#pragma once #ifdef __GNUC__ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunused-parameter" #endif //===- ObjCARCAnalysisUtils.h - ObjC ARC Analysis Utilities -----*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// /// \file /// This file defines common analysis utilities used by the ObjC ARC Optimizer. /// ARC stands for Automatic Reference Counting and is a system for managing /// reference counts for objects in Objective C. /// /// WARNING: This file knows about certain library functions. It recognizes them /// by name, and hardwires knowledge of their semantics. /// /// WARNING: This file knows about how certain Objective-C library functions are /// used. Naive LLVM IR transformations which would otherwise be /// behavior-preserving may break these assumptions. /// //===----------------------------------------------------------------------===// #ifndef LLVM_LIB_ANALYSIS_OBJCARCANALYSISUTILS_H #define LLVM_LIB_ANALYSIS_OBJCARCANALYSISUTILS_H #include "llvm/ADT/Optional.h" #include "llvm/Analysis/ObjCARCInstKind.h" #include "llvm/Analysis/ValueTracking.h" #include "llvm/IR/Constants.h" #include "llvm/IR/Module.h" #include "llvm/IR/ValueHandle.h" namespace llvm { class AAResults; namespace objcarc { /// A handy option to enable/disable all ARC Optimizations. extern bool EnableARCOpts; /// Test if the given module looks interesting to run ARC optimization /// on. inline bool ModuleHasARC(const Module &M) { return M.getNamedValue("llvm.objc.retain") || M.getNamedValue("llvm.objc.release") || M.getNamedValue("llvm.objc.autorelease") || M.getNamedValue("llvm.objc.retainAutoreleasedReturnValue") || M.getNamedValue("llvm.objc.unsafeClaimAutoreleasedReturnValue") || M.getNamedValue("llvm.objc.retainBlock") || M.getNamedValue("llvm.objc.autoreleaseReturnValue") || M.getNamedValue("llvm.objc.autoreleasePoolPush") || M.getNamedValue("llvm.objc.loadWeakRetained") || M.getNamedValue("llvm.objc.loadWeak") || M.getNamedValue("llvm.objc.destroyWeak") || M.getNamedValue("llvm.objc.storeWeak") || M.getNamedValue("llvm.objc.initWeak") || M.getNamedValue("llvm.objc.moveWeak") || M.getNamedValue("llvm.objc.copyWeak") || M.getNamedValue("llvm.objc.retainedObject") || M.getNamedValue("llvm.objc.unretainedObject") || M.getNamedValue("llvm.objc.unretainedPointer") || M.getNamedValue("llvm.objc.clang.arc.use"); } /// This is a wrapper around getUnderlyingObject which also knows how to /// look through objc_retain and objc_autorelease calls, which we know to return /// their argument verbatim. inline const Value *GetUnderlyingObjCPtr(const Value *V) { for (;;) { V = getUnderlyingObject(V); if (!IsForwarding(GetBasicARCInstKind(V))) break; V = cast(V)->getArgOperand(0); } return V; } /// A wrapper for GetUnderlyingObjCPtr used for results memoization. inline const Value * GetUnderlyingObjCPtrCached(const Value *V, DenseMap &Cache) { if (auto InCache = Cache.lookup(V)) return InCache; const Value *Computed = GetUnderlyingObjCPtr(V); Cache[V] = const_cast(Computed); return Computed; } /// The RCIdentity root of a value \p V is a dominating value U for which /// retaining or releasing U is equivalent to retaining or releasing V. In other /// words, ARC operations on \p V are equivalent to ARC operations on \p U. /// /// We use this in the ARC optimizer to make it easier to match up ARC /// operations by always mapping ARC operations to RCIdentityRoots instead of /// pointers themselves. /// /// The two ways that we see RCIdentical values in ObjC are via: /// /// 1. PointerCasts /// 2. Forwarding Calls that return their argument verbatim. /// /// Thus this function strips off pointer casts and forwarding calls. *NOTE* /// This implies that two RCIdentical values must alias. inline const Value *GetRCIdentityRoot(const Value *V) { for (;;) { V = V->stripPointerCasts(); if (!IsForwarding(GetBasicARCInstKind(V))) break; V = cast(V)->getArgOperand(0); } return V; } /// Helper which calls const Value *GetRCIdentityRoot(const Value *V) and just /// casts away the const of the result. For documentation about what an /// RCIdentityRoot (and by extension GetRCIdentityRoot is) look at that /// function. inline Value *GetRCIdentityRoot(Value *V) { return const_cast(GetRCIdentityRoot((const Value *)V)); } /// Assuming the given instruction is one of the special calls such as /// objc_retain or objc_release, return the RCIdentity root of the argument of /// the call. inline Value *GetArgRCIdentityRoot(Value *Inst) { return GetRCIdentityRoot(cast(Inst)->getArgOperand(0)); } inline bool IsNullOrUndef(const Value *V) { return isa(V) || isa(V); } inline bool IsNoopInstruction(const Instruction *I) { return isa(I) || (isa(I) && cast(I)->hasAllZeroIndices()); } /// Test whether the given value is possible a retainable object pointer. inline bool IsPotentialRetainableObjPtr(const Value *Op) { // Pointers to static or stack storage are not valid retainable object // pointers. if (isa(Op) || isa(Op)) return false; // Special arguments can not be a valid retainable object pointer. if (const Argument *Arg = dyn_cast(Op)) if (Arg->hasPassPointeeByValueCopyAttr() || Arg->hasNestAttr() || Arg->hasStructRetAttr()) return false; // Only consider values with pointer types. // // It seemes intuitive to exclude function pointer types as well, since // functions are never retainable object pointers, however clang occasionally // bitcasts retainable object pointers to function-pointer type temporarily. PointerType *Ty = dyn_cast(Op->getType()); if (!Ty) return false; // Conservatively assume anything else is a potential retainable object // pointer. return true; } bool IsPotentialRetainableObjPtr(const Value *Op, AAResults &AA); /// Helper for GetARCInstKind. Determines what kind of construct CS /// is. inline ARCInstKind GetCallSiteClass(const CallBase &CB) { for (auto I = CB.arg_begin(), E = CB.arg_end(); I != E; ++I) if (IsPotentialRetainableObjPtr(*I)) return CB.onlyReadsMemory() ? ARCInstKind::User : ARCInstKind::CallOrUser; return CB.onlyReadsMemory() ? ARCInstKind::None : ARCInstKind::Call; } /// Return true if this value refers to a distinct and identifiable /// object. /// /// This is similar to AliasAnalysis's isIdentifiedObject, except that it uses /// special knowledge of ObjC conventions. inline bool IsObjCIdentifiedObject(const Value *V) { // Assume that call results and arguments have their own "provenance". // Constants (including GlobalVariables) and Allocas are never // reference-counted. if (isa(V) || isa(V) || isa(V) || isa(V) || isa(V)) return true; if (const LoadInst *LI = dyn_cast(V)) { const Value *Pointer = GetRCIdentityRoot(LI->getPointerOperand()); if (const GlobalVariable *GV = dyn_cast(Pointer)) { // A constant pointer can't be pointing to an object on the heap. It may // be reference-counted, but it won't be deleted. if (GV->isConstant()) return true; StringRef Name = GV->getName(); // These special variables are known to hold values which are not // reference-counted pointers. if (Name.startswith("\01l_objc_msgSend_fixup_")) return true; StringRef Section = GV->getSection(); if (Section.find("__message_refs") != StringRef::npos || Section.find("__objc_classrefs") != StringRef::npos || Section.find("__objc_superrefs") != StringRef::npos || Section.find("__objc_methname") != StringRef::npos || Section.find("__cstring") != StringRef::npos) return true; } } return false; } enum class ARCMDKindID { ImpreciseRelease, CopyOnEscape, NoObjCARCExceptions, }; /// A cache of MDKinds used by various ARC optimizations. class ARCMDKindCache { Module *M; /// The Metadata Kind for clang.imprecise_release metadata. llvm::Optional ImpreciseReleaseMDKind; /// The Metadata Kind for clang.arc.copy_on_escape metadata. llvm::Optional CopyOnEscapeMDKind; /// The Metadata Kind for clang.arc.no_objc_arc_exceptions metadata. llvm::Optional NoObjCARCExceptionsMDKind; public: void init(Module *Mod) { M = Mod; ImpreciseReleaseMDKind = NoneType::None; CopyOnEscapeMDKind = NoneType::None; NoObjCARCExceptionsMDKind = NoneType::None; } unsigned get(ARCMDKindID ID) { switch (ID) { case ARCMDKindID::ImpreciseRelease: if (!ImpreciseReleaseMDKind) ImpreciseReleaseMDKind = M->getContext().getMDKindID("clang.imprecise_release"); return *ImpreciseReleaseMDKind; case ARCMDKindID::CopyOnEscape: if (!CopyOnEscapeMDKind) CopyOnEscapeMDKind = M->getContext().getMDKindID("clang.arc.copy_on_escape"); return *CopyOnEscapeMDKind; case ARCMDKindID::NoObjCARCExceptions: if (!NoObjCARCExceptionsMDKind) NoObjCARCExceptionsMDKind = M->getContext().getMDKindID("clang.arc.no_objc_arc_exceptions"); return *NoObjCARCExceptionsMDKind; } llvm_unreachable("Covered switch isn't covered?!"); } }; } // end namespace objcarc } // end namespace llvm #endif #ifdef __GNUC__ #pragma GCC diagnostic pop #endif