1 //==- CGObjCRuntime.cpp - Interface to Shared Objective-C Runtime Features ==// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 // 9 // This abstract class defines the interface for Objective-C runtime-specific 10 // code generation. It provides some concrete helper methods for functionality 11 // shared between all (or most) of the Objective-C runtimes supported by clang. 12 // 13 //===----------------------------------------------------------------------===// 14 15 #include "CGObjCRuntime.h" 16 #include "CGCleanup.h" 17 #include "CGCXXABI.h" 18 #include "CGRecordLayout.h" 19 #include "CodeGenFunction.h" 20 #include "CodeGenModule.h" 21 #include "clang/AST/RecordLayout.h" 22 #include "clang/AST/StmtObjC.h" 23 #include "clang/CodeGen/CGFunctionInfo.h" 24 #include "llvm/Support/SaveAndRestore.h" 25 26 using namespace clang; 27 using namespace CodeGen; 28 29 uint64_t CGObjCRuntime::ComputeIvarBaseOffset(CodeGen::CodeGenModule &CGM, 30 const ObjCInterfaceDecl *OID, 31 const ObjCIvarDecl *Ivar) { 32 return CGM.getContext().lookupFieldBitOffset(OID, nullptr, Ivar) / 33 CGM.getContext().getCharWidth(); 34 } 35 36 uint64_t CGObjCRuntime::ComputeIvarBaseOffset(CodeGen::CodeGenModule &CGM, 37 const ObjCImplementationDecl *OID, 38 const ObjCIvarDecl *Ivar) { 39 return CGM.getContext().lookupFieldBitOffset(OID->getClassInterface(), OID, 40 Ivar) / 41 CGM.getContext().getCharWidth(); 42 } 43 44 unsigned CGObjCRuntime::ComputeBitfieldBitOffset( 45 CodeGen::CodeGenModule &CGM, 46 const ObjCInterfaceDecl *ID, 47 const ObjCIvarDecl *Ivar) { 48 return CGM.getContext().lookupFieldBitOffset(ID, ID->getImplementation(), 49 Ivar); 50 } 51 52 LValue CGObjCRuntime::EmitValueForIvarAtOffset(CodeGen::CodeGenFunction &CGF, 53 const ObjCInterfaceDecl *OID, 54 llvm::Value *BaseValue, 55 const ObjCIvarDecl *Ivar, 56 unsigned CVRQualifiers, 57 llvm::Value *Offset) { 58 // Compute (type*) ( (char *) BaseValue + Offset) 59 QualType InterfaceTy{OID->getTypeForDecl(), 0}; 60 QualType ObjectPtrTy = 61 CGF.CGM.getContext().getObjCObjectPointerType(InterfaceTy); 62 QualType IvarTy = 63 Ivar->getUsageType(ObjectPtrTy).withCVRQualifiers(CVRQualifiers); 64 llvm::Type *LTy = CGF.CGM.getTypes().ConvertTypeForMem(IvarTy); 65 llvm::Value *V = CGF.Builder.CreateBitCast(BaseValue, CGF.Int8PtrTy); 66 V = CGF.Builder.CreateInBoundsGEP(V, Offset, "add.ptr"); 67 68 if (!Ivar->isBitField()) { 69 V = CGF.Builder.CreateBitCast(V, llvm::PointerType::getUnqual(LTy)); 70 LValue LV = CGF.MakeNaturalAlignAddrLValue(V, IvarTy); 71 return LV; 72 } 73 74 // We need to compute an access strategy for this bit-field. We are given the 75 // offset to the first byte in the bit-field, the sub-byte offset is taken 76 // from the original layout. We reuse the normal bit-field access strategy by 77 // treating this as an access to a struct where the bit-field is in byte 0, 78 // and adjust the containing type size as appropriate. 79 // 80 // FIXME: Note that currently we make a very conservative estimate of the 81 // alignment of the bit-field, because (a) it is not clear what guarantees the 82 // runtime makes us, and (b) we don't have a way to specify that the struct is 83 // at an alignment plus offset. 84 // 85 // Note, there is a subtle invariant here: we can only call this routine on 86 // non-synthesized ivars but we may be called for synthesized ivars. However, 87 // a synthesized ivar can never be a bit-field, so this is safe. 88 uint64_t FieldBitOffset = 89 CGF.CGM.getContext().lookupFieldBitOffset(OID, nullptr, Ivar); 90 uint64_t BitOffset = FieldBitOffset % CGF.CGM.getContext().getCharWidth(); 91 uint64_t AlignmentBits = CGF.CGM.getTarget().getCharAlign(); 92 uint64_t BitFieldSize = Ivar->getBitWidthValue(CGF.getContext()); 93 CharUnits StorageSize = CGF.CGM.getContext().toCharUnitsFromBits( 94 llvm::alignTo(BitOffset + BitFieldSize, AlignmentBits)); 95 CharUnits Alignment = CGF.CGM.getContext().toCharUnitsFromBits(AlignmentBits); 96 97 // Allocate a new CGBitFieldInfo object to describe this access. 98 // 99 // FIXME: This is incredibly wasteful, these should be uniqued or part of some 100 // layout object. However, this is blocked on other cleanups to the 101 // Objective-C code, so for now we just live with allocating a bunch of these 102 // objects. 103 CGBitFieldInfo *Info = new (CGF.CGM.getContext()) CGBitFieldInfo( 104 CGBitFieldInfo::MakeInfo(CGF.CGM.getTypes(), Ivar, BitOffset, BitFieldSize, 105 CGF.CGM.getContext().toBits(StorageSize), 106 CharUnits::fromQuantity(0))); 107 108 Address Addr(V, Alignment); 109 Addr = CGF.Builder.CreateElementBitCast(Addr, 110 llvm::Type::getIntNTy(CGF.getLLVMContext(), 111 Info->StorageSize)); 112 return LValue::MakeBitfield(Addr, *Info, IvarTy, 113 LValueBaseInfo(AlignmentSource::Decl), 114 TBAAAccessInfo()); 115 } 116 117 namespace { 118 struct CatchHandler { 119 const VarDecl *Variable; 120 const Stmt *Body; 121 llvm::BasicBlock *Block; 122 llvm::Constant *TypeInfo; 123 /// Flags used to differentiate cleanups and catchalls in Windows SEH 124 unsigned Flags; 125 }; 126 127 struct CallObjCEndCatch final : EHScopeStack::Cleanup { 128 CallObjCEndCatch(bool MightThrow, llvm::FunctionCallee Fn) 129 : MightThrow(MightThrow), Fn(Fn) {} 130 bool MightThrow; 131 llvm::FunctionCallee Fn; 132 133 void Emit(CodeGenFunction &CGF, Flags flags) override { 134 if (MightThrow) 135 CGF.EmitRuntimeCallOrInvoke(Fn); 136 else 137 CGF.EmitNounwindRuntimeCall(Fn); 138 } 139 }; 140 } 141 142 void CGObjCRuntime::EmitTryCatchStmt(CodeGenFunction &CGF, 143 const ObjCAtTryStmt &S, 144 llvm::FunctionCallee beginCatchFn, 145 llvm::FunctionCallee endCatchFn, 146 llvm::FunctionCallee exceptionRethrowFn) { 147 // Jump destination for falling out of catch bodies. 148 CodeGenFunction::JumpDest Cont; 149 if (S.getNumCatchStmts()) 150 Cont = CGF.getJumpDestInCurrentScope("eh.cont"); 151 152 bool useFunclets = EHPersonality::get(CGF).usesFuncletPads(); 153 154 CodeGenFunction::FinallyInfo FinallyInfo; 155 if (!useFunclets) 156 if (const ObjCAtFinallyStmt *Finally = S.getFinallyStmt()) 157 FinallyInfo.enter(CGF, Finally->getFinallyBody(), 158 beginCatchFn, endCatchFn, exceptionRethrowFn); 159 160 SmallVector<CatchHandler, 8> Handlers; 161 162 163 // Enter the catch, if there is one. 164 if (S.getNumCatchStmts()) { 165 for (unsigned I = 0, N = S.getNumCatchStmts(); I != N; ++I) { 166 const ObjCAtCatchStmt *CatchStmt = S.getCatchStmt(I); 167 const VarDecl *CatchDecl = CatchStmt->getCatchParamDecl(); 168 169 Handlers.push_back(CatchHandler()); 170 CatchHandler &Handler = Handlers.back(); 171 Handler.Variable = CatchDecl; 172 Handler.Body = CatchStmt->getCatchBody(); 173 Handler.Block = CGF.createBasicBlock("catch"); 174 Handler.Flags = 0; 175 176 // @catch(...) always matches. 177 if (!CatchDecl) { 178 auto catchAll = getCatchAllTypeInfo(); 179 Handler.TypeInfo = catchAll.RTTI; 180 Handler.Flags = catchAll.Flags; 181 // Don't consider any other catches. 182 break; 183 } 184 185 Handler.TypeInfo = GetEHType(CatchDecl->getType()); 186 } 187 188 EHCatchScope *Catch = CGF.EHStack.pushCatch(Handlers.size()); 189 for (unsigned I = 0, E = Handlers.size(); I != E; ++I) 190 Catch->setHandler(I, { Handlers[I].TypeInfo, Handlers[I].Flags }, Handlers[I].Block); 191 } 192 193 if (useFunclets) 194 if (const ObjCAtFinallyStmt *Finally = S.getFinallyStmt()) { 195 CodeGenFunction HelperCGF(CGM, /*suppressNewContext=*/true); 196 if (!CGF.CurSEHParent) 197 CGF.CurSEHParent = cast<NamedDecl>(CGF.CurFuncDecl); 198 // Outline the finally block. 199 const Stmt *FinallyBlock = Finally->getFinallyBody(); 200 HelperCGF.startOutlinedSEHHelper(CGF, /*isFilter*/false, FinallyBlock); 201 202 // Emit the original filter expression, convert to i32, and return. 203 HelperCGF.EmitStmt(FinallyBlock); 204 205 HelperCGF.FinishFunction(FinallyBlock->getEndLoc()); 206 207 llvm::Function *FinallyFunc = HelperCGF.CurFn; 208 209 210 // Push a cleanup for __finally blocks. 211 CGF.pushSEHCleanup(NormalAndEHCleanup, FinallyFunc); 212 } 213 214 215 // Emit the try body. 216 CGF.EmitStmt(S.getTryBody()); 217 218 // Leave the try. 219 if (S.getNumCatchStmts()) 220 CGF.popCatchScope(); 221 222 // Remember where we were. 223 CGBuilderTy::InsertPoint SavedIP = CGF.Builder.saveAndClearIP(); 224 225 // Emit the handlers. 226 for (unsigned I = 0, E = Handlers.size(); I != E; ++I) { 227 CatchHandler &Handler = Handlers[I]; 228 229 CGF.EmitBlock(Handler.Block); 230 llvm::CatchPadInst *CPI = nullptr; 231 SaveAndRestore<llvm::Instruction *> RestoreCurrentFuncletPad(CGF.CurrentFuncletPad); 232 if (useFunclets) 233 if ((CPI = dyn_cast_or_null<llvm::CatchPadInst>(Handler.Block->getFirstNonPHI()))) { 234 CGF.CurrentFuncletPad = CPI; 235 CPI->setOperand(2, CGF.getExceptionSlot().getPointer()); 236 } 237 llvm::Value *RawExn = CGF.getExceptionFromSlot(); 238 239 // Enter the catch. 240 llvm::Value *Exn = RawExn; 241 if (beginCatchFn) 242 Exn = CGF.EmitNounwindRuntimeCall(beginCatchFn, RawExn, "exn.adjusted"); 243 244 CodeGenFunction::LexicalScope cleanups(CGF, Handler.Body->getSourceRange()); 245 246 if (endCatchFn) { 247 // Add a cleanup to leave the catch. 248 bool EndCatchMightThrow = (Handler.Variable == nullptr); 249 250 CGF.EHStack.pushCleanup<CallObjCEndCatch>(NormalAndEHCleanup, 251 EndCatchMightThrow, 252 endCatchFn); 253 } 254 255 // Bind the catch parameter if it exists. 256 if (const VarDecl *CatchParam = Handler.Variable) { 257 llvm::Type *CatchType = CGF.ConvertType(CatchParam->getType()); 258 llvm::Value *CastExn = CGF.Builder.CreateBitCast(Exn, CatchType); 259 260 CGF.EmitAutoVarDecl(*CatchParam); 261 EmitInitOfCatchParam(CGF, CastExn, CatchParam); 262 } 263 if (CPI) 264 CGF.EHStack.pushCleanup<CatchRetScope>(NormalCleanup, CPI); 265 266 CGF.ObjCEHValueStack.push_back(Exn); 267 CGF.EmitStmt(Handler.Body); 268 CGF.ObjCEHValueStack.pop_back(); 269 270 // Leave any cleanups associated with the catch. 271 cleanups.ForceCleanup(); 272 273 CGF.EmitBranchThroughCleanup(Cont); 274 } 275 276 // Go back to the try-statement fallthrough. 277 CGF.Builder.restoreIP(SavedIP); 278 279 // Pop out of the finally. 280 if (!useFunclets && S.getFinallyStmt()) 281 FinallyInfo.exit(CGF); 282 283 if (Cont.isValid()) 284 CGF.EmitBlock(Cont.getBlock()); 285 } 286 287 void CGObjCRuntime::EmitInitOfCatchParam(CodeGenFunction &CGF, 288 llvm::Value *exn, 289 const VarDecl *paramDecl) { 290 291 Address paramAddr = CGF.GetAddrOfLocalVar(paramDecl); 292 293 switch (paramDecl->getType().getQualifiers().getObjCLifetime()) { 294 case Qualifiers::OCL_Strong: 295 exn = CGF.EmitARCRetainNonBlock(exn); 296 LLVM_FALLTHROUGH; 297 298 case Qualifiers::OCL_None: 299 case Qualifiers::OCL_ExplicitNone: 300 case Qualifiers::OCL_Autoreleasing: 301 CGF.Builder.CreateStore(exn, paramAddr); 302 return; 303 304 case Qualifiers::OCL_Weak: 305 CGF.EmitARCInitWeak(paramAddr, exn); 306 return; 307 } 308 llvm_unreachable("invalid ownership qualifier"); 309 } 310 311 namespace { 312 struct CallSyncExit final : EHScopeStack::Cleanup { 313 llvm::FunctionCallee SyncExitFn; 314 llvm::Value *SyncArg; 315 CallSyncExit(llvm::FunctionCallee SyncExitFn, llvm::Value *SyncArg) 316 : SyncExitFn(SyncExitFn), SyncArg(SyncArg) {} 317 318 void Emit(CodeGenFunction &CGF, Flags flags) override { 319 CGF.EmitNounwindRuntimeCall(SyncExitFn, SyncArg); 320 } 321 }; 322 } 323 324 void CGObjCRuntime::EmitAtSynchronizedStmt(CodeGenFunction &CGF, 325 const ObjCAtSynchronizedStmt &S, 326 llvm::FunctionCallee syncEnterFn, 327 llvm::FunctionCallee syncExitFn) { 328 CodeGenFunction::RunCleanupsScope cleanups(CGF); 329 330 // Evaluate the lock operand. This is guaranteed to dominate the 331 // ARC release and lock-release cleanups. 332 const Expr *lockExpr = S.getSynchExpr(); 333 llvm::Value *lock; 334 if (CGF.getLangOpts().ObjCAutoRefCount) { 335 lock = CGF.EmitARCRetainScalarExpr(lockExpr); 336 lock = CGF.EmitObjCConsumeObject(lockExpr->getType(), lock); 337 } else { 338 lock = CGF.EmitScalarExpr(lockExpr); 339 } 340 lock = CGF.Builder.CreateBitCast(lock, CGF.VoidPtrTy); 341 342 // Acquire the lock. 343 CGF.Builder.CreateCall(syncEnterFn, lock)->setDoesNotThrow(); 344 345 // Register an all-paths cleanup to release the lock. 346 CGF.EHStack.pushCleanup<CallSyncExit>(NormalAndEHCleanup, syncExitFn, lock); 347 348 // Emit the body of the statement. 349 CGF.EmitStmt(S.getSynchBody()); 350 } 351 352 /// Compute the pointer-to-function type to which a message send 353 /// should be casted in order to correctly call the given method 354 /// with the given arguments. 355 /// 356 /// \param method - may be null 357 /// \param resultType - the result type to use if there's no method 358 /// \param callArgs - the actual arguments, including implicit ones 359 CGObjCRuntime::MessageSendInfo 360 CGObjCRuntime::getMessageSendInfo(const ObjCMethodDecl *method, 361 QualType resultType, 362 CallArgList &callArgs) { 363 // If there's a method, use information from that. 364 if (method) { 365 const CGFunctionInfo &signature = 366 CGM.getTypes().arrangeObjCMessageSendSignature(method, callArgs[0].Ty); 367 368 llvm::PointerType *signatureType = 369 CGM.getTypes().GetFunctionType(signature)->getPointerTo(); 370 371 const CGFunctionInfo &signatureForCall = 372 CGM.getTypes().arrangeCall(signature, callArgs); 373 374 return MessageSendInfo(signatureForCall, signatureType); 375 } 376 377 // There's no method; just use a default CC. 378 const CGFunctionInfo &argsInfo = 379 CGM.getTypes().arrangeUnprototypedObjCMessageSend(resultType, callArgs); 380 381 // Derive the signature to call from that. 382 llvm::PointerType *signatureType = 383 CGM.getTypes().GetFunctionType(argsInfo)->getPointerTo(); 384 return MessageSendInfo(argsInfo, signatureType); 385 } 386