1 //===-- WebAssemblyCFGSort.cpp - CFG Sorting ------------------------------===//
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
7 //===----------------------------------------------------------------------===//
10 /// This file implements a CFG sorting pass.
12 /// This pass reorders the blocks in a function to put them into topological
13 /// order, ignoring loop backedges, and without any loop or exception being
14 /// interrupted by a block not dominated by the its header, with special care
15 /// to keep the order as similar as possible to the original order.
17 ////===----------------------------------------------------------------------===//
19 #include "MCTargetDesc/WebAssemblyMCTargetDesc.h"
20 #include "Utils/WebAssemblyUtilities.h"
21 #include "WebAssembly.h"
22 #include "WebAssemblyExceptionInfo.h"
23 #include "WebAssemblySortRegion.h"
24 #include "WebAssemblySubtarget.h"
25 #include "llvm/ADT/PriorityQueue.h"
26 #include "llvm/ADT/SetVector.h"
27 #include "llvm/CodeGen/MachineDominators.h"
28 #include "llvm/CodeGen/MachineFunction.h"
29 #include "llvm/CodeGen/MachineLoopInfo.h"
30 #include "llvm/CodeGen/MachineRegisterInfo.h"
31 #include "llvm/CodeGen/Passes.h"
32 #include "llvm/CodeGen/WasmEHFuncInfo.h"
33 #include "llvm/Support/Debug.h"
34 #include "llvm/Support/raw_ostream.h"
36 using WebAssembly::SortRegion
;
37 using WebAssembly::SortRegionInfo
;
39 #define DEBUG_TYPE "wasm-cfg-sort"
41 // Option to disable EH pad first sorting. Only for testing unwind destination
42 // mismatches in CFGStackify.
43 static cl::opt
<bool> WasmDisableEHPadSort(
44 "wasm-disable-ehpad-sort", cl::ReallyHidden
,
46 "WebAssembly: Disable EH pad-first sort order. Testing purpose only."),
51 class WebAssemblyCFGSort final
: public MachineFunctionPass
{
52 StringRef
getPassName() const override
{ return "WebAssembly CFG Sort"; }
54 void getAnalysisUsage(AnalysisUsage
&AU
) const override
{
56 AU
.addRequired
<MachineDominatorTree
>();
57 AU
.addPreserved
<MachineDominatorTree
>();
58 AU
.addRequired
<MachineLoopInfo
>();
59 AU
.addPreserved
<MachineLoopInfo
>();
60 AU
.addRequired
<WebAssemblyExceptionInfo
>();
61 AU
.addPreserved
<WebAssemblyExceptionInfo
>();
62 MachineFunctionPass::getAnalysisUsage(AU
);
65 bool runOnMachineFunction(MachineFunction
&MF
) override
;
68 static char ID
; // Pass identification, replacement for typeid
69 WebAssemblyCFGSort() : MachineFunctionPass(ID
) {}
71 } // end anonymous namespace
73 char WebAssemblyCFGSort::ID
= 0;
74 INITIALIZE_PASS(WebAssemblyCFGSort
, DEBUG_TYPE
,
75 "Reorders blocks in topological order", false, false)
77 FunctionPass
*llvm::createWebAssemblyCFGSort() {
78 return new WebAssemblyCFGSort();
81 static void maybeUpdateTerminator(MachineBasicBlock
*MBB
) {
83 bool AnyBarrier
= false;
85 bool AllAnalyzable
= true;
86 for (const MachineInstr
&Term
: MBB
->terminators()) {
88 AnyBarrier
|= Term
.isBarrier();
90 AllAnalyzable
&= Term
.isBranch() && !Term
.isIndirectBranch();
92 assert((AnyBarrier
|| AllAnalyzable
) &&
93 "analyzeBranch needs to analyze any block with a fallthrough");
95 // Find the layout successor from the original block order.
96 MachineFunction
*MF
= MBB
->getParent();
97 MachineBasicBlock
*OriginalSuccessor
=
98 unsigned(MBB
->getNumber() + 1) < MF
->getNumBlockIDs()
99 ? MF
->getBlockNumbered(MBB
->getNumber() + 1)
103 MBB
->updateTerminator(OriginalSuccessor
);
107 // EH pads are selected first regardless of the block comparison order.
108 // When only one of the BBs is an EH pad, we give a higher priority to it, to
109 // prevent common mismatches between possibly throwing calls and ehpads they
110 // unwind to, as in the example below:
113 // call @foo // If this throws, unwind to bb2
115 // call @bar // If this throws, unwind to bb3
122 // Because this pass tries to preserve the original BB order, this order will
123 // not change. But this will result in this try-catch structure in CFGStackify,
124 // resulting in a mismatch:
128 // call @bar // This should unwind to bb3, not bb2!
137 // If we give a higher priority to an EH pad whenever it is ready in this
138 // example, when both bb1 and bb2 are ready, we would pick up bb2 first.
140 /// Sort blocks by their number.
141 struct CompareBlockNumbers
{
142 bool operator()(const MachineBasicBlock
*A
,
143 const MachineBasicBlock
*B
) const {
144 if (!WasmDisableEHPadSort
) {
145 if (A
->isEHPad() && !B
->isEHPad())
147 if (!A
->isEHPad() && B
->isEHPad())
151 return A
->getNumber() > B
->getNumber();
154 /// Sort blocks by their number in the opposite order..
155 struct CompareBlockNumbersBackwards
{
156 bool operator()(const MachineBasicBlock
*A
,
157 const MachineBasicBlock
*B
) const {
158 if (!WasmDisableEHPadSort
) {
159 if (A
->isEHPad() && !B
->isEHPad())
161 if (!A
->isEHPad() && B
->isEHPad())
165 return A
->getNumber() < B
->getNumber();
168 /// Bookkeeping for a region to help ensure that we don't mix blocks not
169 /// dominated by the its header among its blocks.
171 const SortRegion
*TheRegion
;
172 unsigned NumBlocksLeft
;
174 /// List of blocks not dominated by Loop's header that are deferred until
175 /// after all of Loop's blocks have been seen.
176 std::vector
<MachineBasicBlock
*> Deferred
;
178 explicit Entry(const SortRegion
*R
)
179 : TheRegion(R
), NumBlocksLeft(R
->getNumBlocks()) {}
181 } // end anonymous namespace
183 /// Sort the blocks, taking special care to make sure that regions are not
184 /// interrupted by blocks not dominated by their header.
185 /// TODO: There are many opportunities for improving the heuristics here.
187 static void sortBlocks(MachineFunction
&MF
, const MachineLoopInfo
&MLI
,
188 const WebAssemblyExceptionInfo
&WEI
,
189 const MachineDominatorTree
&MDT
) {
190 // Remember original layout ordering, so we can update terminators after
191 // reordering to point to the original layout successor.
194 // Prepare for a topological sort: Record the number of predecessors each
195 // block has, ignoring loop backedges.
196 SmallVector
<unsigned, 16> NumPredsLeft(MF
.getNumBlockIDs(), 0);
197 for (MachineBasicBlock
&MBB
: MF
) {
198 unsigned N
= MBB
.pred_size();
199 if (MachineLoop
*L
= MLI
.getLoopFor(&MBB
))
200 if (L
->getHeader() == &MBB
)
201 for (const MachineBasicBlock
*Pred
: MBB
.predecessors())
202 if (L
->contains(Pred
))
204 NumPredsLeft
[MBB
.getNumber()] = N
;
207 // Topological sort the CFG, with additional constraints:
208 // - Between a region header and the last block in the region, there can be
209 // no blocks not dominated by its header.
210 // - It's desirable to preserve the original block order when possible.
211 // We use two ready lists; Preferred and Ready. Preferred has recently
212 // processed successors, to help preserve block sequences from the original
213 // order. Ready has the remaining ready blocks. EH blocks are picked first
215 PriorityQueue
<MachineBasicBlock
*, std::vector
<MachineBasicBlock
*>,
218 PriorityQueue
<MachineBasicBlock
*, std::vector
<MachineBasicBlock
*>,
219 CompareBlockNumbersBackwards
>
222 const auto *EHInfo
= MF
.getWasmEHFuncInfo();
223 SortRegionInfo
SRI(MLI
, WEI
);
224 SmallVector
<Entry
, 4> Entries
;
225 for (MachineBasicBlock
*MBB
= &MF
.front();;) {
226 const SortRegion
*R
= SRI
.getRegionFor(MBB
);
228 // If MBB is a region header, add it to the active region list. We can't
229 // put any blocks that it doesn't dominate until we see the end of the
231 if (R
->getHeader() == MBB
)
232 Entries
.push_back(Entry(R
));
233 // For each active region the block is in, decrement the count. If MBB is
234 // the last block in an active region, take it off the list and pick up
235 // any blocks deferred because the header didn't dominate them.
236 for (Entry
&E
: Entries
)
237 if (E
.TheRegion
->contains(MBB
) && --E
.NumBlocksLeft
== 0)
238 for (auto DeferredBlock
: E
.Deferred
)
239 Ready
.push(DeferredBlock
);
240 while (!Entries
.empty() && Entries
.back().NumBlocksLeft
== 0)
243 // The main topological sort logic.
244 for (MachineBasicBlock
*Succ
: MBB
->successors()) {
246 if (MachineLoop
*SuccL
= MLI
.getLoopFor(Succ
))
247 if (SuccL
->getHeader() == Succ
&& SuccL
->contains(MBB
))
249 // Decrement the predecessor count. If it's now zero, it's ready.
250 if (--NumPredsLeft
[Succ
->getNumber()] == 0) {
251 // When we are in a SortRegion, we allow sorting of not only BBs that
252 // belong to the current (innermost) region but also BBs that are
253 // dominated by the current region header. But we should not do this for
254 // exceptions because there can be cases in which, for example:
255 // EHPad A's unwind destination (where the exception lands when it is
256 // not caught by EHPad A) is EHPad B, so EHPad B does not belong to the
257 // exception dominated by EHPad A. But EHPad B is dominated by EHPad A,
258 // so EHPad B can be sorted within EHPad A's exception. This is
259 // incorrect because we may end up delegating/rethrowing to an inner
260 // scope in CFGStackify. So here we make sure those unwind destinations
261 // are deferred until their unwind source's exception is sorted.
262 if (EHInfo
&& EHInfo
->hasUnwindSrcs(Succ
)) {
263 SmallPtrSet
<MachineBasicBlock
*, 4> UnwindSrcs
=
264 EHInfo
->getUnwindSrcs(Succ
);
265 bool IsDeferred
= false;
266 for (Entry
&E
: Entries
) {
267 if (UnwindSrcs
.count(E
.TheRegion
->getHeader())) {
268 E
.Deferred
.push_back(Succ
);
276 Preferred
.push(Succ
);
279 // Determine the block to follow MBB. First try to find a preferred block,
280 // to preserve the original block order when possible.
281 MachineBasicBlock
*Next
= nullptr;
282 while (!Preferred
.empty()) {
283 Next
= Preferred
.top();
285 // If X isn't dominated by the top active region header, defer it until
286 // that region is done.
287 if (!Entries
.empty() &&
288 !MDT
.dominates(Entries
.back().TheRegion
->getHeader(), Next
)) {
289 Entries
.back().Deferred
.push_back(Next
);
293 // If Next was originally ordered before MBB, and it isn't because it was
294 // loop-rotated above the header, it's not preferred.
295 if (Next
->getNumber() < MBB
->getNumber() &&
296 (WasmDisableEHPadSort
|| !Next
->isEHPad()) &&
297 (!R
|| !R
->contains(Next
) ||
298 R
->getHeader()->getNumber() < Next
->getNumber())) {
305 // If we didn't find a suitable block in the Preferred list, check the
306 // general Ready list.
308 // If there are no more blocks to process, we're done.
310 maybeUpdateTerminator(MBB
);
316 // If Next isn't dominated by the top active region header, defer it
317 // until that region is done.
318 if (!Entries
.empty() &&
319 !MDT
.dominates(Entries
.back().TheRegion
->getHeader(), Next
)) {
320 Entries
.back().Deferred
.push_back(Next
);
326 // Move the next block into place and iterate.
327 Next
->moveAfter(MBB
);
328 maybeUpdateTerminator(MBB
);
331 assert(Entries
.empty() && "Active sort region list not finished");
335 SmallSetVector
<const SortRegion
*, 8> OnStack
;
337 // Insert a sentinel representing the degenerate loop that starts at the
338 // function entry block and includes the entire function as a "loop" that
340 OnStack
.insert(nullptr);
342 for (auto &MBB
: MF
) {
343 assert(MBB
.getNumber() >= 0 && "Renumbered blocks should be non-negative.");
344 const SortRegion
*Region
= SRI
.getRegionFor(&MBB
);
346 if (Region
&& &MBB
== Region
->getHeader()) {
348 if (Region
->isLoop()) {
349 // Loop header. The loop predecessor should be sorted above, and the
350 // other predecessors should be backedges below.
351 for (auto Pred
: MBB
.predecessors())
353 (Pred
->getNumber() < MBB
.getNumber() || Region
->contains(Pred
)) &&
354 "Loop header predecessors must be loop predecessors or "
357 // Exception header. All predecessors should be sorted above.
358 for (auto Pred
: MBB
.predecessors())
359 assert(Pred
->getNumber() < MBB
.getNumber() &&
360 "Non-loop-header predecessors should be topologically sorted");
362 assert(OnStack
.insert(Region
) &&
363 "Regions should be declared at most once.");
366 // Not a region header. All predecessors should be sorted above.
367 for (auto Pred
: MBB
.predecessors())
368 assert(Pred
->getNumber() < MBB
.getNumber() &&
369 "Non-loop-header predecessors should be topologically sorted");
370 assert(OnStack
.count(SRI
.getRegionFor(&MBB
)) &&
371 "Blocks must be nested in their regions");
373 while (OnStack
.size() > 1 && &MBB
== SRI
.getBottom(OnStack
.back()))
376 assert(OnStack
.pop_back_val() == nullptr &&
377 "The function entry block shouldn't actually be a region header");
378 assert(OnStack
.empty() &&
379 "Control flow stack pushes and pops should be balanced.");
383 bool WebAssemblyCFGSort::runOnMachineFunction(MachineFunction
&MF
) {
384 LLVM_DEBUG(dbgs() << "********** CFG Sorting **********\n"
385 "********** Function: "
386 << MF
.getName() << '\n');
388 const auto &MLI
= getAnalysis
<MachineLoopInfo
>();
389 const auto &WEI
= getAnalysis
<WebAssemblyExceptionInfo
>();
390 auto &MDT
= getAnalysis
<MachineDominatorTree
>();
391 // Liveness is not tracked for VALUE_STACK physreg.
392 MF
.getRegInfo().invalidateLiveness();
394 // Sort the blocks, with contiguous sort regions.
395 sortBlocks(MF
, MLI
, WEI
, MDT
);