xref: /freebsd/contrib/llvm-project/llvm/lib/Target/WebAssembly/WebAssemblyCFGStackify.cpp (revision 8bcb0991864975618c09697b1aca10683346d9f0)
1 //===-- WebAssemblyCFGStackify.cpp - CFG Stackification -------------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 ///
9 /// \file
10 /// This file implements a CFG stacking pass.
11 ///
12 /// This pass inserts BLOCK, LOOP, and TRY markers to mark the start of scopes,
13 /// since scope boundaries serve as the labels for WebAssembly's control
14 /// transfers.
15 ///
16 /// This is sufficient to convert arbitrary CFGs into a form that works on
17 /// WebAssembly, provided that all loops are single-entry.
18 ///
19 /// In case we use exceptions, this pass also fixes mismatches in unwind
20 /// destinations created during transforming CFG into wasm structured format.
21 ///
22 //===----------------------------------------------------------------------===//
23 
24 #include "WebAssembly.h"
25 #include "WebAssemblyExceptionInfo.h"
26 #include "WebAssemblyMachineFunctionInfo.h"
27 #include "WebAssemblySubtarget.h"
28 #include "WebAssemblyUtilities.h"
29 #include "llvm/ADT/Statistic.h"
30 #include "llvm/CodeGen/MachineDominators.h"
31 #include "llvm/CodeGen/MachineInstrBuilder.h"
32 #include "llvm/CodeGen/MachineLoopInfo.h"
33 #include "llvm/MC/MCAsmInfo.h"
34 using namespace llvm;
35 
36 #define DEBUG_TYPE "wasm-cfg-stackify"
37 
38 STATISTIC(NumUnwindMismatches, "Number of EH pad unwind mismatches found");
39 
40 namespace {
41 class WebAssemblyCFGStackify final : public MachineFunctionPass {
42   StringRef getPassName() const override { return "WebAssembly CFG Stackify"; }
43 
44   void getAnalysisUsage(AnalysisUsage &AU) const override {
45     AU.addRequired<MachineDominatorTree>();
46     AU.addRequired<MachineLoopInfo>();
47     AU.addRequired<WebAssemblyExceptionInfo>();
48     MachineFunctionPass::getAnalysisUsage(AU);
49   }
50 
51   bool runOnMachineFunction(MachineFunction &MF) override;
52 
53   // For each block whose label represents the end of a scope, record the block
54   // which holds the beginning of the scope. This will allow us to quickly skip
55   // over scoped regions when walking blocks.
56   SmallVector<MachineBasicBlock *, 8> ScopeTops;
57 
58   // Placing markers.
59   void placeMarkers(MachineFunction &MF);
60   void placeBlockMarker(MachineBasicBlock &MBB);
61   void placeLoopMarker(MachineBasicBlock &MBB);
62   void placeTryMarker(MachineBasicBlock &MBB);
63   void removeUnnecessaryInstrs(MachineFunction &MF);
64   bool fixUnwindMismatches(MachineFunction &MF);
65   void rewriteDepthImmediates(MachineFunction &MF);
66   void fixEndsAtEndOfFunction(MachineFunction &MF);
67 
68   // For each BLOCK|LOOP|TRY, the corresponding END_(BLOCK|LOOP|TRY).
69   DenseMap<const MachineInstr *, MachineInstr *> BeginToEnd;
70   // For each END_(BLOCK|LOOP|TRY), the corresponding BLOCK|LOOP|TRY.
71   DenseMap<const MachineInstr *, MachineInstr *> EndToBegin;
72   // <TRY marker, EH pad> map
73   DenseMap<const MachineInstr *, MachineBasicBlock *> TryToEHPad;
74   // <EH pad, TRY marker> map
75   DenseMap<const MachineBasicBlock *, MachineInstr *> EHPadToTry;
76 
77   // There can be an appendix block at the end of each function, shared for:
78   // - creating a correct signature for fallthrough returns
79   // - target for rethrows that need to unwind to the caller, but are trapped
80   //   inside another try/catch
81   MachineBasicBlock *AppendixBB = nullptr;
82   MachineBasicBlock *getAppendixBlock(MachineFunction &MF) {
83     if (!AppendixBB) {
84       AppendixBB = MF.CreateMachineBasicBlock();
85       // Give it a fake predecessor so that AsmPrinter prints its label.
86       AppendixBB->addSuccessor(AppendixBB);
87       MF.push_back(AppendixBB);
88     }
89     return AppendixBB;
90   }
91 
92   // Helper functions to register / unregister scope information created by
93   // marker instructions.
94   void registerScope(MachineInstr *Begin, MachineInstr *End);
95   void registerTryScope(MachineInstr *Begin, MachineInstr *End,
96                         MachineBasicBlock *EHPad);
97   void unregisterScope(MachineInstr *Begin);
98 
99 public:
100   static char ID; // Pass identification, replacement for typeid
101   WebAssemblyCFGStackify() : MachineFunctionPass(ID) {}
102   ~WebAssemblyCFGStackify() override { releaseMemory(); }
103   void releaseMemory() override;
104 };
105 } // end anonymous namespace
106 
107 char WebAssemblyCFGStackify::ID = 0;
108 INITIALIZE_PASS(WebAssemblyCFGStackify, DEBUG_TYPE,
109                 "Insert BLOCK/LOOP/TRY markers for WebAssembly scopes", false,
110                 false)
111 
112 FunctionPass *llvm::createWebAssemblyCFGStackify() {
113   return new WebAssemblyCFGStackify();
114 }
115 
116 /// Test whether Pred has any terminators explicitly branching to MBB, as
117 /// opposed to falling through. Note that it's possible (eg. in unoptimized
118 /// code) for a branch instruction to both branch to a block and fallthrough
119 /// to it, so we check the actual branch operands to see if there are any
120 /// explicit mentions.
121 static bool explicitlyBranchesTo(MachineBasicBlock *Pred,
122                                  MachineBasicBlock *MBB) {
123   for (MachineInstr &MI : Pred->terminators())
124     for (MachineOperand &MO : MI.explicit_operands())
125       if (MO.isMBB() && MO.getMBB() == MBB)
126         return true;
127   return false;
128 }
129 
130 // Returns an iterator to the earliest position possible within the MBB,
131 // satisfying the restrictions given by BeforeSet and AfterSet. BeforeSet
132 // contains instructions that should go before the marker, and AfterSet contains
133 // ones that should go after the marker. In this function, AfterSet is only
134 // used for sanity checking.
135 static MachineBasicBlock::iterator
136 getEarliestInsertPos(MachineBasicBlock *MBB,
137                      const SmallPtrSet<const MachineInstr *, 4> &BeforeSet,
138                      const SmallPtrSet<const MachineInstr *, 4> &AfterSet) {
139   auto InsertPos = MBB->end();
140   while (InsertPos != MBB->begin()) {
141     if (BeforeSet.count(&*std::prev(InsertPos))) {
142 #ifndef NDEBUG
143       // Sanity check
144       for (auto Pos = InsertPos, E = MBB->begin(); Pos != E; --Pos)
145         assert(!AfterSet.count(&*std::prev(Pos)));
146 #endif
147       break;
148     }
149     --InsertPos;
150   }
151   return InsertPos;
152 }
153 
154 // Returns an iterator to the latest position possible within the MBB,
155 // satisfying the restrictions given by BeforeSet and AfterSet. BeforeSet
156 // contains instructions that should go before the marker, and AfterSet contains
157 // ones that should go after the marker. In this function, BeforeSet is only
158 // used for sanity checking.
159 static MachineBasicBlock::iterator
160 getLatestInsertPos(MachineBasicBlock *MBB,
161                    const SmallPtrSet<const MachineInstr *, 4> &BeforeSet,
162                    const SmallPtrSet<const MachineInstr *, 4> &AfterSet) {
163   auto InsertPos = MBB->begin();
164   while (InsertPos != MBB->end()) {
165     if (AfterSet.count(&*InsertPos)) {
166 #ifndef NDEBUG
167       // Sanity check
168       for (auto Pos = InsertPos, E = MBB->end(); Pos != E; ++Pos)
169         assert(!BeforeSet.count(&*Pos));
170 #endif
171       break;
172     }
173     ++InsertPos;
174   }
175   return InsertPos;
176 }
177 
178 void WebAssemblyCFGStackify::registerScope(MachineInstr *Begin,
179                                            MachineInstr *End) {
180   BeginToEnd[Begin] = End;
181   EndToBegin[End] = Begin;
182 }
183 
184 void WebAssemblyCFGStackify::registerTryScope(MachineInstr *Begin,
185                                               MachineInstr *End,
186                                               MachineBasicBlock *EHPad) {
187   registerScope(Begin, End);
188   TryToEHPad[Begin] = EHPad;
189   EHPadToTry[EHPad] = Begin;
190 }
191 
192 void WebAssemblyCFGStackify::unregisterScope(MachineInstr *Begin) {
193   assert(BeginToEnd.count(Begin));
194   MachineInstr *End = BeginToEnd[Begin];
195   assert(EndToBegin.count(End));
196   BeginToEnd.erase(Begin);
197   EndToBegin.erase(End);
198   MachineBasicBlock *EHPad = TryToEHPad.lookup(Begin);
199   if (EHPad) {
200     assert(EHPadToTry.count(EHPad));
201     TryToEHPad.erase(Begin);
202     EHPadToTry.erase(EHPad);
203   }
204 }
205 
206 /// Insert a BLOCK marker for branches to MBB (if needed).
207 // TODO Consider a more generalized way of handling block (and also loop and
208 // try) signatures when we implement the multi-value proposal later.
209 void WebAssemblyCFGStackify::placeBlockMarker(MachineBasicBlock &MBB) {
210   assert(!MBB.isEHPad());
211   MachineFunction &MF = *MBB.getParent();
212   auto &MDT = getAnalysis<MachineDominatorTree>();
213   const auto &TII = *MF.getSubtarget<WebAssemblySubtarget>().getInstrInfo();
214   const auto &MFI = *MF.getInfo<WebAssemblyFunctionInfo>();
215 
216   // First compute the nearest common dominator of all forward non-fallthrough
217   // predecessors so that we minimize the time that the BLOCK is on the stack,
218   // which reduces overall stack height.
219   MachineBasicBlock *Header = nullptr;
220   bool IsBranchedTo = false;
221   bool IsBrOnExn = false;
222   MachineInstr *BrOnExn = nullptr;
223   int MBBNumber = MBB.getNumber();
224   for (MachineBasicBlock *Pred : MBB.predecessors()) {
225     if (Pred->getNumber() < MBBNumber) {
226       Header = Header ? MDT.findNearestCommonDominator(Header, Pred) : Pred;
227       if (explicitlyBranchesTo(Pred, &MBB)) {
228         IsBranchedTo = true;
229         if (Pred->getFirstTerminator()->getOpcode() == WebAssembly::BR_ON_EXN) {
230           IsBrOnExn = true;
231           assert(!BrOnExn && "There should be only one br_on_exn per block");
232           BrOnExn = &*Pred->getFirstTerminator();
233         }
234       }
235     }
236   }
237   if (!Header)
238     return;
239   if (!IsBranchedTo)
240     return;
241 
242   assert(&MBB != &MF.front() && "Header blocks shouldn't have predecessors");
243   MachineBasicBlock *LayoutPred = MBB.getPrevNode();
244 
245   // If the nearest common dominator is inside a more deeply nested context,
246   // walk out to the nearest scope which isn't more deeply nested.
247   for (MachineFunction::iterator I(LayoutPred), E(Header); I != E; --I) {
248     if (MachineBasicBlock *ScopeTop = ScopeTops[I->getNumber()]) {
249       if (ScopeTop->getNumber() > Header->getNumber()) {
250         // Skip over an intervening scope.
251         I = std::next(ScopeTop->getIterator());
252       } else {
253         // We found a scope level at an appropriate depth.
254         Header = ScopeTop;
255         break;
256       }
257     }
258   }
259 
260   // Decide where in Header to put the BLOCK.
261 
262   // Instructions that should go before the BLOCK.
263   SmallPtrSet<const MachineInstr *, 4> BeforeSet;
264   // Instructions that should go after the BLOCK.
265   SmallPtrSet<const MachineInstr *, 4> AfterSet;
266   for (const auto &MI : *Header) {
267     // If there is a previously placed LOOP marker and the bottom block of the
268     // loop is above MBB, it should be after the BLOCK, because the loop is
269     // nested in this BLOCK. Otherwise it should be before the BLOCK.
270     if (MI.getOpcode() == WebAssembly::LOOP) {
271       auto *LoopBottom = BeginToEnd[&MI]->getParent()->getPrevNode();
272       if (MBB.getNumber() > LoopBottom->getNumber())
273         AfterSet.insert(&MI);
274 #ifndef NDEBUG
275       else
276         BeforeSet.insert(&MI);
277 #endif
278     }
279 
280     // All previously inserted BLOCK/TRY markers should be after the BLOCK
281     // because they are all nested blocks.
282     if (MI.getOpcode() == WebAssembly::BLOCK ||
283         MI.getOpcode() == WebAssembly::TRY)
284       AfterSet.insert(&MI);
285 
286 #ifndef NDEBUG
287     // All END_(BLOCK|LOOP|TRY) markers should be before the BLOCK.
288     if (MI.getOpcode() == WebAssembly::END_BLOCK ||
289         MI.getOpcode() == WebAssembly::END_LOOP ||
290         MI.getOpcode() == WebAssembly::END_TRY)
291       BeforeSet.insert(&MI);
292 #endif
293 
294     // Terminators should go after the BLOCK.
295     if (MI.isTerminator())
296       AfterSet.insert(&MI);
297   }
298 
299   // Local expression tree should go after the BLOCK.
300   for (auto I = Header->getFirstTerminator(), E = Header->begin(); I != E;
301        --I) {
302     if (std::prev(I)->isDebugInstr() || std::prev(I)->isPosition())
303       continue;
304     if (WebAssembly::isChild(*std::prev(I), MFI))
305       AfterSet.insert(&*std::prev(I));
306     else
307       break;
308   }
309 
310   // Add the BLOCK.
311 
312   // 'br_on_exn' extracts exnref object and pushes variable number of values
313   // depending on its tag. For C++ exception, its a single i32 value, and the
314   // generated code will be in the form of:
315   // block i32
316   //   br_on_exn 0, $__cpp_exception
317   //   rethrow
318   // end_block
319   WebAssembly::BlockType ReturnType = WebAssembly::BlockType::Void;
320   if (IsBrOnExn) {
321     const char *TagName = BrOnExn->getOperand(1).getSymbolName();
322     if (std::strcmp(TagName, "__cpp_exception") != 0)
323       llvm_unreachable("Only C++ exception is supported");
324     ReturnType = WebAssembly::BlockType::I32;
325   }
326 
327   auto InsertPos = getLatestInsertPos(Header, BeforeSet, AfterSet);
328   MachineInstr *Begin =
329       BuildMI(*Header, InsertPos, Header->findDebugLoc(InsertPos),
330               TII.get(WebAssembly::BLOCK))
331           .addImm(int64_t(ReturnType));
332 
333   // Decide where in Header to put the END_BLOCK.
334   BeforeSet.clear();
335   AfterSet.clear();
336   for (auto &MI : MBB) {
337 #ifndef NDEBUG
338     // END_BLOCK should precede existing LOOP and TRY markers.
339     if (MI.getOpcode() == WebAssembly::LOOP ||
340         MI.getOpcode() == WebAssembly::TRY)
341       AfterSet.insert(&MI);
342 #endif
343 
344     // If there is a previously placed END_LOOP marker and the header of the
345     // loop is above this block's header, the END_LOOP should be placed after
346     // the BLOCK, because the loop contains this block. Otherwise the END_LOOP
347     // should be placed before the BLOCK. The same for END_TRY.
348     if (MI.getOpcode() == WebAssembly::END_LOOP ||
349         MI.getOpcode() == WebAssembly::END_TRY) {
350       if (EndToBegin[&MI]->getParent()->getNumber() >= Header->getNumber())
351         BeforeSet.insert(&MI);
352 #ifndef NDEBUG
353       else
354         AfterSet.insert(&MI);
355 #endif
356     }
357   }
358 
359   // Mark the end of the block.
360   InsertPos = getEarliestInsertPos(&MBB, BeforeSet, AfterSet);
361   MachineInstr *End = BuildMI(MBB, InsertPos, MBB.findPrevDebugLoc(InsertPos),
362                               TII.get(WebAssembly::END_BLOCK));
363   registerScope(Begin, End);
364 
365   // Track the farthest-spanning scope that ends at this point.
366   int Number = MBB.getNumber();
367   if (!ScopeTops[Number] ||
368       ScopeTops[Number]->getNumber() > Header->getNumber())
369     ScopeTops[Number] = Header;
370 }
371 
372 /// Insert a LOOP marker for a loop starting at MBB (if it's a loop header).
373 void WebAssemblyCFGStackify::placeLoopMarker(MachineBasicBlock &MBB) {
374   MachineFunction &MF = *MBB.getParent();
375   const auto &MLI = getAnalysis<MachineLoopInfo>();
376   const auto &TII = *MF.getSubtarget<WebAssemblySubtarget>().getInstrInfo();
377 
378   MachineLoop *Loop = MLI.getLoopFor(&MBB);
379   if (!Loop || Loop->getHeader() != &MBB)
380     return;
381 
382   // The operand of a LOOP is the first block after the loop. If the loop is the
383   // bottom of the function, insert a dummy block at the end.
384   MachineBasicBlock *Bottom = WebAssembly::getBottom(Loop);
385   auto Iter = std::next(Bottom->getIterator());
386   if (Iter == MF.end()) {
387     getAppendixBlock(MF);
388     Iter = std::next(Bottom->getIterator());
389   }
390   MachineBasicBlock *AfterLoop = &*Iter;
391 
392   // Decide where in Header to put the LOOP.
393   SmallPtrSet<const MachineInstr *, 4> BeforeSet;
394   SmallPtrSet<const MachineInstr *, 4> AfterSet;
395   for (const auto &MI : MBB) {
396     // LOOP marker should be after any existing loop that ends here. Otherwise
397     // we assume the instruction belongs to the loop.
398     if (MI.getOpcode() == WebAssembly::END_LOOP)
399       BeforeSet.insert(&MI);
400 #ifndef NDEBUG
401     else
402       AfterSet.insert(&MI);
403 #endif
404   }
405 
406   // Mark the beginning of the loop.
407   auto InsertPos = getEarliestInsertPos(&MBB, BeforeSet, AfterSet);
408   MachineInstr *Begin = BuildMI(MBB, InsertPos, MBB.findDebugLoc(InsertPos),
409                                 TII.get(WebAssembly::LOOP))
410                             .addImm(int64_t(WebAssembly::BlockType::Void));
411 
412   // Decide where in Header to put the END_LOOP.
413   BeforeSet.clear();
414   AfterSet.clear();
415 #ifndef NDEBUG
416   for (const auto &MI : MBB)
417     // Existing END_LOOP markers belong to parent loops of this loop
418     if (MI.getOpcode() == WebAssembly::END_LOOP)
419       AfterSet.insert(&MI);
420 #endif
421 
422   // Mark the end of the loop (using arbitrary debug location that branched to
423   // the loop end as its location).
424   InsertPos = getEarliestInsertPos(AfterLoop, BeforeSet, AfterSet);
425   DebugLoc EndDL = AfterLoop->pred_empty()
426                        ? DebugLoc()
427                        : (*AfterLoop->pred_rbegin())->findBranchDebugLoc();
428   MachineInstr *End =
429       BuildMI(*AfterLoop, InsertPos, EndDL, TII.get(WebAssembly::END_LOOP));
430   registerScope(Begin, End);
431 
432   assert((!ScopeTops[AfterLoop->getNumber()] ||
433           ScopeTops[AfterLoop->getNumber()]->getNumber() < MBB.getNumber()) &&
434          "With block sorting the outermost loop for a block should be first.");
435   if (!ScopeTops[AfterLoop->getNumber()])
436     ScopeTops[AfterLoop->getNumber()] = &MBB;
437 }
438 
439 void WebAssemblyCFGStackify::placeTryMarker(MachineBasicBlock &MBB) {
440   assert(MBB.isEHPad());
441   MachineFunction &MF = *MBB.getParent();
442   auto &MDT = getAnalysis<MachineDominatorTree>();
443   const auto &TII = *MF.getSubtarget<WebAssemblySubtarget>().getInstrInfo();
444   const auto &WEI = getAnalysis<WebAssemblyExceptionInfo>();
445   const auto &MFI = *MF.getInfo<WebAssemblyFunctionInfo>();
446 
447   // Compute the nearest common dominator of all unwind predecessors
448   MachineBasicBlock *Header = nullptr;
449   int MBBNumber = MBB.getNumber();
450   for (auto *Pred : MBB.predecessors()) {
451     if (Pred->getNumber() < MBBNumber) {
452       Header = Header ? MDT.findNearestCommonDominator(Header, Pred) : Pred;
453       assert(!explicitlyBranchesTo(Pred, &MBB) &&
454              "Explicit branch to an EH pad!");
455     }
456   }
457   if (!Header)
458     return;
459 
460   // If this try is at the bottom of the function, insert a dummy block at the
461   // end.
462   WebAssemblyException *WE = WEI.getExceptionFor(&MBB);
463   assert(WE);
464   MachineBasicBlock *Bottom = WebAssembly::getBottom(WE);
465 
466   auto Iter = std::next(Bottom->getIterator());
467   if (Iter == MF.end()) {
468     getAppendixBlock(MF);
469     Iter = std::next(Bottom->getIterator());
470   }
471   MachineBasicBlock *Cont = &*Iter;
472 
473   assert(Cont != &MF.front());
474   MachineBasicBlock *LayoutPred = Cont->getPrevNode();
475 
476   // If the nearest common dominator is inside a more deeply nested context,
477   // walk out to the nearest scope which isn't more deeply nested.
478   for (MachineFunction::iterator I(LayoutPred), E(Header); I != E; --I) {
479     if (MachineBasicBlock *ScopeTop = ScopeTops[I->getNumber()]) {
480       if (ScopeTop->getNumber() > Header->getNumber()) {
481         // Skip over an intervening scope.
482         I = std::next(ScopeTop->getIterator());
483       } else {
484         // We found a scope level at an appropriate depth.
485         Header = ScopeTop;
486         break;
487       }
488     }
489   }
490 
491   // Decide where in Header to put the TRY.
492 
493   // Instructions that should go before the TRY.
494   SmallPtrSet<const MachineInstr *, 4> BeforeSet;
495   // Instructions that should go after the TRY.
496   SmallPtrSet<const MachineInstr *, 4> AfterSet;
497   for (const auto &MI : *Header) {
498     // If there is a previously placed LOOP marker and the bottom block of the
499     // loop is above MBB, it should be after the TRY, because the loop is nested
500     // in this TRY. Otherwise it should be before the TRY.
501     if (MI.getOpcode() == WebAssembly::LOOP) {
502       auto *LoopBottom = BeginToEnd[&MI]->getParent()->getPrevNode();
503       if (MBB.getNumber() > LoopBottom->getNumber())
504         AfterSet.insert(&MI);
505 #ifndef NDEBUG
506       else
507         BeforeSet.insert(&MI);
508 #endif
509     }
510 
511     // All previously inserted BLOCK/TRY markers should be after the TRY because
512     // they are all nested trys.
513     if (MI.getOpcode() == WebAssembly::BLOCK ||
514         MI.getOpcode() == WebAssembly::TRY)
515       AfterSet.insert(&MI);
516 
517 #ifndef NDEBUG
518     // All END_(BLOCK/LOOP/TRY) markers should be before the TRY.
519     if (MI.getOpcode() == WebAssembly::END_BLOCK ||
520         MI.getOpcode() == WebAssembly::END_LOOP ||
521         MI.getOpcode() == WebAssembly::END_TRY)
522       BeforeSet.insert(&MI);
523 #endif
524 
525     // Terminators should go after the TRY.
526     if (MI.isTerminator())
527       AfterSet.insert(&MI);
528   }
529 
530   // If Header unwinds to MBB (= Header contains 'invoke'), the try block should
531   // contain the call within it. So the call should go after the TRY. The
532   // exception is when the header's terminator is a rethrow instruction, in
533   // which case that instruction, not a call instruction before it, is gonna
534   // throw.
535   MachineInstr *ThrowingCall = nullptr;
536   if (MBB.isPredecessor(Header)) {
537     auto TermPos = Header->getFirstTerminator();
538     if (TermPos == Header->end() ||
539         TermPos->getOpcode() != WebAssembly::RETHROW) {
540       for (auto &MI : reverse(*Header)) {
541         if (MI.isCall()) {
542           AfterSet.insert(&MI);
543           ThrowingCall = &MI;
544           // Possibly throwing calls are usually wrapped by EH_LABEL
545           // instructions. We don't want to split them and the call.
546           if (MI.getIterator() != Header->begin() &&
547               std::prev(MI.getIterator())->isEHLabel()) {
548             AfterSet.insert(&*std::prev(MI.getIterator()));
549             ThrowingCall = &*std::prev(MI.getIterator());
550           }
551           break;
552         }
553       }
554     }
555   }
556 
557   // Local expression tree should go after the TRY.
558   // For BLOCK placement, we start the search from the previous instruction of a
559   // BB's terminator, but in TRY's case, we should start from the previous
560   // instruction of a call that can throw, or a EH_LABEL that precedes the call,
561   // because the return values of the call's previous instructions can be
562   // stackified and consumed by the throwing call.
563   auto SearchStartPt = ThrowingCall ? MachineBasicBlock::iterator(ThrowingCall)
564                                     : Header->getFirstTerminator();
565   for (auto I = SearchStartPt, E = Header->begin(); I != E; --I) {
566     if (std::prev(I)->isDebugInstr() || std::prev(I)->isPosition())
567       continue;
568     if (WebAssembly::isChild(*std::prev(I), MFI))
569       AfterSet.insert(&*std::prev(I));
570     else
571       break;
572   }
573 
574   // Add the TRY.
575   auto InsertPos = getLatestInsertPos(Header, BeforeSet, AfterSet);
576   MachineInstr *Begin =
577       BuildMI(*Header, InsertPos, Header->findDebugLoc(InsertPos),
578               TII.get(WebAssembly::TRY))
579           .addImm(int64_t(WebAssembly::BlockType::Void));
580 
581   // Decide where in Header to put the END_TRY.
582   BeforeSet.clear();
583   AfterSet.clear();
584   for (const auto &MI : *Cont) {
585 #ifndef NDEBUG
586     // END_TRY should precede existing LOOP and BLOCK markers.
587     if (MI.getOpcode() == WebAssembly::LOOP ||
588         MI.getOpcode() == WebAssembly::BLOCK)
589       AfterSet.insert(&MI);
590 
591     // All END_TRY markers placed earlier belong to exceptions that contains
592     // this one.
593     if (MI.getOpcode() == WebAssembly::END_TRY)
594       AfterSet.insert(&MI);
595 #endif
596 
597     // If there is a previously placed END_LOOP marker and its header is after
598     // where TRY marker is, this loop is contained within the 'catch' part, so
599     // the END_TRY marker should go after that. Otherwise, the whole try-catch
600     // is contained within this loop, so the END_TRY should go before that.
601     if (MI.getOpcode() == WebAssembly::END_LOOP) {
602       // For a LOOP to be after TRY, LOOP's BB should be after TRY's BB; if they
603       // are in the same BB, LOOP is always before TRY.
604       if (EndToBegin[&MI]->getParent()->getNumber() > Header->getNumber())
605         BeforeSet.insert(&MI);
606 #ifndef NDEBUG
607       else
608         AfterSet.insert(&MI);
609 #endif
610     }
611 
612     // It is not possible for an END_BLOCK to be already in this block.
613   }
614 
615   // Mark the end of the TRY.
616   InsertPos = getEarliestInsertPos(Cont, BeforeSet, AfterSet);
617   MachineInstr *End =
618       BuildMI(*Cont, InsertPos, Bottom->findBranchDebugLoc(),
619               TII.get(WebAssembly::END_TRY));
620   registerTryScope(Begin, End, &MBB);
621 
622   // Track the farthest-spanning scope that ends at this point. We create two
623   // mappings: (BB with 'end_try' -> BB with 'try') and (BB with 'catch' -> BB
624   // with 'try'). We need to create 'catch' -> 'try' mapping here too because
625   // markers should not span across 'catch'. For example, this should not
626   // happen:
627   //
628   // try
629   //   block     --|  (X)
630   // catch         |
631   //   end_block --|
632   // end_try
633   for (int Number : {Cont->getNumber(), MBB.getNumber()}) {
634     if (!ScopeTops[Number] ||
635         ScopeTops[Number]->getNumber() > Header->getNumber())
636       ScopeTops[Number] = Header;
637   }
638 }
639 
640 void WebAssemblyCFGStackify::removeUnnecessaryInstrs(MachineFunction &MF) {
641   const auto &TII = *MF.getSubtarget<WebAssemblySubtarget>().getInstrInfo();
642 
643   // When there is an unconditional branch right before a catch instruction and
644   // it branches to the end of end_try marker, we don't need the branch, because
645   // it there is no exception, the control flow transfers to that point anyway.
646   // bb0:
647   //   try
648   //     ...
649   //     br bb2      <- Not necessary
650   // bb1:
651   //   catch
652   //     ...
653   // bb2:
654   //   end
655   for (auto &MBB : MF) {
656     if (!MBB.isEHPad())
657       continue;
658 
659     MachineBasicBlock *TBB = nullptr, *FBB = nullptr;
660     SmallVector<MachineOperand, 4> Cond;
661     MachineBasicBlock *EHPadLayoutPred = MBB.getPrevNode();
662     MachineBasicBlock *Cont = BeginToEnd[EHPadToTry[&MBB]]->getParent();
663     bool Analyzable = !TII.analyzeBranch(*EHPadLayoutPred, TBB, FBB, Cond);
664     if (Analyzable && ((Cond.empty() && TBB && TBB == Cont) ||
665                        (!Cond.empty() && FBB && FBB == Cont)))
666       TII.removeBranch(*EHPadLayoutPred);
667   }
668 
669   // When there are block / end_block markers that overlap with try / end_try
670   // markers, and the block and try markers' return types are the same, the
671   // block /end_block markers are not necessary, because try / end_try markers
672   // also can serve as boundaries for branches.
673   // block         <- Not necessary
674   //   try
675   //     ...
676   //   catch
677   //     ...
678   //   end
679   // end           <- Not necessary
680   SmallVector<MachineInstr *, 32> ToDelete;
681   for (auto &MBB : MF) {
682     for (auto &MI : MBB) {
683       if (MI.getOpcode() != WebAssembly::TRY)
684         continue;
685 
686       MachineInstr *Try = &MI, *EndTry = BeginToEnd[Try];
687       MachineBasicBlock *TryBB = Try->getParent();
688       MachineBasicBlock *Cont = EndTry->getParent();
689       int64_t RetType = Try->getOperand(0).getImm();
690       for (auto B = Try->getIterator(), E = std::next(EndTry->getIterator());
691            B != TryBB->begin() && E != Cont->end() &&
692            std::prev(B)->getOpcode() == WebAssembly::BLOCK &&
693            E->getOpcode() == WebAssembly::END_BLOCK &&
694            std::prev(B)->getOperand(0).getImm() == RetType;
695            --B, ++E) {
696         ToDelete.push_back(&*std::prev(B));
697         ToDelete.push_back(&*E);
698       }
699     }
700   }
701   for (auto *MI : ToDelete) {
702     if (MI->getOpcode() == WebAssembly::BLOCK)
703       unregisterScope(MI);
704     MI->eraseFromParent();
705   }
706 }
707 
708 // When MBB is split into MBB and Split, we should unstackify defs in MBB that
709 // have their uses in Split.
710 static void unstackifyVRegsUsedInSplitBB(MachineBasicBlock &MBB,
711                                          MachineBasicBlock &Split,
712                                          WebAssemblyFunctionInfo &MFI,
713                                          MachineRegisterInfo &MRI) {
714   for (auto &MI : Split) {
715     for (auto &MO : MI.explicit_uses()) {
716       if (!MO.isReg() || Register::isPhysicalRegister(MO.getReg()))
717         continue;
718       if (MachineInstr *Def = MRI.getUniqueVRegDef(MO.getReg()))
719         if (Def->getParent() == &MBB)
720           MFI.unstackifyVReg(MO.getReg());
721     }
722   }
723 }
724 
725 bool WebAssemblyCFGStackify::fixUnwindMismatches(MachineFunction &MF) {
726   const auto &TII = *MF.getSubtarget<WebAssemblySubtarget>().getInstrInfo();
727   auto &MFI = *MF.getInfo<WebAssemblyFunctionInfo>();
728   MachineRegisterInfo &MRI = MF.getRegInfo();
729 
730   // Linearizing the control flow by placing TRY / END_TRY markers can create
731   // mismatches in unwind destinations. There are two kinds of mismatches we
732   // try to solve here.
733 
734   // 1. When an instruction may throw, but the EH pad it will unwind to can be
735   //    different from the original CFG.
736   //
737   // Example: we have the following CFG:
738   // bb0:
739   //   call @foo (if it throws, unwind to bb2)
740   // bb1:
741   //   call @bar (if it throws, unwind to bb3)
742   // bb2 (ehpad):
743   //   catch
744   //   ...
745   // bb3 (ehpad)
746   //   catch
747   //   handler body
748   //
749   // And the CFG is sorted in this order. Then after placing TRY markers, it
750   // will look like: (BB markers are omitted)
751   // try $label1
752   //   try
753   //     call @foo
754   //     call @bar   (if it throws, unwind to bb3)
755   //   catch         <- ehpad (bb2)
756   //     ...
757   //   end_try
758   // catch           <- ehpad (bb3)
759   //   handler body
760   // end_try
761   //
762   // Now if bar() throws, it is going to end up ip in bb2, not bb3, where it
763   // is supposed to end up. We solve this problem by
764   // a. Split the target unwind EH pad (here bb3) so that the handler body is
765   //    right after 'end_try', which means we extract the handler body out of
766   //    the catch block. We do this because this handler body should be
767   //    somewhere branch-eable from the inner scope.
768   // b. Wrap the call that has an incorrect unwind destination ('call @bar'
769   //    here) with a nested try/catch/end_try scope, and within the new catch
770   //    block, branches to the handler body.
771   // c. Place a branch after the newly inserted nested end_try so it can bypass
772   //    the handler body, which is now outside of a catch block.
773   //
774   // The result will like as follows. (new: a) means this instruction is newly
775   // created in the process of doing 'a' above.
776   //
777   // block $label0                 (new: placeBlockMarker)
778   //   try $label1
779   //     try
780   //       call @foo
781   //       try                     (new: b)
782   //         call @bar
783   //       catch                   (new: b)
784   //         local.set n / drop    (new: b)
785   //         br $label1            (new: b)
786   //       end_try                 (new: b)
787   //     catch                     <- ehpad (bb2)
788   //     end_try
789   //     br $label0                (new: c)
790   //   catch                       <- ehpad (bb3)
791   //   end_try                     (hoisted: a)
792   //   handler body
793   // end_block                     (new: placeBlockMarker)
794   //
795   // Note that the new wrapping block/end_block will be generated later in
796   // placeBlockMarker.
797   //
798   // TODO Currently local.set and local.gets are generated to move exnref value
799   // created by catches. That's because we don't support yielding values from a
800   // block in LLVM machine IR yet, even though it is supported by wasm. Delete
801   // unnecessary local.get/local.sets once yielding values from a block is
802   // supported. The full EH spec requires multi-value support to do this, but
803   // for C++ we don't yet need it because we only throw a single i32.
804   //
805   // ---
806   // 2. The same as 1, but in this case an instruction unwinds to a caller
807   //    function and not another EH pad.
808   //
809   // Example: we have the following CFG:
810   // bb0:
811   //   call @foo (if it throws, unwind to bb2)
812   // bb1:
813   //   call @bar (if it throws, unwind to caller)
814   // bb2 (ehpad):
815   //   catch
816   //   ...
817   //
818   // And the CFG is sorted in this order. Then after placing TRY markers, it
819   // will look like:
820   // try
821   //   call @foo
822   //   call @bar   (if it throws, unwind to caller)
823   // catch         <- ehpad (bb2)
824   //   ...
825   // end_try
826   //
827   // Now if bar() throws, it is going to end up ip in bb2, when it is supposed
828   // throw up to the caller.
829   // We solve this problem by
830   // a. Create a new 'appendix' BB at the end of the function and put a single
831   //    'rethrow' instruction (+ local.get) in there.
832   // b. Wrap the call that has an incorrect unwind destination ('call @bar'
833   //    here) with a nested try/catch/end_try scope, and within the new catch
834   //    block, branches to the new appendix block.
835   //
836   // block $label0          (new: placeBlockMarker)
837   //   try
838   //     call @foo
839   //     try                (new: b)
840   //       call @bar
841   //     catch              (new: b)
842   //       local.set n      (new: b)
843   //       br $label0       (new: b)
844   //     end_try            (new: b)
845   //   catch                <- ehpad (bb2)
846   //     ...
847   //   end_try
848   // ...
849   // end_block              (new: placeBlockMarker)
850   // local.get n            (new: a)  <- appendix block
851   // rethrow                (new: a)
852   //
853   // In case there are multiple calls in a BB that may throw to the caller, they
854   // can be wrapped together in one nested try scope. (In 1, this couldn't
855   // happen, because may-throwing instruction there had an unwind destination,
856   // i.e., it was an invoke before, and there could be only one invoke within a
857   // BB.)
858 
859   SmallVector<const MachineBasicBlock *, 8> EHPadStack;
860   // Range of intructions to be wrapped in a new nested try/catch
861   using TryRange = std::pair<MachineInstr *, MachineInstr *>;
862   // In original CFG, <unwind destination BB, a vector of try ranges>
863   DenseMap<MachineBasicBlock *, SmallVector<TryRange, 4>> UnwindDestToTryRanges;
864   // In new CFG, <destination to branch to, a vector of try ranges>
865   DenseMap<MachineBasicBlock *, SmallVector<TryRange, 4>> BrDestToTryRanges;
866   // In new CFG, <destination to branch to, register containing exnref>
867   DenseMap<MachineBasicBlock *, unsigned> BrDestToExnReg;
868 
869   // Gather possibly throwing calls (i.e., previously invokes) whose current
870   // unwind destination is not the same as the original CFG.
871   for (auto &MBB : reverse(MF)) {
872     bool SeenThrowableInstInBB = false;
873     for (auto &MI : reverse(MBB)) {
874       if (MI.getOpcode() == WebAssembly::TRY)
875         EHPadStack.pop_back();
876       else if (MI.getOpcode() == WebAssembly::CATCH)
877         EHPadStack.push_back(MI.getParent());
878 
879       // In this loop we only gather calls that have an EH pad to unwind. So
880       // there will be at most 1 such call (= invoke) in a BB, so after we've
881       // seen one, we can skip the rest of BB. Also if MBB has no EH pad
882       // successor or MI does not throw, this is not an invoke.
883       if (SeenThrowableInstInBB || !MBB.hasEHPadSuccessor() ||
884           !WebAssembly::mayThrow(MI))
885         continue;
886       SeenThrowableInstInBB = true;
887 
888       // If the EH pad on the stack top is where this instruction should unwind
889       // next, we're good.
890       MachineBasicBlock *UnwindDest = nullptr;
891       for (auto *Succ : MBB.successors()) {
892         if (Succ->isEHPad()) {
893           UnwindDest = Succ;
894           break;
895         }
896       }
897       if (EHPadStack.back() == UnwindDest)
898         continue;
899 
900       // If not, record the range.
901       UnwindDestToTryRanges[UnwindDest].push_back(TryRange(&MI, &MI));
902     }
903   }
904 
905   assert(EHPadStack.empty());
906 
907   // Gather possibly throwing calls that are supposed to unwind up to the caller
908   // if they throw, but currently unwind to an incorrect destination. Unlike the
909   // loop above, there can be multiple calls within a BB that unwind to the
910   // caller, which we should group together in a range.
911   bool NeedAppendixBlock = false;
912   for (auto &MBB : reverse(MF)) {
913     MachineInstr *RangeBegin = nullptr, *RangeEnd = nullptr; // inclusive
914     for (auto &MI : reverse(MBB)) {
915       if (MI.getOpcode() == WebAssembly::TRY)
916         EHPadStack.pop_back();
917       else if (MI.getOpcode() == WebAssembly::CATCH)
918         EHPadStack.push_back(MI.getParent());
919 
920       // If MBB has an EH pad successor, this inst does not unwind to caller.
921       if (MBB.hasEHPadSuccessor())
922         continue;
923 
924       // We wrap up the current range when we see a marker even if we haven't
925       // finished a BB.
926       if (RangeEnd && WebAssembly::isMarker(MI.getOpcode())) {
927         NeedAppendixBlock = true;
928         // Record the range. nullptr here means the unwind destination is the
929         // caller.
930         UnwindDestToTryRanges[nullptr].push_back(
931             TryRange(RangeBegin, RangeEnd));
932         RangeBegin = RangeEnd = nullptr; // Reset range pointers
933       }
934 
935       // If EHPadStack is empty, that means it is correctly unwind to caller if
936       // it throws, so we're good. If MI does not throw, we're good too.
937       if (EHPadStack.empty() || !WebAssembly::mayThrow(MI))
938         continue;
939 
940       // We found an instruction that unwinds to the caller but currently has an
941       // incorrect unwind destination. Create a new range or increment the
942       // currently existing range.
943       if (!RangeEnd)
944         RangeBegin = RangeEnd = &MI;
945       else
946         RangeBegin = &MI;
947     }
948 
949     if (RangeEnd) {
950       NeedAppendixBlock = true;
951       // Record the range. nullptr here means the unwind destination is the
952       // caller.
953       UnwindDestToTryRanges[nullptr].push_back(TryRange(RangeBegin, RangeEnd));
954       RangeBegin = RangeEnd = nullptr; // Reset range pointers
955     }
956   }
957 
958   assert(EHPadStack.empty());
959   // We don't have any unwind destination mismatches to resolve.
960   if (UnwindDestToTryRanges.empty())
961     return false;
962 
963   // If we found instructions that should unwind to the caller but currently
964   // have incorrect unwind destination, we create an appendix block at the end
965   // of the function with a local.get and a rethrow instruction.
966   if (NeedAppendixBlock) {
967     auto *AppendixBB = getAppendixBlock(MF);
968     Register ExnReg = MRI.createVirtualRegister(&WebAssembly::EXNREFRegClass);
969     BuildMI(AppendixBB, DebugLoc(), TII.get(WebAssembly::RETHROW))
970         .addReg(ExnReg);
971     // These instruction ranges should branch to this appendix BB.
972     for (auto Range : UnwindDestToTryRanges[nullptr])
973       BrDestToTryRanges[AppendixBB].push_back(Range);
974     BrDestToExnReg[AppendixBB] = ExnReg;
975   }
976 
977   // We loop through unwind destination EH pads that are targeted from some
978   // inner scopes. Because these EH pads are destination of more than one scope
979   // now, we split them so that the handler body is after 'end_try'.
980   // - Before
981   // ehpad:
982   //   catch
983   //   local.set n / drop
984   //   handler body
985   // ...
986   // cont:
987   //   end_try
988   //
989   // - After
990   // ehpad:
991   //   catch
992   //   local.set n / drop
993   // brdest:               (new)
994   //   end_try             (hoisted from 'cont' BB)
995   //   handler body        (taken from 'ehpad')
996   // ...
997   // cont:
998   for (auto &P : UnwindDestToTryRanges) {
999     NumUnwindMismatches += P.second.size();
1000 
1001     // This means the destination is the appendix BB, which was separately
1002     // handled above.
1003     if (!P.first)
1004       continue;
1005 
1006     MachineBasicBlock *EHPad = P.first;
1007 
1008     // Find 'catch' and 'local.set' or 'drop' instruction that follows the
1009     // 'catch'. If -wasm-disable-explicit-locals is not set, 'catch' should be
1010     // always followed by either 'local.set' or a 'drop', because 'br_on_exn' is
1011     // generated after 'catch' in LateEHPrepare and we don't support blocks
1012     // taking values yet.
1013     MachineInstr *Catch = nullptr;
1014     unsigned ExnReg = 0;
1015     for (auto &MI : *EHPad) {
1016       switch (MI.getOpcode()) {
1017       case WebAssembly::CATCH:
1018         Catch = &MI;
1019         ExnReg = Catch->getOperand(0).getReg();
1020         break;
1021       }
1022     }
1023     assert(Catch && "EH pad does not have a catch");
1024     assert(ExnReg != 0 && "Invalid register");
1025 
1026     auto SplitPos = std::next(Catch->getIterator());
1027 
1028     // Create a new BB that's gonna be the destination for branches from the
1029     // inner mismatched scope.
1030     MachineInstr *BeginTry = EHPadToTry[EHPad];
1031     MachineInstr *EndTry = BeginToEnd[BeginTry];
1032     MachineBasicBlock *Cont = EndTry->getParent();
1033     auto *BrDest = MF.CreateMachineBasicBlock();
1034     MF.insert(std::next(EHPad->getIterator()), BrDest);
1035     // Hoist up the existing 'end_try'.
1036     BrDest->insert(BrDest->end(), EndTry->removeFromParent());
1037     // Take out the handler body from EH pad to the new branch destination BB.
1038     BrDest->splice(BrDest->end(), EHPad, SplitPos, EHPad->end());
1039     unstackifyVRegsUsedInSplitBB(*EHPad, *BrDest, MFI, MRI);
1040     // Fix predecessor-successor relationship.
1041     BrDest->transferSuccessors(EHPad);
1042     EHPad->addSuccessor(BrDest);
1043 
1044     // All try ranges that were supposed to unwind to this EH pad now have to
1045     // branch to this new branch dest BB.
1046     for (auto Range : UnwindDestToTryRanges[EHPad])
1047       BrDestToTryRanges[BrDest].push_back(Range);
1048     BrDestToExnReg[BrDest] = ExnReg;
1049 
1050     // In case we fall through to the continuation BB after the catch block, we
1051     // now have to add a branch to it.
1052     // - Before
1053     // try
1054     //   ...
1055     //   (falls through to 'cont')
1056     // catch
1057     //   handler body
1058     // end
1059     //               <-- cont
1060     //
1061     // - After
1062     // try
1063     //   ...
1064     //   br %cont    (new)
1065     // catch
1066     // end
1067     // handler body
1068     //               <-- cont
1069     MachineBasicBlock *EHPadLayoutPred = &*std::prev(EHPad->getIterator());
1070     MachineBasicBlock *TBB = nullptr, *FBB = nullptr;
1071     SmallVector<MachineOperand, 4> Cond;
1072     bool Analyzable = !TII.analyzeBranch(*EHPadLayoutPred, TBB, FBB, Cond);
1073     if (Analyzable && !TBB && !FBB) {
1074       DebugLoc DL = EHPadLayoutPred->empty()
1075                         ? DebugLoc()
1076                         : EHPadLayoutPred->rbegin()->getDebugLoc();
1077       BuildMI(EHPadLayoutPred, DL, TII.get(WebAssembly::BR)).addMBB(Cont);
1078     }
1079   }
1080 
1081   // For possibly throwing calls whose unwind destinations are currently
1082   // incorrect because of CFG linearization, we wrap them with a nested
1083   // try/catch/end_try, and within the new catch block, we branch to the correct
1084   // handler.
1085   // - Before
1086   // mbb:
1087   //   call @foo       <- Unwind destination mismatch!
1088   // ehpad:
1089   //   ...
1090   //
1091   // - After
1092   // mbb:
1093   //   try                (new)
1094   //   call @foo
1095   // nested-ehpad:        (new)
1096   //   catch              (new)
1097   //   local.set n / drop (new)
1098   //   br %brdest         (new)
1099   // nested-end:          (new)
1100   //   end_try            (new)
1101   // ehpad:
1102   //   ...
1103   for (auto &P : BrDestToTryRanges) {
1104     MachineBasicBlock *BrDest = P.first;
1105     auto &TryRanges = P.second;
1106     unsigned ExnReg = BrDestToExnReg[BrDest];
1107 
1108     for (auto Range : TryRanges) {
1109       MachineInstr *RangeBegin = nullptr, *RangeEnd = nullptr;
1110       std::tie(RangeBegin, RangeEnd) = Range;
1111       auto *MBB = RangeBegin->getParent();
1112 
1113       // Include possible EH_LABELs in the range
1114       if (RangeBegin->getIterator() != MBB->begin() &&
1115           std::prev(RangeBegin->getIterator())->isEHLabel())
1116         RangeBegin = &*std::prev(RangeBegin->getIterator());
1117       if (std::next(RangeEnd->getIterator()) != MBB->end() &&
1118           std::next(RangeEnd->getIterator())->isEHLabel())
1119         RangeEnd = &*std::next(RangeEnd->getIterator());
1120 
1121       MachineBasicBlock *EHPad = nullptr;
1122       for (auto *Succ : MBB->successors()) {
1123         if (Succ->isEHPad()) {
1124           EHPad = Succ;
1125           break;
1126         }
1127       }
1128 
1129       // Create the nested try instruction.
1130       MachineInstr *NestedTry =
1131           BuildMI(*MBB, *RangeBegin, RangeBegin->getDebugLoc(),
1132                   TII.get(WebAssembly::TRY))
1133               .addImm(int64_t(WebAssembly::BlockType::Void));
1134 
1135       // Create the nested EH pad and fill instructions in.
1136       MachineBasicBlock *NestedEHPad = MF.CreateMachineBasicBlock();
1137       MF.insert(std::next(MBB->getIterator()), NestedEHPad);
1138       NestedEHPad->setIsEHPad();
1139       NestedEHPad->setIsEHScopeEntry();
1140       BuildMI(NestedEHPad, RangeEnd->getDebugLoc(), TII.get(WebAssembly::CATCH),
1141               ExnReg);
1142       BuildMI(NestedEHPad, RangeEnd->getDebugLoc(), TII.get(WebAssembly::BR))
1143           .addMBB(BrDest);
1144 
1145       // Create the nested continuation BB and end_try instruction.
1146       MachineBasicBlock *NestedCont = MF.CreateMachineBasicBlock();
1147       MF.insert(std::next(NestedEHPad->getIterator()), NestedCont);
1148       MachineInstr *NestedEndTry =
1149           BuildMI(*NestedCont, NestedCont->begin(), RangeEnd->getDebugLoc(),
1150                   TII.get(WebAssembly::END_TRY));
1151       // In case MBB has more instructions after the try range, move them to the
1152       // new nested continuation BB.
1153       NestedCont->splice(NestedCont->end(), MBB,
1154                          std::next(RangeEnd->getIterator()), MBB->end());
1155       unstackifyVRegsUsedInSplitBB(*MBB, *NestedCont, MFI, MRI);
1156       registerTryScope(NestedTry, NestedEndTry, NestedEHPad);
1157 
1158       // Fix predecessor-successor relationship.
1159       NestedCont->transferSuccessors(MBB);
1160       if (EHPad)
1161         NestedCont->removeSuccessor(EHPad);
1162       MBB->addSuccessor(NestedEHPad);
1163       MBB->addSuccessor(NestedCont);
1164       NestedEHPad->addSuccessor(BrDest);
1165     }
1166   }
1167 
1168   // Renumber BBs and recalculate ScopeTop info because new BBs might have been
1169   // created and inserted above.
1170   MF.RenumberBlocks();
1171   ScopeTops.clear();
1172   ScopeTops.resize(MF.getNumBlockIDs());
1173   for (auto &MBB : reverse(MF)) {
1174     for (auto &MI : reverse(MBB)) {
1175       if (ScopeTops[MBB.getNumber()])
1176         break;
1177       switch (MI.getOpcode()) {
1178       case WebAssembly::END_BLOCK:
1179       case WebAssembly::END_LOOP:
1180       case WebAssembly::END_TRY:
1181         ScopeTops[MBB.getNumber()] = EndToBegin[&MI]->getParent();
1182         break;
1183       case WebAssembly::CATCH:
1184         ScopeTops[MBB.getNumber()] = EHPadToTry[&MBB]->getParent();
1185         break;
1186       }
1187     }
1188   }
1189 
1190   // Recompute the dominator tree.
1191   getAnalysis<MachineDominatorTree>().runOnMachineFunction(MF);
1192 
1193   // Place block markers for newly added branches.
1194   SmallVector <MachineBasicBlock *, 8> BrDests;
1195   for (auto &P : BrDestToTryRanges)
1196     BrDests.push_back(P.first);
1197   llvm::sort(BrDests,
1198              [&](const MachineBasicBlock *A, const MachineBasicBlock *B) {
1199                auto ANum = A->getNumber();
1200                auto BNum = B->getNumber();
1201                return ANum < BNum;
1202              });
1203   for (auto *Dest : BrDests)
1204     placeBlockMarker(*Dest);
1205 
1206   return true;
1207 }
1208 
1209 static unsigned
1210 getDepth(const SmallVectorImpl<const MachineBasicBlock *> &Stack,
1211          const MachineBasicBlock *MBB) {
1212   unsigned Depth = 0;
1213   for (auto X : reverse(Stack)) {
1214     if (X == MBB)
1215       break;
1216     ++Depth;
1217   }
1218   assert(Depth < Stack.size() && "Branch destination should be in scope");
1219   return Depth;
1220 }
1221 
1222 /// In normal assembly languages, when the end of a function is unreachable,
1223 /// because the function ends in an infinite loop or a noreturn call or similar,
1224 /// it isn't necessary to worry about the function return type at the end of
1225 /// the function, because it's never reached. However, in WebAssembly, blocks
1226 /// that end at the function end need to have a return type signature that
1227 /// matches the function signature, even though it's unreachable. This function
1228 /// checks for such cases and fixes up the signatures.
1229 void WebAssemblyCFGStackify::fixEndsAtEndOfFunction(MachineFunction &MF) {
1230   const auto &MFI = *MF.getInfo<WebAssemblyFunctionInfo>();
1231 
1232   if (MFI.getResults().empty())
1233     return;
1234 
1235   // MCInstLower will add the proper types to multivalue signatures based on the
1236   // function return type
1237   WebAssembly::BlockType RetType =
1238       MFI.getResults().size() > 1
1239           ? WebAssembly::BlockType::Multivalue
1240           : WebAssembly::BlockType(
1241                 WebAssembly::toValType(MFI.getResults().front()));
1242 
1243   for (MachineBasicBlock &MBB : reverse(MF)) {
1244     for (MachineInstr &MI : reverse(MBB)) {
1245       if (MI.isPosition() || MI.isDebugInstr())
1246         continue;
1247       switch (MI.getOpcode()) {
1248       case WebAssembly::END_BLOCK:
1249       case WebAssembly::END_LOOP:
1250       case WebAssembly::END_TRY:
1251         EndToBegin[&MI]->getOperand(0).setImm(int32_t(RetType));
1252         continue;
1253       default:
1254         // Something other than an `end`. We're done.
1255         return;
1256       }
1257     }
1258   }
1259 }
1260 
1261 // WebAssembly functions end with an end instruction, as if the function body
1262 // were a block.
1263 static void appendEndToFunction(MachineFunction &MF,
1264                                 const WebAssemblyInstrInfo &TII) {
1265   BuildMI(MF.back(), MF.back().end(),
1266           MF.back().findPrevDebugLoc(MF.back().end()),
1267           TII.get(WebAssembly::END_FUNCTION));
1268 }
1269 
1270 /// Insert LOOP/TRY/BLOCK markers at appropriate places.
1271 void WebAssemblyCFGStackify::placeMarkers(MachineFunction &MF) {
1272   // We allocate one more than the number of blocks in the function to
1273   // accommodate for the possible fake block we may insert at the end.
1274   ScopeTops.resize(MF.getNumBlockIDs() + 1);
1275   // Place the LOOP for MBB if MBB is the header of a loop.
1276   for (auto &MBB : MF)
1277     placeLoopMarker(MBB);
1278 
1279   const MCAsmInfo *MCAI = MF.getTarget().getMCAsmInfo();
1280   for (auto &MBB : MF) {
1281     if (MBB.isEHPad()) {
1282       // Place the TRY for MBB if MBB is the EH pad of an exception.
1283       if (MCAI->getExceptionHandlingType() == ExceptionHandling::Wasm &&
1284           MF.getFunction().hasPersonalityFn())
1285         placeTryMarker(MBB);
1286     } else {
1287       // Place the BLOCK for MBB if MBB is branched to from above.
1288       placeBlockMarker(MBB);
1289     }
1290   }
1291   // Fix mismatches in unwind destinations induced by linearizing the code.
1292   if (MCAI->getExceptionHandlingType() == ExceptionHandling::Wasm &&
1293       MF.getFunction().hasPersonalityFn())
1294     fixUnwindMismatches(MF);
1295 }
1296 
1297 void WebAssemblyCFGStackify::rewriteDepthImmediates(MachineFunction &MF) {
1298   // Now rewrite references to basic blocks to be depth immediates.
1299   SmallVector<const MachineBasicBlock *, 8> Stack;
1300   for (auto &MBB : reverse(MF)) {
1301     for (auto I = MBB.rbegin(), E = MBB.rend(); I != E; ++I) {
1302       MachineInstr &MI = *I;
1303       switch (MI.getOpcode()) {
1304       case WebAssembly::BLOCK:
1305       case WebAssembly::TRY:
1306         assert(ScopeTops[Stack.back()->getNumber()]->getNumber() <=
1307                    MBB.getNumber() &&
1308                "Block/try marker should be balanced");
1309         Stack.pop_back();
1310         break;
1311 
1312       case WebAssembly::LOOP:
1313         assert(Stack.back() == &MBB && "Loop top should be balanced");
1314         Stack.pop_back();
1315         break;
1316 
1317       case WebAssembly::END_BLOCK:
1318       case WebAssembly::END_TRY:
1319         Stack.push_back(&MBB);
1320         break;
1321 
1322       case WebAssembly::END_LOOP:
1323         Stack.push_back(EndToBegin[&MI]->getParent());
1324         break;
1325 
1326       default:
1327         if (MI.isTerminator()) {
1328           // Rewrite MBB operands to be depth immediates.
1329           SmallVector<MachineOperand, 4> Ops(MI.operands());
1330           while (MI.getNumOperands() > 0)
1331             MI.RemoveOperand(MI.getNumOperands() - 1);
1332           for (auto MO : Ops) {
1333             if (MO.isMBB())
1334               MO = MachineOperand::CreateImm(getDepth(Stack, MO.getMBB()));
1335             MI.addOperand(MF, MO);
1336           }
1337         }
1338         break;
1339       }
1340     }
1341   }
1342   assert(Stack.empty() && "Control flow should be balanced");
1343 }
1344 
1345 void WebAssemblyCFGStackify::releaseMemory() {
1346   ScopeTops.clear();
1347   BeginToEnd.clear();
1348   EndToBegin.clear();
1349   TryToEHPad.clear();
1350   EHPadToTry.clear();
1351   AppendixBB = nullptr;
1352 }
1353 
1354 bool WebAssemblyCFGStackify::runOnMachineFunction(MachineFunction &MF) {
1355   LLVM_DEBUG(dbgs() << "********** CFG Stackifying **********\n"
1356                        "********** Function: "
1357                     << MF.getName() << '\n');
1358   const MCAsmInfo *MCAI = MF.getTarget().getMCAsmInfo();
1359 
1360   releaseMemory();
1361 
1362   // Liveness is not tracked for VALUE_STACK physreg.
1363   MF.getRegInfo().invalidateLiveness();
1364 
1365   // Place the BLOCK/LOOP/TRY markers to indicate the beginnings of scopes.
1366   placeMarkers(MF);
1367 
1368   // Remove unnecessary instructions possibly introduced by try/end_trys.
1369   if (MCAI->getExceptionHandlingType() == ExceptionHandling::Wasm &&
1370       MF.getFunction().hasPersonalityFn())
1371     removeUnnecessaryInstrs(MF);
1372 
1373   // Convert MBB operands in terminators to relative depth immediates.
1374   rewriteDepthImmediates(MF);
1375 
1376   // Fix up block/loop/try signatures at the end of the function to conform to
1377   // WebAssembly's rules.
1378   fixEndsAtEndOfFunction(MF);
1379 
1380   // Add an end instruction at the end of the function body.
1381   const auto &TII = *MF.getSubtarget<WebAssemblySubtarget>().getInstrInfo();
1382   if (!MF.getSubtarget<WebAssemblySubtarget>()
1383            .getTargetTriple()
1384            .isOSBinFormatELF())
1385     appendEndToFunction(MF, TII);
1386 
1387   MF.getInfo<WebAssemblyFunctionInfo>()->setCFGStackified();
1388   return true;
1389 }
1390