//===---- IndirectionUtils.cpp - Utilities for call indirection 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/IndirectionUtils.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/Triple.h" #include "llvm/ExecutionEngine/Orc/OrcABISupport.h" #include "llvm/IR/IRBuilder.h" #include "llvm/Support/Format.h" #include "llvm/Transforms/Utils/Cloning.h" #include using namespace llvm; using namespace llvm::orc; namespace { class CompileCallbackMaterializationUnit : public orc::MaterializationUnit { public: using CompileFunction = JITCompileCallbackManager::CompileFunction; CompileCallbackMaterializationUnit(SymbolStringPtr Name, CompileFunction Compile, VModuleKey K) : MaterializationUnit(SymbolFlagsMap({{Name, JITSymbolFlags::Exported}}), nullptr, std::move(K)), Name(std::move(Name)), Compile(std::move(Compile)) {} StringRef getName() const override { return ""; } private: void materialize(MaterializationResponsibility R) override { SymbolMap Result; Result[Name] = JITEvaluatedSymbol(Compile(), JITSymbolFlags::Exported); // No dependencies, so these calls cannot fail. cantFail(R.notifyResolved(Result)); cantFail(R.notifyEmitted()); } void discard(const JITDylib &JD, const SymbolStringPtr &Name) override { llvm_unreachable("Discard should never occur on a LMU?"); } SymbolStringPtr Name; CompileFunction Compile; }; } // namespace namespace llvm { namespace orc { void IndirectStubsManager::anchor() {} void TrampolinePool::anchor() {} Expected JITCompileCallbackManager::getCompileCallback(CompileFunction Compile) { if (auto TrampolineAddr = TP->getTrampoline()) { auto CallbackName = ES.intern(std::string("cc") + std::to_string(++NextCallbackId)); std::lock_guard Lock(CCMgrMutex); AddrToSymbol[*TrampolineAddr] = CallbackName; cantFail(CallbacksJD.define( std::make_unique( std::move(CallbackName), std::move(Compile), ES.allocateVModule()))); return *TrampolineAddr; } else return TrampolineAddr.takeError(); } JITTargetAddress JITCompileCallbackManager::executeCompileCallback( JITTargetAddress TrampolineAddr) { SymbolStringPtr Name; { std::unique_lock Lock(CCMgrMutex); auto I = AddrToSymbol.find(TrampolineAddr); // If this address is not associated with a compile callback then report an // error to the execution session and return ErrorHandlerAddress to the // callee. if (I == AddrToSymbol.end()) { Lock.unlock(); std::string ErrMsg; { raw_string_ostream ErrMsgStream(ErrMsg); ErrMsgStream << "No compile callback for trampoline at " << format("0x%016" PRIx64, TrampolineAddr); } ES.reportError( make_error(std::move(ErrMsg), inconvertibleErrorCode())); return ErrorHandlerAddress; } else Name = I->second; } if (auto Sym = ES.lookup(makeJITDylibSearchOrder( &CallbacksJD, JITDylibLookupFlags::MatchAllSymbols), Name)) return Sym->getAddress(); else { llvm::dbgs() << "Didn't find callback.\n"; // If anything goes wrong materializing Sym then report it to the session // and return the ErrorHandlerAddress; ES.reportError(Sym.takeError()); return ErrorHandlerAddress; } } Expected> createLocalCompileCallbackManager(const Triple &T, ExecutionSession &ES, JITTargetAddress ErrorHandlerAddress) { switch (T.getArch()) { default: return make_error( std::string("No callback manager available for ") + T.str(), inconvertibleErrorCode()); case Triple::aarch64: case Triple::aarch64_32: { typedef orc::LocalJITCompileCallbackManager CCMgrT; return CCMgrT::Create(ES, ErrorHandlerAddress); } case Triple::x86: { typedef orc::LocalJITCompileCallbackManager CCMgrT; return CCMgrT::Create(ES, ErrorHandlerAddress); } case Triple::mips: { typedef orc::LocalJITCompileCallbackManager CCMgrT; return CCMgrT::Create(ES, ErrorHandlerAddress); } case Triple::mipsel: { typedef orc::LocalJITCompileCallbackManager CCMgrT; return CCMgrT::Create(ES, ErrorHandlerAddress); } case Triple::mips64: case Triple::mips64el: { typedef orc::LocalJITCompileCallbackManager CCMgrT; return CCMgrT::Create(ES, ErrorHandlerAddress); } case Triple::x86_64: { if ( T.getOS() == Triple::OSType::Win32 ) { typedef orc::LocalJITCompileCallbackManager CCMgrT; return CCMgrT::Create(ES, ErrorHandlerAddress); } else { typedef orc::LocalJITCompileCallbackManager CCMgrT; return CCMgrT::Create(ES, ErrorHandlerAddress); } } } } std::function()> createLocalIndirectStubsManagerBuilder(const Triple &T) { switch (T.getArch()) { default: return [](){ return std::make_unique< orc::LocalIndirectStubsManager>(); }; case Triple::aarch64: case Triple::aarch64_32: return [](){ return std::make_unique< orc::LocalIndirectStubsManager>(); }; case Triple::x86: return [](){ return std::make_unique< orc::LocalIndirectStubsManager>(); }; case Triple::mips: return [](){ return std::make_unique< orc::LocalIndirectStubsManager>(); }; case Triple::mipsel: return [](){ return std::make_unique< orc::LocalIndirectStubsManager>(); }; case Triple::mips64: case Triple::mips64el: return [](){ return std::make_unique< orc::LocalIndirectStubsManager>(); }; case Triple::x86_64: if (T.getOS() == Triple::OSType::Win32) { return [](){ return std::make_unique< orc::LocalIndirectStubsManager>(); }; } else { return [](){ return std::make_unique< orc::LocalIndirectStubsManager>(); }; } } } Constant* createIRTypedAddress(FunctionType &FT, JITTargetAddress Addr) { Constant *AddrIntVal = ConstantInt::get(Type::getInt64Ty(FT.getContext()), Addr); Constant *AddrPtrVal = ConstantExpr::getCast(Instruction::IntToPtr, AddrIntVal, PointerType::get(&FT, 0)); return AddrPtrVal; } GlobalVariable* createImplPointer(PointerType &PT, Module &M, const Twine &Name, Constant *Initializer) { auto IP = new GlobalVariable(M, &PT, false, GlobalValue::ExternalLinkage, Initializer, Name, nullptr, GlobalValue::NotThreadLocal, 0, true); IP->setVisibility(GlobalValue::HiddenVisibility); return IP; } void makeStub(Function &F, Value &ImplPointer) { assert(F.isDeclaration() && "Can't turn a definition into a stub."); assert(F.getParent() && "Function isn't in a module."); Module &M = *F.getParent(); BasicBlock *EntryBlock = BasicBlock::Create(M.getContext(), "entry", &F); IRBuilder<> Builder(EntryBlock); LoadInst *ImplAddr = Builder.CreateLoad(F.getType(), &ImplPointer); std::vector CallArgs; for (auto &A : F.args()) CallArgs.push_back(&A); CallInst *Call = Builder.CreateCall(F.getFunctionType(), ImplAddr, CallArgs); Call->setTailCall(); Call->setAttributes(F.getAttributes()); if (F.getReturnType()->isVoidTy()) Builder.CreateRetVoid(); else Builder.CreateRet(Call); } std::vector SymbolLinkagePromoter::operator()(Module &M) { std::vector PromotedGlobals; for (auto &GV : M.global_values()) { bool Promoted = true; // Rename if necessary. if (!GV.hasName()) GV.setName("__orc_anon." + Twine(NextId++)); else if (GV.getName().startswith("\01L")) GV.setName("__" + GV.getName().substr(1) + "." + Twine(NextId++)); else if (GV.hasLocalLinkage()) GV.setName("__orc_lcl." + GV.getName() + "." + Twine(NextId++)); else Promoted = false; if (GV.hasLocalLinkage()) { GV.setLinkage(GlobalValue::ExternalLinkage); GV.setVisibility(GlobalValue::HiddenVisibility); Promoted = true; } GV.setUnnamedAddr(GlobalValue::UnnamedAddr::None); if (Promoted) PromotedGlobals.push_back(&GV); } return PromotedGlobals; } Function* cloneFunctionDecl(Module &Dst, const Function &F, ValueToValueMapTy *VMap) { Function *NewF = Function::Create(cast(F.getValueType()), F.getLinkage(), F.getName(), &Dst); NewF->copyAttributesFrom(&F); if (VMap) { (*VMap)[&F] = NewF; auto NewArgI = NewF->arg_begin(); for (auto ArgI = F.arg_begin(), ArgE = F.arg_end(); ArgI != ArgE; ++ArgI, ++NewArgI) (*VMap)[&*ArgI] = &*NewArgI; } return NewF; } void moveFunctionBody(Function &OrigF, ValueToValueMapTy &VMap, ValueMaterializer *Materializer, Function *NewF) { assert(!OrigF.isDeclaration() && "Nothing to move"); if (!NewF) NewF = cast(VMap[&OrigF]); else assert(VMap[&OrigF] == NewF && "Incorrect function mapping in VMap."); assert(NewF && "Function mapping missing from VMap."); assert(NewF->getParent() != OrigF.getParent() && "moveFunctionBody should only be used to move bodies between " "modules."); SmallVector Returns; // Ignore returns cloned. CloneFunctionInto(NewF, &OrigF, VMap, /*ModuleLevelChanges=*/true, Returns, "", nullptr, nullptr, Materializer); OrigF.deleteBody(); } GlobalVariable* cloneGlobalVariableDecl(Module &Dst, const GlobalVariable &GV, ValueToValueMapTy *VMap) { GlobalVariable *NewGV = new GlobalVariable( Dst, GV.getValueType(), GV.isConstant(), GV.getLinkage(), nullptr, GV.getName(), nullptr, GV.getThreadLocalMode(), GV.getType()->getAddressSpace()); NewGV->copyAttributesFrom(&GV); if (VMap) (*VMap)[&GV] = NewGV; return NewGV; } void moveGlobalVariableInitializer(GlobalVariable &OrigGV, ValueToValueMapTy &VMap, ValueMaterializer *Materializer, GlobalVariable *NewGV) { assert(OrigGV.hasInitializer() && "Nothing to move"); if (!NewGV) NewGV = cast(VMap[&OrigGV]); else assert(VMap[&OrigGV] == NewGV && "Incorrect global variable mapping in VMap."); assert(NewGV->getParent() != OrigGV.getParent() && "moveGlobalVariableInitializer should only be used to move " "initializers between modules"); NewGV->setInitializer(MapValue(OrigGV.getInitializer(), VMap, RF_None, nullptr, Materializer)); } GlobalAlias* cloneGlobalAliasDecl(Module &Dst, const GlobalAlias &OrigA, ValueToValueMapTy &VMap) { assert(OrigA.getAliasee() && "Original alias doesn't have an aliasee?"); auto *NewA = GlobalAlias::create(OrigA.getValueType(), OrigA.getType()->getPointerAddressSpace(), OrigA.getLinkage(), OrigA.getName(), &Dst); NewA->copyAttributesFrom(&OrigA); VMap[&OrigA] = NewA; return NewA; } void cloneModuleFlagsMetadata(Module &Dst, const Module &Src, ValueToValueMapTy &VMap) { auto *MFs = Src.getModuleFlagsMetadata(); if (!MFs) return; for (auto *MF : MFs->operands()) Dst.addModuleFlag(MapMetadata(MF, VMap)); } } // End namespace orc. } // End namespace llvm.