145b53394SDimitry Andric //===--- CGException.cpp - Emit LLVM Code for C++ exceptions ----*- C++ -*-===//
251fb8b01SRoman Divacky //
322989816SDimitry Andric // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
422989816SDimitry Andric // See https://llvm.org/LICENSE.txt for license information.
522989816SDimitry Andric // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
651fb8b01SRoman Divacky //
751fb8b01SRoman Divacky //===----------------------------------------------------------------------===//
851fb8b01SRoman Divacky //
951fb8b01SRoman Divacky // This contains code dealing with C++ exception related code generation.
1051fb8b01SRoman Divacky //
1151fb8b01SRoman Divacky //===----------------------------------------------------------------------===//
1251fb8b01SRoman Divacky
1306d4ba38SDimitry Andric #include "CGCXXABI.h"
14bca07a45SDimitry Andric #include "CGCleanup.h"
15dbe13110SDimitry Andric #include "CGObjCRuntime.h"
16706b4fc4SDimitry Andric #include "CodeGenFunction.h"
17461a67faSDimitry Andric #include "ConstantEmitter.h"
183d1dcd9bSDimitry Andric #include "TargetInfo.h"
195e20cdd8SDimitry Andric #include "clang/AST/Mangle.h"
20dbe13110SDimitry Andric #include "clang/AST/StmtCXX.h"
21809500fcSDimitry Andric #include "clang/AST/StmtObjC.h"
225e20cdd8SDimitry Andric #include "clang/AST/StmtVisitor.h"
23cfca06d7SDimitry Andric #include "clang/Basic/DiagnosticSema.h"
2451ece4aaSDimitry Andric #include "clang/Basic/TargetBuiltins.h"
255e20cdd8SDimitry Andric #include "llvm/IR/IntrinsicInst.h"
26706b4fc4SDimitry Andric #include "llvm/IR/Intrinsics.h"
27706b4fc4SDimitry Andric #include "llvm/IR/IntrinsicsWebAssembly.h"
285e20cdd8SDimitry Andric #include "llvm/Support/SaveAndRestore.h"
294ba67500SRoman Divacky
3051fb8b01SRoman Divacky using namespace clang;
3151fb8b01SRoman Divacky using namespace CodeGen;
3251fb8b01SRoman Divacky
getFreeExceptionFn(CodeGenModule & CGM)3322989816SDimitry Andric static llvm::FunctionCallee getFreeExceptionFn(CodeGenModule &CGM) {
3434d02d0bSRoman Divacky // void __cxa_free_exception(void *thrown_exception);
3534d02d0bSRoman Divacky
3636981b17SDimitry Andric llvm::FunctionType *FTy =
3722989816SDimitry Andric llvm::FunctionType::get(CGM.VoidTy, CGM.Int8PtrTy, /*isVarArg=*/false);
3834d02d0bSRoman Divacky
39809500fcSDimitry Andric return CGM.CreateRuntimeFunction(FTy, "__cxa_free_exception");
4034d02d0bSRoman Divacky }
4134d02d0bSRoman Divacky
getSehTryBeginFn(CodeGenModule & CGM)42344a3780SDimitry Andric static llvm::FunctionCallee getSehTryBeginFn(CodeGenModule &CGM) {
43344a3780SDimitry Andric llvm::FunctionType *FTy =
44344a3780SDimitry Andric llvm::FunctionType::get(CGM.VoidTy, /*isVarArg=*/false);
45344a3780SDimitry Andric return CGM.CreateRuntimeFunction(FTy, "llvm.seh.try.begin");
46344a3780SDimitry Andric }
47344a3780SDimitry Andric
getSehTryEndFn(CodeGenModule & CGM)48344a3780SDimitry Andric static llvm::FunctionCallee getSehTryEndFn(CodeGenModule &CGM) {
49344a3780SDimitry Andric llvm::FunctionType *FTy =
50344a3780SDimitry Andric llvm::FunctionType::get(CGM.VoidTy, /*isVarArg=*/false);
51344a3780SDimitry Andric return CGM.CreateRuntimeFunction(FTy, "llvm.seh.try.end");
52344a3780SDimitry Andric }
53344a3780SDimitry Andric
getUnexpectedFn(CodeGenModule & CGM)5422989816SDimitry Andric static llvm::FunctionCallee getUnexpectedFn(CodeGenModule &CGM) {
55bfef3995SDimitry Andric // void __cxa_call_unexpected(void *thrown_exception);
5634d02d0bSRoman Divacky
5736981b17SDimitry Andric llvm::FunctionType *FTy =
5822989816SDimitry Andric llvm::FunctionType::get(CGM.VoidTy, CGM.Int8PtrTy, /*isVarArg=*/false);
5934d02d0bSRoman Divacky
60809500fcSDimitry Andric return CGM.CreateRuntimeFunction(FTy, "__cxa_call_unexpected");
6134d02d0bSRoman Divacky }
6234d02d0bSRoman Divacky
getTerminateFn()6322989816SDimitry Andric llvm::FunctionCallee CodeGenModule::getTerminateFn() {
6434d02d0bSRoman Divacky // void __terminate();
6534d02d0bSRoman Divacky
6636981b17SDimitry Andric llvm::FunctionType *FTy =
6722989816SDimitry Andric llvm::FunctionType::get(VoidTy, /*isVarArg=*/false);
6834d02d0bSRoman Divacky
6936981b17SDimitry Andric StringRef name;
70180abc3dSDimitry Andric
71180abc3dSDimitry Andric // In C++, use std::terminate().
725e20cdd8SDimitry Andric if (getLangOpts().CPlusPlus &&
735e20cdd8SDimitry Andric getTarget().getCXXABI().isItaniumFamily()) {
745e20cdd8SDimitry Andric name = "_ZSt9terminatev";
755e20cdd8SDimitry Andric } else if (getLangOpts().CPlusPlus &&
765e20cdd8SDimitry Andric getTarget().getCXXABI().isMicrosoft()) {
775e20cdd8SDimitry Andric if (getLangOpts().isCompatibleWithMSVC(LangOptions::MSVC2015))
785e20cdd8SDimitry Andric name = "__std_terminate";
795e20cdd8SDimitry Andric else
8048675466SDimitry Andric name = "?terminate@@YAXXZ";
81676fbe81SDimitry Andric } else if (getLangOpts().ObjC &&
825e20cdd8SDimitry Andric getLangOpts().ObjCRuntime.hasTerminate())
83180abc3dSDimitry Andric name = "objc_terminate";
84180abc3dSDimitry Andric else
85180abc3dSDimitry Andric name = "abort";
865e20cdd8SDimitry Andric return CreateRuntimeFunction(FTy, name);
87d7279c4cSRoman Divacky }
88d7279c4cSRoman Divacky
getCatchallRethrowFn(CodeGenModule & CGM,StringRef Name)8922989816SDimitry Andric static llvm::FunctionCallee getCatchallRethrowFn(CodeGenModule &CGM,
9036981b17SDimitry Andric StringRef Name) {
9136981b17SDimitry Andric llvm::FunctionType *FTy =
9222989816SDimitry Andric llvm::FunctionType::get(CGM.VoidTy, CGM.Int8PtrTy, /*isVarArg=*/false);
933d1dcd9bSDimitry Andric
94809500fcSDimitry Andric return CGM.CreateRuntimeFunction(FTy, Name);
95d7279c4cSRoman Divacky }
96d7279c4cSRoman Divacky
979f4dbff6SDimitry Andric const EHPersonality EHPersonality::GNU_C = { "__gcc_personality_v0", nullptr };
98dbe13110SDimitry Andric const EHPersonality
999f4dbff6SDimitry Andric EHPersonality::GNU_C_SJLJ = { "__gcc_personality_sj0", nullptr };
1009f4dbff6SDimitry Andric const EHPersonality
10106d4ba38SDimitry Andric EHPersonality::GNU_C_SEH = { "__gcc_personality_seh0", nullptr };
10206d4ba38SDimitry Andric const EHPersonality
1039f4dbff6SDimitry Andric EHPersonality::NeXT_ObjC = { "__objc_personality_v0", nullptr };
1049f4dbff6SDimitry Andric const EHPersonality
1059f4dbff6SDimitry Andric EHPersonality::GNU_CPlusPlus = { "__gxx_personality_v0", nullptr };
1069f4dbff6SDimitry Andric const EHPersonality
1079f4dbff6SDimitry Andric EHPersonality::GNU_CPlusPlus_SJLJ = { "__gxx_personality_sj0", nullptr };
108dbe13110SDimitry Andric const EHPersonality
10906d4ba38SDimitry Andric EHPersonality::GNU_CPlusPlus_SEH = { "__gxx_personality_seh0", nullptr };
11006d4ba38SDimitry Andric const EHPersonality
111dbe13110SDimitry Andric EHPersonality::GNU_ObjC = {"__gnu_objc_personality_v0", "objc_exception_throw"};
112dbe13110SDimitry Andric const EHPersonality
113fdc82ccbSDimitry Andric EHPersonality::GNU_ObjC_SJLJ = {"__gnu_objc_personality_sj0", "objc_exception_throw"};
114fdc82ccbSDimitry Andric const EHPersonality
115fdc82ccbSDimitry Andric EHPersonality::GNU_ObjC_SEH = {"__gnu_objc_personality_seh0", "objc_exception_throw"};
116fdc82ccbSDimitry Andric const EHPersonality
1179f4dbff6SDimitry Andric EHPersonality::GNU_ObjCXX = { "__gnustep_objcxx_personality_v0", nullptr };
118809500fcSDimitry Andric const EHPersonality
1199f4dbff6SDimitry Andric EHPersonality::GNUstep_ObjC = { "__gnustep_objc_personality_v0", nullptr };
1205e20cdd8SDimitry Andric const EHPersonality
1215e20cdd8SDimitry Andric EHPersonality::MSVC_except_handler = { "_except_handler3", nullptr };
1225e20cdd8SDimitry Andric const EHPersonality
1235e20cdd8SDimitry Andric EHPersonality::MSVC_C_specific_handler = { "__C_specific_handler", nullptr };
1245e20cdd8SDimitry Andric const EHPersonality
1255e20cdd8SDimitry Andric EHPersonality::MSVC_CxxFrameHandler3 = { "__CxxFrameHandler3", nullptr };
12648675466SDimitry Andric const EHPersonality
12748675466SDimitry Andric EHPersonality::GNU_Wasm_CPlusPlus = { "__gxx_wasm_personality_v0", nullptr };
128b60736ecSDimitry Andric const EHPersonality EHPersonality::XL_CPlusPlus = {"__xlcxx_personality_v1",
129b60736ecSDimitry Andric nullptr};
1304df029ccSDimitry Andric const EHPersonality EHPersonality::ZOS_CPlusPlus = {"__zos_cxx_personality_v2",
1314df029ccSDimitry Andric nullptr};
1323d1dcd9bSDimitry Andric
getCPersonality(const TargetInfo & Target,const LangOptions & L)13348675466SDimitry Andric static const EHPersonality &getCPersonality(const TargetInfo &Target,
13406d4ba38SDimitry Andric const LangOptions &L) {
13548675466SDimitry Andric const llvm::Triple &T = Target.getTriple();
13648675466SDimitry Andric if (T.isWindowsMSVCEnvironment())
13748675466SDimitry Andric return EHPersonality::MSVC_CxxFrameHandler3;
138b60736ecSDimitry Andric if (L.hasSjLjExceptions())
139bca07a45SDimitry Andric return EHPersonality::GNU_C_SJLJ;
140b60736ecSDimitry Andric if (L.hasDWARFExceptions())
14148675466SDimitry Andric return EHPersonality::GNU_C;
142b60736ecSDimitry Andric if (L.hasSEHExceptions())
14306d4ba38SDimitry Andric return EHPersonality::GNU_C_SEH;
1443d1dcd9bSDimitry Andric return EHPersonality::GNU_C;
1453d1dcd9bSDimitry Andric }
1463d1dcd9bSDimitry Andric
getObjCPersonality(const TargetInfo & Target,const LangOptions & L)14748675466SDimitry Andric static const EHPersonality &getObjCPersonality(const TargetInfo &Target,
14806d4ba38SDimitry Andric const LangOptions &L) {
14948675466SDimitry Andric const llvm::Triple &T = Target.getTriple();
15048675466SDimitry Andric if (T.isWindowsMSVCEnvironment())
15148675466SDimitry Andric return EHPersonality::MSVC_CxxFrameHandler3;
15248675466SDimitry Andric
15356d91b49SDimitry Andric switch (L.ObjCRuntime.getKind()) {
15456d91b49SDimitry Andric case ObjCRuntime::FragileMacOSX:
15548675466SDimitry Andric return getCPersonality(Target, L);
15656d91b49SDimitry Andric case ObjCRuntime::MacOSX:
15756d91b49SDimitry Andric case ObjCRuntime::iOS:
15845b53394SDimitry Andric case ObjCRuntime::WatchOS:
15956d91b49SDimitry Andric return EHPersonality::NeXT_ObjC;
16056d91b49SDimitry Andric case ObjCRuntime::GNUstep:
161950076cdSDimitry Andric if (T.isOSCygMing())
162950076cdSDimitry Andric return EHPersonality::GNU_CPlusPlus_SEH;
163950076cdSDimitry Andric else if (L.ObjCRuntime.getVersion() >= VersionTuple(1, 7))
164809500fcSDimitry Andric return EHPersonality::GNUstep_ObjC;
165e3b55780SDimitry Andric [[fallthrough]];
16656d91b49SDimitry Andric case ObjCRuntime::GCC:
16756d91b49SDimitry Andric case ObjCRuntime::ObjFW:
168b60736ecSDimitry Andric if (L.hasSjLjExceptions())
169fdc82ccbSDimitry Andric return EHPersonality::GNU_ObjC_SJLJ;
170b60736ecSDimitry Andric if (L.hasSEHExceptions())
171fdc82ccbSDimitry Andric return EHPersonality::GNU_ObjC_SEH;
1723d1dcd9bSDimitry Andric return EHPersonality::GNU_ObjC;
1734ba67500SRoman Divacky }
17456d91b49SDimitry Andric llvm_unreachable("bad runtime kind");
1754ba67500SRoman Divacky }
1764ba67500SRoman Divacky
getCXXPersonality(const TargetInfo & Target,const LangOptions & L)17748675466SDimitry Andric static const EHPersonality &getCXXPersonality(const TargetInfo &Target,
17806d4ba38SDimitry Andric const LangOptions &L) {
17948675466SDimitry Andric const llvm::Triple &T = Target.getTriple();
18048675466SDimitry Andric if (T.isWindowsMSVCEnvironment())
18148675466SDimitry Andric return EHPersonality::MSVC_CxxFrameHandler3;
182b60736ecSDimitry Andric if (T.isOSAIX())
183b60736ecSDimitry Andric return EHPersonality::XL_CPlusPlus;
184b60736ecSDimitry Andric if (L.hasSjLjExceptions())
1853d1dcd9bSDimitry Andric return EHPersonality::GNU_CPlusPlus_SJLJ;
186b60736ecSDimitry Andric if (L.hasDWARFExceptions())
18748675466SDimitry Andric return EHPersonality::GNU_CPlusPlus;
188b60736ecSDimitry Andric if (L.hasSEHExceptions())
18906d4ba38SDimitry Andric return EHPersonality::GNU_CPlusPlus_SEH;
190b60736ecSDimitry Andric if (L.hasWasmExceptions())
19148675466SDimitry Andric return EHPersonality::GNU_Wasm_CPlusPlus;
1924df029ccSDimitry Andric if (T.isOSzOS())
1934df029ccSDimitry Andric return EHPersonality::ZOS_CPlusPlus;
1943d1dcd9bSDimitry Andric return EHPersonality::GNU_CPlusPlus;
1954ba67500SRoman Divacky }
1964ba67500SRoman Divacky
1974ba67500SRoman Divacky /// Determines the personality function to use when both C++
1984ba67500SRoman Divacky /// and Objective-C exceptions are being caught.
getObjCXXPersonality(const TargetInfo & Target,const LangOptions & L)19948675466SDimitry Andric static const EHPersonality &getObjCXXPersonality(const TargetInfo &Target,
20006d4ba38SDimitry Andric const LangOptions &L) {
20148675466SDimitry Andric if (Target.getTriple().isWindowsMSVCEnvironment())
20248675466SDimitry Andric return EHPersonality::MSVC_CxxFrameHandler3;
20348675466SDimitry Andric
20456d91b49SDimitry Andric switch (L.ObjCRuntime.getKind()) {
205461a67faSDimitry Andric // In the fragile ABI, just use C++ exception handling and hope
206461a67faSDimitry Andric // they're not doing crazy exception mixing.
207461a67faSDimitry Andric case ObjCRuntime::FragileMacOSX:
20848675466SDimitry Andric return getCXXPersonality(Target, L);
209461a67faSDimitry Andric
2104ba67500SRoman Divacky // The ObjC personality defers to the C++ personality for non-ObjC
2114ba67500SRoman Divacky // handlers. Unlike the C++ case, we use the same personality
2124ba67500SRoman Divacky // function on targets using (backend-driven) SJLJ EH.
21356d91b49SDimitry Andric case ObjCRuntime::MacOSX:
21456d91b49SDimitry Andric case ObjCRuntime::iOS:
21545b53394SDimitry Andric case ObjCRuntime::WatchOS:
21648675466SDimitry Andric return getObjCPersonality(Target, L);
2174ba67500SRoman Divacky
218461a67faSDimitry Andric case ObjCRuntime::GNUstep:
219950076cdSDimitry Andric return Target.getTriple().isOSCygMing() ? EHPersonality::GNU_CPlusPlus_SEH
220950076cdSDimitry Andric : EHPersonality::GNU_ObjCXX;
2214ba67500SRoman Divacky
22256d91b49SDimitry Andric // The GCC runtime's personality function inherently doesn't support
223461a67faSDimitry Andric // mixed EH. Use the ObjC personality just to avoid returning null.
22456d91b49SDimitry Andric case ObjCRuntime::GCC:
2257442d6faSDimitry Andric case ObjCRuntime::ObjFW:
22648675466SDimitry Andric return getObjCPersonality(Target, L);
2274ba67500SRoman Divacky }
22856d91b49SDimitry Andric llvm_unreachable("bad runtime kind");
22956d91b49SDimitry Andric }
2304ba67500SRoman Divacky
getSEHPersonalityMSVC(const llvm::Triple & T)2315e20cdd8SDimitry Andric static const EHPersonality &getSEHPersonalityMSVC(const llvm::Triple &T) {
2325e20cdd8SDimitry Andric if (T.getArch() == llvm::Triple::x86)
2335e20cdd8SDimitry Andric return EHPersonality::MSVC_except_handler;
2345e20cdd8SDimitry Andric return EHPersonality::MSVC_C_specific_handler;
2355e20cdd8SDimitry Andric }
2365e20cdd8SDimitry Andric
get(CodeGenModule & CGM,const FunctionDecl * FD)2375e20cdd8SDimitry Andric const EHPersonality &EHPersonality::get(CodeGenModule &CGM,
2385e20cdd8SDimitry Andric const FunctionDecl *FD) {
23906d4ba38SDimitry Andric const llvm::Triple &T = CGM.getTarget().getTriple();
24006d4ba38SDimitry Andric const LangOptions &L = CGM.getLangOpts();
24148675466SDimitry Andric const TargetInfo &Target = CGM.getTarget();
2425e20cdd8SDimitry Andric
24345b53394SDimitry Andric // Functions using SEH get an SEH personality.
24445b53394SDimitry Andric if (FD && FD->usesSEHTry())
24545b53394SDimitry Andric return getSEHPersonalityMSVC(T);
24645b53394SDimitry Andric
247676fbe81SDimitry Andric if (L.ObjC)
24848675466SDimitry Andric return L.CPlusPlus ? getObjCXXPersonality(Target, L)
24948675466SDimitry Andric : getObjCPersonality(Target, L);
25048675466SDimitry Andric return L.CPlusPlus ? getCXXPersonality(Target, L)
25148675466SDimitry Andric : getCPersonality(Target, L);
2523d1dcd9bSDimitry Andric }
2534ba67500SRoman Divacky
get(CodeGenFunction & CGF)25445b53394SDimitry Andric const EHPersonality &EHPersonality::get(CodeGenFunction &CGF) {
255461a67faSDimitry Andric const auto *FD = CGF.CurCodeDecl;
256461a67faSDimitry Andric // For outlined finallys and filters, use the SEH personality in case they
257461a67faSDimitry Andric // contain more SEH. This mostly only affects finallys. Filters could
258461a67faSDimitry Andric // hypothetically use gnu statement expressions to sneak in nested SEH.
259e3b55780SDimitry Andric FD = FD ? FD : CGF.CurSEHParent.getDecl();
260461a67faSDimitry Andric return get(CGF.CGM, dyn_cast_or_null<FunctionDecl>(FD));
26145b53394SDimitry Andric }
26245b53394SDimitry Andric
getPersonalityFn(CodeGenModule & CGM,const EHPersonality & Personality)26322989816SDimitry Andric static llvm::FunctionCallee getPersonalityFn(CodeGenModule &CGM,
2643d1dcd9bSDimitry Andric const EHPersonality &Personality) {
265bab175ecSDimitry Andric return CGM.CreateRuntimeFunction(llvm::FunctionType::get(CGM.Int32Ty, true),
266bab175ecSDimitry Andric Personality.PersonalityFn,
2677442d6faSDimitry Andric llvm::AttributeList(), /*Local=*/true);
268bca07a45SDimitry Andric }
269bca07a45SDimitry Andric
getOpaquePersonalityFn(CodeGenModule & CGM,const EHPersonality & Personality)270bca07a45SDimitry Andric static llvm::Constant *getOpaquePersonalityFn(CodeGenModule &CGM,
271bca07a45SDimitry Andric const EHPersonality &Personality) {
27222989816SDimitry Andric llvm::FunctionCallee Fn = getPersonalityFn(CGM, Personality);
273b1c73532SDimitry Andric return cast<llvm::Constant>(Fn.getCallee());
274bca07a45SDimitry Andric }
275bca07a45SDimitry Andric
27645b53394SDimitry Andric /// Check whether a landingpad instruction only uses C++ features.
LandingPadHasOnlyCXXUses(llvm::LandingPadInst * LPI)27745b53394SDimitry Andric static bool LandingPadHasOnlyCXXUses(llvm::LandingPadInst *LPI) {
27836981b17SDimitry Andric for (unsigned I = 0, E = LPI->getNumClauses(); I != E; ++I) {
279bca07a45SDimitry Andric // Look for something that would've been returned by the ObjC
280bca07a45SDimitry Andric // runtime's GetEHType() method.
28136981b17SDimitry Andric llvm::Value *Val = LPI->getClause(I)->stripPointerCasts();
28236981b17SDimitry Andric if (LPI->isCatch(I)) {
28336981b17SDimitry Andric // Check if the catch value has the ObjC prefix.
28436981b17SDimitry Andric if (llvm::GlobalVariable *GV = dyn_cast<llvm::GlobalVariable>(Val))
285bca07a45SDimitry Andric // ObjC EH selector entries are always global variables with
286bca07a45SDimitry Andric // names starting like this.
287312c0ed1SDimitry Andric if (GV->getName().starts_with("OBJC_EHTYPE"))
288bca07a45SDimitry Andric return false;
28936981b17SDimitry Andric } else {
29036981b17SDimitry Andric // Check if any of the filter values have the ObjC prefix.
29136981b17SDimitry Andric llvm::Constant *CVal = cast<llvm::Constant>(Val);
29236981b17SDimitry Andric for (llvm::User::op_iterator
29336981b17SDimitry Andric II = CVal->op_begin(), IE = CVal->op_end(); II != IE; ++II) {
29436981b17SDimitry Andric if (llvm::GlobalVariable *GV =
29536981b17SDimitry Andric cast<llvm::GlobalVariable>((*II)->stripPointerCasts()))
29636981b17SDimitry Andric // ObjC EH selector entries are always global variables with
29736981b17SDimitry Andric // names starting like this.
298312c0ed1SDimitry Andric if (GV->getName().starts_with("OBJC_EHTYPE"))
29936981b17SDimitry Andric return false;
30036981b17SDimitry Andric }
30136981b17SDimitry Andric }
302bca07a45SDimitry Andric }
30345b53394SDimitry Andric return true;
30445b53394SDimitry Andric }
30545b53394SDimitry Andric
30645b53394SDimitry Andric /// Check whether a personality function could reasonably be swapped
30745b53394SDimitry Andric /// for a C++ personality function.
PersonalityHasOnlyCXXUses(llvm::Constant * Fn)30845b53394SDimitry Andric static bool PersonalityHasOnlyCXXUses(llvm::Constant *Fn) {
30945b53394SDimitry Andric for (llvm::User *U : Fn->users()) {
31045b53394SDimitry Andric // Conditionally white-list bitcasts.
31145b53394SDimitry Andric if (llvm::ConstantExpr *CE = dyn_cast<llvm::ConstantExpr>(U)) {
31245b53394SDimitry Andric if (CE->getOpcode() != llvm::Instruction::BitCast) return false;
31345b53394SDimitry Andric if (!PersonalityHasOnlyCXXUses(CE))
31445b53394SDimitry Andric return false;
31545b53394SDimitry Andric continue;
31645b53394SDimitry Andric }
31745b53394SDimitry Andric
31845b53394SDimitry Andric // Otherwise it must be a function.
31945b53394SDimitry Andric llvm::Function *F = dyn_cast<llvm::Function>(U);
32045b53394SDimitry Andric if (!F) return false;
32145b53394SDimitry Andric
32245b53394SDimitry Andric for (auto BB = F->begin(), E = F->end(); BB != E; ++BB) {
32345b53394SDimitry Andric if (BB->isLandingPad())
32445b53394SDimitry Andric if (!LandingPadHasOnlyCXXUses(BB->getLandingPadInst()))
32545b53394SDimitry Andric return false;
32645b53394SDimitry Andric }
327bca07a45SDimitry Andric }
328bca07a45SDimitry Andric
329bca07a45SDimitry Andric return true;
330bca07a45SDimitry Andric }
331bca07a45SDimitry Andric
332bca07a45SDimitry Andric /// Try to use the C++ personality function in ObjC++. Not doing this
333bca07a45SDimitry Andric /// can cause some incompatibilities with gcc, which is more
334bca07a45SDimitry Andric /// aggressive about only using the ObjC++ personality in a function
335bca07a45SDimitry Andric /// when it really needs it.
SimplifyPersonality()336bca07a45SDimitry Andric void CodeGenModule::SimplifyPersonality() {
337bca07a45SDimitry Andric // If we're not in ObjC++ -fexceptions, there's nothing to do.
338676fbe81SDimitry Andric if (!LangOpts.CPlusPlus || !LangOpts.ObjC || !LangOpts.Exceptions)
339bca07a45SDimitry Andric return;
340bca07a45SDimitry Andric
34113cc256eSDimitry Andric // Both the problem this endeavors to fix and the way the logic
34213cc256eSDimitry Andric // above works is specific to the NeXT runtime.
34313cc256eSDimitry Andric if (!LangOpts.ObjCRuntime.isNeXTFamily())
34413cc256eSDimitry Andric return;
34513cc256eSDimitry Andric
3465e20cdd8SDimitry Andric const EHPersonality &ObjCXX = EHPersonality::get(*this, /*FD=*/nullptr);
34748675466SDimitry Andric const EHPersonality &CXX = getCXXPersonality(getTarget(), LangOpts);
348dbe13110SDimitry Andric if (&ObjCXX == &CXX)
349bca07a45SDimitry Andric return;
350bca07a45SDimitry Andric
351dbe13110SDimitry Andric assert(std::strcmp(ObjCXX.PersonalityFn, CXX.PersonalityFn) != 0 &&
352dbe13110SDimitry Andric "Different EHPersonalities using the same personality function.");
353dbe13110SDimitry Andric
354dbe13110SDimitry Andric llvm::Function *Fn = getModule().getFunction(ObjCXX.PersonalityFn);
355bca07a45SDimitry Andric
356bca07a45SDimitry Andric // Nothing to do if it's unused.
357bca07a45SDimitry Andric if (!Fn || Fn->use_empty()) return;
358bca07a45SDimitry Andric
359bca07a45SDimitry Andric // Can't do the optimization if it has non-C++ uses.
360bca07a45SDimitry Andric if (!PersonalityHasOnlyCXXUses(Fn)) return;
361bca07a45SDimitry Andric
362bca07a45SDimitry Andric // Create the C++ personality function and kill off the old
363bca07a45SDimitry Andric // function.
36422989816SDimitry Andric llvm::FunctionCallee CXXFn = getPersonalityFn(*this, CXX);
365bca07a45SDimitry Andric
366bca07a45SDimitry Andric // This can happen if the user is screwing with us.
36722989816SDimitry Andric if (Fn->getType() != CXXFn.getCallee()->getType())
36822989816SDimitry Andric return;
369bca07a45SDimitry Andric
37022989816SDimitry Andric Fn->replaceAllUsesWith(CXXFn.getCallee());
371bca07a45SDimitry Andric Fn->eraseFromParent();
3724ba67500SRoman Divacky }
3734ba67500SRoman Divacky
3744ba67500SRoman Divacky /// Returns the value to inject into a selector to indicate the
3754ba67500SRoman Divacky /// presence of a catch-all.
getCatchAllValue(CodeGenFunction & CGF)3764ba67500SRoman Divacky static llvm::Constant *getCatchAllValue(CodeGenFunction &CGF) {
3774ba67500SRoman Divacky // Possibly we should use @llvm.eh.catch.all.value here.
378bca07a45SDimitry Andric return llvm::ConstantPointerNull::get(CGF.Int8PtrTy);
3794ba67500SRoman Divacky }
3804ba67500SRoman Divacky
3814e58654bSRoman Divacky namespace {
3824e58654bSRoman Divacky /// A cleanup to free the exception object if its initialization
3834e58654bSRoman Divacky /// throws.
38445b53394SDimitry Andric struct FreeException final : EHScopeStack::Cleanup {
385180abc3dSDimitry Andric llvm::Value *exn;
FreeException__anon0b616fac0111::FreeException386180abc3dSDimitry Andric FreeException(llvm::Value *exn) : exn(exn) {}
Emit__anon0b616fac0111::FreeException3879f4dbff6SDimitry Andric void Emit(CodeGenFunction &CGF, Flags flags) override {
388809500fcSDimitry Andric CGF.EmitNounwindRuntimeCall(getFreeExceptionFn(CGF.CGM), exn);
3894e58654bSRoman Divacky }
3904e58654bSRoman Divacky };
39145b53394SDimitry Andric } // end anonymous namespace
3924e58654bSRoman Divacky
3930883ccd9SRoman Divacky // Emits an exception expression into the given location. This
3940883ccd9SRoman Divacky // differs from EmitAnyExprToMem only in that, if a final copy-ctor
3950883ccd9SRoman Divacky // call is required, an exception within that copy ctor causes
3960883ccd9SRoman Divacky // std::terminate to be invoked.
EmitAnyExprToExn(const Expr * e,Address addr)39745b53394SDimitry Andric void CodeGenFunction::EmitAnyExprToExn(const Expr *e, Address addr) {
3984ba67500SRoman Divacky // Make sure the exception object is cleaned up if there's an
3994ba67500SRoman Divacky // exception during initialization.
400ac9a064cSDimitry Andric pushFullExprCleanup<FreeException>(EHCleanup, addr.emitRawPointer(*this));
4015e20cdd8SDimitry Andric EHScopeStack::stable_iterator cleanup = EHStack.stable_begin();
402abe15e55SRoman Divacky
4030883ccd9SRoman Divacky // __cxa_allocate_exception returns a void*; we need to cast this
4040883ccd9SRoman Divacky // to the appropriate type for the object.
40577fc4c14SDimitry Andric llvm::Type *ty = ConvertTypeForMem(e->getType());
4067fa27ce4SDimitry Andric Address typedAddr = addr.withElementType(ty);
407abe15e55SRoman Divacky
4080883ccd9SRoman Divacky // FIXME: this isn't quite right! If there's a final unelided call
4090883ccd9SRoman Divacky // to a copy constructor, then according to [except.terminate]p1 we
4100883ccd9SRoman Divacky // must call std::terminate() if that constructor throws, because
4110883ccd9SRoman Divacky // technically that copy occurs after the exception expression is
4120883ccd9SRoman Divacky // evaluated but before the exception is caught. But the best way
4130883ccd9SRoman Divacky // to handle that is to teach EmitAggExpr to do the final copy
4140883ccd9SRoman Divacky // differently if it can't be elided.
4155e20cdd8SDimitry Andric EmitAnyExprToMem(e, typedAddr, e->getType().getQualifiers(),
416180abc3dSDimitry Andric /*IsInit*/ true);
4170883ccd9SRoman Divacky
418bca07a45SDimitry Andric // Deactivate the cleanup block.
419ac9a064cSDimitry Andric DeactivateCleanupBlock(
420ac9a064cSDimitry Andric cleanup, cast<llvm::Instruction>(typedAddr.emitRawPointer(*this)));
4211569ce68SRoman Divacky }
4221569ce68SRoman Divacky
getExceptionSlot()42345b53394SDimitry Andric Address CodeGenFunction::getExceptionSlot() {
42429cafa66SDimitry Andric if (!ExceptionSlot)
42529cafa66SDimitry Andric ExceptionSlot = CreateTempAlloca(Int8PtrTy, "exn.slot");
42677fc4c14SDimitry Andric return Address(ExceptionSlot, Int8PtrTy, getPointerAlign());
4271569ce68SRoman Divacky }
4281569ce68SRoman Divacky
getEHSelectorSlot()42945b53394SDimitry Andric Address CodeGenFunction::getEHSelectorSlot() {
43029cafa66SDimitry Andric if (!EHSelectorSlot)
43129cafa66SDimitry Andric EHSelectorSlot = CreateTempAlloca(Int32Ty, "ehselector.slot");
43277fc4c14SDimitry Andric return Address(EHSelectorSlot, Int32Ty, CharUnits::fromQuantity(4));
43329cafa66SDimitry Andric }
43429cafa66SDimitry Andric
getExceptionFromSlot()43536981b17SDimitry Andric llvm::Value *CodeGenFunction::getExceptionFromSlot() {
43636981b17SDimitry Andric return Builder.CreateLoad(getExceptionSlot(), "exn");
43736981b17SDimitry Andric }
43836981b17SDimitry Andric
getSelectorFromSlot()43936981b17SDimitry Andric llvm::Value *CodeGenFunction::getSelectorFromSlot() {
44036981b17SDimitry Andric return Builder.CreateLoad(getEHSelectorSlot(), "sel");
44136981b17SDimitry Andric }
44236981b17SDimitry Andric
EmitCXXThrowExpr(const CXXThrowExpr * E,bool KeepInsertionPoint)4436a037251SDimitry Andric void CodeGenFunction::EmitCXXThrowExpr(const CXXThrowExpr *E,
4446a037251SDimitry Andric bool KeepInsertionPoint) {
445b1c73532SDimitry Andric // If the exception is being emitted in an OpenMP target region,
446b1c73532SDimitry Andric // and the target is a GPU, we do not support exception handling.
447b1c73532SDimitry Andric // Therefore, we emit a trap which will abort the program, and
448b1c73532SDimitry Andric // prompt a warning indicating that a trap will be emitted.
449b1c73532SDimitry Andric const llvm::Triple &T = Target.getTriple();
450b1c73532SDimitry Andric if (CGM.getLangOpts().OpenMPIsTargetDevice && (T.isNVPTX() || T.isAMDGCN())) {
451b1c73532SDimitry Andric EmitTrapCall(llvm::Intrinsic::trap);
452b1c73532SDimitry Andric return;
453b1c73532SDimitry Andric }
4545e20cdd8SDimitry Andric if (const Expr *SubExpr = E->getSubExpr()) {
4555e20cdd8SDimitry Andric QualType ThrowType = SubExpr->getType();
456809500fcSDimitry Andric if (ThrowType->isObjCObjectPointerType()) {
457809500fcSDimitry Andric const Stmt *ThrowStmt = E->getSubExpr();
4585e20cdd8SDimitry Andric const ObjCAtThrowStmt S(E->getExprLoc(), const_cast<Stmt *>(ThrowStmt));
459809500fcSDimitry Andric CGM.getObjCRuntime().EmitThrowStmt(*this, S, false);
4605e20cdd8SDimitry Andric } else {
4615e20cdd8SDimitry Andric CGM.getCXXABI().emitThrow(*this, E);
462809500fcSDimitry Andric }
4635e20cdd8SDimitry Andric } else {
4645e20cdd8SDimitry Andric CGM.getCXXABI().emitRethrow(*this, /*isNoReturn=*/true);
4650883ccd9SRoman Divacky }
46651fb8b01SRoman Divacky
467bca07a45SDimitry Andric // throw is an expression, and the expression emitters expect us
468bca07a45SDimitry Andric // to leave ourselves at a valid insertion point.
4696a037251SDimitry Andric if (KeepInsertionPoint)
470bca07a45SDimitry Andric EmitBlock(createBasicBlock("throw.cont"));
47134d02d0bSRoman Divacky }
47234d02d0bSRoman Divacky
EmitStartEHSpec(const Decl * D)47334d02d0bSRoman Divacky void CodeGenFunction::EmitStartEHSpec(const Decl *D) {
474dbe13110SDimitry Andric if (!CGM.getLangOpts().CXXExceptions)
475ecb7e5c8SRoman Divacky return;
476ecb7e5c8SRoman Divacky
47734d02d0bSRoman Divacky const FunctionDecl* FD = dyn_cast_or_null<FunctionDecl>(D);
4789f4dbff6SDimitry Andric if (!FD) {
4799f4dbff6SDimitry Andric // Check if CapturedDecl is nothrow and create terminate scope for it.
4809f4dbff6SDimitry Andric if (const CapturedDecl* CD = dyn_cast_or_null<CapturedDecl>(D)) {
4819f4dbff6SDimitry Andric if (CD->isNothrow())
4829f4dbff6SDimitry Andric EHStack.pushTerminate();
4839f4dbff6SDimitry Andric }
48434d02d0bSRoman Divacky return;
4859f4dbff6SDimitry Andric }
48634d02d0bSRoman Divacky const FunctionProtoType *Proto = FD->getType()->getAs<FunctionProtoType>();
4879f4dbff6SDimitry Andric if (!Proto)
48834d02d0bSRoman Divacky return;
48934d02d0bSRoman Divacky
49001af97d3SDimitry Andric ExceptionSpecificationType EST = Proto->getExceptionSpecType();
491c0981da4SDimitry Andric // In C++17 and later, 'throw()' aka EST_DynamicNone is treated the same way
492c0981da4SDimitry Andric // as noexcept. In earlier standards, it is handled in this block, along with
493c0981da4SDimitry Andric // 'throw(X...)'.
494c0981da4SDimitry Andric if (EST == EST_Dynamic ||
495c0981da4SDimitry Andric (EST == EST_DynamicNone && !getLangOpts().CPlusPlus17)) {
4965e20cdd8SDimitry Andric // TODO: Revisit exception specifications for the MS ABI. There is a way to
4975e20cdd8SDimitry Andric // encode these in an object file but MSVC doesn't do anything with it.
4985e20cdd8SDimitry Andric if (getTarget().getCXXABI().isMicrosoft())
4995e20cdd8SDimitry Andric return;
500344a3780SDimitry Andric // In Wasm EH we currently treat 'throw()' in the same way as 'noexcept'. In
501cfca06d7SDimitry Andric // case of throw with types, we ignore it and print a warning for now.
502344a3780SDimitry Andric // TODO Correctly handle exception specification in Wasm EH
503b60736ecSDimitry Andric if (CGM.getLangOpts().hasWasmExceptions()) {
504cfca06d7SDimitry Andric if (EST == EST_DynamicNone)
505cfca06d7SDimitry Andric EHStack.pushTerminate();
506cfca06d7SDimitry Andric else
507cfca06d7SDimitry Andric CGM.getDiags().Report(D->getLocation(),
508cfca06d7SDimitry Andric diag::warn_wasm_dynamic_exception_spec_ignored)
509cfca06d7SDimitry Andric << FD->getExceptionSpecSourceRange();
510cfca06d7SDimitry Andric return;
511cfca06d7SDimitry Andric }
512344a3780SDimitry Andric // Currently Emscripten EH only handles 'throw()' but not 'throw' with
513344a3780SDimitry Andric // types. 'throw()' handling will be done in JS glue code so we don't need
514344a3780SDimitry Andric // to do anything in that case. Just print a warning message in case of
515344a3780SDimitry Andric // throw with types.
516344a3780SDimitry Andric // TODO Correctly handle exception specification in Emscripten EH
517344a3780SDimitry Andric if (getTarget().getCXXABI() == TargetCXXABI::WebAssembly &&
518344a3780SDimitry Andric CGM.getLangOpts().getExceptionHandling() ==
519344a3780SDimitry Andric LangOptions::ExceptionHandlingKind::None &&
520344a3780SDimitry Andric EST == EST_Dynamic)
521344a3780SDimitry Andric CGM.getDiags().Report(D->getLocation(),
522344a3780SDimitry Andric diag::warn_wasm_dynamic_exception_spec_ignored)
523344a3780SDimitry Andric << FD->getExceptionSpecSourceRange();
524344a3780SDimitry Andric
5254ba67500SRoman Divacky unsigned NumExceptions = Proto->getNumExceptions();
5264ba67500SRoman Divacky EHFilterScope *Filter = EHStack.pushFilter(NumExceptions);
52734d02d0bSRoman Divacky
5284ba67500SRoman Divacky for (unsigned I = 0; I != NumExceptions; ++I) {
5294ba67500SRoman Divacky QualType Ty = Proto->getExceptionType(I);
5304ba67500SRoman Divacky QualType ExceptType = Ty.getNonReferenceType().getUnqualifiedType();
531bca07a45SDimitry Andric llvm::Value *EHType = CGM.GetAddrOfRTTIDescriptor(ExceptType,
532bca07a45SDimitry Andric /*ForEH=*/true);
5334ba67500SRoman Divacky Filter->setFilter(I, EHType);
53434d02d0bSRoman Divacky }
535c0981da4SDimitry Andric } else if (Proto->canThrow() == CT_Cannot) {
536c0981da4SDimitry Andric // noexcept functions are simple terminate scopes.
537c0981da4SDimitry Andric if (!getLangOpts().EHAsynch) // -EHa: HW exception still can occur
538c0981da4SDimitry Andric EHStack.pushTerminate();
53934d02d0bSRoman Divacky }
54001af97d3SDimitry Andric }
54134d02d0bSRoman Divacky
54236981b17SDimitry Andric /// Emit the dispatch block for a filter scope if necessary.
emitFilterDispatchBlock(CodeGenFunction & CGF,EHFilterScope & filterScope)54336981b17SDimitry Andric static void emitFilterDispatchBlock(CodeGenFunction &CGF,
54436981b17SDimitry Andric EHFilterScope &filterScope) {
54536981b17SDimitry Andric llvm::BasicBlock *dispatchBlock = filterScope.getCachedEHDispatchBlock();
54636981b17SDimitry Andric if (!dispatchBlock) return;
54736981b17SDimitry Andric if (dispatchBlock->use_empty()) {
54836981b17SDimitry Andric delete dispatchBlock;
54936981b17SDimitry Andric return;
55036981b17SDimitry Andric }
55136981b17SDimitry Andric
55236981b17SDimitry Andric CGF.EmitBlockAfterUses(dispatchBlock);
55336981b17SDimitry Andric
55436981b17SDimitry Andric // If this isn't a catch-all filter, we need to check whether we got
55536981b17SDimitry Andric // here because the filter triggered.
55636981b17SDimitry Andric if (filterScope.getNumFilters()) {
55736981b17SDimitry Andric // Load the selector value.
55836981b17SDimitry Andric llvm::Value *selector = CGF.getSelectorFromSlot();
55936981b17SDimitry Andric llvm::BasicBlock *unexpectedBB = CGF.createBasicBlock("ehspec.unexpected");
56036981b17SDimitry Andric
56136981b17SDimitry Andric llvm::Value *zero = CGF.Builder.getInt32(0);
56236981b17SDimitry Andric llvm::Value *failsFilter =
56336981b17SDimitry Andric CGF.Builder.CreateICmpSLT(selector, zero, "ehspec.fails");
5645e20cdd8SDimitry Andric CGF.Builder.CreateCondBr(failsFilter, unexpectedBB,
5655e20cdd8SDimitry Andric CGF.getEHResumeBlock(false));
56636981b17SDimitry Andric
56736981b17SDimitry Andric CGF.EmitBlock(unexpectedBB);
56836981b17SDimitry Andric }
56936981b17SDimitry Andric
57036981b17SDimitry Andric // Call __cxa_call_unexpected. This doesn't need to be an invoke
57136981b17SDimitry Andric // because __cxa_call_unexpected magically filters exceptions
57236981b17SDimitry Andric // according to the last landing pad the exception was thrown
57336981b17SDimitry Andric // into. Seriously.
57436981b17SDimitry Andric llvm::Value *exn = CGF.getExceptionFromSlot();
575809500fcSDimitry Andric CGF.EmitRuntimeCall(getUnexpectedFn(CGF.CGM), exn)
57636981b17SDimitry Andric ->setDoesNotReturn();
57736981b17SDimitry Andric CGF.Builder.CreateUnreachable();
57836981b17SDimitry Andric }
57936981b17SDimitry Andric
EmitEndEHSpec(const Decl * D)58034d02d0bSRoman Divacky void CodeGenFunction::EmitEndEHSpec(const Decl *D) {
581dbe13110SDimitry Andric if (!CGM.getLangOpts().CXXExceptions)
582ecb7e5c8SRoman Divacky return;
583ecb7e5c8SRoman Divacky
58434d02d0bSRoman Divacky const FunctionDecl* FD = dyn_cast_or_null<FunctionDecl>(D);
5859f4dbff6SDimitry Andric if (!FD) {
5869f4dbff6SDimitry Andric // Check if CapturedDecl is nothrow and pop terminate scope for it.
5879f4dbff6SDimitry Andric if (const CapturedDecl* CD = dyn_cast_or_null<CapturedDecl>(D)) {
588344a3780SDimitry Andric if (CD->isNothrow() && !EHStack.empty())
5899f4dbff6SDimitry Andric EHStack.popTerminate();
5909f4dbff6SDimitry Andric }
59134d02d0bSRoman Divacky return;
5929f4dbff6SDimitry Andric }
59334d02d0bSRoman Divacky const FunctionProtoType *Proto = FD->getType()->getAs<FunctionProtoType>();
5949f4dbff6SDimitry Andric if (!Proto)
59534d02d0bSRoman Divacky return;
59634d02d0bSRoman Divacky
59701af97d3SDimitry Andric ExceptionSpecificationType EST = Proto->getExceptionSpecType();
598c0981da4SDimitry Andric if (EST == EST_Dynamic ||
599c0981da4SDimitry Andric (EST == EST_DynamicNone && !getLangOpts().CPlusPlus17)) {
6005e20cdd8SDimitry Andric // TODO: Revisit exception specifications for the MS ABI. There is a way to
6015e20cdd8SDimitry Andric // encode these in an object file but MSVC doesn't do anything with it.
6025e20cdd8SDimitry Andric if (getTarget().getCXXABI().isMicrosoft())
6035e20cdd8SDimitry Andric return;
604cfca06d7SDimitry Andric // In wasm we currently treat 'throw()' in the same way as 'noexcept'. In
605cfca06d7SDimitry Andric // case of throw with types, we ignore it and print a warning for now.
606cfca06d7SDimitry Andric // TODO Correctly handle exception specification in wasm
607b60736ecSDimitry Andric if (CGM.getLangOpts().hasWasmExceptions()) {
608cfca06d7SDimitry Andric if (EST == EST_DynamicNone)
609cfca06d7SDimitry Andric EHStack.popTerminate();
610cfca06d7SDimitry Andric return;
611cfca06d7SDimitry Andric }
61236981b17SDimitry Andric EHFilterScope &filterScope = cast<EHFilterScope>(*EHStack.begin());
61336981b17SDimitry Andric emitFilterDispatchBlock(*this, filterScope);
6144ba67500SRoman Divacky EHStack.popFilter();
615c0981da4SDimitry Andric } else if (Proto->canThrow() == CT_Cannot &&
616c0981da4SDimitry Andric /* possible empty when under async exceptions */
617c0981da4SDimitry Andric !EHStack.empty()) {
618c0981da4SDimitry Andric EHStack.popTerminate();
61951fb8b01SRoman Divacky }
62001af97d3SDimitry Andric }
6211569ce68SRoman Divacky
EmitCXXTryStmt(const CXXTryStmt & S)6221569ce68SRoman Divacky void CodeGenFunction::EmitCXXTryStmt(const CXXTryStmt &S) {
623b1c73532SDimitry Andric const llvm::Triple &T = Target.getTriple();
624b1c73532SDimitry Andric // If we encounter a try statement on in an OpenMP target region offloaded to
625b1c73532SDimitry Andric // a GPU, we treat it as a basic block.
626b1c73532SDimitry Andric const bool IsTargetDevice =
627b1c73532SDimitry Andric (CGM.getLangOpts().OpenMPIsTargetDevice && (T.isNVPTX() || T.isAMDGCN()));
628b1c73532SDimitry Andric if (!IsTargetDevice)
6294ba67500SRoman Divacky EnterCXXTryStmt(S);
63079ade4e0SRoman Divacky EmitStmt(S.getTryBlock());
631b1c73532SDimitry Andric if (!IsTargetDevice)
6324ba67500SRoman Divacky ExitCXXTryStmt(S);
63379ade4e0SRoman Divacky }
63479ade4e0SRoman Divacky
EnterCXXTryStmt(const CXXTryStmt & S,bool IsFnTryBlock)6354ba67500SRoman Divacky void CodeGenFunction::EnterCXXTryStmt(const CXXTryStmt &S, bool IsFnTryBlock) {
6364ba67500SRoman Divacky unsigned NumHandlers = S.getNumHandlers();
6374ba67500SRoman Divacky EHCatchScope *CatchScope = EHStack.pushCatch(NumHandlers);
63879ade4e0SRoman Divacky
6394ba67500SRoman Divacky for (unsigned I = 0; I != NumHandlers; ++I) {
6404ba67500SRoman Divacky const CXXCatchStmt *C = S.getHandler(I);
6414ba67500SRoman Divacky
6424ba67500SRoman Divacky llvm::BasicBlock *Handler = createBasicBlock("catch");
6434ba67500SRoman Divacky if (C->getExceptionDecl()) {
6444ba67500SRoman Divacky // FIXME: Dropping the reference type on the type into makes it
6454ba67500SRoman Divacky // impossible to correctly implement catch-by-reference
6464ba67500SRoman Divacky // semantics for pointers. Unfortunately, this is what all
6474ba67500SRoman Divacky // existing compilers do, and it's not clear that the standard
6484ba67500SRoman Divacky // personality routine is capable of doing this right. See C++ DR 388:
6494ba67500SRoman Divacky // http://www.open-std.org/jtc1/sc22/wg21/docs/cwg_active.html#388
65006d4ba38SDimitry Andric Qualifiers CaughtTypeQuals;
65106d4ba38SDimitry Andric QualType CaughtType = CGM.getContext().getUnqualifiedArrayType(
65206d4ba38SDimitry Andric C->getCaughtType().getNonReferenceType(), CaughtTypeQuals);
6533d1dcd9bSDimitry Andric
65445b53394SDimitry Andric CatchTypeInfo TypeInfo{nullptr, 0};
6553d1dcd9bSDimitry Andric if (CaughtType->isObjCObjectPointerType())
65645b53394SDimitry Andric TypeInfo.RTTI = CGM.getObjCRuntime().GetEHType(CaughtType);
6573d1dcd9bSDimitry Andric else
65845b53394SDimitry Andric TypeInfo = CGM.getCXXABI().getAddrOfCXXCatchHandlerType(
65945b53394SDimitry Andric CaughtType, C->getCaughtType());
6604ba67500SRoman Divacky CatchScope->setHandler(I, TypeInfo, Handler);
6614ba67500SRoman Divacky } else {
6624ba67500SRoman Divacky // No exception decl indicates '...', a catch-all.
66345b53394SDimitry Andric CatchScope->setHandler(I, CGM.getCXXABI().getCatchAllTypeInfo(), Handler);
664344a3780SDimitry Andric // Under async exceptions, catch(...) need to catch HW exception too
665344a3780SDimitry Andric // Mark scope with SehTryBegin as a SEH __try scope
666344a3780SDimitry Andric if (getLangOpts().EHAsynch)
6677fa27ce4SDimitry Andric EmitSehTryScopeBegin();
6684ba67500SRoman Divacky }
6694ba67500SRoman Divacky }
6704ba67500SRoman Divacky }
6714ba67500SRoman Divacky
67236981b17SDimitry Andric llvm::BasicBlock *
getEHDispatchBlock(EHScopeStack::stable_iterator si)67336981b17SDimitry Andric CodeGenFunction::getEHDispatchBlock(EHScopeStack::stable_iterator si) {
67445b53394SDimitry Andric if (EHPersonality::get(*this).usesFuncletPads())
67548675466SDimitry Andric return getFuncletEHDispatchBlock(si);
67645b53394SDimitry Andric
67736981b17SDimitry Andric // The dispatch block for the end of the scope chain is a block that
67836981b17SDimitry Andric // just resumes unwinding.
67936981b17SDimitry Andric if (si == EHStack.stable_end())
68013cc256eSDimitry Andric return getEHResumeBlock(true);
68136981b17SDimitry Andric
68236981b17SDimitry Andric // Otherwise, we should look at the actual scope.
68336981b17SDimitry Andric EHScope &scope = *EHStack.find(si);
68436981b17SDimitry Andric
68536981b17SDimitry Andric llvm::BasicBlock *dispatchBlock = scope.getCachedEHDispatchBlock();
68636981b17SDimitry Andric if (!dispatchBlock) {
68736981b17SDimitry Andric switch (scope.getKind()) {
68836981b17SDimitry Andric case EHScope::Catch: {
68936981b17SDimitry Andric // Apply a special case to a single catch-all.
69036981b17SDimitry Andric EHCatchScope &catchScope = cast<EHCatchScope>(scope);
69136981b17SDimitry Andric if (catchScope.getNumHandlers() == 1 &&
69236981b17SDimitry Andric catchScope.getHandler(0).isCatchAll()) {
69336981b17SDimitry Andric dispatchBlock = catchScope.getHandler(0).Block;
69436981b17SDimitry Andric
69536981b17SDimitry Andric // Otherwise, make a dispatch block.
69636981b17SDimitry Andric } else {
69736981b17SDimitry Andric dispatchBlock = createBasicBlock("catch.dispatch");
69836981b17SDimitry Andric }
69936981b17SDimitry Andric break;
70036981b17SDimitry Andric }
70136981b17SDimitry Andric
70236981b17SDimitry Andric case EHScope::Cleanup:
70336981b17SDimitry Andric dispatchBlock = createBasicBlock("ehcleanup");
70436981b17SDimitry Andric break;
70536981b17SDimitry Andric
70636981b17SDimitry Andric case EHScope::Filter:
70736981b17SDimitry Andric dispatchBlock = createBasicBlock("filter.dispatch");
70836981b17SDimitry Andric break;
70936981b17SDimitry Andric
71036981b17SDimitry Andric case EHScope::Terminate:
71136981b17SDimitry Andric dispatchBlock = getTerminateHandler();
71236981b17SDimitry Andric break;
71336981b17SDimitry Andric }
71436981b17SDimitry Andric scope.setCachedEHDispatchBlock(dispatchBlock);
71536981b17SDimitry Andric }
71636981b17SDimitry Andric return dispatchBlock;
71736981b17SDimitry Andric }
71836981b17SDimitry Andric
71945b53394SDimitry Andric llvm::BasicBlock *
getFuncletEHDispatchBlock(EHScopeStack::stable_iterator SI)72048675466SDimitry Andric CodeGenFunction::getFuncletEHDispatchBlock(EHScopeStack::stable_iterator SI) {
72145b53394SDimitry Andric // Returning nullptr indicates that the previous dispatch block should unwind
72245b53394SDimitry Andric // to caller.
72345b53394SDimitry Andric if (SI == EHStack.stable_end())
72445b53394SDimitry Andric return nullptr;
72545b53394SDimitry Andric
72645b53394SDimitry Andric // Otherwise, we should look at the actual scope.
72745b53394SDimitry Andric EHScope &EHS = *EHStack.find(SI);
72845b53394SDimitry Andric
72945b53394SDimitry Andric llvm::BasicBlock *DispatchBlock = EHS.getCachedEHDispatchBlock();
73045b53394SDimitry Andric if (DispatchBlock)
73145b53394SDimitry Andric return DispatchBlock;
73245b53394SDimitry Andric
73345b53394SDimitry Andric if (EHS.getKind() == EHScope::Terminate)
73448675466SDimitry Andric DispatchBlock = getTerminateFunclet();
73545b53394SDimitry Andric else
73645b53394SDimitry Andric DispatchBlock = createBasicBlock();
73745b53394SDimitry Andric CGBuilderTy Builder(*this, DispatchBlock);
73845b53394SDimitry Andric
73945b53394SDimitry Andric switch (EHS.getKind()) {
74045b53394SDimitry Andric case EHScope::Catch:
74145b53394SDimitry Andric DispatchBlock->setName("catch.dispatch");
74245b53394SDimitry Andric break;
74345b53394SDimitry Andric
74445b53394SDimitry Andric case EHScope::Cleanup:
74545b53394SDimitry Andric DispatchBlock->setName("ehcleanup");
74645b53394SDimitry Andric break;
74745b53394SDimitry Andric
74845b53394SDimitry Andric case EHScope::Filter:
74945b53394SDimitry Andric llvm_unreachable("exception specifications not handled yet!");
75045b53394SDimitry Andric
75145b53394SDimitry Andric case EHScope::Terminate:
75245b53394SDimitry Andric DispatchBlock->setName("terminate");
75345b53394SDimitry Andric break;
75445b53394SDimitry Andric }
75545b53394SDimitry Andric EHS.setCachedEHDispatchBlock(DispatchBlock);
75645b53394SDimitry Andric return DispatchBlock;
75745b53394SDimitry Andric }
75845b53394SDimitry Andric
7594ba67500SRoman Divacky /// Check whether this is a non-EH scope, i.e. a scope which doesn't
7604ba67500SRoman Divacky /// affect exception handling. Currently, the only non-EH scopes are
7614ba67500SRoman Divacky /// normal-only cleanup scopes.
isNonEHScope(const EHScope & S)7624ba67500SRoman Divacky static bool isNonEHScope(const EHScope &S) {
7634e58654bSRoman Divacky switch (S.getKind()) {
7644e58654bSRoman Divacky case EHScope::Cleanup:
7654e58654bSRoman Divacky return !cast<EHCleanupScope>(S).isEHCleanup();
7664e58654bSRoman Divacky case EHScope::Filter:
7674e58654bSRoman Divacky case EHScope::Catch:
7684e58654bSRoman Divacky case EHScope::Terminate:
7694e58654bSRoman Divacky return false;
7704e58654bSRoman Divacky }
7714e58654bSRoman Divacky
772dbe13110SDimitry Andric llvm_unreachable("Invalid EHScope Kind!");
7734ba67500SRoman Divacky }
7744ba67500SRoman Divacky
getInvokeDestImpl()7754ba67500SRoman Divacky llvm::BasicBlock *CodeGenFunction::getInvokeDestImpl() {
7764ba67500SRoman Divacky assert(EHStack.requiresLandingPad());
7774ba67500SRoman Divacky assert(!EHStack.empty());
7784ba67500SRoman Divacky
779cfca06d7SDimitry Andric // If exceptions are disabled/ignored and SEH is not in use, then there is no
780cfca06d7SDimitry Andric // invoke destination. SEH "works" even if exceptions are off. In practice,
781cfca06d7SDimitry Andric // this means that C++ destructors and other EH cleanups don't run, which is
782344a3780SDimitry Andric // consistent with MSVC's behavior, except in the presence of -EHa
7835e20cdd8SDimitry Andric const LangOptions &LO = CGM.getLangOpts();
784cfca06d7SDimitry Andric if (!LO.Exceptions || LO.IgnoreExceptions) {
7855e20cdd8SDimitry Andric if (!LO.Borland && !LO.MicrosoftExt)
7869f4dbff6SDimitry Andric return nullptr;
7875e20cdd8SDimitry Andric if (!currentFunctionUsesSEHTry())
7885e20cdd8SDimitry Andric return nullptr;
7895e20cdd8SDimitry Andric }
7904e58654bSRoman Divacky
791bab175ecSDimitry Andric // CUDA device code doesn't have exceptions.
792bab175ecSDimitry Andric if (LO.CUDA && LO.CUDAIsDevice)
793bab175ecSDimitry Andric return nullptr;
794bab175ecSDimitry Andric
7954ba67500SRoman Divacky // Check the innermost scope for a cached landing pad. If this is
7964ba67500SRoman Divacky // a non-EH cleanup, we'll check enclosing scopes in EmitLandingPad.
7974ba67500SRoman Divacky llvm::BasicBlock *LP = EHStack.begin()->getCachedLandingPad();
7984ba67500SRoman Divacky if (LP) return LP;
7994ba67500SRoman Divacky
80045b53394SDimitry Andric const EHPersonality &Personality = EHPersonality::get(*this);
80145b53394SDimitry Andric
80245b53394SDimitry Andric if (!CurFn->hasPersonalityFn())
80345b53394SDimitry Andric CurFn->setPersonalityFn(getOpaquePersonalityFn(CGM, Personality));
80445b53394SDimitry Andric
80545b53394SDimitry Andric if (Personality.usesFuncletPads()) {
80645b53394SDimitry Andric // We don't need separate landing pads in the funclet model.
80745b53394SDimitry Andric LP = getEHDispatchBlock(EHStack.getInnermostEHScope());
80845b53394SDimitry Andric } else {
8094ba67500SRoman Divacky // Build the landing pad for this scope.
8104ba67500SRoman Divacky LP = EmitLandingPad();
81145b53394SDimitry Andric }
81245b53394SDimitry Andric
8134ba67500SRoman Divacky assert(LP);
8144ba67500SRoman Divacky
8154ba67500SRoman Divacky // Cache the landing pad on the innermost scope. If this is a
8164ba67500SRoman Divacky // non-EH scope, cache the landing pad on the enclosing scope, too.
8174ba67500SRoman Divacky for (EHScopeStack::iterator ir = EHStack.begin(); true; ++ir) {
8184ba67500SRoman Divacky ir->setCachedLandingPad(LP);
8194ba67500SRoman Divacky if (!isNonEHScope(*ir)) break;
8204ba67500SRoman Divacky }
8214ba67500SRoman Divacky
8224ba67500SRoman Divacky return LP;
8234ba67500SRoman Divacky }
8244ba67500SRoman Divacky
EmitLandingPad()82529cafa66SDimitry Andric llvm::BasicBlock *CodeGenFunction::EmitLandingPad() {
82629cafa66SDimitry Andric assert(EHStack.requiresLandingPad());
827cfca06d7SDimitry Andric assert(!CGM.getLangOpts().IgnoreExceptions &&
828cfca06d7SDimitry Andric "LandingPad should not be emitted when -fignore-exceptions are in "
829cfca06d7SDimitry Andric "effect.");
83036981b17SDimitry Andric EHScope &innermostEHScope = *EHStack.find(EHStack.getInnermostEHScope());
83136981b17SDimitry Andric switch (innermostEHScope.getKind()) {
83236981b17SDimitry Andric case EHScope::Terminate:
8334ba67500SRoman Divacky return getTerminateLandingPad();
8344ba67500SRoman Divacky
83536981b17SDimitry Andric case EHScope::Catch:
83636981b17SDimitry Andric case EHScope::Cleanup:
83736981b17SDimitry Andric case EHScope::Filter:
83836981b17SDimitry Andric if (llvm::BasicBlock *lpad = innermostEHScope.getCachedLandingPad())
83936981b17SDimitry Andric return lpad;
8404ba67500SRoman Divacky }
8414ba67500SRoman Divacky
8424ba67500SRoman Divacky // Save the current IR generation state.
84336981b17SDimitry Andric CGBuilderTy::InsertPoint savedIP = Builder.saveAndClearIP();
8445e20cdd8SDimitry Andric auto DL = ApplyDebugLocation::CreateDefaultArtificial(*this, CurEHLocation);
8454ba67500SRoman Divacky
8464ba67500SRoman Divacky // Create and configure the landing pad.
84736981b17SDimitry Andric llvm::BasicBlock *lpad = createBasicBlock("lpad");
84836981b17SDimitry Andric EmitBlock(lpad);
84936981b17SDimitry Andric
8502410013dSDimitry Andric llvm::LandingPadInst *LPadInst =
8512410013dSDimitry Andric Builder.CreateLandingPad(llvm::StructType::get(Int8PtrTy, Int32Ty), 0);
85236981b17SDimitry Andric
85336981b17SDimitry Andric llvm::Value *LPadExn = Builder.CreateExtractValue(LPadInst, 0);
85436981b17SDimitry Andric Builder.CreateStore(LPadExn, getExceptionSlot());
85536981b17SDimitry Andric llvm::Value *LPadSel = Builder.CreateExtractValue(LPadInst, 1);
85636981b17SDimitry Andric Builder.CreateStore(LPadSel, getEHSelectorSlot());
8574ba67500SRoman Divacky
8584ba67500SRoman Divacky // Save the exception pointer. It's safe to use a single exception
8594ba67500SRoman Divacky // pointer per function because EH cleanups can never have nested
8604ba67500SRoman Divacky // try/catches.
86136981b17SDimitry Andric // Build the landingpad instruction.
8624ba67500SRoman Divacky
8634ba67500SRoman Divacky // Accumulate all the handlers in scope.
86436981b17SDimitry Andric bool hasCatchAll = false;
86536981b17SDimitry Andric bool hasCleanup = false;
86636981b17SDimitry Andric bool hasFilter = false;
86736981b17SDimitry Andric SmallVector<llvm::Value*, 4> filterTypes;
86836981b17SDimitry Andric llvm::SmallPtrSet<llvm::Value*, 4> catchTypes;
8695e20cdd8SDimitry Andric for (EHScopeStack::iterator I = EHStack.begin(), E = EHStack.end(); I != E;
8705e20cdd8SDimitry Andric ++I) {
8714ba67500SRoman Divacky
8724ba67500SRoman Divacky switch (I->getKind()) {
8734ba67500SRoman Divacky case EHScope::Cleanup:
87436981b17SDimitry Andric // If we have a cleanup, remember that.
87536981b17SDimitry Andric hasCleanup = (hasCleanup || cast<EHCleanupScope>(*I).isEHCleanup());
8764ba67500SRoman Divacky continue;
8774ba67500SRoman Divacky
8784ba67500SRoman Divacky case EHScope::Filter: {
8794ba67500SRoman Divacky assert(I.next() == EHStack.end() && "EH filter is not end of EH stack");
88036981b17SDimitry Andric assert(!hasCatchAll && "EH filter reached after catch-all");
8814ba67500SRoman Divacky
88236981b17SDimitry Andric // Filter scopes get added to the landingpad in weird ways.
88336981b17SDimitry Andric EHFilterScope &filter = cast<EHFilterScope>(*I);
88436981b17SDimitry Andric hasFilter = true;
8854ba67500SRoman Divacky
88636981b17SDimitry Andric // Add all the filter values.
88736981b17SDimitry Andric for (unsigned i = 0, e = filter.getNumFilters(); i != e; ++i)
88836981b17SDimitry Andric filterTypes.push_back(filter.getFilter(i));
8894ba67500SRoman Divacky goto done;
8904ba67500SRoman Divacky }
8914ba67500SRoman Divacky
8924ba67500SRoman Divacky case EHScope::Terminate:
8934ba67500SRoman Divacky // Terminate scopes are basically catch-alls.
89436981b17SDimitry Andric assert(!hasCatchAll);
89536981b17SDimitry Andric hasCatchAll = true;
8964ba67500SRoman Divacky goto done;
8974ba67500SRoman Divacky
8984ba67500SRoman Divacky case EHScope::Catch:
8994ba67500SRoman Divacky break;
9004ba67500SRoman Divacky }
9014ba67500SRoman Divacky
90236981b17SDimitry Andric EHCatchScope &catchScope = cast<EHCatchScope>(*I);
90336981b17SDimitry Andric for (unsigned hi = 0, he = catchScope.getNumHandlers(); hi != he; ++hi) {
90436981b17SDimitry Andric EHCatchScope::Handler handler = catchScope.getHandler(hi);
90545b53394SDimitry Andric assert(handler.Type.Flags == 0 &&
90645b53394SDimitry Andric "landingpads do not support catch handler flags");
9074ba67500SRoman Divacky
90836981b17SDimitry Andric // If this is a catch-all, register that and abort.
90945b53394SDimitry Andric if (!handler.Type.RTTI) {
91036981b17SDimitry Andric assert(!hasCatchAll);
91136981b17SDimitry Andric hasCatchAll = true;
91236981b17SDimitry Andric goto done;
9134ba67500SRoman Divacky }
9144ba67500SRoman Divacky
9154ba67500SRoman Divacky // Check whether we already have a handler for this type.
91645b53394SDimitry Andric if (catchTypes.insert(handler.Type.RTTI).second)
91736981b17SDimitry Andric // If not, add it directly to the landingpad.
91845b53394SDimitry Andric LPadInst->addClause(handler.Type.RTTI);
9194ba67500SRoman Divacky }
9204ba67500SRoman Divacky }
9214ba67500SRoman Divacky
9224ba67500SRoman Divacky done:
92336981b17SDimitry Andric // If we have a catch-all, add null to the landingpad.
92436981b17SDimitry Andric assert(!(hasCatchAll && hasFilter));
92536981b17SDimitry Andric if (hasCatchAll) {
92636981b17SDimitry Andric LPadInst->addClause(getCatchAllValue(*this));
9274ba67500SRoman Divacky
9284ba67500SRoman Divacky // If we have an EH filter, we need to add those handlers in the
92936981b17SDimitry Andric // right place in the landingpad, which is to say, at the end.
93036981b17SDimitry Andric } else if (hasFilter) {
93136981b17SDimitry Andric // Create a filter expression: a constant array indicating which filter
93236981b17SDimitry Andric // types there are. The personality routine only lands here if the filter
93336981b17SDimitry Andric // doesn't match.
934809500fcSDimitry Andric SmallVector<llvm::Constant*, 8> Filters;
93536981b17SDimitry Andric llvm::ArrayType *AType =
93636981b17SDimitry Andric llvm::ArrayType::get(!filterTypes.empty() ?
93736981b17SDimitry Andric filterTypes[0]->getType() : Int8PtrTy,
93836981b17SDimitry Andric filterTypes.size());
93936981b17SDimitry Andric
94036981b17SDimitry Andric for (unsigned i = 0, e = filterTypes.size(); i != e; ++i)
94136981b17SDimitry Andric Filters.push_back(cast<llvm::Constant>(filterTypes[i]));
94236981b17SDimitry Andric llvm::Constant *FilterArray = llvm::ConstantArray::get(AType, Filters);
94336981b17SDimitry Andric LPadInst->addClause(FilterArray);
9444ba67500SRoman Divacky
9454ba67500SRoman Divacky // Also check whether we need a cleanup.
94636981b17SDimitry Andric if (hasCleanup)
94736981b17SDimitry Andric LPadInst->setCleanup(true);
9484ba67500SRoman Divacky
9494ba67500SRoman Divacky // Otherwise, signal that we at least have cleanups.
9509f4dbff6SDimitry Andric } else if (hasCleanup) {
95136981b17SDimitry Andric LPadInst->setCleanup(true);
9524ba67500SRoman Divacky }
9534ba67500SRoman Divacky
95436981b17SDimitry Andric assert((LPadInst->getNumClauses() > 0 || LPadInst->isCleanup()) &&
95536981b17SDimitry Andric "landingpad instruction has no clauses!");
9564ba67500SRoman Divacky
9574ba67500SRoman Divacky // Tell the backend how to generate the landing pad.
95836981b17SDimitry Andric Builder.CreateBr(getEHDispatchBlock(EHStack.getInnermostEHScope()));
9594ba67500SRoman Divacky
9604ba67500SRoman Divacky // Restore the old IR generation state.
96136981b17SDimitry Andric Builder.restoreIP(savedIP);
9624ba67500SRoman Divacky
96336981b17SDimitry Andric return lpad;
9644ba67500SRoman Divacky }
9654ba67500SRoman Divacky
emitCatchPadBlock(CodeGenFunction & CGF,EHCatchScope & CatchScope)96645b53394SDimitry Andric static void emitCatchPadBlock(CodeGenFunction &CGF, EHCatchScope &CatchScope) {
96745b53394SDimitry Andric llvm::BasicBlock *DispatchBlock = CatchScope.getCachedEHDispatchBlock();
96845b53394SDimitry Andric assert(DispatchBlock);
96945b53394SDimitry Andric
97045b53394SDimitry Andric CGBuilderTy::InsertPoint SavedIP = CGF.Builder.saveIP();
97145b53394SDimitry Andric CGF.EmitBlockAfterUses(DispatchBlock);
97245b53394SDimitry Andric
97345b53394SDimitry Andric llvm::Value *ParentPad = CGF.CurrentFuncletPad;
97445b53394SDimitry Andric if (!ParentPad)
97545b53394SDimitry Andric ParentPad = llvm::ConstantTokenNone::get(CGF.getLLVMContext());
97645b53394SDimitry Andric llvm::BasicBlock *UnwindBB =
97745b53394SDimitry Andric CGF.getEHDispatchBlock(CatchScope.getEnclosingEHScope());
97845b53394SDimitry Andric
97945b53394SDimitry Andric unsigned NumHandlers = CatchScope.getNumHandlers();
98045b53394SDimitry Andric llvm::CatchSwitchInst *CatchSwitch =
98145b53394SDimitry Andric CGF.Builder.CreateCatchSwitch(ParentPad, UnwindBB, NumHandlers);
98245b53394SDimitry Andric
98345b53394SDimitry Andric // Test against each of the exception types we claim to catch.
98445b53394SDimitry Andric for (unsigned I = 0; I < NumHandlers; ++I) {
98545b53394SDimitry Andric const EHCatchScope::Handler &Handler = CatchScope.getHandler(I);
98645b53394SDimitry Andric
98745b53394SDimitry Andric CatchTypeInfo TypeInfo = Handler.Type;
98845b53394SDimitry Andric if (!TypeInfo.RTTI)
98945b53394SDimitry Andric TypeInfo.RTTI = llvm::Constant::getNullValue(CGF.VoidPtrTy);
99045b53394SDimitry Andric
99145b53394SDimitry Andric CGF.Builder.SetInsertPoint(Handler.Block);
99245b53394SDimitry Andric
99345b53394SDimitry Andric if (EHPersonality::get(CGF).isMSVCXXPersonality()) {
99445b53394SDimitry Andric CGF.Builder.CreateCatchPad(
99545b53394SDimitry Andric CatchSwitch, {TypeInfo.RTTI, CGF.Builder.getInt32(TypeInfo.Flags),
99645b53394SDimitry Andric llvm::Constant::getNullValue(CGF.VoidPtrTy)});
99745b53394SDimitry Andric } else {
99845b53394SDimitry Andric CGF.Builder.CreateCatchPad(CatchSwitch, {TypeInfo.RTTI});
99945b53394SDimitry Andric }
100045b53394SDimitry Andric
100145b53394SDimitry Andric CatchSwitch->addHandler(Handler.Block);
100245b53394SDimitry Andric }
100345b53394SDimitry Andric CGF.Builder.restoreIP(SavedIP);
100445b53394SDimitry Andric }
100545b53394SDimitry Andric
100648675466SDimitry Andric // Wasm uses Windows-style EH instructions, but it merges all catch clauses into
100748675466SDimitry Andric // one big catchpad, within which we use Itanium's landingpad-style selector
100848675466SDimitry Andric // comparison instructions.
emitWasmCatchPadBlock(CodeGenFunction & CGF,EHCatchScope & CatchScope)100948675466SDimitry Andric static void emitWasmCatchPadBlock(CodeGenFunction &CGF,
101048675466SDimitry Andric EHCatchScope &CatchScope) {
101148675466SDimitry Andric llvm::BasicBlock *DispatchBlock = CatchScope.getCachedEHDispatchBlock();
101248675466SDimitry Andric assert(DispatchBlock);
101348675466SDimitry Andric
101448675466SDimitry Andric CGBuilderTy::InsertPoint SavedIP = CGF.Builder.saveIP();
101548675466SDimitry Andric CGF.EmitBlockAfterUses(DispatchBlock);
101648675466SDimitry Andric
101748675466SDimitry Andric llvm::Value *ParentPad = CGF.CurrentFuncletPad;
101848675466SDimitry Andric if (!ParentPad)
101948675466SDimitry Andric ParentPad = llvm::ConstantTokenNone::get(CGF.getLLVMContext());
102048675466SDimitry Andric llvm::BasicBlock *UnwindBB =
102148675466SDimitry Andric CGF.getEHDispatchBlock(CatchScope.getEnclosingEHScope());
102248675466SDimitry Andric
102348675466SDimitry Andric unsigned NumHandlers = CatchScope.getNumHandlers();
102448675466SDimitry Andric llvm::CatchSwitchInst *CatchSwitch =
102548675466SDimitry Andric CGF.Builder.CreateCatchSwitch(ParentPad, UnwindBB, NumHandlers);
102648675466SDimitry Andric
102748675466SDimitry Andric // We don't use a landingpad instruction, so generate intrinsic calls to
102848675466SDimitry Andric // provide exception and selector values.
102948675466SDimitry Andric llvm::BasicBlock *WasmCatchStartBlock = CGF.createBasicBlock("catch.start");
103048675466SDimitry Andric CatchSwitch->addHandler(WasmCatchStartBlock);
103148675466SDimitry Andric CGF.EmitBlockAfterUses(WasmCatchStartBlock);
103248675466SDimitry Andric
103348675466SDimitry Andric // Create a catchpad instruction.
103448675466SDimitry Andric SmallVector<llvm::Value *, 4> CatchTypes;
103548675466SDimitry Andric for (unsigned I = 0, E = NumHandlers; I < E; ++I) {
103648675466SDimitry Andric const EHCatchScope::Handler &Handler = CatchScope.getHandler(I);
103748675466SDimitry Andric CatchTypeInfo TypeInfo = Handler.Type;
103848675466SDimitry Andric if (!TypeInfo.RTTI)
103948675466SDimitry Andric TypeInfo.RTTI = llvm::Constant::getNullValue(CGF.VoidPtrTy);
104048675466SDimitry Andric CatchTypes.push_back(TypeInfo.RTTI);
104148675466SDimitry Andric }
104248675466SDimitry Andric auto *CPI = CGF.Builder.CreateCatchPad(CatchSwitch, CatchTypes);
104348675466SDimitry Andric
104448675466SDimitry Andric // Create calls to wasm.get.exception and wasm.get.ehselector intrinsics.
104548675466SDimitry Andric // Before they are lowered appropriately later, they provide values for the
104648675466SDimitry Andric // exception and selector.
104722989816SDimitry Andric llvm::Function *GetExnFn =
104848675466SDimitry Andric CGF.CGM.getIntrinsic(llvm::Intrinsic::wasm_get_exception);
104922989816SDimitry Andric llvm::Function *GetSelectorFn =
105048675466SDimitry Andric CGF.CGM.getIntrinsic(llvm::Intrinsic::wasm_get_ehselector);
105148675466SDimitry Andric llvm::CallInst *Exn = CGF.Builder.CreateCall(GetExnFn, CPI);
105248675466SDimitry Andric CGF.Builder.CreateStore(Exn, CGF.getExceptionSlot());
105348675466SDimitry Andric llvm::CallInst *Selector = CGF.Builder.CreateCall(GetSelectorFn, CPI);
105448675466SDimitry Andric
1055ac9a064cSDimitry Andric llvm::Function *TypeIDFn =
1056ac9a064cSDimitry Andric CGF.CGM.getIntrinsic(llvm::Intrinsic::eh_typeid_for, {CGF.VoidPtrTy});
105748675466SDimitry Andric
105848675466SDimitry Andric // If there's only a single catch-all, branch directly to its handler.
105948675466SDimitry Andric if (CatchScope.getNumHandlers() == 1 &&
106048675466SDimitry Andric CatchScope.getHandler(0).isCatchAll()) {
106148675466SDimitry Andric CGF.Builder.CreateBr(CatchScope.getHandler(0).Block);
106248675466SDimitry Andric CGF.Builder.restoreIP(SavedIP);
106348675466SDimitry Andric return;
106448675466SDimitry Andric }
106548675466SDimitry Andric
106648675466SDimitry Andric // Test against each of the exception types we claim to catch.
106748675466SDimitry Andric for (unsigned I = 0, E = NumHandlers;; ++I) {
106848675466SDimitry Andric assert(I < E && "ran off end of handlers!");
106948675466SDimitry Andric const EHCatchScope::Handler &Handler = CatchScope.getHandler(I);
107048675466SDimitry Andric CatchTypeInfo TypeInfo = Handler.Type;
107148675466SDimitry Andric if (!TypeInfo.RTTI)
107248675466SDimitry Andric TypeInfo.RTTI = llvm::Constant::getNullValue(CGF.VoidPtrTy);
107348675466SDimitry Andric
107448675466SDimitry Andric // Figure out the next block.
107548675466SDimitry Andric llvm::BasicBlock *NextBlock;
107648675466SDimitry Andric
107748675466SDimitry Andric bool EmitNextBlock = false, NextIsEnd = false;
107848675466SDimitry Andric
107948675466SDimitry Andric // If this is the last handler, we're at the end, and the next block is a
108048675466SDimitry Andric // block that contains a call to the rethrow function, so we can unwind to
108148675466SDimitry Andric // the enclosing EH scope. The call itself will be generated later.
108248675466SDimitry Andric if (I + 1 == E) {
108348675466SDimitry Andric NextBlock = CGF.createBasicBlock("rethrow");
108448675466SDimitry Andric EmitNextBlock = true;
108548675466SDimitry Andric NextIsEnd = true;
108648675466SDimitry Andric
108748675466SDimitry Andric // If the next handler is a catch-all, we're at the end, and the
108848675466SDimitry Andric // next block is that handler.
108948675466SDimitry Andric } else if (CatchScope.getHandler(I + 1).isCatchAll()) {
109048675466SDimitry Andric NextBlock = CatchScope.getHandler(I + 1).Block;
109148675466SDimitry Andric NextIsEnd = true;
109248675466SDimitry Andric
109348675466SDimitry Andric // Otherwise, we're not at the end and we need a new block.
109448675466SDimitry Andric } else {
109548675466SDimitry Andric NextBlock = CGF.createBasicBlock("catch.fallthrough");
109648675466SDimitry Andric EmitNextBlock = true;
109748675466SDimitry Andric }
109848675466SDimitry Andric
109948675466SDimitry Andric // Figure out the catch type's index in the LSDA's type table.
110048675466SDimitry Andric llvm::CallInst *TypeIndex = CGF.Builder.CreateCall(TypeIDFn, TypeInfo.RTTI);
110148675466SDimitry Andric TypeIndex->setDoesNotThrow();
110248675466SDimitry Andric
110348675466SDimitry Andric llvm::Value *MatchesTypeIndex =
110448675466SDimitry Andric CGF.Builder.CreateICmpEQ(Selector, TypeIndex, "matches");
110548675466SDimitry Andric CGF.Builder.CreateCondBr(MatchesTypeIndex, Handler.Block, NextBlock);
110648675466SDimitry Andric
110748675466SDimitry Andric if (EmitNextBlock)
110848675466SDimitry Andric CGF.EmitBlock(NextBlock);
110948675466SDimitry Andric if (NextIsEnd)
111048675466SDimitry Andric break;
111148675466SDimitry Andric }
111248675466SDimitry Andric
111348675466SDimitry Andric CGF.Builder.restoreIP(SavedIP);
111448675466SDimitry Andric }
111548675466SDimitry Andric
111636981b17SDimitry Andric /// Emit the structure of the dispatch block for the given catch scope.
111736981b17SDimitry Andric /// It is an invariant that the dispatch block already exists.
emitCatchDispatchBlock(CodeGenFunction & CGF,EHCatchScope & catchScope)111836981b17SDimitry Andric static void emitCatchDispatchBlock(CodeGenFunction &CGF,
111936981b17SDimitry Andric EHCatchScope &catchScope) {
112048675466SDimitry Andric if (EHPersonality::get(CGF).isWasmPersonality())
112148675466SDimitry Andric return emitWasmCatchPadBlock(CGF, catchScope);
112245b53394SDimitry Andric if (EHPersonality::get(CGF).usesFuncletPads())
112345b53394SDimitry Andric return emitCatchPadBlock(CGF, catchScope);
112445b53394SDimitry Andric
112536981b17SDimitry Andric llvm::BasicBlock *dispatchBlock = catchScope.getCachedEHDispatchBlock();
112636981b17SDimitry Andric assert(dispatchBlock);
112736981b17SDimitry Andric
112836981b17SDimitry Andric // If there's only a single catch-all, getEHDispatchBlock returned
112936981b17SDimitry Andric // that catch-all as the dispatch block.
113036981b17SDimitry Andric if (catchScope.getNumHandlers() == 1 &&
113136981b17SDimitry Andric catchScope.getHandler(0).isCatchAll()) {
113236981b17SDimitry Andric assert(dispatchBlock == catchScope.getHandler(0).Block);
113336981b17SDimitry Andric return;
113436981b17SDimitry Andric }
113536981b17SDimitry Andric
113636981b17SDimitry Andric CGBuilderTy::InsertPoint savedIP = CGF.Builder.saveIP();
113736981b17SDimitry Andric CGF.EmitBlockAfterUses(dispatchBlock);
113836981b17SDimitry Andric
113936981b17SDimitry Andric // Select the right handler.
114022989816SDimitry Andric llvm::Function *llvm_eh_typeid_for =
1141ac9a064cSDimitry Andric CGF.CGM.getIntrinsic(llvm::Intrinsic::eh_typeid_for, {CGF.VoidPtrTy});
1142b1c73532SDimitry Andric llvm::Type *argTy = llvm_eh_typeid_for->getArg(0)->getType();
1143b1c73532SDimitry Andric LangAS globAS = CGF.CGM.GetGlobalVarAddressSpace(nullptr);
114436981b17SDimitry Andric
114536981b17SDimitry Andric // Load the selector value.
114636981b17SDimitry Andric llvm::Value *selector = CGF.getSelectorFromSlot();
114736981b17SDimitry Andric
114836981b17SDimitry Andric // Test against each of the exception types we claim to catch.
114936981b17SDimitry Andric for (unsigned i = 0, e = catchScope.getNumHandlers(); ; ++i) {
115036981b17SDimitry Andric assert(i < e && "ran off end of handlers!");
115136981b17SDimitry Andric const EHCatchScope::Handler &handler = catchScope.getHandler(i);
115236981b17SDimitry Andric
115345b53394SDimitry Andric llvm::Value *typeValue = handler.Type.RTTI;
115445b53394SDimitry Andric assert(handler.Type.Flags == 0 &&
115545b53394SDimitry Andric "landingpads do not support catch handler flags");
115636981b17SDimitry Andric assert(typeValue && "fell into catch-all case!");
1157b1c73532SDimitry Andric // With opaque ptrs, only the address space can be a mismatch.
1158b1c73532SDimitry Andric if (typeValue->getType() != argTy)
1159b1c73532SDimitry Andric typeValue =
1160b1c73532SDimitry Andric CGF.getTargetHooks().performAddrSpaceCast(CGF, typeValue, globAS,
1161b1c73532SDimitry Andric LangAS::Default, argTy);
116236981b17SDimitry Andric
116336981b17SDimitry Andric // Figure out the next block.
116436981b17SDimitry Andric bool nextIsEnd;
116536981b17SDimitry Andric llvm::BasicBlock *nextBlock;
116636981b17SDimitry Andric
116736981b17SDimitry Andric // If this is the last handler, we're at the end, and the next
116836981b17SDimitry Andric // block is the block for the enclosing EH scope.
116936981b17SDimitry Andric if (i + 1 == e) {
117036981b17SDimitry Andric nextBlock = CGF.getEHDispatchBlock(catchScope.getEnclosingEHScope());
117136981b17SDimitry Andric nextIsEnd = true;
117236981b17SDimitry Andric
117336981b17SDimitry Andric // If the next handler is a catch-all, we're at the end, and the
117436981b17SDimitry Andric // next block is that handler.
117536981b17SDimitry Andric } else if (catchScope.getHandler(i+1).isCatchAll()) {
117636981b17SDimitry Andric nextBlock = catchScope.getHandler(i+1).Block;
117736981b17SDimitry Andric nextIsEnd = true;
117836981b17SDimitry Andric
117936981b17SDimitry Andric // Otherwise, we're not at the end and we need a new block.
118036981b17SDimitry Andric } else {
118136981b17SDimitry Andric nextBlock = CGF.createBasicBlock("catch.fallthrough");
118236981b17SDimitry Andric nextIsEnd = false;
118336981b17SDimitry Andric }
118436981b17SDimitry Andric
118536981b17SDimitry Andric // Figure out the catch type's index in the LSDA's type table.
118636981b17SDimitry Andric llvm::CallInst *typeIndex =
118736981b17SDimitry Andric CGF.Builder.CreateCall(llvm_eh_typeid_for, typeValue);
118836981b17SDimitry Andric typeIndex->setDoesNotThrow();
118936981b17SDimitry Andric
119036981b17SDimitry Andric llvm::Value *matchesTypeIndex =
119136981b17SDimitry Andric CGF.Builder.CreateICmpEQ(selector, typeIndex, "matches");
119236981b17SDimitry Andric CGF.Builder.CreateCondBr(matchesTypeIndex, handler.Block, nextBlock);
119336981b17SDimitry Andric
119436981b17SDimitry Andric // If the next handler is a catch-all, we're completely done.
119536981b17SDimitry Andric if (nextIsEnd) {
119636981b17SDimitry Andric CGF.Builder.restoreIP(savedIP);
119736981b17SDimitry Andric return;
1198dbe13110SDimitry Andric }
119936981b17SDimitry Andric // Otherwise we need to emit and continue at that block.
120036981b17SDimitry Andric CGF.EmitBlock(nextBlock);
120136981b17SDimitry Andric }
120236981b17SDimitry Andric }
120336981b17SDimitry Andric
popCatchScope()120436981b17SDimitry Andric void CodeGenFunction::popCatchScope() {
120536981b17SDimitry Andric EHCatchScope &catchScope = cast<EHCatchScope>(*EHStack.begin());
120636981b17SDimitry Andric if (catchScope.hasEHBranches())
120736981b17SDimitry Andric emitCatchDispatchBlock(*this, catchScope);
120836981b17SDimitry Andric EHStack.popCatch();
120936981b17SDimitry Andric }
121036981b17SDimitry Andric
ExitCXXTryStmt(const CXXTryStmt & S,bool IsFnTryBlock)12114ba67500SRoman Divacky void CodeGenFunction::ExitCXXTryStmt(const CXXTryStmt &S, bool IsFnTryBlock) {
12124ba67500SRoman Divacky unsigned NumHandlers = S.getNumHandlers();
12134ba67500SRoman Divacky EHCatchScope &CatchScope = cast<EHCatchScope>(*EHStack.begin());
12144ba67500SRoman Divacky assert(CatchScope.getNumHandlers() == NumHandlers);
121548675466SDimitry Andric llvm::BasicBlock *DispatchBlock = CatchScope.getCachedEHDispatchBlock();
12164ba67500SRoman Divacky
121736981b17SDimitry Andric // If the catch was not required, bail out now.
121836981b17SDimitry Andric if (!CatchScope.hasEHBranches()) {
12199f4dbff6SDimitry Andric CatchScope.clearHandlerBlocks();
122036981b17SDimitry Andric EHStack.popCatch();
122136981b17SDimitry Andric return;
122236981b17SDimitry Andric }
122336981b17SDimitry Andric
122436981b17SDimitry Andric // Emit the structure of the EH dispatch for this catch.
122536981b17SDimitry Andric emitCatchDispatchBlock(*this, CatchScope);
122636981b17SDimitry Andric
12274ba67500SRoman Divacky // Copy the handler blocks off before we pop the EH stack. Emitting
12284ba67500SRoman Divacky // the handlers might scribble on this memory.
122945b53394SDimitry Andric SmallVector<EHCatchScope::Handler, 8> Handlers(
123045b53394SDimitry Andric CatchScope.begin(), CatchScope.begin() + NumHandlers);
123136981b17SDimitry Andric
12324ba67500SRoman Divacky EHStack.popCatch();
12334ba67500SRoman Divacky
12344ba67500SRoman Divacky // The fall-through block.
12354ba67500SRoman Divacky llvm::BasicBlock *ContBB = createBasicBlock("try.cont");
12364ba67500SRoman Divacky
12374ba67500SRoman Divacky // We just emitted the body of the try; jump to the continue block.
12384ba67500SRoman Divacky if (HaveInsertPoint())
12394ba67500SRoman Divacky Builder.CreateBr(ContBB);
12404ba67500SRoman Divacky
124156d91b49SDimitry Andric // Determine if we need an implicit rethrow for all these catch handlers;
124256d91b49SDimitry Andric // see the comment below.
124356d91b49SDimitry Andric bool doImplicitRethrow = false;
12444ba67500SRoman Divacky if (IsFnTryBlock)
124556d91b49SDimitry Andric doImplicitRethrow = isa<CXXDestructorDecl>(CurCodeDecl) ||
12464ba67500SRoman Divacky isa<CXXConstructorDecl>(CurCodeDecl);
12474ba67500SRoman Divacky
124848675466SDimitry Andric // Wasm uses Windows-style EH instructions, but merges all catch clauses into
124948675466SDimitry Andric // one big catchpad. So we save the old funclet pad here before we traverse
125048675466SDimitry Andric // each catch handler.
1251e3b55780SDimitry Andric SaveAndRestore RestoreCurrentFuncletPad(CurrentFuncletPad);
125248675466SDimitry Andric llvm::BasicBlock *WasmCatchStartBlock = nullptr;
125348675466SDimitry Andric if (EHPersonality::get(*this).isWasmPersonality()) {
125448675466SDimitry Andric auto *CatchSwitch =
125548675466SDimitry Andric cast<llvm::CatchSwitchInst>(DispatchBlock->getFirstNonPHI());
125648675466SDimitry Andric WasmCatchStartBlock = CatchSwitch->hasUnwindDest()
125748675466SDimitry Andric ? CatchSwitch->getSuccessor(1)
125848675466SDimitry Andric : CatchSwitch->getSuccessor(0);
125948675466SDimitry Andric auto *CPI = cast<llvm::CatchPadInst>(WasmCatchStartBlock->getFirstNonPHI());
126048675466SDimitry Andric CurrentFuncletPad = CPI;
126148675466SDimitry Andric }
126248675466SDimitry Andric
126336981b17SDimitry Andric // Perversely, we emit the handlers backwards precisely because we
126436981b17SDimitry Andric // want them to appear in source order. In all of these cases, the
126536981b17SDimitry Andric // catch block will have exactly one predecessor, which will be a
126636981b17SDimitry Andric // particular block in the catch dispatch. However, in the case of
126736981b17SDimitry Andric // a catch-all, one of the dispatch blocks will branch to two
126836981b17SDimitry Andric // different handlers, and EmitBlockAfterUses will cause the second
126936981b17SDimitry Andric // handler to be moved before the first.
127048675466SDimitry Andric bool HasCatchAll = false;
127136981b17SDimitry Andric for (unsigned I = NumHandlers; I != 0; --I) {
127248675466SDimitry Andric HasCatchAll |= Handlers[I - 1].isCatchAll();
127336981b17SDimitry Andric llvm::BasicBlock *CatchBlock = Handlers[I-1].Block;
127436981b17SDimitry Andric EmitBlockAfterUses(CatchBlock);
12754ba67500SRoman Divacky
12764ba67500SRoman Divacky // Catch the exception if this isn't a catch-all.
127736981b17SDimitry Andric const CXXCatchStmt *C = S.getHandler(I-1);
12784ba67500SRoman Divacky
12794ba67500SRoman Divacky // Enter a cleanup scope, including the catch variable and the
12804ba67500SRoman Divacky // end-catch.
12814ba67500SRoman Divacky RunCleanupsScope CatchScope(*this);
12824ba67500SRoman Divacky
12834ba67500SRoman Divacky // Initialize the catch variable and set up the cleanups.
1284e3b55780SDimitry Andric SaveAndRestore RestoreCurrentFuncletPad(CurrentFuncletPad);
12855e20cdd8SDimitry Andric CGM.getCXXABI().emitBeginCatch(*this, C);
12864ba67500SRoman Divacky
12879f4dbff6SDimitry Andric // Emit the PGO counter increment.
12885e20cdd8SDimitry Andric incrementProfileCounter(C);
12899f4dbff6SDimitry Andric
12904ba67500SRoman Divacky // Perform the body of the catch.
12914ba67500SRoman Divacky EmitStmt(C->getHandlerBlock());
12924ba67500SRoman Divacky
129356d91b49SDimitry Andric // [except.handle]p11:
129456d91b49SDimitry Andric // The currently handled exception is rethrown if control
129556d91b49SDimitry Andric // reaches the end of a handler of the function-try-block of a
129656d91b49SDimitry Andric // constructor or destructor.
129756d91b49SDimitry Andric
129856d91b49SDimitry Andric // It is important that we only do this on fallthrough and not on
129956d91b49SDimitry Andric // return. Note that it's illegal to put a return in a
130056d91b49SDimitry Andric // constructor function-try-block's catch handler (p14), so this
130156d91b49SDimitry Andric // really only applies to destructors.
130256d91b49SDimitry Andric if (doImplicitRethrow && HaveInsertPoint()) {
130306d4ba38SDimitry Andric CGM.getCXXABI().emitRethrow(*this, /*isNoReturn*/false);
130456d91b49SDimitry Andric Builder.CreateUnreachable();
130556d91b49SDimitry Andric Builder.ClearInsertionPoint();
130656d91b49SDimitry Andric }
130756d91b49SDimitry Andric
13084ba67500SRoman Divacky // Fall out through the catch cleanups.
13094ba67500SRoman Divacky CatchScope.ForceCleanup();
13104ba67500SRoman Divacky
13114ba67500SRoman Divacky // Branch out of the try.
13124ba67500SRoman Divacky if (HaveInsertPoint())
13134ba67500SRoman Divacky Builder.CreateBr(ContBB);
13144ba67500SRoman Divacky }
13154ba67500SRoman Divacky
131648675466SDimitry Andric // Because in wasm we merge all catch clauses into one big catchpad, in case
131748675466SDimitry Andric // none of the types in catch handlers matches after we test against each of
131848675466SDimitry Andric // them, we should unwind to the next EH enclosing scope. We generate a call
131948675466SDimitry Andric // to rethrow function here to do that.
132048675466SDimitry Andric if (EHPersonality::get(*this).isWasmPersonality() && !HasCatchAll) {
132148675466SDimitry Andric assert(WasmCatchStartBlock);
132248675466SDimitry Andric // Navigate for the "rethrow" block we created in emitWasmCatchPadBlock().
132348675466SDimitry Andric // Wasm uses landingpad-style conditional branches to compare selectors, so
132448675466SDimitry Andric // we follow the false destination for each of the cond branches to reach
132548675466SDimitry Andric // the rethrow block.
132648675466SDimitry Andric llvm::BasicBlock *RethrowBlock = WasmCatchStartBlock;
1327676fbe81SDimitry Andric while (llvm::Instruction *TI = RethrowBlock->getTerminator()) {
132848675466SDimitry Andric auto *BI = cast<llvm::BranchInst>(TI);
132948675466SDimitry Andric assert(BI->isConditional());
133048675466SDimitry Andric RethrowBlock = BI->getSuccessor(1);
133148675466SDimitry Andric }
133248675466SDimitry Andric assert(RethrowBlock != WasmCatchStartBlock && RethrowBlock->empty());
133348675466SDimitry Andric Builder.SetInsertPoint(RethrowBlock);
133422989816SDimitry Andric llvm::Function *RethrowInCatchFn =
1335b60736ecSDimitry Andric CGM.getIntrinsic(llvm::Intrinsic::wasm_rethrow);
133622989816SDimitry Andric EmitNoreturnRuntimeCallOrInvoke(RethrowInCatchFn, {});
133748675466SDimitry Andric }
133848675466SDimitry Andric
13394ba67500SRoman Divacky EmitBlock(ContBB);
13405e20cdd8SDimitry Andric incrementProfileCounter(&S);
13414ba67500SRoman Divacky }
13424ba67500SRoman Divacky
13433d1dcd9bSDimitry Andric namespace {
134445b53394SDimitry Andric struct CallEndCatchForFinally final : EHScopeStack::Cleanup {
13453d1dcd9bSDimitry Andric llvm::Value *ForEHVar;
134622989816SDimitry Andric llvm::FunctionCallee EndCatchFn;
CallEndCatchForFinally__anon0b616fac0211::CallEndCatchForFinally134722989816SDimitry Andric CallEndCatchForFinally(llvm::Value *ForEHVar,
134822989816SDimitry Andric llvm::FunctionCallee EndCatchFn)
13493d1dcd9bSDimitry Andric : ForEHVar(ForEHVar), EndCatchFn(EndCatchFn) {}
13503d1dcd9bSDimitry Andric
Emit__anon0b616fac0211::CallEndCatchForFinally13519f4dbff6SDimitry Andric void Emit(CodeGenFunction &CGF, Flags flags) override {
13523d1dcd9bSDimitry Andric llvm::BasicBlock *EndCatchBB = CGF.createBasicBlock("finally.endcatch");
13533d1dcd9bSDimitry Andric llvm::BasicBlock *CleanupContBB =
13543d1dcd9bSDimitry Andric CGF.createBasicBlock("finally.cleanup.cont");
13553d1dcd9bSDimitry Andric
13563d1dcd9bSDimitry Andric llvm::Value *ShouldEndCatch =
135745b53394SDimitry Andric CGF.Builder.CreateFlagLoad(ForEHVar, "finally.endcatch");
13583d1dcd9bSDimitry Andric CGF.Builder.CreateCondBr(ShouldEndCatch, EndCatchBB, CleanupContBB);
13593d1dcd9bSDimitry Andric CGF.EmitBlock(EndCatchBB);
1360809500fcSDimitry Andric CGF.EmitRuntimeCallOrInvoke(EndCatchFn); // catch-all, so might throw
13613d1dcd9bSDimitry Andric CGF.EmitBlock(CleanupContBB);
13623d1dcd9bSDimitry Andric }
13633d1dcd9bSDimitry Andric };
13643d1dcd9bSDimitry Andric
136545b53394SDimitry Andric struct PerformFinally final : EHScopeStack::Cleanup {
13663d1dcd9bSDimitry Andric const Stmt *Body;
13673d1dcd9bSDimitry Andric llvm::Value *ForEHVar;
136822989816SDimitry Andric llvm::FunctionCallee EndCatchFn;
136922989816SDimitry Andric llvm::FunctionCallee RethrowFn;
13703d1dcd9bSDimitry Andric llvm::Value *SavedExnVar;
13713d1dcd9bSDimitry Andric
PerformFinally__anon0b616fac0211::PerformFinally13723d1dcd9bSDimitry Andric PerformFinally(const Stmt *Body, llvm::Value *ForEHVar,
137322989816SDimitry Andric llvm::FunctionCallee EndCatchFn,
137422989816SDimitry Andric llvm::FunctionCallee RethrowFn, llvm::Value *SavedExnVar)
13753d1dcd9bSDimitry Andric : Body(Body), ForEHVar(ForEHVar), EndCatchFn(EndCatchFn),
13763d1dcd9bSDimitry Andric RethrowFn(RethrowFn), SavedExnVar(SavedExnVar) {}
13773d1dcd9bSDimitry Andric
Emit__anon0b616fac0211::PerformFinally13789f4dbff6SDimitry Andric void Emit(CodeGenFunction &CGF, Flags flags) override {
13793d1dcd9bSDimitry Andric // Enter a cleanup to call the end-catch function if one was provided.
13803d1dcd9bSDimitry Andric if (EndCatchFn)
13813d1dcd9bSDimitry Andric CGF.EHStack.pushCleanup<CallEndCatchForFinally>(NormalAndEHCleanup,
13823d1dcd9bSDimitry Andric ForEHVar, EndCatchFn);
13833d1dcd9bSDimitry Andric
13843d1dcd9bSDimitry Andric // Save the current cleanup destination in case there are
13853d1dcd9bSDimitry Andric // cleanups in the finally block.
13863d1dcd9bSDimitry Andric llvm::Value *SavedCleanupDest =
13873d1dcd9bSDimitry Andric CGF.Builder.CreateLoad(CGF.getNormalCleanupDestSlot(),
13883d1dcd9bSDimitry Andric "cleanup.dest.saved");
13893d1dcd9bSDimitry Andric
13903d1dcd9bSDimitry Andric // Emit the finally block.
13913d1dcd9bSDimitry Andric CGF.EmitStmt(Body);
13923d1dcd9bSDimitry Andric
13933d1dcd9bSDimitry Andric // If the end of the finally is reachable, check whether this was
13943d1dcd9bSDimitry Andric // for EH. If so, rethrow.
13953d1dcd9bSDimitry Andric if (CGF.HaveInsertPoint()) {
13963d1dcd9bSDimitry Andric llvm::BasicBlock *RethrowBB = CGF.createBasicBlock("finally.rethrow");
13973d1dcd9bSDimitry Andric llvm::BasicBlock *ContBB = CGF.createBasicBlock("finally.cont");
13983d1dcd9bSDimitry Andric
13993d1dcd9bSDimitry Andric llvm::Value *ShouldRethrow =
140045b53394SDimitry Andric CGF.Builder.CreateFlagLoad(ForEHVar, "finally.shouldthrow");
14013d1dcd9bSDimitry Andric CGF.Builder.CreateCondBr(ShouldRethrow, RethrowBB, ContBB);
14023d1dcd9bSDimitry Andric
14033d1dcd9bSDimitry Andric CGF.EmitBlock(RethrowBB);
14043d1dcd9bSDimitry Andric if (SavedExnVar) {
1405809500fcSDimitry Andric CGF.EmitRuntimeCallOrInvoke(RethrowFn,
1406344a3780SDimitry Andric CGF.Builder.CreateAlignedLoad(CGF.Int8PtrTy, SavedExnVar,
1407344a3780SDimitry Andric CGF.getPointerAlign()));
14083d1dcd9bSDimitry Andric } else {
1409809500fcSDimitry Andric CGF.EmitRuntimeCallOrInvoke(RethrowFn);
14103d1dcd9bSDimitry Andric }
14113d1dcd9bSDimitry Andric CGF.Builder.CreateUnreachable();
14123d1dcd9bSDimitry Andric
14133d1dcd9bSDimitry Andric CGF.EmitBlock(ContBB);
14143d1dcd9bSDimitry Andric
14153d1dcd9bSDimitry Andric // Restore the cleanup destination.
14163d1dcd9bSDimitry Andric CGF.Builder.CreateStore(SavedCleanupDest,
14173d1dcd9bSDimitry Andric CGF.getNormalCleanupDestSlot());
14183d1dcd9bSDimitry Andric }
14193d1dcd9bSDimitry Andric
14203d1dcd9bSDimitry Andric // Leave the end-catch cleanup. As an optimization, pretend that
14213d1dcd9bSDimitry Andric // the fallthrough path was inaccessible; we've dynamically proven
14223d1dcd9bSDimitry Andric // that we're not in the EH case along that path.
14233d1dcd9bSDimitry Andric if (EndCatchFn) {
14243d1dcd9bSDimitry Andric CGBuilderTy::InsertPoint SavedIP = CGF.Builder.saveAndClearIP();
14253d1dcd9bSDimitry Andric CGF.PopCleanupBlock();
14263d1dcd9bSDimitry Andric CGF.Builder.restoreIP(SavedIP);
14273d1dcd9bSDimitry Andric }
14283d1dcd9bSDimitry Andric
14293d1dcd9bSDimitry Andric // Now make sure we actually have an insertion point or the
14303d1dcd9bSDimitry Andric // cleanup gods will hate us.
14313d1dcd9bSDimitry Andric CGF.EnsureInsertPoint();
14323d1dcd9bSDimitry Andric }
14333d1dcd9bSDimitry Andric };
143445b53394SDimitry Andric } // end anonymous namespace
14353d1dcd9bSDimitry Andric
14364ba67500SRoman Divacky /// Enters a finally block for an implementation using zero-cost
14374ba67500SRoman Divacky /// exceptions. This is mostly general, but hard-codes some
14384ba67500SRoman Divacky /// language/ABI-specific behavior in the catch-all sections.
enter(CodeGenFunction & CGF,const Stmt * body,llvm::FunctionCallee beginCatchFn,llvm::FunctionCallee endCatchFn,llvm::FunctionCallee rethrowFn)143922989816SDimitry Andric void CodeGenFunction::FinallyInfo::enter(CodeGenFunction &CGF, const Stmt *body,
144022989816SDimitry Andric llvm::FunctionCallee beginCatchFn,
144122989816SDimitry Andric llvm::FunctionCallee endCatchFn,
144222989816SDimitry Andric llvm::FunctionCallee rethrowFn) {
144322989816SDimitry Andric assert((!!beginCatchFn) == (!!endCatchFn) &&
14444ba67500SRoman Divacky "begin/end catch functions not paired");
1445180abc3dSDimitry Andric assert(rethrowFn && "rethrow function is required");
1446180abc3dSDimitry Andric
1447180abc3dSDimitry Andric BeginCatchFn = beginCatchFn;
14484ba67500SRoman Divacky
14494ba67500SRoman Divacky // The rethrow function has one of the following two types:
14504ba67500SRoman Divacky // void (*)()
14514ba67500SRoman Divacky // void (*)(void*)
14524ba67500SRoman Divacky // In the latter case we need to pass it the exception object.
14534ba67500SRoman Divacky // But we can't use the exception slot because the @finally might
14544ba67500SRoman Divacky // have a landing pad (which would overwrite the exception slot).
145522989816SDimitry Andric llvm::FunctionType *rethrowFnTy = rethrowFn.getFunctionType();
14569f4dbff6SDimitry Andric SavedExnVar = nullptr;
1457180abc3dSDimitry Andric if (rethrowFnTy->getNumParams())
1458180abc3dSDimitry Andric SavedExnVar = CGF.CreateTempAlloca(CGF.Int8PtrTy, "finally.exn");
14594ba67500SRoman Divacky
14604ba67500SRoman Divacky // A finally block is a statement which must be executed on any edge
14614ba67500SRoman Divacky // out of a given scope. Unlike a cleanup, the finally block may
14624ba67500SRoman Divacky // contain arbitrary control flow leading out of itself. In
14634ba67500SRoman Divacky // addition, finally blocks should always be executed, even if there
14644ba67500SRoman Divacky // are no catch handlers higher on the stack. Therefore, we
14654ba67500SRoman Divacky // surround the protected scope with a combination of a normal
14664ba67500SRoman Divacky // cleanup (to catch attempts to break out of the block via normal
14674ba67500SRoman Divacky // control flow) and an EH catch-all (semantically "outside" any try
14684ba67500SRoman Divacky // statement to which the finally block might have been attached).
14694ba67500SRoman Divacky // The finally block itself is generated in the context of a cleanup
14704ba67500SRoman Divacky // which conditionally leaves the catch-all.
14714ba67500SRoman Divacky
14724ba67500SRoman Divacky // Jump destination for performing the finally block on an exception
14734ba67500SRoman Divacky // edge. We'll never actually reach this block, so unreachable is
14744ba67500SRoman Divacky // fine.
1475180abc3dSDimitry Andric RethrowDest = CGF.getJumpDestInCurrentScope(CGF.getUnreachableBlock());
14764ba67500SRoman Divacky
14774ba67500SRoman Divacky // Whether the finally block is being executed for EH purposes.
1478180abc3dSDimitry Andric ForEHVar = CGF.CreateTempAlloca(CGF.Builder.getInt1Ty(), "finally.for-eh");
147945b53394SDimitry Andric CGF.Builder.CreateFlagStore(false, ForEHVar);
14804ba67500SRoman Divacky
14814ba67500SRoman Divacky // Enter a normal cleanup which will perform the @finally block.
1482180abc3dSDimitry Andric CGF.EHStack.pushCleanup<PerformFinally>(NormalCleanup, body,
1483180abc3dSDimitry Andric ForEHVar, endCatchFn,
1484180abc3dSDimitry Andric rethrowFn, SavedExnVar);
14854ba67500SRoman Divacky
14864ba67500SRoman Divacky // Enter a catch-all scope.
1487180abc3dSDimitry Andric llvm::BasicBlock *catchBB = CGF.createBasicBlock("finally.catchall");
1488180abc3dSDimitry Andric EHCatchScope *catchScope = CGF.EHStack.pushCatch(1);
1489180abc3dSDimitry Andric catchScope->setCatchAllHandler(0, catchBB);
1490180abc3dSDimitry Andric }
1491180abc3dSDimitry Andric
exit(CodeGenFunction & CGF)1492180abc3dSDimitry Andric void CodeGenFunction::FinallyInfo::exit(CodeGenFunction &CGF) {
1493180abc3dSDimitry Andric // Leave the finally catch-all.
1494180abc3dSDimitry Andric EHCatchScope &catchScope = cast<EHCatchScope>(*CGF.EHStack.begin());
1495180abc3dSDimitry Andric llvm::BasicBlock *catchBB = catchScope.getHandler(0).Block;
149636981b17SDimitry Andric
149736981b17SDimitry Andric CGF.popCatchScope();
1498180abc3dSDimitry Andric
1499180abc3dSDimitry Andric // If there are any references to the catch-all block, emit it.
1500180abc3dSDimitry Andric if (catchBB->use_empty()) {
1501180abc3dSDimitry Andric delete catchBB;
1502180abc3dSDimitry Andric } else {
1503180abc3dSDimitry Andric CGBuilderTy::InsertPoint savedIP = CGF.Builder.saveAndClearIP();
1504180abc3dSDimitry Andric CGF.EmitBlock(catchBB);
1505180abc3dSDimitry Andric
15069f4dbff6SDimitry Andric llvm::Value *exn = nullptr;
15074ba67500SRoman Divacky
15084ba67500SRoman Divacky // If there's a begin-catch function, call it.
15094ba67500SRoman Divacky if (BeginCatchFn) {
151036981b17SDimitry Andric exn = CGF.getExceptionFromSlot();
1511809500fcSDimitry Andric CGF.EmitNounwindRuntimeCall(BeginCatchFn, exn);
15124ba67500SRoman Divacky }
15134ba67500SRoman Divacky
15144ba67500SRoman Divacky // If we need to remember the exception pointer to rethrow later, do so.
15154ba67500SRoman Divacky if (SavedExnVar) {
151636981b17SDimitry Andric if (!exn) exn = CGF.getExceptionFromSlot();
151745b53394SDimitry Andric CGF.Builder.CreateAlignedStore(exn, SavedExnVar, CGF.getPointerAlign());
15184ba67500SRoman Divacky }
15194ba67500SRoman Divacky
1520180abc3dSDimitry Andric // Tell the cleanups in the finally block that we're do this for EH.
152145b53394SDimitry Andric CGF.Builder.CreateFlagStore(true, ForEHVar);
15224ba67500SRoman Divacky
15234ba67500SRoman Divacky // Thread a jump through the finally cleanup.
1524180abc3dSDimitry Andric CGF.EmitBranchThroughCleanup(RethrowDest);
15254ba67500SRoman Divacky
1526180abc3dSDimitry Andric CGF.Builder.restoreIP(savedIP);
152779ade4e0SRoman Divacky }
152879ade4e0SRoman Divacky
1529180abc3dSDimitry Andric // Finally, leave the @finally cleanup.
1530180abc3dSDimitry Andric CGF.PopCleanupBlock();
15311569ce68SRoman Divacky }
15321569ce68SRoman Divacky
getTerminateLandingPad()15334ba67500SRoman Divacky llvm::BasicBlock *CodeGenFunction::getTerminateLandingPad() {
15344ba67500SRoman Divacky if (TerminateLandingPad)
15354ba67500SRoman Divacky return TerminateLandingPad;
15361569ce68SRoman Divacky
15374ba67500SRoman Divacky CGBuilderTy::InsertPoint SavedIP = Builder.saveAndClearIP();
15381569ce68SRoman Divacky
15394ba67500SRoman Divacky // This will get inserted at the end of the function.
15404ba67500SRoman Divacky TerminateLandingPad = createBasicBlock("terminate.lpad");
15414ba67500SRoman Divacky Builder.SetInsertPoint(TerminateLandingPad);
15421569ce68SRoman Divacky
15434ba67500SRoman Divacky // Tell the backend that this is a landing pad.
15445e20cdd8SDimitry Andric const EHPersonality &Personality = EHPersonality::get(*this);
15452e645aa5SDimitry Andric
15462e645aa5SDimitry Andric if (!CurFn->hasPersonalityFn())
15472e645aa5SDimitry Andric CurFn->setPersonalityFn(getOpaquePersonalityFn(CGM, Personality));
15482e645aa5SDimitry Andric
15492410013dSDimitry Andric llvm::LandingPadInst *LPadInst =
15502410013dSDimitry Andric Builder.CreateLandingPad(llvm::StructType::get(Int8PtrTy, Int32Ty), 0);
155136981b17SDimitry Andric LPadInst->addClause(getCatchAllValue(*this));
15521569ce68SRoman Divacky
155345b53394SDimitry Andric llvm::Value *Exn = nullptr;
15545e20cdd8SDimitry Andric if (getLangOpts().CPlusPlus)
15555e20cdd8SDimitry Andric Exn = Builder.CreateExtractValue(LPadInst, 0);
15565e20cdd8SDimitry Andric llvm::CallInst *terminateCall =
15575e20cdd8SDimitry Andric CGM.getCXXABI().emitTerminateForUnexpectedException(*this, Exn);
1558809500fcSDimitry Andric terminateCall->setDoesNotReturn();
1559bca07a45SDimitry Andric Builder.CreateUnreachable();
156034d02d0bSRoman Divacky
15614ba67500SRoman Divacky // Restore the saved insertion state.
15624ba67500SRoman Divacky Builder.restoreIP(SavedIP);
15630883ccd9SRoman Divacky
15644ba67500SRoman Divacky return TerminateLandingPad;
156534d02d0bSRoman Divacky }
156634d02d0bSRoman Divacky
getTerminateHandler()156734d02d0bSRoman Divacky llvm::BasicBlock *CodeGenFunction::getTerminateHandler() {
156834d02d0bSRoman Divacky if (TerminateHandler)
156934d02d0bSRoman Divacky return TerminateHandler;
157034d02d0bSRoman Divacky
15714ba67500SRoman Divacky // Set up the terminate handler. This block is inserted at the very
15724ba67500SRoman Divacky // end of the function by FinishFunction.
157334d02d0bSRoman Divacky TerminateHandler = createBasicBlock("terminate.handler");
157448675466SDimitry Andric CGBuilderTy::InsertPoint SavedIP = Builder.saveAndClearIP();
15754ba67500SRoman Divacky Builder.SetInsertPoint(TerminateHandler);
157648675466SDimitry Andric
157745b53394SDimitry Andric llvm::Value *Exn = nullptr;
15785e20cdd8SDimitry Andric if (getLangOpts().CPlusPlus)
15795e20cdd8SDimitry Andric Exn = getExceptionFromSlot();
15805e20cdd8SDimitry Andric llvm::CallInst *terminateCall =
15815e20cdd8SDimitry Andric CGM.getCXXABI().emitTerminateForUnexpectedException(*this, Exn);
1582bfef3995SDimitry Andric terminateCall->setDoesNotReturn();
158334d02d0bSRoman Divacky Builder.CreateUnreachable();
158434d02d0bSRoman Divacky
15850883ccd9SRoman Divacky // Restore the saved insertion state.
15864ba67500SRoman Divacky Builder.restoreIP(SavedIP);
158734d02d0bSRoman Divacky
158834d02d0bSRoman Divacky return TerminateHandler;
15891569ce68SRoman Divacky }
15904ba67500SRoman Divacky
getTerminateFunclet()159148675466SDimitry Andric llvm::BasicBlock *CodeGenFunction::getTerminateFunclet() {
159248675466SDimitry Andric assert(EHPersonality::get(*this).usesFuncletPads() &&
159348675466SDimitry Andric "use getTerminateLandingPad for non-funclet EH");
159448675466SDimitry Andric
159548675466SDimitry Andric llvm::BasicBlock *&TerminateFunclet = TerminateFunclets[CurrentFuncletPad];
159648675466SDimitry Andric if (TerminateFunclet)
159748675466SDimitry Andric return TerminateFunclet;
159848675466SDimitry Andric
159948675466SDimitry Andric CGBuilderTy::InsertPoint SavedIP = Builder.saveAndClearIP();
160048675466SDimitry Andric
160148675466SDimitry Andric // Set up the terminate handler. This block is inserted at the very
160248675466SDimitry Andric // end of the function by FinishFunction.
160348675466SDimitry Andric TerminateFunclet = createBasicBlock("terminate.handler");
160448675466SDimitry Andric Builder.SetInsertPoint(TerminateFunclet);
160548675466SDimitry Andric
160648675466SDimitry Andric // Create the cleanuppad using the current parent pad as its token. Use 'none'
160748675466SDimitry Andric // if this is a top-level terminate scope, which is the common case.
1608e3b55780SDimitry Andric SaveAndRestore RestoreCurrentFuncletPad(CurrentFuncletPad);
160948675466SDimitry Andric llvm::Value *ParentPad = CurrentFuncletPad;
161048675466SDimitry Andric if (!ParentPad)
161148675466SDimitry Andric ParentPad = llvm::ConstantTokenNone::get(CGM.getLLVMContext());
161248675466SDimitry Andric CurrentFuncletPad = Builder.CreateCleanupPad(ParentPad);
161348675466SDimitry Andric
161448675466SDimitry Andric // Emit the __std_terminate call.
161548675466SDimitry Andric llvm::CallInst *terminateCall =
1616344a3780SDimitry Andric CGM.getCXXABI().emitTerminateForUnexpectedException(*this, nullptr);
161748675466SDimitry Andric terminateCall->setDoesNotReturn();
161848675466SDimitry Andric Builder.CreateUnreachable();
161948675466SDimitry Andric
162048675466SDimitry Andric // Restore the saved insertion state.
162148675466SDimitry Andric Builder.restoreIP(SavedIP);
162248675466SDimitry Andric
162348675466SDimitry Andric return TerminateFunclet;
162448675466SDimitry Andric }
162548675466SDimitry Andric
getEHResumeBlock(bool isCleanup)162613cc256eSDimitry Andric llvm::BasicBlock *CodeGenFunction::getEHResumeBlock(bool isCleanup) {
162736981b17SDimitry Andric if (EHResumeBlock) return EHResumeBlock;
16284ba67500SRoman Divacky
16293d1dcd9bSDimitry Andric CGBuilderTy::InsertPoint SavedIP = Builder.saveIP();
16304ba67500SRoman Divacky
16313d1dcd9bSDimitry Andric // We emit a jump to a notional label at the outermost unwind state.
163236981b17SDimitry Andric EHResumeBlock = createBasicBlock("eh.resume");
163336981b17SDimitry Andric Builder.SetInsertPoint(EHResumeBlock);
16344ba67500SRoman Divacky
16355e20cdd8SDimitry Andric const EHPersonality &Personality = EHPersonality::get(*this);
16364ba67500SRoman Divacky
16373d1dcd9bSDimitry Andric // This can always be a call because we necessarily didn't find
16383d1dcd9bSDimitry Andric // anything on the EH stack which needs our help.
1639dbe13110SDimitry Andric const char *RethrowName = Personality.CatchallRethrowFn;
16409f4dbff6SDimitry Andric if (RethrowName != nullptr && !isCleanup) {
1641809500fcSDimitry Andric EmitRuntimeCall(getCatchallRethrowFn(CGM, RethrowName),
16425e20cdd8SDimitry Andric getExceptionFromSlot())->setDoesNotReturn();
16439f4dbff6SDimitry Andric Builder.CreateUnreachable();
16449f4dbff6SDimitry Andric Builder.restoreIP(SavedIP);
16459f4dbff6SDimitry Andric return EHResumeBlock;
16469f4dbff6SDimitry Andric }
164736981b17SDimitry Andric
164836981b17SDimitry Andric // Recreate the landingpad's return value for the 'resume' instruction.
164936981b17SDimitry Andric llvm::Value *Exn = getExceptionFromSlot();
165036981b17SDimitry Andric llvm::Value *Sel = getSelectorFromSlot();
165136981b17SDimitry Andric
16522410013dSDimitry Andric llvm::Type *LPadType = llvm::StructType::get(Exn->getType(), Sel->getType());
1653e3b55780SDimitry Andric llvm::Value *LPadVal = llvm::PoisonValue::get(LPadType);
165436981b17SDimitry Andric LPadVal = Builder.CreateInsertValue(LPadVal, Exn, 0, "lpad.val");
165536981b17SDimitry Andric LPadVal = Builder.CreateInsertValue(LPadVal, Sel, 1, "lpad.val");
165636981b17SDimitry Andric
165736981b17SDimitry Andric Builder.CreateResume(LPadVal);
165836981b17SDimitry Andric Builder.restoreIP(SavedIP);
165936981b17SDimitry Andric return EHResumeBlock;
166029cafa66SDimitry Andric }
1661bfef3995SDimitry Andric
EmitSEHTryStmt(const SEHTryStmt & S)1662bfef3995SDimitry Andric void CodeGenFunction::EmitSEHTryStmt(const SEHTryStmt &S) {
16635e20cdd8SDimitry Andric EnterSEHTryStmt(S);
16645e20cdd8SDimitry Andric {
16655e20cdd8SDimitry Andric JumpDest TryExit = getJumpDestInCurrentScope("__try.__leave");
16665e20cdd8SDimitry Andric
16675e20cdd8SDimitry Andric SEHTryEpilogueStack.push_back(&TryExit);
1668344a3780SDimitry Andric
1669344a3780SDimitry Andric llvm::BasicBlock *TryBB = nullptr;
1670344a3780SDimitry Andric // IsEHa: emit an invoke to _seh_try_begin() runtime for -EHa
1671344a3780SDimitry Andric if (getLangOpts().EHAsynch) {
1672344a3780SDimitry Andric EmitRuntimeCallOrInvoke(getSehTryBeginFn(CGM));
1673344a3780SDimitry Andric if (SEHTryEpilogueStack.size() == 1) // outermost only
1674344a3780SDimitry Andric TryBB = Builder.GetInsertBlock();
1675344a3780SDimitry Andric }
1676344a3780SDimitry Andric
16775e20cdd8SDimitry Andric EmitStmt(S.getTryBlock());
1678344a3780SDimitry Andric
1679344a3780SDimitry Andric // Volatilize all blocks in Try, till current insert point
1680344a3780SDimitry Andric if (TryBB) {
1681344a3780SDimitry Andric llvm::SmallPtrSet<llvm::BasicBlock *, 10> Visited;
1682344a3780SDimitry Andric VolatilizeTryBlocks(TryBB, Visited);
1683344a3780SDimitry Andric }
1684344a3780SDimitry Andric
16855e20cdd8SDimitry Andric SEHTryEpilogueStack.pop_back();
16865e20cdd8SDimitry Andric
16875e20cdd8SDimitry Andric if (!TryExit.getBlock()->use_empty())
16885e20cdd8SDimitry Andric EmitBlock(TryExit.getBlock(), /*IsFinished=*/true);
16895e20cdd8SDimitry Andric else
16905e20cdd8SDimitry Andric delete TryExit.getBlock();
16915e20cdd8SDimitry Andric }
16925e20cdd8SDimitry Andric ExitSEHTryStmt(S);
16935e20cdd8SDimitry Andric }
16945e20cdd8SDimitry Andric
1695344a3780SDimitry Andric // Recursively walk through blocks in a _try
1696344a3780SDimitry Andric // and make all memory instructions volatile
VolatilizeTryBlocks(llvm::BasicBlock * BB,llvm::SmallPtrSet<llvm::BasicBlock *,10> & V)1697344a3780SDimitry Andric void CodeGenFunction::VolatilizeTryBlocks(
1698344a3780SDimitry Andric llvm::BasicBlock *BB, llvm::SmallPtrSet<llvm::BasicBlock *, 10> &V) {
1699344a3780SDimitry Andric if (BB == SEHTryEpilogueStack.back()->getBlock() /* end of Try */ ||
1700344a3780SDimitry Andric !V.insert(BB).second /* already visited */ ||
1701344a3780SDimitry Andric !BB->getParent() /* not emitted */ || BB->empty())
1702344a3780SDimitry Andric return;
1703344a3780SDimitry Andric
1704344a3780SDimitry Andric if (!BB->isEHPad()) {
1705344a3780SDimitry Andric for (llvm::BasicBlock::iterator J = BB->begin(), JE = BB->end(); J != JE;
1706344a3780SDimitry Andric ++J) {
1707344a3780SDimitry Andric if (auto LI = dyn_cast<llvm::LoadInst>(J)) {
1708344a3780SDimitry Andric LI->setVolatile(true);
1709344a3780SDimitry Andric } else if (auto SI = dyn_cast<llvm::StoreInst>(J)) {
1710344a3780SDimitry Andric SI->setVolatile(true);
1711344a3780SDimitry Andric } else if (auto* MCI = dyn_cast<llvm::MemIntrinsic>(J)) {
1712344a3780SDimitry Andric MCI->setVolatile(llvm::ConstantInt::get(Builder.getInt1Ty(), 1));
1713344a3780SDimitry Andric }
1714344a3780SDimitry Andric }
1715344a3780SDimitry Andric }
1716344a3780SDimitry Andric const llvm::Instruction *TI = BB->getTerminator();
1717344a3780SDimitry Andric if (TI) {
1718344a3780SDimitry Andric unsigned N = TI->getNumSuccessors();
1719344a3780SDimitry Andric for (unsigned I = 0; I < N; I++)
1720344a3780SDimitry Andric VolatilizeTryBlocks(TI->getSuccessor(I), V);
1721344a3780SDimitry Andric }
1722344a3780SDimitry Andric }
1723344a3780SDimitry Andric
17245e20cdd8SDimitry Andric namespace {
172545b53394SDimitry Andric struct PerformSEHFinally final : EHScopeStack::Cleanup {
17265e20cdd8SDimitry Andric llvm::Function *OutlinedFinally;
PerformSEHFinally__anon0b616fac0311::PerformSEHFinally17275e20cdd8SDimitry Andric PerformSEHFinally(llvm::Function *OutlinedFinally)
17285e20cdd8SDimitry Andric : OutlinedFinally(OutlinedFinally) {}
17295e20cdd8SDimitry Andric
Emit__anon0b616fac0311::PerformSEHFinally17305e20cdd8SDimitry Andric void Emit(CodeGenFunction &CGF, Flags F) override {
17315e20cdd8SDimitry Andric ASTContext &Context = CGF.getContext();
173251ece4aaSDimitry Andric CodeGenModule &CGM = CGF.CGM;
17335e20cdd8SDimitry Andric
17345e20cdd8SDimitry Andric CallArgList Args;
173551ece4aaSDimitry Andric
173651ece4aaSDimitry Andric // Compute the two argument values.
173751ece4aaSDimitry Andric QualType ArgTys[2] = {Context.UnsignedCharTy, Context.VoidPtrTy};
1738676fbe81SDimitry Andric llvm::Value *FP = nullptr;
1739676fbe81SDimitry Andric // If CFG.IsOutlinedSEHHelper is true, then we are within a finally block.
1740676fbe81SDimitry Andric if (CGF.IsOutlinedSEHHelper) {
1741676fbe81SDimitry Andric FP = &CGF.CurFn->arg_begin()[1];
1742676fbe81SDimitry Andric } else {
174322989816SDimitry Andric llvm::Function *LocalAddrFn =
1744676fbe81SDimitry Andric CGM.getIntrinsic(llvm::Intrinsic::localaddress);
1745676fbe81SDimitry Andric FP = CGF.Builder.CreateCall(LocalAddrFn);
1746676fbe81SDimitry Andric }
1747676fbe81SDimitry Andric
17485e20cdd8SDimitry Andric llvm::Value *IsForEH =
17495e20cdd8SDimitry Andric llvm::ConstantInt::get(CGF.ConvertType(ArgTys[0]), F.isForEHCleanup());
1750cfca06d7SDimitry Andric
1751cfca06d7SDimitry Andric // Except _leave and fall-through at the end, all other exits in a _try
1752cfca06d7SDimitry Andric // (return/goto/continue/break) are considered as abnormal terminations
1753cfca06d7SDimitry Andric // since _leave/fall-through is always Indexed 0,
1754cfca06d7SDimitry Andric // just use NormalCleanupDestSlot (>= 1 for goto/return/..),
1755cfca06d7SDimitry Andric // as 1st Arg to indicate abnormal termination
1756cfca06d7SDimitry Andric if (!F.isForEHCleanup() && F.hasExitSwitch()) {
1757cfca06d7SDimitry Andric Address Addr = CGF.getNormalCleanupDestSlot();
1758cfca06d7SDimitry Andric llvm::Value *Load = CGF.Builder.CreateLoad(Addr, "cleanup.dest");
1759cfca06d7SDimitry Andric llvm::Value *Zero = llvm::Constant::getNullValue(CGM.Int32Ty);
1760cfca06d7SDimitry Andric IsForEH = CGF.Builder.CreateICmpNE(Load, Zero);
1761cfca06d7SDimitry Andric }
1762cfca06d7SDimitry Andric
17635e20cdd8SDimitry Andric Args.add(RValue::get(IsForEH), ArgTys[0]);
17645e20cdd8SDimitry Andric Args.add(RValue::get(FP), ArgTys[1]);
17655e20cdd8SDimitry Andric
176651ece4aaSDimitry Andric // Arrange a two-arg function info and type.
17675e20cdd8SDimitry Andric const CGFunctionInfo &FnInfo =
17682b6b257fSDimitry Andric CGM.getTypes().arrangeBuiltinFunctionCall(Context.VoidTy, Args);
176951ece4aaSDimitry Andric
1770bab175ecSDimitry Andric auto Callee = CGCallee::forDirect(OutlinedFinally);
1771bab175ecSDimitry Andric CGF.EmitCall(FnInfo, Callee, ReturnValueSlot(), Args);
17725e20cdd8SDimitry Andric }
17735e20cdd8SDimitry Andric };
177445b53394SDimitry Andric } // end anonymous namespace
17755e20cdd8SDimitry Andric
17765e20cdd8SDimitry Andric namespace {
17775e20cdd8SDimitry Andric /// Find all local variable captures in the statement.
17785e20cdd8SDimitry Andric struct CaptureFinder : ConstStmtVisitor<CaptureFinder> {
17795e20cdd8SDimitry Andric CodeGenFunction &ParentCGF;
17805e20cdd8SDimitry Andric const VarDecl *ParentThis;
178145b53394SDimitry Andric llvm::SmallSetVector<const VarDecl *, 4> Captures;
178245b53394SDimitry Andric Address SEHCodeSlot = Address::invalid();
CaptureFinder__anon0b616fac0411::CaptureFinder17835e20cdd8SDimitry Andric CaptureFinder(CodeGenFunction &ParentCGF, const VarDecl *ParentThis)
17845e20cdd8SDimitry Andric : ParentCGF(ParentCGF), ParentThis(ParentThis) {}
17855e20cdd8SDimitry Andric
178651ece4aaSDimitry Andric // Return true if we need to do any capturing work.
foundCaptures__anon0b616fac0411::CaptureFinder178751ece4aaSDimitry Andric bool foundCaptures() {
178845b53394SDimitry Andric return !Captures.empty() || SEHCodeSlot.isValid();
178951ece4aaSDimitry Andric }
179051ece4aaSDimitry Andric
Visit__anon0b616fac0411::CaptureFinder17915e20cdd8SDimitry Andric void Visit(const Stmt *S) {
17925e20cdd8SDimitry Andric // See if this is a capture, then recurse.
17935e20cdd8SDimitry Andric ConstStmtVisitor<CaptureFinder>::Visit(S);
17945e20cdd8SDimitry Andric for (const Stmt *Child : S->children())
17955e20cdd8SDimitry Andric if (Child)
17965e20cdd8SDimitry Andric Visit(Child);
17975e20cdd8SDimitry Andric }
17985e20cdd8SDimitry Andric
VisitDeclRefExpr__anon0b616fac0411::CaptureFinder17995e20cdd8SDimitry Andric void VisitDeclRefExpr(const DeclRefExpr *E) {
18005e20cdd8SDimitry Andric // If this is already a capture, just make sure we capture 'this'.
1801344a3780SDimitry Andric if (E->refersToEnclosingVariableOrCapture())
180245b53394SDimitry Andric Captures.insert(ParentThis);
18035e20cdd8SDimitry Andric
18045e20cdd8SDimitry Andric const auto *D = dyn_cast<VarDecl>(E->getDecl());
18055e20cdd8SDimitry Andric if (D && D->isLocalVarDeclOrParm() && D->hasLocalStorage())
180645b53394SDimitry Andric Captures.insert(D);
18075e20cdd8SDimitry Andric }
18085e20cdd8SDimitry Andric
VisitCXXThisExpr__anon0b616fac0411::CaptureFinder18095e20cdd8SDimitry Andric void VisitCXXThisExpr(const CXXThisExpr *E) {
181045b53394SDimitry Andric Captures.insert(ParentThis);
18115e20cdd8SDimitry Andric }
181251ece4aaSDimitry Andric
VisitCallExpr__anon0b616fac0411::CaptureFinder181351ece4aaSDimitry Andric void VisitCallExpr(const CallExpr *E) {
181451ece4aaSDimitry Andric // We only need to add parent frame allocations for these builtins in x86.
181551ece4aaSDimitry Andric if (ParentCGF.getTarget().getTriple().getArch() != llvm::Triple::x86)
181651ece4aaSDimitry Andric return;
181751ece4aaSDimitry Andric
181851ece4aaSDimitry Andric unsigned ID = E->getBuiltinCallee();
181951ece4aaSDimitry Andric switch (ID) {
182051ece4aaSDimitry Andric case Builtin::BI__exception_code:
182151ece4aaSDimitry Andric case Builtin::BI_exception_code:
182251ece4aaSDimitry Andric // This is the simple case where we are the outermost finally. All we
182351ece4aaSDimitry Andric // have to do here is make sure we escape this and recover it in the
182451ece4aaSDimitry Andric // outlined handler.
182545b53394SDimitry Andric if (!SEHCodeSlot.isValid())
182651ece4aaSDimitry Andric SEHCodeSlot = ParentCGF.SEHCodeSlotStack.back();
182751ece4aaSDimitry Andric break;
182851ece4aaSDimitry Andric }
182951ece4aaSDimitry Andric }
18305e20cdd8SDimitry Andric };
183145b53394SDimitry Andric } // end anonymous namespace
18325e20cdd8SDimitry Andric
recoverAddrOfEscapedLocal(CodeGenFunction & ParentCGF,Address ParentVar,llvm::Value * ParentFP)183345b53394SDimitry Andric Address CodeGenFunction::recoverAddrOfEscapedLocal(CodeGenFunction &ParentCGF,
183445b53394SDimitry Andric Address ParentVar,
183545b53394SDimitry Andric llvm::Value *ParentFP) {
183651ece4aaSDimitry Andric llvm::CallInst *RecoverCall = nullptr;
183745b53394SDimitry Andric CGBuilderTy Builder(*this, AllocaInsertPt);
1838ac9a064cSDimitry Andric if (auto *ParentAlloca =
1839ac9a064cSDimitry Andric dyn_cast_or_null<llvm::AllocaInst>(ParentVar.getBasePointer())) {
184051ece4aaSDimitry Andric // Mark the variable escaped if nobody else referenced it and compute the
184151ece4aaSDimitry Andric // localescape index.
184251ece4aaSDimitry Andric auto InsertPair = ParentCGF.EscapedLocals.insert(
184351ece4aaSDimitry Andric std::make_pair(ParentAlloca, ParentCGF.EscapedLocals.size()));
184451ece4aaSDimitry Andric int FrameEscapeIdx = InsertPair.first->second;
1845b1c73532SDimitry Andric // call ptr @llvm.localrecover(ptr @parentFn, ptr %fp, i32 N)
184651ece4aaSDimitry Andric llvm::Function *FrameRecoverFn = llvm::Intrinsic::getDeclaration(
184751ece4aaSDimitry Andric &CGM.getModule(), llvm::Intrinsic::localrecover);
184851ece4aaSDimitry Andric RecoverCall = Builder.CreateCall(
1849b1c73532SDimitry Andric FrameRecoverFn, {ParentCGF.CurFn, ParentFP,
185051ece4aaSDimitry Andric llvm::ConstantInt::get(Int32Ty, FrameEscapeIdx)});
185151ece4aaSDimitry Andric
185251ece4aaSDimitry Andric } else {
185351ece4aaSDimitry Andric // If the parent didn't have an alloca, we're doing some nested outlining.
185451ece4aaSDimitry Andric // Just clone the existing localrecover call, but tweak the FP argument to
185551ece4aaSDimitry Andric // use our FP value. All other arguments are constants.
1856ac9a064cSDimitry Andric auto *ParentRecover = cast<llvm::IntrinsicInst>(
1857ac9a064cSDimitry Andric ParentVar.emitRawPointer(*this)->stripPointerCasts());
185851ece4aaSDimitry Andric assert(ParentRecover->getIntrinsicID() == llvm::Intrinsic::localrecover &&
185951ece4aaSDimitry Andric "expected alloca or localrecover in parent LocalDeclMap");
186051ece4aaSDimitry Andric RecoverCall = cast<llvm::CallInst>(ParentRecover->clone());
186151ece4aaSDimitry Andric RecoverCall->setArgOperand(1, ParentFP);
186251ece4aaSDimitry Andric RecoverCall->insertBefore(AllocaInsertPt);
186351ece4aaSDimitry Andric }
186451ece4aaSDimitry Andric
186551ece4aaSDimitry Andric // Bitcast the variable, rename it, and insert it in the local decl map.
186651ece4aaSDimitry Andric llvm::Value *ChildVar =
186745b53394SDimitry Andric Builder.CreateBitCast(RecoverCall, ParentVar.getType());
186845b53394SDimitry Andric ChildVar->setName(ParentVar.getName());
18697fa27ce4SDimitry Andric return ParentVar.withPointer(ChildVar, KnownNonNull);
187051ece4aaSDimitry Andric }
187151ece4aaSDimitry Andric
EmitCapturedLocals(CodeGenFunction & ParentCGF,const Stmt * OutlinedStmt,bool IsFilter)18725e20cdd8SDimitry Andric void CodeGenFunction::EmitCapturedLocals(CodeGenFunction &ParentCGF,
18735e20cdd8SDimitry Andric const Stmt *OutlinedStmt,
187451ece4aaSDimitry Andric bool IsFilter) {
18755e20cdd8SDimitry Andric // Find all captures in the Stmt.
18765e20cdd8SDimitry Andric CaptureFinder Finder(ParentCGF, ParentCGF.CXXABIThisDecl);
18775e20cdd8SDimitry Andric Finder.Visit(OutlinedStmt);
18785e20cdd8SDimitry Andric
187951ece4aaSDimitry Andric // We can exit early on x86_64 when there are no captures. We just have to
188051ece4aaSDimitry Andric // save the exception code in filters so that __exception_code() works.
188151ece4aaSDimitry Andric if (!Finder.foundCaptures() &&
188251ece4aaSDimitry Andric CGM.getTarget().getTriple().getArch() != llvm::Triple::x86) {
188351ece4aaSDimitry Andric if (IsFilter)
188451ece4aaSDimitry Andric EmitSEHExceptionCodeSave(ParentCGF, nullptr, nullptr);
18855e20cdd8SDimitry Andric return;
188651ece4aaSDimitry Andric }
18875e20cdd8SDimitry Andric
188845b53394SDimitry Andric llvm::Value *EntryFP = nullptr;
188945b53394SDimitry Andric CGBuilderTy Builder(CGM, AllocaInsertPt);
189051ece4aaSDimitry Andric if (IsFilter && CGM.getTarget().getTriple().getArch() == llvm::Triple::x86) {
189151ece4aaSDimitry Andric // 32-bit SEH filters need to be careful about FP recovery. The end of the
189251ece4aaSDimitry Andric // EH registration is passed in as the EBP physical register. We can
189345b53394SDimitry Andric // recover that with llvm.frameaddress(1).
189445b53394SDimitry Andric EntryFP = Builder.CreateCall(
1895519fc96cSDimitry Andric CGM.getIntrinsic(llvm::Intrinsic::frameaddress, AllocaInt8PtrTy),
1896519fc96cSDimitry Andric {Builder.getInt32(1)});
189751ece4aaSDimitry Andric } else {
189851ece4aaSDimitry Andric // Otherwise, for x64 and 32-bit finally functions, the parent FP is the
189951ece4aaSDimitry Andric // second parameter.
190051ece4aaSDimitry Andric auto AI = CurFn->arg_begin();
190151ece4aaSDimitry Andric ++AI;
190245b53394SDimitry Andric EntryFP = &*AI;
190345b53394SDimitry Andric }
190445b53394SDimitry Andric
190545b53394SDimitry Andric llvm::Value *ParentFP = EntryFP;
190645b53394SDimitry Andric if (IsFilter) {
190745b53394SDimitry Andric // Given whatever FP the runtime provided us in EntryFP, recover the true
190845b53394SDimitry Andric // frame pointer of the parent function. We only need to do this in filters,
190945b53394SDimitry Andric // since finally funclets recover the parent FP for us.
191045b53394SDimitry Andric llvm::Function *RecoverFPIntrin =
1911676fbe81SDimitry Andric CGM.getIntrinsic(llvm::Intrinsic::eh_recoverfp);
1912b1c73532SDimitry Andric ParentFP = Builder.CreateCall(RecoverFPIntrin, {ParentCGF.CurFn, EntryFP});
1913cfca06d7SDimitry Andric
1914cfca06d7SDimitry Andric // if the parent is a _finally, the passed-in ParentFP is the FP
1915cfca06d7SDimitry Andric // of parent _finally, not Establisher's FP (FP of outermost function).
1916cfca06d7SDimitry Andric // Establkisher FP is 2nd paramenter passed into parent _finally.
1917cfca06d7SDimitry Andric // Fortunately, it's always saved in parent's frame. The following
1918cfca06d7SDimitry Andric // code retrieves it, and escapes it so that spill instruction won't be
1919cfca06d7SDimitry Andric // optimized away.
1920cfca06d7SDimitry Andric if (ParentCGF.ParentCGF != nullptr) {
1921cfca06d7SDimitry Andric // Locate and escape Parent's frame_pointer.addr alloca
1922cfca06d7SDimitry Andric // Depending on target, should be 1st/2nd one in LocalDeclMap.
1923cfca06d7SDimitry Andric // Let's just scan for ImplicitParamDecl with VoidPtrTy.
1924cfca06d7SDimitry Andric llvm::AllocaInst *FramePtrAddrAlloca = nullptr;
1925cfca06d7SDimitry Andric for (auto &I : ParentCGF.LocalDeclMap) {
1926cfca06d7SDimitry Andric const VarDecl *D = cast<VarDecl>(I.first);
1927cfca06d7SDimitry Andric if (isa<ImplicitParamDecl>(D) &&
1928cfca06d7SDimitry Andric D->getType() == getContext().VoidPtrTy) {
1929312c0ed1SDimitry Andric assert(D->getName().starts_with("frame_pointer"));
1930ac9a064cSDimitry Andric FramePtrAddrAlloca =
1931ac9a064cSDimitry Andric cast<llvm::AllocaInst>(I.second.getBasePointer());
1932cfca06d7SDimitry Andric break;
1933cfca06d7SDimitry Andric }
1934cfca06d7SDimitry Andric }
1935cfca06d7SDimitry Andric assert(FramePtrAddrAlloca);
1936cfca06d7SDimitry Andric auto InsertPair = ParentCGF.EscapedLocals.insert(
1937cfca06d7SDimitry Andric std::make_pair(FramePtrAddrAlloca, ParentCGF.EscapedLocals.size()));
1938cfca06d7SDimitry Andric int FrameEscapeIdx = InsertPair.first->second;
1939cfca06d7SDimitry Andric
1940cfca06d7SDimitry Andric // an example of a filter's prolog::
1941b1c73532SDimitry Andric // %0 = call ptr @llvm.eh.recoverfp(@"?fin$0@0@main@@",..)
1942b1c73532SDimitry Andric // %1 = call ptr @llvm.localrecover(@"?fin$0@0@main@@",..)
1943b1c73532SDimitry Andric // %2 = load ptr, ptr %1, align 8
1944b1c73532SDimitry Andric // ==> %2 is the frame-pointer of outermost host function
1945cfca06d7SDimitry Andric llvm::Function *FrameRecoverFn = llvm::Intrinsic::getDeclaration(
1946cfca06d7SDimitry Andric &CGM.getModule(), llvm::Intrinsic::localrecover);
1947cfca06d7SDimitry Andric ParentFP = Builder.CreateCall(
1948b1c73532SDimitry Andric FrameRecoverFn, {ParentCGF.CurFn, ParentFP,
1949cfca06d7SDimitry Andric llvm::ConstantInt::get(Int32Ty, FrameEscapeIdx)});
1950145449b1SDimitry Andric ParentFP = Builder.CreateLoad(
1951145449b1SDimitry Andric Address(ParentFP, CGM.VoidPtrTy, getPointerAlign()));
1952cfca06d7SDimitry Andric }
195351ece4aaSDimitry Andric }
19545e20cdd8SDimitry Andric
195551ece4aaSDimitry Andric // Create llvm.localrecover calls for all captures.
19565e20cdd8SDimitry Andric for (const VarDecl *VD : Finder.Captures) {
19575e20cdd8SDimitry Andric if (VD->getType()->isVariablyModifiedType()) {
19585e20cdd8SDimitry Andric CGM.ErrorUnsupported(VD, "VLA captured by SEH");
19595e20cdd8SDimitry Andric continue;
19605e20cdd8SDimitry Andric }
19615e20cdd8SDimitry Andric assert((isa<ImplicitParamDecl>(VD) || VD->isLocalVarDeclOrParm()) &&
19625e20cdd8SDimitry Andric "captured non-local variable");
19635e20cdd8SDimitry Andric
1964344a3780SDimitry Andric auto L = ParentCGF.LambdaCaptureFields.find(VD);
1965344a3780SDimitry Andric if (L != ParentCGF.LambdaCaptureFields.end()) {
1966344a3780SDimitry Andric LambdaCaptureFields[VD] = L->second;
1967344a3780SDimitry Andric continue;
1968344a3780SDimitry Andric }
1969344a3780SDimitry Andric
19705e20cdd8SDimitry Andric // If this decl hasn't been declared yet, it will be declared in the
19715e20cdd8SDimitry Andric // OutlinedStmt.
19725e20cdd8SDimitry Andric auto I = ParentCGF.LocalDeclMap.find(VD);
19735e20cdd8SDimitry Andric if (I == ParentCGF.LocalDeclMap.end())
19745e20cdd8SDimitry Andric continue;
19755e20cdd8SDimitry Andric
197645b53394SDimitry Andric Address ParentVar = I->second;
1977344a3780SDimitry Andric Address Recovered =
1978344a3780SDimitry Andric recoverAddrOfEscapedLocal(ParentCGF, ParentVar, ParentFP);
1979344a3780SDimitry Andric setAddrOfLocalVar(VD, Recovered);
1980344a3780SDimitry Andric
1981344a3780SDimitry Andric if (isa<ImplicitParamDecl>(VD)) {
1982344a3780SDimitry Andric CXXABIThisAlignment = ParentCGF.CXXABIThisAlignment;
1983344a3780SDimitry Andric CXXThisAlignment = ParentCGF.CXXThisAlignment;
1984344a3780SDimitry Andric CXXABIThisValue = Builder.CreateLoad(Recovered, "this");
1985344a3780SDimitry Andric if (ParentCGF.LambdaThisCaptureField) {
1986344a3780SDimitry Andric LambdaThisCaptureField = ParentCGF.LambdaThisCaptureField;
1987344a3780SDimitry Andric // We are in a lambda function where "this" is captured so the
1988344a3780SDimitry Andric // CXXThisValue need to be loaded from the lambda capture
1989344a3780SDimitry Andric LValue ThisFieldLValue =
1990344a3780SDimitry Andric EmitLValueForLambdaField(LambdaThisCaptureField);
1991344a3780SDimitry Andric if (!LambdaThisCaptureField->getType()->isPointerType()) {
1992ac9a064cSDimitry Andric CXXThisValue = ThisFieldLValue.getAddress().emitRawPointer(*this);
1993344a3780SDimitry Andric } else {
1994344a3780SDimitry Andric CXXThisValue = EmitLoadOfLValue(ThisFieldLValue, SourceLocation())
1995344a3780SDimitry Andric .getScalarVal();
1996344a3780SDimitry Andric }
1997344a3780SDimitry Andric } else {
1998344a3780SDimitry Andric CXXThisValue = CXXABIThisValue;
1999344a3780SDimitry Andric }
2000344a3780SDimitry Andric }
20015e20cdd8SDimitry Andric }
20025e20cdd8SDimitry Andric
200345b53394SDimitry Andric if (Finder.SEHCodeSlot.isValid()) {
200451ece4aaSDimitry Andric SEHCodeSlotStack.push_back(
200551ece4aaSDimitry Andric recoverAddrOfEscapedLocal(ParentCGF, Finder.SEHCodeSlot, ParentFP));
20065e20cdd8SDimitry Andric }
200751ece4aaSDimitry Andric
200851ece4aaSDimitry Andric if (IsFilter)
200945b53394SDimitry Andric EmitSEHExceptionCodeSave(ParentCGF, ParentFP, EntryFP);
20105e20cdd8SDimitry Andric }
20115e20cdd8SDimitry Andric
20125e20cdd8SDimitry Andric /// Arrange a function prototype that can be called by Windows exception
20135e20cdd8SDimitry Andric /// handling personalities. On Win64, the prototype looks like:
20145e20cdd8SDimitry Andric /// RetTy func(void *EHPtrs, void *ParentFP);
startOutlinedSEHHelper(CodeGenFunction & ParentCGF,bool IsFilter,const Stmt * OutlinedStmt)20155e20cdd8SDimitry Andric void CodeGenFunction::startOutlinedSEHHelper(CodeGenFunction &ParentCGF,
201651ece4aaSDimitry Andric bool IsFilter,
20175e20cdd8SDimitry Andric const Stmt *OutlinedStmt) {
2018676fbe81SDimitry Andric SourceLocation StartLoc = OutlinedStmt->getBeginLoc();
201951ece4aaSDimitry Andric
202051ece4aaSDimitry Andric // Get the mangled function name.
202151ece4aaSDimitry Andric SmallString<128> Name;
202251ece4aaSDimitry Andric {
202351ece4aaSDimitry Andric llvm::raw_svector_ostream OS(Name);
2024e3b55780SDimitry Andric GlobalDecl ParentSEHFn = ParentCGF.CurSEHParent;
20252b6b257fSDimitry Andric assert(ParentSEHFn && "No CurSEHParent!");
202651ece4aaSDimitry Andric MangleContext &Mangler = CGM.getCXXABI().getMangleContext();
202751ece4aaSDimitry Andric if (IsFilter)
20282b6b257fSDimitry Andric Mangler.mangleSEHFilterExpression(ParentSEHFn, OS);
202951ece4aaSDimitry Andric else
20302b6b257fSDimitry Andric Mangler.mangleSEHFinallyBlock(ParentSEHFn, OS);
203151ece4aaSDimitry Andric }
203251ece4aaSDimitry Andric
203351ece4aaSDimitry Andric FunctionArgList Args;
203451ece4aaSDimitry Andric if (CGM.getTarget().getTriple().getArch() != llvm::Triple::x86 || !IsFilter) {
203551ece4aaSDimitry Andric // All SEH finally functions take two parameters. Win64 filters take two
203651ece4aaSDimitry Andric // parameters. Win32 filters take no parameters.
203751ece4aaSDimitry Andric if (IsFilter) {
203851ece4aaSDimitry Andric Args.push_back(ImplicitParamDecl::Create(
20391b08b196SDimitry Andric getContext(), /*DC=*/nullptr, StartLoc,
204051ece4aaSDimitry Andric &getContext().Idents.get("exception_pointers"),
2041b1c73532SDimitry Andric getContext().VoidPtrTy, ImplicitParamKind::Other));
204251ece4aaSDimitry Andric } else {
204351ece4aaSDimitry Andric Args.push_back(ImplicitParamDecl::Create(
20441b08b196SDimitry Andric getContext(), /*DC=*/nullptr, StartLoc,
204551ece4aaSDimitry Andric &getContext().Idents.get("abnormal_termination"),
2046b1c73532SDimitry Andric getContext().UnsignedCharTy, ImplicitParamKind::Other));
204751ece4aaSDimitry Andric }
204851ece4aaSDimitry Andric Args.push_back(ImplicitParamDecl::Create(
20491b08b196SDimitry Andric getContext(), /*DC=*/nullptr, StartLoc,
20501b08b196SDimitry Andric &getContext().Idents.get("frame_pointer"), getContext().VoidPtrTy,
2051b1c73532SDimitry Andric ImplicitParamKind::Other));
205251ece4aaSDimitry Andric }
205351ece4aaSDimitry Andric
205451ece4aaSDimitry Andric QualType RetTy = IsFilter ? getContext().LongTy : getContext().VoidTy;
205551ece4aaSDimitry Andric
20562b6b257fSDimitry Andric const CGFunctionInfo &FnInfo =
20572b6b257fSDimitry Andric CGM.getTypes().arrangeBuiltinFunctionDeclaration(RetTy, Args);
20585e20cdd8SDimitry Andric
20595e20cdd8SDimitry Andric llvm::FunctionType *FnTy = CGM.getTypes().GetFunctionType(FnInfo);
20605e20cdd8SDimitry Andric llvm::Function *Fn = llvm::Function::Create(
20615e20cdd8SDimitry Andric FnTy, llvm::GlobalValue::InternalLinkage, Name.str(), &CGM.getModule());
20625e20cdd8SDimitry Andric
20635e20cdd8SDimitry Andric IsOutlinedSEHHelper = true;
20645e20cdd8SDimitry Andric
20655e20cdd8SDimitry Andric StartFunction(GlobalDecl(), RetTy, Fn, FnInfo, Args,
2066676fbe81SDimitry Andric OutlinedStmt->getBeginLoc(), OutlinedStmt->getBeginLoc());
20672b6b257fSDimitry Andric CurSEHParent = ParentCGF.CurSEHParent;
20685e20cdd8SDimitry Andric
2069cfca06d7SDimitry Andric CGM.SetInternalFunctionAttributes(GlobalDecl(), CurFn, FnInfo);
207051ece4aaSDimitry Andric EmitCapturedLocals(ParentCGF, OutlinedStmt, IsFilter);
20715e20cdd8SDimitry Andric }
20725e20cdd8SDimitry Andric
20735e20cdd8SDimitry Andric /// Create a stub filter function that will ultimately hold the code of the
20745e20cdd8SDimitry Andric /// filter expression. The EH preparation passes in LLVM will outline the code
20755e20cdd8SDimitry Andric /// from the main function body into this stub.
20765e20cdd8SDimitry Andric llvm::Function *
GenerateSEHFilterFunction(CodeGenFunction & ParentCGF,const SEHExceptStmt & Except)20775e20cdd8SDimitry Andric CodeGenFunction::GenerateSEHFilterFunction(CodeGenFunction &ParentCGF,
20785e20cdd8SDimitry Andric const SEHExceptStmt &Except) {
20795e20cdd8SDimitry Andric const Expr *FilterExpr = Except.getFilterExpr();
208051ece4aaSDimitry Andric startOutlinedSEHHelper(ParentCGF, true, FilterExpr);
20815e20cdd8SDimitry Andric
20825e20cdd8SDimitry Andric // Emit the original filter expression, convert to i32, and return.
20835e20cdd8SDimitry Andric llvm::Value *R = EmitScalarExpr(FilterExpr);
20845e20cdd8SDimitry Andric R = Builder.CreateIntCast(R, ConvertType(getContext().LongTy),
20855e20cdd8SDimitry Andric FilterExpr->getType()->isSignedIntegerType());
20865e20cdd8SDimitry Andric Builder.CreateStore(R, ReturnValue);
20875e20cdd8SDimitry Andric
2088676fbe81SDimitry Andric FinishFunction(FilterExpr->getEndLoc());
20895e20cdd8SDimitry Andric
20905e20cdd8SDimitry Andric return CurFn;
20915e20cdd8SDimitry Andric }
20925e20cdd8SDimitry Andric
20935e20cdd8SDimitry Andric llvm::Function *
GenerateSEHFinallyFunction(CodeGenFunction & ParentCGF,const SEHFinallyStmt & Finally)20945e20cdd8SDimitry Andric CodeGenFunction::GenerateSEHFinallyFunction(CodeGenFunction &ParentCGF,
20955e20cdd8SDimitry Andric const SEHFinallyStmt &Finally) {
20965e20cdd8SDimitry Andric const Stmt *FinallyBlock = Finally.getBlock();
209751ece4aaSDimitry Andric startOutlinedSEHHelper(ParentCGF, false, FinallyBlock);
20985e20cdd8SDimitry Andric
20995e20cdd8SDimitry Andric // Emit the original filter expression, convert to i32, and return.
21005e20cdd8SDimitry Andric EmitStmt(FinallyBlock);
21015e20cdd8SDimitry Andric
2102676fbe81SDimitry Andric FinishFunction(FinallyBlock->getEndLoc());
21035e20cdd8SDimitry Andric
21045e20cdd8SDimitry Andric return CurFn;
21055e20cdd8SDimitry Andric }
21065e20cdd8SDimitry Andric
EmitSEHExceptionCodeSave(CodeGenFunction & ParentCGF,llvm::Value * ParentFP,llvm::Value * EntryFP)210751ece4aaSDimitry Andric void CodeGenFunction::EmitSEHExceptionCodeSave(CodeGenFunction &ParentCGF,
210851ece4aaSDimitry Andric llvm::Value *ParentFP,
210945b53394SDimitry Andric llvm::Value *EntryFP) {
211051ece4aaSDimitry Andric // Get the pointer to the EXCEPTION_POINTERS struct. This is returned by the
211151ece4aaSDimitry Andric // __exception_info intrinsic.
211251ece4aaSDimitry Andric if (CGM.getTarget().getTriple().getArch() != llvm::Triple::x86) {
211351ece4aaSDimitry Andric // On Win64, the info is passed as the first parameter to the filter.
211445b53394SDimitry Andric SEHInfo = &*CurFn->arg_begin();
211551ece4aaSDimitry Andric SEHCodeSlotStack.push_back(
211651ece4aaSDimitry Andric CreateMemTemp(getContext().IntTy, "__exception_code"));
211751ece4aaSDimitry Andric } else {
211851ece4aaSDimitry Andric // On Win32, the EBP on entry to the filter points to the end of an
211951ece4aaSDimitry Andric // exception registration object. It contains 6 32-bit fields, and the info
212051ece4aaSDimitry Andric // pointer is stored in the second field. So, GEP 20 bytes backwards and
212151ece4aaSDimitry Andric // load the pointer.
212245b53394SDimitry Andric SEHInfo = Builder.CreateConstInBoundsGEP1_32(Int8Ty, EntryFP, -20);
212345b53394SDimitry Andric SEHInfo = Builder.CreateAlignedLoad(Int8PtrTy, SEHInfo, getPointerAlign());
212451ece4aaSDimitry Andric SEHCodeSlotStack.push_back(recoverAddrOfEscapedLocal(
212551ece4aaSDimitry Andric ParentCGF, ParentCGF.SEHCodeSlotStack.back(), ParentFP));
212651ece4aaSDimitry Andric }
212751ece4aaSDimitry Andric
21285e20cdd8SDimitry Andric // Save the exception code in the exception slot to unify exception access in
21295e20cdd8SDimitry Andric // the filter function and the landing pad.
21305e20cdd8SDimitry Andric // struct EXCEPTION_POINTERS {
21315e20cdd8SDimitry Andric // EXCEPTION_RECORD *ExceptionRecord;
21325e20cdd8SDimitry Andric // CONTEXT *ContextRecord;
21335e20cdd8SDimitry Andric // };
213451ece4aaSDimitry Andric // int exceptioncode = exception_pointers->ExceptionRecord->ExceptionCode;
21357fa27ce4SDimitry Andric llvm::Type *RecordTy = llvm::PointerType::getUnqual(getLLVMContext());
21362410013dSDimitry Andric llvm::Type *PtrsTy = llvm::StructType::get(RecordTy, CGM.VoidPtrTy);
21377fa27ce4SDimitry Andric llvm::Value *Rec = Builder.CreateStructGEP(PtrsTy, SEHInfo, 0);
2138344a3780SDimitry Andric Rec = Builder.CreateAlignedLoad(RecordTy, Rec, getPointerAlign());
2139344a3780SDimitry Andric llvm::Value *Code = Builder.CreateAlignedLoad(Int32Ty, Rec, getIntAlign());
214051ece4aaSDimitry Andric assert(!SEHCodeSlotStack.empty() && "emitting EH code outside of __except");
214151ece4aaSDimitry Andric Builder.CreateStore(Code, SEHCodeSlotStack.back());
21425e20cdd8SDimitry Andric }
21435e20cdd8SDimitry Andric
EmitSEHExceptionInfo()21445e20cdd8SDimitry Andric llvm::Value *CodeGenFunction::EmitSEHExceptionInfo() {
21455e20cdd8SDimitry Andric // Sema should diagnose calling this builtin outside of a filter context, but
21465e20cdd8SDimitry Andric // don't crash if we screw up.
214751ece4aaSDimitry Andric if (!SEHInfo)
21485e20cdd8SDimitry Andric return llvm::UndefValue::get(Int8PtrTy);
214951ece4aaSDimitry Andric assert(SEHInfo->getType() == Int8PtrTy);
215051ece4aaSDimitry Andric return SEHInfo;
21515e20cdd8SDimitry Andric }
21525e20cdd8SDimitry Andric
EmitSEHExceptionCode()21535e20cdd8SDimitry Andric llvm::Value *CodeGenFunction::EmitSEHExceptionCode() {
215451ece4aaSDimitry Andric assert(!SEHCodeSlotStack.empty() && "emitting EH code outside of __except");
215545b53394SDimitry Andric return Builder.CreateLoad(SEHCodeSlotStack.back());
21565e20cdd8SDimitry Andric }
21575e20cdd8SDimitry Andric
EmitSEHAbnormalTermination()21585e20cdd8SDimitry Andric llvm::Value *CodeGenFunction::EmitSEHAbnormalTermination() {
21595e20cdd8SDimitry Andric // Abnormal termination is just the first parameter to the outlined finally
21605e20cdd8SDimitry Andric // helper.
21615e20cdd8SDimitry Andric auto AI = CurFn->arg_begin();
21625e20cdd8SDimitry Andric return Builder.CreateZExt(&*AI, Int32Ty);
21635e20cdd8SDimitry Andric }
21645e20cdd8SDimitry Andric
pushSEHCleanup(CleanupKind Kind,llvm::Function * FinallyFunc)2165676fbe81SDimitry Andric void CodeGenFunction::pushSEHCleanup(CleanupKind Kind,
2166676fbe81SDimitry Andric llvm::Function *FinallyFunc) {
2167676fbe81SDimitry Andric EHStack.pushCleanup<PerformSEHFinally>(Kind, FinallyFunc);
2168676fbe81SDimitry Andric }
2169676fbe81SDimitry Andric
EnterSEHTryStmt(const SEHTryStmt & S)21705e20cdd8SDimitry Andric void CodeGenFunction::EnterSEHTryStmt(const SEHTryStmt &S) {
21715e20cdd8SDimitry Andric CodeGenFunction HelperCGF(CGM, /*suppressNewContext=*/true);
2172cfca06d7SDimitry Andric HelperCGF.ParentCGF = this;
21735e20cdd8SDimitry Andric if (const SEHFinallyStmt *Finally = S.getFinallyHandler()) {
217451ece4aaSDimitry Andric // Outline the finally block.
21755e20cdd8SDimitry Andric llvm::Function *FinallyFunc =
21765e20cdd8SDimitry Andric HelperCGF.GenerateSEHFinallyFunction(*this, *Finally);
217751ece4aaSDimitry Andric
217851ece4aaSDimitry Andric // Push a cleanup for __finally blocks.
21795e20cdd8SDimitry Andric EHStack.pushCleanup<PerformSEHFinally>(NormalAndEHCleanup, FinallyFunc);
21805e20cdd8SDimitry Andric return;
21815e20cdd8SDimitry Andric }
21825e20cdd8SDimitry Andric
21835e20cdd8SDimitry Andric // Otherwise, we must have an __except block.
21845e20cdd8SDimitry Andric const SEHExceptStmt *Except = S.getExceptHandler();
21855e20cdd8SDimitry Andric assert(Except);
21865e20cdd8SDimitry Andric EHCatchScope *CatchScope = EHStack.pushCatch(1);
218751ece4aaSDimitry Andric SEHCodeSlotStack.push_back(
218851ece4aaSDimitry Andric CreateMemTemp(getContext().IntTy, "__exception_code"));
21895e20cdd8SDimitry Andric
219051ece4aaSDimitry Andric // If the filter is known to evaluate to 1, then we can use the clause
219151ece4aaSDimitry Andric // "catch i8* null". We can't do this on x86 because the filter has to save
219251ece4aaSDimitry Andric // the exception code.
21935e20cdd8SDimitry Andric llvm::Constant *C =
2194461a67faSDimitry Andric ConstantEmitter(*this).tryEmitAbstract(Except->getFilterExpr(),
2195461a67faSDimitry Andric getContext().IntTy);
219651ece4aaSDimitry Andric if (CGM.getTarget().getTriple().getArch() != llvm::Triple::x86 && C &&
219751ece4aaSDimitry Andric C->isOneValue()) {
21985e20cdd8SDimitry Andric CatchScope->setCatchAllHandler(0, createBasicBlock("__except"));
21995e20cdd8SDimitry Andric return;
22005e20cdd8SDimitry Andric }
22015e20cdd8SDimitry Andric
22025e20cdd8SDimitry Andric // In general, we have to emit an outlined filter function. Use the function
22035e20cdd8SDimitry Andric // in place of the RTTI typeinfo global that C++ EH uses.
22045e20cdd8SDimitry Andric llvm::Function *FilterFunc =
22055e20cdd8SDimitry Andric HelperCGF.GenerateSEHFilterFunction(*this, *Except);
2206b1c73532SDimitry Andric CatchScope->setHandler(0, FilterFunc, createBasicBlock("__except.ret"));
22075e20cdd8SDimitry Andric }
22085e20cdd8SDimitry Andric
ExitSEHTryStmt(const SEHTryStmt & S)22095e20cdd8SDimitry Andric void CodeGenFunction::ExitSEHTryStmt(const SEHTryStmt &S) {
22105e20cdd8SDimitry Andric // Just pop the cleanup if it's a __finally block.
22115e20cdd8SDimitry Andric if (S.getFinallyHandler()) {
22125e20cdd8SDimitry Andric PopCleanupBlock();
22135e20cdd8SDimitry Andric return;
22145e20cdd8SDimitry Andric }
22155e20cdd8SDimitry Andric
2216344a3780SDimitry Andric // IsEHa: emit an invoke _seh_try_end() to mark end of FT flow
2217344a3780SDimitry Andric if (getLangOpts().EHAsynch && Builder.GetInsertBlock()) {
2218344a3780SDimitry Andric llvm::FunctionCallee SehTryEnd = getSehTryEndFn(CGM);
2219344a3780SDimitry Andric EmitRuntimeCallOrInvoke(SehTryEnd);
2220344a3780SDimitry Andric }
2221344a3780SDimitry Andric
22225e20cdd8SDimitry Andric // Otherwise, we must have an __except block.
22235e20cdd8SDimitry Andric const SEHExceptStmt *Except = S.getExceptHandler();
22245e20cdd8SDimitry Andric assert(Except && "__try must have __finally xor __except");
22255e20cdd8SDimitry Andric EHCatchScope &CatchScope = cast<EHCatchScope>(*EHStack.begin());
22265e20cdd8SDimitry Andric
22275e20cdd8SDimitry Andric // Don't emit the __except block if the __try block lacked invokes.
22285e20cdd8SDimitry Andric // TODO: Model unwind edges from instructions, either with iload / istore or
22295e20cdd8SDimitry Andric // a try body function.
22305e20cdd8SDimitry Andric if (!CatchScope.hasEHBranches()) {
22315e20cdd8SDimitry Andric CatchScope.clearHandlerBlocks();
22325e20cdd8SDimitry Andric EHStack.popCatch();
223351ece4aaSDimitry Andric SEHCodeSlotStack.pop_back();
22345e20cdd8SDimitry Andric return;
22355e20cdd8SDimitry Andric }
22365e20cdd8SDimitry Andric
22375e20cdd8SDimitry Andric // The fall-through block.
22385e20cdd8SDimitry Andric llvm::BasicBlock *ContBB = createBasicBlock("__try.cont");
22395e20cdd8SDimitry Andric
22405e20cdd8SDimitry Andric // We just emitted the body of the __try; jump to the continue block.
22415e20cdd8SDimitry Andric if (HaveInsertPoint())
22425e20cdd8SDimitry Andric Builder.CreateBr(ContBB);
22435e20cdd8SDimitry Andric
22445e20cdd8SDimitry Andric // Check if our filter function returned true.
22455e20cdd8SDimitry Andric emitCatchDispatchBlock(*this, CatchScope);
22465e20cdd8SDimitry Andric
22475e20cdd8SDimitry Andric // Grab the block before we pop the handler.
224845b53394SDimitry Andric llvm::BasicBlock *CatchPadBB = CatchScope.getHandler(0).Block;
22495e20cdd8SDimitry Andric EHStack.popCatch();
22505e20cdd8SDimitry Andric
225145b53394SDimitry Andric EmitBlockAfterUses(CatchPadBB);
22525e20cdd8SDimitry Andric
225345b53394SDimitry Andric // __except blocks don't get outlined into funclets, so immediately do a
225445b53394SDimitry Andric // catchret.
225545b53394SDimitry Andric llvm::CatchPadInst *CPI =
225645b53394SDimitry Andric cast<llvm::CatchPadInst>(CatchPadBB->getFirstNonPHI());
225745b53394SDimitry Andric llvm::BasicBlock *ExceptBB = createBasicBlock("__except");
225845b53394SDimitry Andric Builder.CreateCatchRet(CPI, ExceptBB);
225945b53394SDimitry Andric EmitBlock(ExceptBB);
226045b53394SDimitry Andric
226145b53394SDimitry Andric // On Win64, the exception code is returned in EAX. Copy it into the slot.
226251ece4aaSDimitry Andric if (CGM.getTarget().getTriple().getArch() != llvm::Triple::x86) {
226345b53394SDimitry Andric llvm::Function *SEHCodeIntrin =
226445b53394SDimitry Andric CGM.getIntrinsic(llvm::Intrinsic::eh_exceptioncode);
226545b53394SDimitry Andric llvm::Value *Code = Builder.CreateCall(SEHCodeIntrin, {CPI});
226651ece4aaSDimitry Andric Builder.CreateStore(Code, SEHCodeSlotStack.back());
226751ece4aaSDimitry Andric }
226851ece4aaSDimitry Andric
22695e20cdd8SDimitry Andric // Emit the __except body.
22705e20cdd8SDimitry Andric EmitStmt(Except->getBlock());
22715e20cdd8SDimitry Andric
227251ece4aaSDimitry Andric // End the lifetime of the exception code.
227351ece4aaSDimitry Andric SEHCodeSlotStack.pop_back();
227451ece4aaSDimitry Andric
22755e20cdd8SDimitry Andric if (HaveInsertPoint())
22765e20cdd8SDimitry Andric Builder.CreateBr(ContBB);
22775e20cdd8SDimitry Andric
22785e20cdd8SDimitry Andric EmitBlock(ContBB);
2279bfef3995SDimitry Andric }
22809f4dbff6SDimitry Andric
EmitSEHLeaveStmt(const SEHLeaveStmt & S)22819f4dbff6SDimitry Andric void CodeGenFunction::EmitSEHLeaveStmt(const SEHLeaveStmt &S) {
22825e20cdd8SDimitry Andric // If this code is reachable then emit a stop point (if generating
22835e20cdd8SDimitry Andric // debug info). We have to do this ourselves because we are on the
22845e20cdd8SDimitry Andric // "simple" statement path.
22855e20cdd8SDimitry Andric if (HaveInsertPoint())
22865e20cdd8SDimitry Andric EmitStopPoint(&S);
22875e20cdd8SDimitry Andric
22885e20cdd8SDimitry Andric // This must be a __leave from a __finally block, which we warn on and is UB.
22895e20cdd8SDimitry Andric // Just emit unreachable.
22905e20cdd8SDimitry Andric if (!isSEHTryScope()) {
22915e20cdd8SDimitry Andric Builder.CreateUnreachable();
22925e20cdd8SDimitry Andric Builder.ClearInsertionPoint();
22935e20cdd8SDimitry Andric return;
22945e20cdd8SDimitry Andric }
22955e20cdd8SDimitry Andric
22965e20cdd8SDimitry Andric EmitBranchThroughCleanup(*SEHTryEpilogueStack.back());
22979f4dbff6SDimitry Andric }
2298