition: MachOPlatform.h:43

llvm::orc::MachOPlatform::MachOExecutorSymbolFlags::Weak
@ Weak

llvm::orc::MachOPlatform::MachOExecutorSymbolFlags::Callable
@ Callable

llvm::orc::MachOPlatform::teardownJITDylib
Error teardownJITDylib(JITDylib &JD) override
This method will be called outside the session lock each time a JITDylib is removed to allow the Plat...
Definition: MachOPlatform.cpp:366

llvm::orc::MachOPlatform::setupJITDylib
Error setupJITDylib(JITDylib &JD) override
This method will be called outside the session lock each time a JITDylib is created (unless it is cre...
Definition: MachOPlatform.cpp:355

llvm::orc::MachOPlatform::standardRuntimeUtilityAliases
static ArrayRef< std::pair< const char *, const char * > > standardRuntimeUtilityAliases()
Returns the array of standard runtime utility aliases for MachO.
Definition: MachOPlatform.cpp:425

llvm::orc::MachOPlatform::Create
static Expected< std::unique_ptr< MachOPlatform > > Create(ExecutionSession &ES, ObjectLinkingLayer &ObjLinkingLayer, JITDylib &PlatformJD, std::unique_ptr< DefinitionGenerator > OrcRuntime, HeaderOptions PlatformJDOpts={}, MachOHeaderMUBuilder BuildMachOHeaderMU=buildSimpleMachOHeaderMU, std::optional< SymbolAliasMap > RuntimeAliases=std::nullopt)
Try to create a MachOPlatform instance, adding the ORC runtime to the given JITDylib.
Definition: MachOPlatform.cpp:294

llvm::orc::MachOPlatform::MachOHeaderMUBuilder
unique_function< std::unique_ptr< MaterializationUnit >(MachOPlatform &MOP, HeaderOptions Opts)> MachOHeaderMUBuilder
Used by setupJITDylib to create MachO header MaterializationUnits for JITDylibs.
Definition: MachOPlatform.h:91

llvm::orc::MachOPlatform::notifyAdding
Error notifyAdding(ResourceTracker &RT, const MaterializationUnit &MU) override
This method will be called under the ExecutionSession lock each time a MaterializationUnit is added t...
Definition: MachOPlatform.cpp:379

llvm::orc::MachOPlatform::standardPlatformAliases
static SymbolAliasMap standardPlatformAliases(ExecutionSession &ES)
Returns an AliasMap containing the default aliases for the MachOPlatform.
Definition: MachOPlatform.cpp:409

llvm::orc::MachOPlatform::getExecutionSession
ExecutionSession & getExecutionSession() const
Definition: MachOPlatform.h:150

llvm::orc::MachOPlatform::notifyRemoving
Error notifyRemoving(ResourceTracker &RT) override
This method will be called under the ExecutionSession lock when a ResourceTracker is removed.
Definition: MachOPlatform.cpp:395

llvm::orc::MachOPlatform::requiredCXXAliases
static ArrayRef< std::pair< const char *, const char * > > requiredCXXAliases()
Returns the array of required CXX aliases.
Definition: MachOPlatform.cpp:417

llvm::orc::MaterializationResponsibility
Tracks responsibility for materialization, and mediates interactions between MaterializationUnits and...
Definition: Core.h:555

llvm::orc::MaterializationResponsibility::defineMaterializing
Error defineMaterializing(SymbolFlagsMap SymbolFlags)
Attempt to claim responsibility for new definitions.
Definition: Core.h:2040

llvm::orc::MaterializationResponsibility::getInitializerSymbol
const SymbolStringPtr & getInitializerSymbol() const
Returns the initialization pseudo-symbol, if any.
Definition: Core.h:591

llvm::orc::MaterializationResponsibility::getTargetJITDylib
JITDylib & getTargetJITDylib() const
Returns the target JITDylib that these symbols are being materialized into.
Definition: Core.h:577

llvm::orc::MaterializationUnit
A MaterializationUnit represents a set of symbol definitions that can be materialized as a group,...
Definition: Core.h:693

llvm::orc::MaterializationUnit::getName
virtual StringRef getName() const =0
Return the name of this materialization unit.

llvm::orc::MaterializationUnit::materialize
virtual void materialize(std::unique_ptr< MaterializationResponsibility > R)=0
Implementations of this method should materialize all symbols in the materialzation unit,...

llvm::orc::MaterializationUnit::getInitializerSymbol
const SymbolStringPtr & getInitializerSymbol() const
Returns the initialization symbol for this MaterializationUnit (if any).
Definition: Core.h:726

llvm::orc::ObjectLinkingLayer
An ObjectLayer implementation built on JITLink.
Definition: ObjectLinkingLayer.h:50

llvm::orc::ObjectLinkingLayer::addPlugin
ObjectLinkingLayer & addPlugin(std::shared_ptr< Plugin > P)
Add a plugin.
Definition: ObjectLinkingLayer.h:125

llvm::orc::ObjectLinkingLayer::emit
void emit(std::unique_ptr< MaterializationResponsibility > R, std::unique_ptr< MemoryBuffer > O) override
Emit an object file.
Definition: ObjectLinkingLayer.cpp:712

llvm::orc::Platform
Platforms set up standard symbols and mediate interactions between dynamic initializers (e....
Definition: Core.h:1360

llvm::orc::ResourceTracker
API to remove / transfer ownership of JIT resources.
Definition: Core.h:56

llvm::orc::ResourceTracker::getJITDylib
JITDylib & getJITDylib() const
Return the JITDylib targeted by this tracker.
Definition: Core.h:71

llvm::orc::SimpleMachOHeaderMU::Opts
MachOPlatform::HeaderOptions Opts
Definition: MachOPlatform.h:396

llvm::orc::SimpleMachOHeaderMU::MOP
MachOPlatform & MOP
Definition: MachOPlatform.h:395

llvm::orc::SimpleMachOHeaderMU::materialize
void materialize(std::unique_ptr< MaterializationResponsibility > R) override
Implementations of this method should materialize all symbols in the materialzation unit,...
Definition: MachOPlatform.cpp:1767

llvm::orc::SimpleMachOHeaderMU::createHeaderBlock
virtual jitlink::Block & createHeaderBlock(JITDylib &JD, jitlink::LinkGraph &G, jitlink::Section &HeaderSection)
Definition: MachOPlatform.cpp:1794

llvm::orc::SimpleMachOHeaderMU::SimpleMachOHeaderMU
SimpleMachOHeaderMU(MachOPlatform &MOP, SymbolStringPtr HeaderStartSymbol, MachOPlatform::HeaderOptions Opts)
Definition: MachOPlatform.cpp:1760

llvm::orc::SimpleMachOHeaderMU::discard
void discard(const JITDylib &JD, const SymbolStringPtr &Sym) override
Implementations of this method should discard the given symbol from the source (e....
Definition: MachOPlatform.cpp:1774

llvm::orc::StaticLibraryDefinitionGenerator::Load
static Expected< std::unique_ptr< StaticLibraryDefinitionGenerator > > Load(ObjectLayer &L, const char *FileName, GetObjectFileInterface GetObjFileInterface=GetObjectFileInterface())
Try to create a StaticLibraryDefinitionGenerator from the given path.
Definition: ExecutionUtils.cpp:274

llvm::orc::SymbolLookupSet
A set of symbols to look up, each associated with a SymbolLookupFlags value.
Definition: Core.h:183

llvm::orc::SymbolStringPtr
Pointer to a pooled string representing a symbol name.
Definition: SymbolStringPool.h:137

llvm::orc::shared::SPSArgList<>
Definition: SimplePackedSerialization.h:112

llvm::orc::shared::SPSArgList
A utility class for serializing to a blob from a variadic list.
Definition: SimplePackedSerialization.h:109

llvm::orc::shared::SPSExecutorAddr
Definition: ExecutorAddress.h:249

llvm::orc::shared::SPSExpected
SPS tag type for expecteds, which are either a T or a string representing an error.
Definition: SimplePackedSerialization.h:589

llvm::orc::shared::SPSInputBuffer
Input char buffer with underflow check.
Definition: SimplePackedSerialization.h:75

llvm::orc::shared::SPSOptional
SPS tag type for optionals.
Definition: SimplePackedSerialization.h:208

llvm::orc::shared::SPSOutputBuffer
Output char buffer with overflow check.
Definition: SimplePackedSerialization.h:55

llvm::orc::shared::SPSSequence
SPS tag type for sequences.
Definition: SimplePackedSerialization.h:214

llvm::orc::shared::SPSSerializationTraits< SPSMachOExecutorSymbolFlags, MachOPlatform::MachOExecutorSymbolFlags >::size
static size_t size(const MachOPlatform::MachOExecutorSymbolFlags &SF)
Definition: MachOPlatform.cpp:68

llvm::orc::shared::SPSSerializationTraits< SPSMachOExecutorSymbolFlags, MachOPlatform::MachOExecutorSymbolFlags >::deserialize
static bool deserialize(SPSInputBuffer &IB, MachOPlatform::MachOExecutorSymbolFlags &SF)
Definition: MachOPlatform.cpp:77

llvm::orc::shared::SPSSerializationTraits< SPSMachOExecutorSymbolFlags, MachOPlatform::MachOExecutorSymbolFlags >::serialize
static bool serialize(SPSOutputBuffer &OB, const MachOPlatform::MachOExecutorSymbolFlags &SF)
Definition: MachOPlatform.cpp:72

llvm::orc::shared::SPSSerializationTraits< SPSMachOJITDylibDepInfo, MachOPlatform::MachOJITDylibDepInfo >::serialize
static bool serialize(SPSOutputBuffer &OB, const MachOPlatform::MachOJITDylibDepInfo &DDI)
Definition: MachOPlatform.cpp:48

llvm::orc::shared::SPSSerializationTraits< SPSMachOJITDylibDepInfo, MachOPlatform::MachOJITDylibDepInfo >::size
static size_t size(const MachOPlatform::MachOJITDylibDepInfo &DDI)
Definition: MachOPlatform.cpp:44

llvm::orc::shared::SPSSerializationTraits< SPSMachOJITDylibDepInfo, MachOPlatform::MachOJITDylibDepInfo >::deserialize
static bool deserialize(SPSInputBuffer &IB, MachOPlatform::MachOJITDylibDepInfo &DDI)
Definition: MachOPlatform.cpp:54

llvm::orc::shared::SPSSerializationTraits
Specialize to describe how to serialize/deserialize to/from the given concrete type.
Definition: SimplePackedSerialization.h:106

llvm::orc::shared::SPSTuple
SPS tag type for tuples.
Definition: SimplePackedSerialization.h:196

llvm::orc::shared::WrapperFunctionCall::Create
static Expected< WrapperFunctionCall > Create(ExecutorAddr FnAddr, const ArgTs &...Args)
Create a WrapperFunctionCall using the given SPS serializer to serialize the arguments.
Definition: WrapperFunctionUtils.h:637

llvm::unique_function< std::unique_ptr< MaterializationUnit >(MachOPlatform &MOP, HeaderOptions Opts)>

uint16_t

uint32_t

uint64_t

llvm_unreachable
#define llvm_unreachable(msg)
Marks that the current location is not supposed to be reachable.
Definition: ErrorHandling.h:143

llvm::AArch64CC::HI
@ HI
Definition: AArch64BaseInfo.h:264

llvm::AArch64CC::LS
@ LS
Definition: AArch64BaseInfo.h:265

llvm::AMDGPU::PALMD::Key
Key
PAL metadata keys.
Definition: AMDGPUMetadata.h:487

llvm::ARMBuildAttrs::Section
@ Section
Legacy Tags.
Definition: ARMBuildAttributes.h:82

llvm::ARM::PredBlockMask::TT
@ TT

llvm::MachO::CPU_SUBTYPE_ARM64_ALL
@ CPU_SUBTYPE_ARM64_ALL
Definition: MachO.h:1641

llvm::MachO::MH_MAGIC_64
@ MH_MAGIC_64
Definition: MachO.h:32

llvm::MachO::MH_DYLIB
@ MH_DYLIB
Definition: MachO.h:48

llvm::MachO::S_REGULAR
@ S_REGULAR
S_REGULAR - Regular section.
Definition: MachO.h:127

llvm::MachO::swapStruct
void swapStruct(fat_header &mh)
Definition: MachO.h:1140

llvm::MachO::CPU_SUBTYPE_X86_64_ALL
@ CPU_SUBTYPE_X86_64_ALL
Definition: MachO.h:1611

llvm::MachO::CPU_TYPE_ARM64
@ CPU_TYPE_ARM64
Definition: MachO.h:1570

llvm::MachO::CPU_TYPE_X86_64
@ CPU_TYPE_X86_64
Definition: MachO.h:1566

llvm::RISCVFenceField::R
@ R
Definition: RISCVBaseInfo.h:314

llvm::jitlink::aarch64::PointerSize
constexpr uint64_t PointerSize
aarch64 pointer size.
Definition: aarch64.h:616

llvm::jitlink::aarch64::Pointer64
@ Pointer64
A plain 64-bit pointer value relocation.
Definition: aarch64.h:32

llvm::jitlink::x86_64::RequestTLVPAndTransformToPCRel32TLVPLoadREXRelaxable
@ RequestTLVPAndTransformToPCRel32TLVPLoadREXRelaxable
A TLVP entry getter/constructor, transformed to Delta32ToTLVPLoadREXRelaxable.
Definition: x86_64.h:397

llvm::jitlink::x86_64::Pointer64
@ Pointer64
A plain 64-bit pointer value relocation.
Definition: x86_64.h:31

llvm::jitlink::getGenericEdgeKindName
const char * getGenericEdgeKindName(Edge::Kind K)
Returns the string name of the given generic edge kind, or "unknown" otherwise.
Definition: JITLink.cpp:63

llvm::jitlink::Linkage::Weak
@ Weak

llvm::jitlink::Linkage::Strong
@ Strong

llvm::jitlink::Scope::Default
@ Default

llvm::jitlink::Scope::Hidden
@ Hidden

llvm::ms_demangle::IntrinsicFunctionKind::New
@ New

llvm::msgpack::Endianness
constexpr llvm::endianness Endianness
The endianness of all multi-byte encoded values in MessagePack.
Definition: MsgPack.h:24

llvm::omp::RTLDependInfoFields::Flags
@ Flags

llvm::orc::shared
Definition: ELFNixPlatform.h:248

llvm::orc::shared::SPSExecutorAddrRange
SPSTuple< SPSExecutorAddr, SPSExecutorAddr > SPSExecutorAddrRange
Definition: ExecutorAddress.h:271

llvm::orc::shared::AllocActions
std::vector< AllocActionCallPair > AllocActions
A vector of allocation actions to be run for this allocation.
Definition: AllocationActions.h:44

llvm::orc
Definition: COFFPlatform.h:30

llvm::orc::MachOSwift5EntrySectionName
StringRef MachOSwift5EntrySectionName
Definition: ObjectFormats.cpp:44

llvm::orc::MachOThreadBSSSectionName
StringRef MachOThreadBSSSectionName
Definition: ObjectFormats.cpp:45

llvm::orc::MachOThreadVarsSectionName
StringRef MachOThreadVarsSectionName
Definition: ObjectFormats.cpp:47

llvm::orc::SimpleRemoteEPCOpcode::Result
@ Result

llvm::orc::makeJITDylibSearchOrder
JITDylibSearchOrder makeJITDylibSearchOrder(ArrayRef< JITDylib * > JDs, JITDylibLookupFlags Flags=JITDylibLookupFlags::MatchExportedSymbolsOnly)
Convenience function for creating a search order from an ArrayRef of JITDylib*, all with the same fla...
Definition: Core.h:166

llvm::orc::MachOCompactUnwindInfoSectionName
StringRef MachOCompactUnwindInfoSectionName
Definition: ObjectFormats.cpp:21

llvm::orc::symbolAliases
std::unique_ptr< ReExportsMaterializationUnit > symbolAliases(SymbolAliasMap Aliases)
Create a ReExportsMaterializationUnit with the given aliases.
Definition: Core.h:837

llvm::orc::MemProt::Read
@ Read

llvm::orc::absoluteSymbols
std::unique_ptr< AbsoluteSymbolsMaterializationUnit > absoluteSymbols(SymbolMap Symbols)
Create an AbsoluteSymbolsMaterializationUnit with the given symbols.
Definition: Core.h:791

llvm::orc::MachOObjCProtoListSectionName
StringRef MachOObjCProtoListSectionName
Definition: ObjectFormats.cpp:36

llvm::orc::MachOSwift5ProtosSectionName
StringRef MachOSwift5ProtosSectionName
Definition: ObjectFormats.cpp:40

llvm::orc::MachOEHFrameSectionName
StringRef MachOEHFrameSectionName
Definition: ObjectFormats.cpp:20

llvm::orc::MachOModInitFuncSectionName
StringRef MachOModInitFuncSectionName
Definition: ObjectFormats.cpp:23

llvm::orc::MachOObjCConstSectionName
StringRef MachOObjCConstSectionName
Definition: ObjectFormats.cpp:29

llvm::orc::SymbolLookupFlags::WeaklyReferencedSymbol
@ WeaklyReferencedSymbol

llvm::orc::MachODataDataSectionName
StringRef MachODataDataSectionName
Definition: ObjectFormats.cpp:19

llvm::orc::MachOSwift5ProtoSectionName
StringRef MachOSwift5ProtoSectionName
Definition: ObjectFormats.cpp:39

llvm::orc::JITDylibLookupFlags::MatchAllSymbols
@ MatchAllSymbols

llvm::orc::addAliases
static void addAliases(ExecutionSession &ES, SymbolAliasMap &Aliases, ArrayRef< std::pair< const char *, const char * > > AL)
Definition: COFFPlatform.cpp:257

llvm::orc::MachOObjCCatListSectionName
StringRef MachOObjCCatListSectionName
Definition: ObjectFormats.cpp:24

llvm::orc::MachOObjCClassRefsSectionName
StringRef MachOObjCClassRefsSectionName
Definition: ObjectFormats.cpp:28

llvm::orc::MachOObjCDataSectionName
StringRef MachOObjCDataSectionName
Definition: ObjectFormats.cpp:30

llvm::orc::MachOObjCClassNameSectionName
StringRef MachOObjCClassNameSectionName
Definition: ObjectFormats.cpp:27

llvm::orc::MachOObjCMethNameSectionName
StringRef MachOObjCMethNameSectionName
Definition: ObjectFormats.cpp:32

llvm::orc::MachOInitSectionNames
StringRef MachOInitSectionNames[22]
Definition: ObjectFormats.cpp:49

llvm::orc::MachOObjCClassListSectionName
StringRef MachOObjCClassListSectionName
Definition: ObjectFormats.cpp:26

llvm::orc::MachOObjCSelRefsSectionName
StringRef MachOObjCSelRefsSectionName
Definition: ObjectFormats.cpp:38

llvm::orc::MachOSwift5FieldMetadataSectionName
StringRef MachOSwift5FieldMetadataSectionName
Definition: ObjectFormats.cpp:43

llvm::orc::MachOCStringSectionName
StringRef MachOCStringSectionName
Definition: ObjectFormats.cpp:22

llvm::orc::MachOObjCMethTypeSectionName
StringRef MachOObjCMethTypeSectionName
Definition: ObjectFormats.cpp:33

llvm::orc::MachOSwift5TypesSectionName
StringRef MachOSwift5TypesSectionName
Definition: ObjectFormats.cpp:41

llvm::orc::MachOObjCNLCatListSectionName
StringRef MachOObjCNLCatListSectionName
Definition: ObjectFormats.cpp:34

llvm::orc::createHeaderBlock
jitlink::Block & createHeaderBlock(MachOPlatform &MOP, const MachOPlatform::HeaderOptions &Opts, JITDylib &JD, jitlink::LinkGraph &G, jitlink::Section &HeaderSection)
Definition: MachOPlatform.cpp:1725

llvm::orc::MachOObjCNLClassListSectionName
StringRef MachOObjCNLClassListSectionName
Definition: ObjectFormats.cpp:35

llvm::orc::MachOObjCImageInfoSectionName
StringRef MachOObjCImageInfoSectionName
Definition: ObjectFormats.cpp:31

llvm::orc::getMachOHeaderInfoFromTriple
MachOHeaderInfo getMachOHeaderInfoFromTriple(const Triple &TT)
Definition: MachOPlatform.cpp:1818

llvm::orc::NoDependenciesToRegister
RegisterDependenciesFunction NoDependenciesToRegister
This can be used as the value for a RegisterDependenciesFunction if there are no dependants to regist...
Definition: Core.cpp:37

llvm::orc::MachOThreadDataSectionName
StringRef MachOThreadDataSectionName
Definition: ObjectFormats.cpp:46

llvm::orc::MachODataCommonSectionName
StringRef MachODataCommonSectionName
Definition: ObjectFormats.cpp:18

llvm::orc::MachOObjCProtoRefsSectionName
StringRef MachOObjCProtoRefsSectionName
Definition: ObjectFormats.cpp:37

llvm::orc::MachOSwift5TypeRefSectionName
StringRef MachOSwift5TypeRefSectionName
Definition: ObjectFormats.cpp:42

llvm::orc::MachOObjCCatList2SectionName
StringRef MachOObjCCatList2SectionName
Definition: ObjectFormats.cpp:25

llvm::support::endian::byte_swap
value_type byte_swap(value_type value, endianness endian)
Definition: Endian.h:44

llvm::support::endian::read32
uint32_t read32(const void *P, endianness E)
Definition: Endian.h:405

llvm::support::endian::write32
void write32(void *P, uint32_t V, endianness E)
Definition: Endian.h:448

llvm
This is an optimization pass for GlobalISel generic memory operations.
Definition: AddressRanges.h:18

llvm::PseudoProbeType::Block
@ Block

llvm::inconvertibleErrorCode
std::error_code inconvertibleErrorCode()
The value returned by this function can be returned from convertToErrorCode for Error values where no...
Definition: Error.cpp:98

llvm::formatv
auto formatv(const char *Fmt, Ts &&...Vals) -> formatv_object< decltype(std::make_tuple(support::detail::build_format_adapter(std::forward< Ts >(Vals))...))>
Definition: FormatVariadic.h:251

llvm::sort
void sort(IteratorTy Start, IteratorTy End)
Definition: STLExtras.h:1647

llvm::dbgs
raw_ostream & dbgs()
dbgs() - This returns a reference to a raw_ostream for debugging messages.
Definition: Debug.cpp:163

llvm::cantFail
void cantFail(Error Err, const char *Msg=nullptr)
Report a fatal error if Err is a failure value.
Definition: Error.h:756

llvm::copy
OutputIt copy(R &&Range, OutputIt Out)
Definition: STLExtras.h:1824

llvm::move
OutputIt move(R &&Range, OutputIt Out)
Provide wrappers to std::move which take ranges instead of having to pass begin/end explicitly.
Definition: STLExtras.h:1849

llvm::find_if
auto find_if(R &&Range, UnaryPredicate P)
Provide wrappers to std::find_if which take ranges instead of having to pass begin/end explicitly.
Definition: STLExtras.h:1749

llvm::endianness
endianness
Definition: bit.h:70

llvm::endianness::native
@ native

llvm::endianness::little
@ little

llvm::Version
@ Version
Definition: PGOCtxProfWriter.h:21

std
Implement std::hash so that hash_code can be used in STL containers.
Definition: BitVector.h:858

llvm::MachO::mach_header_64
Definition: MachO.h:522

llvm::MachO::mach_header_64::cputype
uint32_t cputype
Definition: MachO.h:524

llvm::MachO::mach_header_64::magic
uint32_t magic
Definition: MachO.h:523

llvm::MachO::mach_header_64::reserved
uint32_t reserved
Definition: MachO.h:530

llvm::MachO::mach_header_64::flags
uint32_t flags
Definition: MachO.h:529

llvm::MachO::mach_header_64::filetype
uint32_t filetype
Definition: MachO.h:526

llvm::MachO::mach_header_64::ncmds
uint32_t ncmds
Definition: MachO.h:527

llvm::MachO::mach_header_64::sizeofcmds
uint32_t sizeofcmds
Definition: MachO.h:528

llvm::MachO::mach_header_64::cpusubtype
uint32_t cpusubtype
Definition: MachO.h:525

llvm::MachO::section_64
Definition: MachO.h:580

llvm::MachO::segment_command_64
Definition: MachO.h:552

llvm::MachO::segment_command_64::nsects
uint32_t nsects
Definition: MachO.h:562

llvm::MachO::segment_command_64::cmdsize
uint32_t cmdsize
Definition: MachO.h:554

llvm::MachO::segment_command_64::segname
char segname[16]
Definition: MachO.h:555

llvm::MachO::segment_command_64::cmd
uint32_t cmd
Definition: MachO.h:553

llvm::jitlink::PassConfiguration
An LinkGraph pass configuration, consisting of a list of pre-prune, post-prune, and post-fixup passes...
Definition: JITLink.h:1707

llvm::orc::ExecutorAddrRange
Represents an address range in the exceutor process.
Definition: ExecutorAddress.h:191

llvm::orc::MachOHeaderInfo
Definition: MachOPlatform.h:422

llvm::orc::MachOPlatform::HeaderOptions::BuildVersionOpts
Definition: MachOPlatform.h:61

llvm::orc::MachOPlatform::HeaderOptions::BuildVersionOpts::MinOS
uint32_t MinOS
Definition: MachOPlatform.h:68

llvm::orc::MachOPlatform::HeaderOptions::BuildVersionOpts::SDK
uint32_t SDK
Definition: MachOPlatform.h:69

llvm::orc::MachOPlatform::HeaderOptions::BuildVersionOpts::fromTriple
static std::optional< BuildVersionOpts > fromTriple(const Triple &TT, uint32_t MinOS, uint32_t SDK)
Definition: MachOPlatform.cpp:262

llvm::orc::MachOPlatform::HeaderOptions::BuildVersionOpts::Platform
uint32_t Platform
Definition: MachOPlatform.h:67

llvm::orc::MachOPlatform::HeaderOptions
Configuration for the mach-o header of a JITDylib.
Definition: MachOPlatform.h:52

llvm::orc::MachOPlatform::HeaderOptions::IDDylib
std::optional< Dylib > IDDylib
Override for LC_IC_DYLIB.
Definition: MachOPlatform.h:74

llvm::orc::MachOPlatform::HeaderOptions::HeaderOptions
HeaderOptions()=default

llvm::orc::MachOPlatform::HeaderOptions::RPaths
std::vector< std::string > RPaths
List of LC_RPATHs.
Definition: MachOPlatform.h:79

llvm::orc::MachOPlatform::HeaderOptions::BuildVersions
std::vector< BuildVersionOpts > BuildVersions
List of LC_BUILD_VERSIONs.
Definition: MachOPlatform.h:81

llvm::orc::MachOPlatform::HeaderOptions::LoadDylibs
std::vector< Dylib > LoadDylibs
List of LC_LOAD_DYLIBs.
Definition: MachOPlatform.h:77

llvm::orc::MachOPlatform::MachOJITDylibDepInfo
Definition: MachOPlatform.h:33

llvm::orc::MachOPlatform::MachOJITDylibDepInfo::Sealed
bool Sealed
Definition: MachOPlatform.h:34

llvm::orc::MachOPlatform::MachOJITDylibDepInfo::DepHeaders
std::vector< ExecutorAddr > DepHeaders
Definition: MachOPlatform.h:35

llvm::orc::MaterializationUnit::Interface
Definition: Core.h:700

x86_64.h