lib/CodeGen/WasmEHPrepare.cpp - llvm - Git at Google

 //===-- WasmEHPrepare - Prepare excepton handling for WebAssembly --------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This transformation is designed for use by code generators which use
 // WebAssembly exception handling scheme.
 //
 // WebAssembly exception handling uses Windows exception IR for the middle level
 // representation. This pass does the following transformation for every
 // catchpad block:
 // (In C-style pseudocode)
 //
 // - Before:
 //   catchpad ...
 //   exn = wasm.get.exception();
 //   selector = wasm.get.selector();
 //   ...
 //
 // - After:
 //   catchpad ...
 //   exn = wasm.catch(0); // 0 is a tag for C++
 //   wasm.landingpad.index(index);
 //   // Only add below in case it's not a single catch (...)
 //   __wasm_lpad_context.lpad_index = index;
 //   __wasm_lpad_context.lsda = wasm.lsda();
 //   _Unwind_CallPersonality(exn);
 //   int selector = __wasm.landingpad_context.selector;
 //   ...
 //
 // Also, does the following for a cleanuppad block with a call to
 // __clang_call_terminate():
 // - Before:
 //   cleanuppad ...
 //   exn = wasm.get.exception();
 //   __clang_call_terminate(exn);
 //
 // - After:
 //   cleanuppad ...
 //   exn = wasm.catch(0); // 0 is a tag for C++
 //   __clang_call_terminate(exn);
 //
 //
 // * Background: WebAssembly EH instructions
 // WebAssembly's try and catch instructions are structured as follows:
 // try
 //   instruction*
 // catch (C++ tag)
 //   instruction*
 // ...
 // catch_all
 //   instruction*
 // try_end
 //
 // A catch instruction in WebAssembly does not correspond to a C++ catch clause.
 // In WebAssembly, there is a single catch instruction for all C++ exceptions.
 // There can be more catch instructions for exceptions in other languages, but
 // they are not generated for now. catch_all catches all exceptions including
 // foreign exceptions (e.g. JavaScript). We turn catchpads into catch (C++ tag)
 // and cleanuppads into catch_all, with one exception: cleanuppad with a call to
 // __clang_call_terminate should be both in catch (C++ tag) and catch_all.
 //
 //
 // * Background: Direct personality function call
 // In WebAssembly EH, the VM is responsible for unwinding the stack once an
 // exception is thrown. After the stack is unwound, the control flow is
 // transfered to WebAssembly 'catch' instruction, which returns a caught
 // exception object.
 //
 // Unwinding the stack is not done by libunwind but the VM, so the personality
 // function in libcxxabi cannot be called from libunwind during the unwinding
 // process. So after a catch instruction, we insert a call to a wrapper function
 // in libunwind that in turn calls the real personality function.
 //
 // In Itanium EH, if the personality function decides there is no matching catch
 // clause in a call frame and no cleanup action to perform, the unwinder doesn't
 // stop there and continues unwinding. But in Wasm EH, the unwinder stops at
 // every call frame with a catch intruction, after which the personality
 // function is called from the compiler-generated user code here.
 //
 // In libunwind, we have this struct that serves as a communincation channel
 // between the compiler-generated user code and the personality function in
 // libcxxabi.
 //
 // struct _Unwind_LandingPadContext {
 //   uintptr_t lpad_index;
 //   uintptr_t lsda;
 //   uintptr_t selector;
 // };
 // struct _Unwind_LandingPadContext __wasm_lpad_context = ...;
 //
 // And this wrapper in libunwind calls the personality function.
 //
 // _Unwind_Reason_Code _Unwind_CallPersonality(void *exception_ptr) {
 //   struct _Unwind_Exception *exception_obj =
 //       (struct _Unwind_Exception *)exception_ptr;
 //   _Unwind_Reason_Code ret = __gxx_personality_v0(
 //       1, _UA_CLEANUP_PHASE, exception_obj->exception_class, exception_obj,
 //       (struct _Unwind_Context *)__wasm_lpad_context);
 //   return ret;
 // }
 //
 // We pass a landing pad index, and the address of LSDA for the current function
 // to the wrapper function _Unwind_CallPersonality in libunwind, and we retrieve
 // the selector after it returns.
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/ADT/SetVector.h"
 #include "llvm/ADT/Statistic.h"
 #include "llvm/ADT/Triple.h"
 #include "llvm/CodeGen/Passes.h"
 #include "llvm/CodeGen/TargetLowering.h"
 #include "llvm/CodeGen/TargetSubtargetInfo.h"
 #include "llvm/CodeGen/WasmEHFuncInfo.h"
 #include "llvm/IR/Dominators.h"
 #include "llvm/IR/IRBuilder.h"
 #include "llvm/IR/Intrinsics.h"
 #include "llvm/Pass.h"
 #include "llvm/Transforms/Utils/BasicBlockUtils.h"

 using namespace llvm;

 #define DEBUG_TYPE "wasmehprepare"

 namespace {
 class WasmEHPrepare : public FunctionPass {
   Type *LPadContextTy = nullptr; // type of 'struct _Unwind_LandingPadContext'
   GlobalVariable *LPadContextGV = nullptr; // __wasm_lpad_context

   // Field addresses of struct _Unwind_LandingPadContext
   Value *LPadIndexField = nullptr; // lpad_index field
   Value *LSDAField = nullptr;      // lsda field
   Value *SelectorField = nullptr;  // selector

   Function *ThrowF = nullptr;           // wasm.throw() intrinsic
   Function *CatchF = nullptr;           // wasm.catch.extract() intrinsic
   Function *LPadIndexF = nullptr;       // wasm.landingpad.index() intrinsic
   Function *LSDAF = nullptr;            // wasm.lsda() intrinsic
   Function *GetExnF = nullptr;          // wasm.get.exception() intrinsic
   Function *GetSelectorF = nullptr;     // wasm.get.ehselector() intrinsic
   Function *CallPersonalityF = nullptr; // _Unwind_CallPersonality() wrapper
   Function *ClangCallTermF = nullptr;   // __clang_call_terminate() function

   bool prepareEHPads(Function &F);
   bool prepareThrows(Function &F);

   void prepareEHPad(BasicBlock *BB, unsigned Index);
   void prepareTerminateCleanupPad(BasicBlock *BB);

 public:
   static char ID; // Pass identification, replacement for typeid

   WasmEHPrepare() : FunctionPass(ID) {}

   bool doInitialization(Module &M) override;
   bool runOnFunction(Function &F) override;

   StringRef getPassName() const override {
     return "WebAssembly Exception handling preparation";
   }
 };
 } // end anonymous namespace

 char WasmEHPrepare::ID = 0;
 INITIALIZE_PASS(WasmEHPrepare, DEBUG_TYPE, "Prepare WebAssembly exceptions",
                 false, false)

 FunctionPass *llvm::createWasmEHPass() { return new WasmEHPrepare(); }

 bool WasmEHPrepare::doInitialization(Module &M) {
   IRBuilder<> IRB(M.getContext());
   LPadContextTy = StructType::get(IRB.getInt32Ty(),   // lpad_index
                                   IRB.getInt8PtrTy(), // lsda
                                   IRB.getInt32Ty()    // selector
   );
   return false;
 }

 // Erase the specified BBs if the BB does not have any remaining predecessors,
 // and also all its dead children.
 template <typename Container>
 static void eraseDeadBBsAndChildren(const Container &BBs) {
   SmallVector<BasicBlock *, 8> WL(BBs.begin(), BBs.end());
   while (!WL.empty()) {
     auto *BB = WL.pop_back_val();
     if (pred_begin(BB) != pred_end(BB))
       continue;
     WL.append(succ_begin(BB), succ_end(BB));
     DeleteDeadBlock(BB);
   }
 }

 bool WasmEHPrepare::runOnFunction(Function &F) {
   bool Changed = false;
   Changed |= prepareThrows(F);
   Changed |= prepareEHPads(F);
   return Changed;
 }

 bool WasmEHPrepare::prepareThrows(Function &F) {
   Module &M = *F.getParent();
   IRBuilder<> IRB(F.getContext());
   bool Changed = false;

   // wasm.throw() intinsic, which will be lowered to wasm 'throw' instruction.
   ThrowF = Intrinsic::getDeclaration(&M, Intrinsic::wasm_throw);

   // Insert an unreachable instruction after a call to @llvm.wasm.throw and
   // delete all following instructions within the BB, and delete all the dead
   // children of the BB as well.
   for (User *U : ThrowF->users()) {
     // A call to @llvm.wasm.throw() is only generated from
     // __builtin_wasm_throw() builtin call within libcxxabi, and cannot be an
     // InvokeInst.
     auto *ThrowI = cast<CallInst>(U);
     if (ThrowI->getFunction() != &F)
       continue;
     Changed = true;
     auto *BB = ThrowI->getParent();
     SmallVector<BasicBlock *, 4> Succs(succ_begin(BB), succ_end(BB));
     auto &InstList = BB->getInstList();
     InstList.erase(std::next(BasicBlock::iterator(ThrowI)), InstList.end());
     IRB.SetInsertPoint(BB);
     IRB.CreateUnreachable();
     eraseDeadBBsAndChildren(Succs);
   }

   return Changed;
 }

 bool WasmEHPrepare::prepareEHPads(Function &F) {
   Module &M = *F.getParent();
   IRBuilder<> IRB(F.getContext());

   SmallVector<BasicBlock *, 16> CatchPads;
   SmallVector<BasicBlock *, 16> CleanupPads;
   for (BasicBlock &BB : F) {
     if (!BB.isEHPad())
       continue;
     auto *Pad = BB.getFirstNonPHI();
     if (isa<CatchPadInst>(Pad))
       CatchPads.push_back(&BB);
     else if (isa<CleanupPadInst>(Pad))
       CleanupPads.push_back(&BB);
   }

   if (CatchPads.empty() && CleanupPads.empty())
     return false;
   assert(F.hasPersonalityFn() && "Personality function not found");

   // __wasm_lpad_context global variable
   LPadContextGV = cast<GlobalVariable>(
       M.getOrInsertGlobal("__wasm_lpad_context", LPadContextTy));
   LPadIndexField = IRB.CreateConstGEP2_32(LPadContextTy, LPadContextGV, 0, 0,
                                           "lpad_index_gep");
   LSDAField =
       IRB.CreateConstGEP2_32(LPadContextTy, LPadContextGV, 0, 1, "lsda_gep");
   SelectorField = IRB.CreateConstGEP2_32(LPadContextTy, LPadContextGV, 0, 2,
                                          "selector_gep");

   // wasm.catch() intinsic, which will be lowered to wasm 'catch' instruction.
   CatchF = Intrinsic::getDeclaration(&M, Intrinsic::wasm_catch);
   // wasm.landingpad.index() intrinsic, which is to specify landingpad index
   LPadIndexF = Intrinsic::getDeclaration(&M, Intrinsic::wasm_landingpad_index);
   // wasm.lsda() intrinsic. Returns the address of LSDA table for the current
   // function.
   LSDAF = Intrinsic::getDeclaration(&M, Intrinsic::wasm_lsda);
   // wasm.get.exception() and wasm.get.ehselector() intrinsics. Calls to these
   // are generated in clang.
   GetExnF = Intrinsic::getDeclaration(&M, Intrinsic::wasm_get_exception);
   GetSelectorF = Intrinsic::getDeclaration(&M, Intrinsic::wasm_get_ehselector);

   // _Unwind_CallPersonality() wrapper function, which calls the personality
   CallPersonalityF = cast<Function>(M.getOrInsertFunction(
       "_Unwind_CallPersonality", IRB.getInt32Ty(), IRB.getInt8PtrTy()));
   CallPersonalityF->setDoesNotThrow();

   // __clang_call_terminate() function, which is inserted by clang in case a
   // cleanup throws
   ClangCallTermF = M.getFunction("__clang_call_terminate");

   unsigned Index = 0;
   for (auto *BB : CatchPads) {
     auto *CPI = cast<CatchPadInst>(BB->getFirstNonPHI());
     // In case of a single catch (...), we don't need to emit LSDA
     if (CPI->getNumArgOperands() == 1 &&
         cast<Constant>(CPI->getArgOperand(0))->isNullValue())
       prepareEHPad(BB, -1);
     else
       prepareEHPad(BB, Index++);
   }

   if (!ClangCallTermF)
     return !CatchPads.empty();

   // Cleanuppads will turn into catch_all later, but cleanuppads with a call to
   // __clang_call_terminate() is a special case. __clang_call_terminate() takes
   // an exception object, so we have to duplicate call in both 'catch <C++ tag>'
   // and 'catch_all' clauses. Here we only insert a call to catch; the
   // duplication will be done later. In catch_all, the exception object will be
   // set to null.
   for (auto *BB : CleanupPads)
     for (auto &I : *BB)
       if (auto *CI = dyn_cast<CallInst>(&I))
         if (CI->getCalledValue() == ClangCallTermF)
           prepareEHPad(BB, -1);

   return true;
 }

 void WasmEHPrepare::prepareEHPad(BasicBlock *BB, unsigned Index) {
   assert(BB->isEHPad() && "BB is not an EHPad!");
   IRBuilder<> IRB(BB->getContext());

   IRB.SetInsertPoint(&*BB->getFirstInsertionPt());
   // The argument to wasm.catch() is the tag for C++ exceptions, which we set to
   // 0 for this module.
   // Pseudocode: void *exn = wasm.catch(0);
   Instruction *Exn = IRB.CreateCall(CatchF, IRB.getInt32(0), "exn");
   // Replace the return value of wasm.get.exception() with the return value from
   // wasm.catch().
   auto *FPI = cast<FuncletPadInst>(BB->getFirstNonPHI());
   Instruction *GetExnCI = nullptr, *GetSelectorCI = nullptr;
   for (auto &U : FPI->uses()) {
     if (auto *CI = dyn_cast<CallInst>(U.getUser())) {
       if (CI->getCalledValue() == GetExnF)
         GetExnCI = CI;
       else if (CI->getCalledValue() == GetSelectorF)
         GetSelectorCI = CI;
     }
   }

   assert(GetExnCI && "wasm.get.exception() call does not exist");
   GetExnCI->replaceAllUsesWith(Exn);
   GetExnCI->eraseFromParent();

   // In case it is a catchpad with single catch (...) or a cleanuppad, we don't
   // need to call personality function because we don't need a selector.
   if (FPI->getNumArgOperands() == 0 ||
       (FPI->getNumArgOperands() == 1 &&
        cast<Constant>(FPI->getArgOperand(0))->isNullValue())) {
     if (GetSelectorCI) {
       assert(GetSelectorCI->use_empty() &&
              "wasm.get.ehselector() still has uses!");
       GetSelectorCI->eraseFromParent();
     }
     return;
   }
   IRB.SetInsertPoint(Exn->getNextNode());

   // This is to create a map of <landingpad EH label, landingpad index> in
   // SelectionDAGISel, which is to be used in EHStreamer to emit LSDA tables.
   // Pseudocode: wasm.landingpad.index(Index);
   IRB.CreateCall(LPadIndexF, {FPI, IRB.getInt32(Index)});

   // Pseudocode: __wasm_lpad_context.lpad_index = index;
   IRB.CreateStore(IRB.getInt32(Index), LPadIndexField);

   // Store LSDA address only if this catchpad belongs to a top-level
   // catchswitch. If there is another catchpad that dominates this pad, we don't
   // need to store LSDA address again, because they are the same throughout the
   // function and have been already stored before.
   // TODO Can we not store LSDA address in user function but make libcxxabi
   // compute it?
   auto *CPI = cast<CatchPadInst>(FPI);
   if (isa<ConstantTokenNone>(CPI->getCatchSwitch()->getParentPad()))
     // Pseudocode: __wasm_lpad_context.lsda = wasm.lsda();
     IRB.CreateStore(IRB.CreateCall(LSDAF), LSDAField);

   // Pseudocode: _Unwind_CallPersonality(exn);
   CallInst *PersCI =
       IRB.CreateCall(CallPersonalityF, Exn, OperandBundleDef("funclet", CPI));
   PersCI->setDoesNotThrow();

   // Pseudocode: int selector = __wasm.landingpad_context.selector;
   Instruction *Selector = IRB.CreateLoad(SelectorField, "selector");

   // Replace the return value from wasm.get.ehselector() with the selector value
   // loaded from __wasm_lpad_context.selector.
   assert(GetSelectorCI && "wasm.get.ehselector() call does not exist");
   GetSelectorCI->replaceAllUsesWith(Selector);
   GetSelectorCI->eraseFromParent();
 }

 void llvm::calculateWasmEHInfo(const Function *F, WasmEHFuncInfo &EHInfo) {
   for (const auto &BB : *F) {
     if (!BB.isEHPad())
       continue;
     const Instruction *Pad = BB.getFirstNonPHI();

     // If an exception is not caught by a catchpad (i.e., it is a foreign
     // exception), it will unwind to its parent catchswitch's unwind
     // destination. We don't record an unwind destination for cleanuppads
     // because every exception should be caught by it.
     if (const auto *CatchPad = dyn_cast<CatchPadInst>(Pad)) {
       const auto *UnwindBB = CatchPad->getCatchSwitch()->getUnwindDest();
       if (!UnwindBB)
         continue;
       const Instruction *UnwindPad = UnwindBB->getFirstNonPHI();
       if (const auto *CatchSwitch = dyn_cast<CatchSwitchInst>(UnwindPad))
         // Currently there should be only one handler per a catchswitch.
         EHInfo.setEHPadUnwindDest(&BB, *CatchSwitch->handlers().begin());
       else // cleanuppad
         EHInfo.setEHPadUnwindDest(&BB, UnwindBB);
     }
   }

   // Record the unwind destination for invoke and cleanupret instructions.
   for (const auto &BB : *F) {
     const Instruction *TI = BB.getTerminator();
     BasicBlock *UnwindBB = nullptr;
     if (const auto *Invoke = dyn_cast<InvokeInst>(TI))
       UnwindBB = Invoke->getUnwindDest();
     else if (const auto *CleanupRet = dyn_cast<CleanupReturnInst>(TI))
       UnwindBB = CleanupRet->getUnwindDest();
     if (!UnwindBB)
       continue;
     const Instruction *UnwindPad = UnwindBB->getFirstNonPHI();
     if (const auto *CatchSwitch = dyn_cast<CatchSwitchInst>(UnwindPad))
       // Currently there should be only one handler per a catchswitch.
       EHInfo.setThrowUnwindDest(&BB, *CatchSwitch->handlers().begin());
     else // cleanuppad
       EHInfo.setThrowUnwindDest(&BB, UnwindBB);
   }
 }
	//===-- WasmEHPrepare - Prepare excepton handling for WebAssembly --------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This transformation is designed for use by code generators which use
	// WebAssembly exception handling scheme.
	//
	// WebAssembly exception handling uses Windows exception IR for the middle level
	// representation. This pass does the following transformation for every
	// catchpad block:
	// (In C-style pseudocode)
	//
	// - Before:
	// catchpad ...
	// exn = wasm.get.exception();
	// selector = wasm.get.selector();
	// ...
	//
	// - After:
	// catchpad ...
	// exn = wasm.catch(0); // 0 is a tag for C++
	// wasm.landingpad.index(index);
	// // Only add below in case it's not a single catch (...)
	// __wasm_lpad_context.lpad_index = index;
	// __wasm_lpad_context.lsda = wasm.lsda();
	// _Unwind_CallPersonality(exn);
	// int selector = __wasm.landingpad_context.selector;
	// ...
	//
	// Also, does the following for a cleanuppad block with a call to
	// __clang_call_terminate():
	// - Before:
	// cleanuppad ...
	// exn = wasm.get.exception();
	// __clang_call_terminate(exn);
	//
	// - After:
	// cleanuppad ...
	// exn = wasm.catch(0); // 0 is a tag for C++
	// __clang_call_terminate(exn);
	//
	//
	// * Background: WebAssembly EH instructions
	// WebAssembly's try and catch instructions are structured as follows:
	// try
	// instruction*
	// catch (C++ tag)
	// instruction*
	// ...
	// catch_all
	// instruction*
	// try_end
	//
	// A catch instruction in WebAssembly does not correspond to a C++ catch clause.
	// In WebAssembly, there is a single catch instruction for all C++ exceptions.
	// There can be more catch instructions for exceptions in other languages, but
	// they are not generated for now. catch_all catches all exceptions including
	// foreign exceptions (e.g. JavaScript). We turn catchpads into catch (C++ tag)
	// and cleanuppads into catch_all, with one exception: cleanuppad with a call to
	// __clang_call_terminate should be both in catch (C++ tag) and catch_all.
	//
	//
	// * Background: Direct personality function call
	// In WebAssembly EH, the VM is responsible for unwinding the stack once an
	// exception is thrown. After the stack is unwound, the control flow is
	// transfered to WebAssembly 'catch' instruction, which returns a caught
	// exception object.
	//
	// Unwinding the stack is not done by libunwind but the VM, so the personality
	// function in libcxxabi cannot be called from libunwind during the unwinding
	// process. So after a catch instruction, we insert a call to a wrapper function
	// in libunwind that in turn calls the real personality function.
	//
	// In Itanium EH, if the personality function decides there is no matching catch
	// clause in a call frame and no cleanup action to perform, the unwinder doesn't
	// stop there and continues unwinding. But in Wasm EH, the unwinder stops at
	// every call frame with a catch intruction, after which the personality
	// function is called from the compiler-generated user code here.
	//
	// In libunwind, we have this struct that serves as a communincation channel
	// between the compiler-generated user code and the personality function in
	// libcxxabi.
	//
	// struct _Unwind_LandingPadContext {
	// uintptr_t lpad_index;
	// uintptr_t lsda;
	// uintptr_t selector;
	// };
	// struct _Unwind_LandingPadContext __wasm_lpad_context = ...;
	//
	// And this wrapper in libunwind calls the personality function.
	//
	// _Unwind_Reason_Code _Unwind_CallPersonality(void *exception_ptr) {
	// struct _Unwind_Exception *exception_obj =
	// (struct _Unwind_Exception *)exception_ptr;
	// _Unwind_Reason_Code ret = __gxx_personality_v0(
	// 1, _UA_CLEANUP_PHASE, exception_obj->exception_class, exception_obj,
	// (struct _Unwind_Context *)__wasm_lpad_context);
	// return ret;
	// }
	//
	// We pass a landing pad index, and the address of LSDA for the current function
	// to the wrapper function _Unwind_CallPersonality in libunwind, and we retrieve
	// the selector after it returns.
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/ADT/SetVector.h"
	#include "llvm/ADT/Statistic.h"
	#include "llvm/ADT/Triple.h"
	#include "llvm/CodeGen/Passes.h"
	#include "llvm/CodeGen/TargetLowering.h"
	#include "llvm/CodeGen/TargetSubtargetInfo.h"
	#include "llvm/CodeGen/WasmEHFuncInfo.h"
	#include "llvm/IR/Dominators.h"
	#include "llvm/IR/IRBuilder.h"
	#include "llvm/IR/Intrinsics.h"
	#include "llvm/Pass.h"
	#include "llvm/Transforms/Utils/BasicBlockUtils.h"

	using namespace llvm;

	#define DEBUG_TYPE "wasmehprepare"

	namespace {
	class WasmEHPrepare : public FunctionPass {
	Type *LPadContextTy = nullptr; // type of 'struct _Unwind_LandingPadContext'
	GlobalVariable *LPadContextGV = nullptr; // __wasm_lpad_context

	// Field addresses of struct _Unwind_LandingPadContext
	Value *LPadIndexField = nullptr; // lpad_index field
	Value *LSDAField = nullptr; // lsda field
	Value *SelectorField = nullptr; // selector

	Function *ThrowF = nullptr; // wasm.throw() intrinsic
	Function *CatchF = nullptr; // wasm.catch.extract() intrinsic
	Function *LPadIndexF = nullptr; // wasm.landingpad.index() intrinsic
	Function *LSDAF = nullptr; // wasm.lsda() intrinsic
	Function *GetExnF = nullptr; // wasm.get.exception() intrinsic
	Function *GetSelectorF = nullptr; // wasm.get.ehselector() intrinsic
	Function *CallPersonalityF = nullptr; // _Unwind_CallPersonality() wrapper
	Function *ClangCallTermF = nullptr; // __clang_call_terminate() function

	bool prepareEHPads(Function &F);
	bool prepareThrows(Function &F);

	void prepareEHPad(BasicBlock *BB, unsigned Index);
	void prepareTerminateCleanupPad(BasicBlock *BB);

	public:
	static char ID; // Pass identification, replacement for typeid

	WasmEHPrepare() : FunctionPass(ID) {}

	bool doInitialization(Module &M) override;
	bool runOnFunction(Function &F) override;

	StringRef getPassName() const override {
	return "WebAssembly Exception handling preparation";
	}
	};
	} // end anonymous namespace

	char WasmEHPrepare::ID = 0;
	INITIALIZE_PASS(WasmEHPrepare, DEBUG_TYPE, "Prepare WebAssembly exceptions",
	false, false)

	FunctionPass *llvm::createWasmEHPass() { return new WasmEHPrepare(); }

	bool WasmEHPrepare::doInitialization(Module &M) {
	IRBuilder<> IRB(M.getContext());
	LPadContextTy = StructType::get(IRB.getInt32Ty(), // lpad_index
	IRB.getInt8PtrTy(), // lsda
	IRB.getInt32Ty() // selector
	);
	return false;
	}

	// Erase the specified BBs if the BB does not have any remaining predecessors,
	// and also all its dead children.
	template <typename Container>
	static void eraseDeadBBsAndChildren(const Container &BBs) {
	SmallVector<BasicBlock *, 8> WL(BBs.begin(), BBs.end());
	while (!WL.empty()) {
	auto *BB = WL.pop_back_val();
	if (pred_begin(BB) != pred_end(BB))
	continue;
	WL.append(succ_begin(BB), succ_end(BB));
	DeleteDeadBlock(BB);
	}
	}

	bool WasmEHPrepare::runOnFunction(Function &F) {
	bool Changed = false;
	Changed \|= prepareThrows(F);
	Changed \|= prepareEHPads(F);
	return Changed;
	}

	bool WasmEHPrepare::prepareThrows(Function &F) {
	Module &M = *F.getParent();
	IRBuilder<> IRB(F.getContext());
	bool Changed = false;

	// wasm.throw() intinsic, which will be lowered to wasm 'throw' instruction.
	ThrowF = Intrinsic::getDeclaration(&M, Intrinsic::wasm_throw);

	// Insert an unreachable instruction after a call to @llvm.wasm.throw and
	// delete all following instructions within the BB, and delete all the dead
	// children of the BB as well.
	for (User *U : ThrowF->users()) {
	// A call to @llvm.wasm.throw() is only generated from
	// __builtin_wasm_throw() builtin call within libcxxabi, and cannot be an
	// InvokeInst.
	auto *ThrowI = cast<CallInst>(U);
	if (ThrowI->getFunction() != &F)
	continue;
	Changed = true;
	auto *BB = ThrowI->getParent();
	SmallVector<BasicBlock *, 4> Succs(succ_begin(BB), succ_end(BB));
	auto &InstList = BB->getInstList();
	InstList.erase(std::next(BasicBlock::iterator(ThrowI)), InstList.end());
	IRB.SetInsertPoint(BB);
	IRB.CreateUnreachable();
	eraseDeadBBsAndChildren(Succs);
	}

	return Changed;
	}

	bool WasmEHPrepare::prepareEHPads(Function &F) {
	Module &M = *F.getParent();
	IRBuilder<> IRB(F.getContext());

	SmallVector<BasicBlock *, 16> CatchPads;
	SmallVector<BasicBlock *, 16> CleanupPads;
	for (BasicBlock &BB : F) {
	if (!BB.isEHPad())
	continue;
	auto *Pad = BB.getFirstNonPHI();
	if (isa<CatchPadInst>(Pad))
	CatchPads.push_back(&BB);
	else if (isa<CleanupPadInst>(Pad))
	CleanupPads.push_back(&BB);
	}

	if (CatchPads.empty() && CleanupPads.empty())
	return false;
	assert(F.hasPersonalityFn() && "Personality function not found");

	// __wasm_lpad_context global variable
	LPadContextGV = cast<GlobalVariable>(
	M.getOrInsertGlobal("__wasm_lpad_context", LPadContextTy));
	LPadIndexField = IRB.CreateConstGEP2_32(LPadContextTy, LPadContextGV, 0, 0,
	"lpad_index_gep");
	LSDAField =
	IRB.CreateConstGEP2_32(LPadContextTy, LPadContextGV, 0, 1, "lsda_gep");
	SelectorField = IRB.CreateConstGEP2_32(LPadContextTy, LPadContextGV, 0, 2,
	"selector_gep");

	// wasm.catch() intinsic, which will be lowered to wasm 'catch' instruction.
	CatchF = Intrinsic::getDeclaration(&M, Intrinsic::wasm_catch);
	// wasm.landingpad.index() intrinsic, which is to specify landingpad index
	LPadIndexF = Intrinsic::getDeclaration(&M, Intrinsic::wasm_landingpad_index);
	// wasm.lsda() intrinsic. Returns the address of LSDA table for the current
	// function.
	LSDAF = Intrinsic::getDeclaration(&M, Intrinsic::wasm_lsda);
	// wasm.get.exception() and wasm.get.ehselector() intrinsics. Calls to these
	// are generated in clang.
	GetExnF = Intrinsic::getDeclaration(&M, Intrinsic::wasm_get_exception);
	GetSelectorF = Intrinsic::getDeclaration(&M, Intrinsic::wasm_get_ehselector);

	// _Unwind_CallPersonality() wrapper function, which calls the personality
	CallPersonalityF = cast<Function>(M.getOrInsertFunction(
	"_Unwind_CallPersonality", IRB.getInt32Ty(), IRB.getInt8PtrTy()));
	CallPersonalityF->setDoesNotThrow();

	// __clang_call_terminate() function, which is inserted by clang in case a
	// cleanup throws
	ClangCallTermF = M.getFunction("__clang_call_terminate");

	unsigned Index = 0;
	for (auto *BB : CatchPads) {
	auto *CPI = cast<CatchPadInst>(BB->getFirstNonPHI());
	// In case of a single catch (...), we don't need to emit LSDA
	if (CPI->getNumArgOperands() == 1 &&
	cast<Constant>(CPI->getArgOperand(0))->isNullValue())
	prepareEHPad(BB, -1);
	else
	prepareEHPad(BB, Index++);
	}

	if (!ClangCallTermF)
	return !CatchPads.empty();

	// Cleanuppads will turn into catch_all later, but cleanuppads with a call to
	// __clang_call_terminate() is a special case. __clang_call_terminate() takes
	// an exception object, so we have to duplicate call in both 'catch <C++ tag>'
	// and 'catch_all' clauses. Here we only insert a call to catch; the
	// duplication will be done later. In catch_all, the exception object will be
	// set to null.
	for (auto *BB : CleanupPads)
	for (auto &I : *BB)
	if (auto *CI = dyn_cast<CallInst>(&I))
	if (CI->getCalledValue() == ClangCallTermF)
	prepareEHPad(BB, -1);

	return true;
	}

	void WasmEHPrepare::prepareEHPad(BasicBlock *BB, unsigned Index) {
	assert(BB->isEHPad() && "BB is not an EHPad!");
	IRBuilder<> IRB(BB->getContext());

	IRB.SetInsertPoint(&*BB->getFirstInsertionPt());
	// The argument to wasm.catch() is the tag for C++ exceptions, which we set to
	// 0 for this module.
	// Pseudocode: void *exn = wasm.catch(0);
	Instruction *Exn = IRB.CreateCall(CatchF, IRB.getInt32(0), "exn");
	// Replace the return value of wasm.get.exception() with the return value from
	// wasm.catch().
	auto *FPI = cast<FuncletPadInst>(BB->getFirstNonPHI());
	Instruction GetExnCI = nullptr, GetSelectorCI = nullptr;
	for (auto &U : FPI->uses()) {
	if (auto *CI = dyn_cast<CallInst>(U.getUser())) {
	if (CI->getCalledValue() == GetExnF)
	GetExnCI = CI;
	else if (CI->getCalledValue() == GetSelectorF)
	GetSelectorCI = CI;
	}
	}

	assert(GetExnCI && "wasm.get.exception() call does not exist");
	GetExnCI->replaceAllUsesWith(Exn);
	GetExnCI->eraseFromParent();

	// In case it is a catchpad with single catch (...) or a cleanuppad, we don't
	// need to call personality function because we don't need a selector.
	if (FPI->getNumArgOperands() == 0 \|\|
	(FPI->getNumArgOperands() == 1 &&
	cast<Constant>(FPI->getArgOperand(0))->isNullValue())) {
	if (GetSelectorCI) {
	assert(GetSelectorCI->use_empty() &&
	"wasm.get.ehselector() still has uses!");
	GetSelectorCI->eraseFromParent();
	}
	return;
	}
	IRB.SetInsertPoint(Exn->getNextNode());

	// This is to create a map of <landingpad EH label, landingpad index> in
	// SelectionDAGISel, which is to be used in EHStreamer to emit LSDA tables.
	// Pseudocode: wasm.landingpad.index(Index);
	IRB.CreateCall(LPadIndexF, {FPI, IRB.getInt32(Index)});

	// Pseudocode: __wasm_lpad_context.lpad_index = index;
	IRB.CreateStore(IRB.getInt32(Index), LPadIndexField);

	// Store LSDA address only if this catchpad belongs to a top-level
	// catchswitch. If there is another catchpad that dominates this pad, we don't
	// need to store LSDA address again, because they are the same throughout the
	// function and have been already stored before.
	// TODO Can we not store LSDA address in user function but make libcxxabi
	// compute it?
	auto *CPI = cast<CatchPadInst>(FPI);
	if (isa<ConstantTokenNone>(CPI->getCatchSwitch()->getParentPad()))
	// Pseudocode: __wasm_lpad_context.lsda = wasm.lsda();
	IRB.CreateStore(IRB.CreateCall(LSDAF), LSDAField);

	// Pseudocode: _Unwind_CallPersonality(exn);
	CallInst *PersCI =
	IRB.CreateCall(CallPersonalityF, Exn, OperandBundleDef("funclet", CPI));
	PersCI->setDoesNotThrow();

	// Pseudocode: int selector = __wasm.landingpad_context.selector;
	Instruction *Selector = IRB.CreateLoad(SelectorField, "selector");

	// Replace the return value from wasm.get.ehselector() with the selector value
	// loaded from __wasm_lpad_context.selector.
	assert(GetSelectorCI && "wasm.get.ehselector() call does not exist");
	GetSelectorCI->replaceAllUsesWith(Selector);
	GetSelectorCI->eraseFromParent();
	}

	void llvm::calculateWasmEHInfo(const Function *F, WasmEHFuncInfo &EHInfo) {
	for (const auto &BB : *F) {
	if (!BB.isEHPad())
	continue;
	const Instruction *Pad = BB.getFirstNonPHI();

	// If an exception is not caught by a catchpad (i.e., it is a foreign
	// exception), it will unwind to its parent catchswitch's unwind
	// destination. We don't record an unwind destination for cleanuppads
	// because every exception should be caught by it.
	if (const auto *CatchPad = dyn_cast<CatchPadInst>(Pad)) {
	const auto *UnwindBB = CatchPad->getCatchSwitch()->getUnwindDest();
	if (!UnwindBB)
	continue;
	const Instruction *UnwindPad = UnwindBB->getFirstNonPHI();
	if (const auto *CatchSwitch = dyn_cast<CatchSwitchInst>(UnwindPad))
	// Currently there should be only one handler per a catchswitch.
	EHInfo.setEHPadUnwindDest(&BB, *CatchSwitch->handlers().begin());
	else // cleanuppad
	EHInfo.setEHPadUnwindDest(&BB, UnwindBB);
	}
	}

	// Record the unwind destination for invoke and cleanupret instructions.
	for (const auto &BB : *F) {
	const Instruction *TI = BB.getTerminator();
	BasicBlock *UnwindBB = nullptr;
	if (const auto *Invoke = dyn_cast<InvokeInst>(TI))
	UnwindBB = Invoke->getUnwindDest();
	else if (const auto *CleanupRet = dyn_cast<CleanupReturnInst>(TI))
	UnwindBB = CleanupRet->getUnwindDest();
	if (!UnwindBB)
	continue;
	const Instruction *UnwindPad = UnwindBB->getFirstNonPHI();
	if (const auto *CatchSwitch = dyn_cast<CatchSwitchInst>(UnwindPad))
	// Currently there should be only one handler per a catchswitch.
	EHInfo.setThrowUnwindDest(&BB, *CatchSwitch->handlers().begin());
	else // cleanuppad
	EHInfo.setThrowUnwindDest(&BB, UnwindBB);
	}
	}