forked from OSchip/llvm-project
454 lines
15 KiB
C++
454 lines
15 KiB
C++
//===---- IndirectionUtils.cpp - Utilities for call indirection in Orc ----===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ExecutionEngine/Orc/IndirectionUtils.h"
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#include "llvm/ADT/STLExtras.h"
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#include "llvm/ADT/Triple.h"
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#include "llvm/ExecutionEngine/JITLink/x86_64.h"
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#include "llvm/ExecutionEngine/Orc/OrcABISupport.h"
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#include "llvm/IR/IRBuilder.h"
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#include "llvm/MC/MCDisassembler/MCDisassembler.h"
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#include "llvm/MC/MCInstrAnalysis.h"
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#include "llvm/Support/Format.h"
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#include "llvm/Transforms/Utils/Cloning.h"
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#include <sstream>
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#define DEBUG_TYPE "orc"
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using namespace llvm;
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using namespace llvm::orc;
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namespace {
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class CompileCallbackMaterializationUnit : public orc::MaterializationUnit {
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public:
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using CompileFunction = JITCompileCallbackManager::CompileFunction;
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CompileCallbackMaterializationUnit(SymbolStringPtr Name,
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CompileFunction Compile)
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: MaterializationUnit(Interface(
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SymbolFlagsMap({{Name, JITSymbolFlags::Exported}}), nullptr)),
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Name(std::move(Name)), Compile(std::move(Compile)) {}
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StringRef getName() const override { return "<Compile Callbacks>"; }
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private:
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void materialize(std::unique_ptr<MaterializationResponsibility> R) override {
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SymbolMap Result;
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Result[Name] = JITEvaluatedSymbol(Compile(), JITSymbolFlags::Exported);
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// No dependencies, so these calls cannot fail.
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cantFail(R->notifyResolved(Result));
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cantFail(R->notifyEmitted());
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}
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void discard(const JITDylib &JD, const SymbolStringPtr &Name) override {
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llvm_unreachable("Discard should never occur on a LMU?");
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}
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SymbolStringPtr Name;
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CompileFunction Compile;
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};
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} // namespace
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namespace llvm {
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namespace orc {
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TrampolinePool::~TrampolinePool() {}
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void IndirectStubsManager::anchor() {}
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Expected<JITTargetAddress>
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JITCompileCallbackManager::getCompileCallback(CompileFunction Compile) {
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if (auto TrampolineAddr = TP->getTrampoline()) {
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auto CallbackName =
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ES.intern(std::string("cc") + std::to_string(++NextCallbackId));
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std::lock_guard<std::mutex> Lock(CCMgrMutex);
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AddrToSymbol[*TrampolineAddr] = CallbackName;
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cantFail(
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CallbacksJD.define(std::make_unique<CompileCallbackMaterializationUnit>(
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std::move(CallbackName), std::move(Compile))));
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return *TrampolineAddr;
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} else
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return TrampolineAddr.takeError();
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}
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JITTargetAddress JITCompileCallbackManager::executeCompileCallback(
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JITTargetAddress TrampolineAddr) {
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SymbolStringPtr Name;
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{
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std::unique_lock<std::mutex> Lock(CCMgrMutex);
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auto I = AddrToSymbol.find(TrampolineAddr);
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// If this address is not associated with a compile callback then report an
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// error to the execution session and return ErrorHandlerAddress to the
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// callee.
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if (I == AddrToSymbol.end()) {
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Lock.unlock();
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std::string ErrMsg;
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{
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raw_string_ostream ErrMsgStream(ErrMsg);
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ErrMsgStream << "No compile callback for trampoline at "
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<< format("0x%016" PRIx64, TrampolineAddr);
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}
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ES.reportError(
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make_error<StringError>(std::move(ErrMsg), inconvertibleErrorCode()));
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return ErrorHandlerAddress;
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} else
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Name = I->second;
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}
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if (auto Sym =
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ES.lookup(makeJITDylibSearchOrder(
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&CallbacksJD, JITDylibLookupFlags::MatchAllSymbols),
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Name))
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return Sym->getAddress();
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else {
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llvm::dbgs() << "Didn't find callback.\n";
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// If anything goes wrong materializing Sym then report it to the session
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// and return the ErrorHandlerAddress;
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ES.reportError(Sym.takeError());
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return ErrorHandlerAddress;
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}
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}
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Expected<std::unique_ptr<JITCompileCallbackManager>>
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createLocalCompileCallbackManager(const Triple &T, ExecutionSession &ES,
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JITTargetAddress ErrorHandlerAddress) {
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switch (T.getArch()) {
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default:
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return make_error<StringError>(
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std::string("No callback manager available for ") + T.str(),
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inconvertibleErrorCode());
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case Triple::aarch64:
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case Triple::aarch64_32: {
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typedef orc::LocalJITCompileCallbackManager<orc::OrcAArch64> CCMgrT;
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return CCMgrT::Create(ES, ErrorHandlerAddress);
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}
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case Triple::x86: {
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typedef orc::LocalJITCompileCallbackManager<orc::OrcI386> CCMgrT;
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return CCMgrT::Create(ES, ErrorHandlerAddress);
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}
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case Triple::mips: {
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typedef orc::LocalJITCompileCallbackManager<orc::OrcMips32Be> CCMgrT;
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return CCMgrT::Create(ES, ErrorHandlerAddress);
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}
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case Triple::mipsel: {
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typedef orc::LocalJITCompileCallbackManager<orc::OrcMips32Le> CCMgrT;
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return CCMgrT::Create(ES, ErrorHandlerAddress);
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}
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case Triple::mips64:
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case Triple::mips64el: {
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typedef orc::LocalJITCompileCallbackManager<orc::OrcMips64> CCMgrT;
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return CCMgrT::Create(ES, ErrorHandlerAddress);
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}
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case Triple::x86_64: {
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if (T.getOS() == Triple::OSType::Win32) {
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typedef orc::LocalJITCompileCallbackManager<orc::OrcX86_64_Win32> CCMgrT;
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return CCMgrT::Create(ES, ErrorHandlerAddress);
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} else {
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typedef orc::LocalJITCompileCallbackManager<orc::OrcX86_64_SysV> CCMgrT;
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return CCMgrT::Create(ES, ErrorHandlerAddress);
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}
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}
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}
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}
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std::function<std::unique_ptr<IndirectStubsManager>()>
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createLocalIndirectStubsManagerBuilder(const Triple &T) {
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switch (T.getArch()) {
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default:
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return [](){
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return std::make_unique<
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orc::LocalIndirectStubsManager<orc::OrcGenericABI>>();
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};
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case Triple::aarch64:
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case Triple::aarch64_32:
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return [](){
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return std::make_unique<
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orc::LocalIndirectStubsManager<orc::OrcAArch64>>();
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};
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case Triple::x86:
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return [](){
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return std::make_unique<
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orc::LocalIndirectStubsManager<orc::OrcI386>>();
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};
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case Triple::mips:
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return [](){
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return std::make_unique<
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orc::LocalIndirectStubsManager<orc::OrcMips32Be>>();
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};
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case Triple::mipsel:
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return [](){
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return std::make_unique<
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orc::LocalIndirectStubsManager<orc::OrcMips32Le>>();
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};
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case Triple::mips64:
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case Triple::mips64el:
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return [](){
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return std::make_unique<
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orc::LocalIndirectStubsManager<orc::OrcMips64>>();
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};
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case Triple::x86_64:
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if (T.getOS() == Triple::OSType::Win32) {
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return [](){
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return std::make_unique<
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orc::LocalIndirectStubsManager<orc::OrcX86_64_Win32>>();
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};
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} else {
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return [](){
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return std::make_unique<
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orc::LocalIndirectStubsManager<orc::OrcX86_64_SysV>>();
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};
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}
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}
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}
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Constant* createIRTypedAddress(FunctionType &FT, JITTargetAddress Addr) {
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Constant *AddrIntVal =
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ConstantInt::get(Type::getInt64Ty(FT.getContext()), Addr);
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Constant *AddrPtrVal =
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ConstantExpr::getCast(Instruction::IntToPtr, AddrIntVal,
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PointerType::get(&FT, 0));
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return AddrPtrVal;
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}
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GlobalVariable* createImplPointer(PointerType &PT, Module &M,
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const Twine &Name, Constant *Initializer) {
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auto IP = new GlobalVariable(M, &PT, false, GlobalValue::ExternalLinkage,
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Initializer, Name, nullptr,
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GlobalValue::NotThreadLocal, 0, true);
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IP->setVisibility(GlobalValue::HiddenVisibility);
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return IP;
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}
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void makeStub(Function &F, Value &ImplPointer) {
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assert(F.isDeclaration() && "Can't turn a definition into a stub.");
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assert(F.getParent() && "Function isn't in a module.");
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Module &M = *F.getParent();
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BasicBlock *EntryBlock = BasicBlock::Create(M.getContext(), "entry", &F);
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IRBuilder<> Builder(EntryBlock);
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LoadInst *ImplAddr = Builder.CreateLoad(F.getType(), &ImplPointer);
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std::vector<Value*> CallArgs;
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for (auto &A : F.args())
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CallArgs.push_back(&A);
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CallInst *Call = Builder.CreateCall(F.getFunctionType(), ImplAddr, CallArgs);
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Call->setTailCall();
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Call->setAttributes(F.getAttributes());
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if (F.getReturnType()->isVoidTy())
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Builder.CreateRetVoid();
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else
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Builder.CreateRet(Call);
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}
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std::vector<GlobalValue *> SymbolLinkagePromoter::operator()(Module &M) {
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std::vector<GlobalValue *> PromotedGlobals;
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for (auto &GV : M.global_values()) {
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bool Promoted = true;
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// Rename if necessary.
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if (!GV.hasName())
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GV.setName("__orc_anon." + Twine(NextId++));
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else if (GV.getName().startswith("\01L"))
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GV.setName("__" + GV.getName().substr(1) + "." + Twine(NextId++));
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else if (GV.hasLocalLinkage())
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GV.setName("__orc_lcl." + GV.getName() + "." + Twine(NextId++));
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else
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Promoted = false;
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if (GV.hasLocalLinkage()) {
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GV.setLinkage(GlobalValue::ExternalLinkage);
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GV.setVisibility(GlobalValue::HiddenVisibility);
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Promoted = true;
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}
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GV.setUnnamedAddr(GlobalValue::UnnamedAddr::None);
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if (Promoted)
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PromotedGlobals.push_back(&GV);
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}
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return PromotedGlobals;
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}
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Function* cloneFunctionDecl(Module &Dst, const Function &F,
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ValueToValueMapTy *VMap) {
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Function *NewF =
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Function::Create(cast<FunctionType>(F.getValueType()),
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F.getLinkage(), F.getName(), &Dst);
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NewF->copyAttributesFrom(&F);
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if (VMap) {
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(*VMap)[&F] = NewF;
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auto NewArgI = NewF->arg_begin();
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for (auto ArgI = F.arg_begin(), ArgE = F.arg_end(); ArgI != ArgE;
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++ArgI, ++NewArgI)
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(*VMap)[&*ArgI] = &*NewArgI;
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}
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return NewF;
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}
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void moveFunctionBody(Function &OrigF, ValueToValueMapTy &VMap,
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ValueMaterializer *Materializer,
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Function *NewF) {
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assert(!OrigF.isDeclaration() && "Nothing to move");
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if (!NewF)
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NewF = cast<Function>(VMap[&OrigF]);
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else
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assert(VMap[&OrigF] == NewF && "Incorrect function mapping in VMap.");
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assert(NewF && "Function mapping missing from VMap.");
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assert(NewF->getParent() != OrigF.getParent() &&
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"moveFunctionBody should only be used to move bodies between "
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"modules.");
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SmallVector<ReturnInst *, 8> Returns; // Ignore returns cloned.
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CloneFunctionInto(NewF, &OrigF, VMap,
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CloneFunctionChangeType::DifferentModule, Returns, "",
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nullptr, nullptr, Materializer);
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OrigF.deleteBody();
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}
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GlobalVariable* cloneGlobalVariableDecl(Module &Dst, const GlobalVariable &GV,
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ValueToValueMapTy *VMap) {
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GlobalVariable *NewGV = new GlobalVariable(
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Dst, GV.getValueType(), GV.isConstant(),
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GV.getLinkage(), nullptr, GV.getName(), nullptr,
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GV.getThreadLocalMode(), GV.getType()->getAddressSpace());
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NewGV->copyAttributesFrom(&GV);
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if (VMap)
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(*VMap)[&GV] = NewGV;
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return NewGV;
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}
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void moveGlobalVariableInitializer(GlobalVariable &OrigGV,
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ValueToValueMapTy &VMap,
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ValueMaterializer *Materializer,
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GlobalVariable *NewGV) {
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assert(OrigGV.hasInitializer() && "Nothing to move");
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if (!NewGV)
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NewGV = cast<GlobalVariable>(VMap[&OrigGV]);
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else
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assert(VMap[&OrigGV] == NewGV &&
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"Incorrect global variable mapping in VMap.");
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assert(NewGV->getParent() != OrigGV.getParent() &&
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"moveGlobalVariableInitializer should only be used to move "
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"initializers between modules");
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NewGV->setInitializer(MapValue(OrigGV.getInitializer(), VMap, RF_None,
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nullptr, Materializer));
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}
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GlobalAlias* cloneGlobalAliasDecl(Module &Dst, const GlobalAlias &OrigA,
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ValueToValueMapTy &VMap) {
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assert(OrigA.getAliasee() && "Original alias doesn't have an aliasee?");
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auto *NewA = GlobalAlias::create(OrigA.getValueType(),
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OrigA.getType()->getPointerAddressSpace(),
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OrigA.getLinkage(), OrigA.getName(), &Dst);
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NewA->copyAttributesFrom(&OrigA);
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VMap[&OrigA] = NewA;
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return NewA;
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}
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void cloneModuleFlagsMetadata(Module &Dst, const Module &Src,
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ValueToValueMapTy &VMap) {
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auto *MFs = Src.getModuleFlagsMetadata();
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if (!MFs)
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return;
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for (auto *MF : MFs->operands())
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Dst.addModuleFlag(MapMetadata(MF, VMap));
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}
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Error addFunctionPointerRelocationsToCurrentSymbol(jitlink::Symbol &Sym,
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jitlink::LinkGraph &G,
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MCDisassembler &Disassembler,
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MCInstrAnalysis &MIA) {
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// AArch64 appears to already come with the necessary relocations. Among other
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// architectures, only x86_64 is currently implemented here.
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if (G.getTargetTriple().getArch() != Triple::x86_64)
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return Error::success();
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raw_null_ostream CommentStream;
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auto &STI = Disassembler.getSubtargetInfo();
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// Determine the function bounds
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auto &B = Sym.getBlock();
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assert(!B.isZeroFill() && "expected content block");
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auto SymAddress = Sym.getAddress();
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auto SymStartInBlock =
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(const uint8_t *)B.getContent().data() + Sym.getOffset();
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auto SymSize = Sym.getSize() ? Sym.getSize() : B.getSize() - Sym.getOffset();
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auto Content = makeArrayRef(SymStartInBlock, SymSize);
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LLVM_DEBUG(dbgs() << "Adding self-relocations to " << Sym.getName() << "\n");
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SmallDenseSet<uintptr_t, 8> ExistingRelocations;
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for (auto &E : B.edges()) {
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if (E.isRelocation())
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ExistingRelocations.insert(E.getOffset());
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}
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size_t I = 0;
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while (I < Content.size()) {
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MCInst Instr;
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uint64_t InstrSize = 0;
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uint64_t InstrStart = SymAddress.getValue() + I;
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auto DecodeStatus = Disassembler.getInstruction(
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Instr, InstrSize, Content.drop_front(I), InstrStart, CommentStream);
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if (DecodeStatus != MCDisassembler::Success) {
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LLVM_DEBUG(dbgs() << "Aborting due to disassembly failure at address "
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<< InstrStart);
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return make_error<StringError>(
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formatv("failed to disassemble at address {0:x16}", InstrStart),
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inconvertibleErrorCode());
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}
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// Advance to the next instruction.
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I += InstrSize;
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// Check for a PC-relative address equal to the symbol itself.
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auto PCRelAddr =
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MIA.evaluateMemoryOperandAddress(Instr, &STI, InstrStart, InstrSize);
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if (!PCRelAddr || *PCRelAddr != SymAddress.getValue())
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continue;
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auto RelocOffInInstr =
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MIA.getMemoryOperandRelocationOffset(Instr, InstrSize);
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if (!RelocOffInInstr.hasValue() ||
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InstrSize - RelocOffInInstr.getValue() != 4) {
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LLVM_DEBUG(dbgs() << "Skipping unknown self-relocation at "
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<< InstrStart);
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continue;
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}
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auto RelocOffInBlock = orc::ExecutorAddr(InstrStart) + *RelocOffInInstr -
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SymAddress + Sym.getOffset();
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if (ExistingRelocations.contains(RelocOffInBlock))
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continue;
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LLVM_DEBUG(dbgs() << "Adding delta32 self-relocation at " << InstrStart);
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B.addEdge(jitlink::x86_64::Delta32, RelocOffInBlock, Sym, /*Addend=*/-4);
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}
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return Error::success();
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}
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} // End namespace orc.
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} // End namespace llvm.
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