WebAssemblyCFGSort.cpp source code [llvm/lib/Target/WebAssembly/WebAssemblyCFGSort.cpp]

1	//===-- WebAssemblyCFGSort.cpp - CFG Sorting ------------------------------===//
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 sorting pass.
11	///
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.
16	///
17	////===----------------------------------------------------------------------===//
18
19	#include "MCTargetDesc/WebAssemblyMCTargetDesc.h"
20	#include "WebAssembly.h"
21	#include "WebAssemblyExceptionInfo.h"
22	#include "WebAssemblySortRegion.h"
23	#include "WebAssemblySubtarget.h"
24	#include "WebAssemblyUtilities.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"
35	using namespace llvm;
36	using WebAssembly::SortRegion;
37	using WebAssembly::SortRegionInfo;
38
39	#define DEBUG_TYPE "wasm-cfg-sort"
40
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,
45	cl::desc (
46	"WebAssembly: Disable EH pad-first sort order. Testing purpose only."),
47	cl::init(Val: false));
48
49	namespace {
50
51	class WebAssemblyCFGSort final : public MachineFunctionPass {
52	StringRef getPassName() const override { return "WebAssembly CFG Sort"; }
53
54	void getAnalysisUsage(AnalysisUsage &AU) const override {
55	AU.setPreservesCFG();
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);
63	}
64
65	bool runOnMachineFunction(MachineFunction &MF) override;
66
67	public:
68	static char ID; // Pass identification, replacement for typeid
69	WebAssemblyCFGSort() : MachineFunctionPass (ID) {}
70	};
71	} // end anonymous namespace
72
73	char WebAssemblyCFGSort::ID = `0`;
74	INITIALIZE_PASS(WebAssemblyCFGSort, DEBUG_TYPE,
75	"Reorders blocks in topological order", false, false)
76
77	FunctionPass *llvm::createWebAssemblyCFGSort() {
78	return new WebAssemblyCFGSort ();
79	}
80
81	static void maybeUpdateTerminator(MachineBasicBlock *MBB) {
82	#ifndef NDEBUG
83	bool AnyBarrier = false;
84	#endif
85	bool AllAnalyzable = true;
86	for (const MachineInstr &Term : MBB->terminators()) {
87	#ifndef NDEBUG
88	AnyBarrier \|= Term.isBarrier();
89	#endif
90	AllAnalyzable &= Term.isBranch() && !Term.isIndirectBranch();
91	}
92	assert((AnyBarrier \|\| AllAnalyzable) &&
93	"analyzeBranch needs to analyze any block with a fallthrough");
94
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(N: MBB->getNumber() + `1`)
100	: nullptr;
101
102	if (AllAnalyzable)
103	MBB->updateTerminator(PreviousLayoutSuccessor: OriginalSuccessor);
104	}
105
106	namespace {
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:
111	//
112	// bb0:
113	// call @foo // If this throws, unwind to bb2
114	// bb1:
115	// call @bar // If this throws, unwind to bb3
116	// bb2 (ehpad):
117	// handler_bb2
118	// bb3 (ehpad):
119	// handler_bb3
120	// continuing code
121	//
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:
125	// try
126	// try
127	// call @foo
128	// call @bar // This should unwind to bb3, not bb2!
129	// catch
130	// handler_bb2
131	// end
132	// catch
133	// handler_bb3
134	// end
135	// continuing code
136	//
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.
139
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())
146	return false;
147	if (!A->isEHPad() && B->isEHPad())
148	return true;
149	}
150
151	return A->getNumber() > B->getNumber();
152	}
153	};
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())
160	return false;
161	if (!A->isEHPad() && B->isEHPad())
162	return true;
163	}
164
165	return A->getNumber() < B->getNumber();
166	}
167	};
168	/// Bookkeeping for a region to help ensure that we don't mix blocks not
169	/// dominated by the its header among its blocks.
170	struct Entry {
171	const SortRegion *TheRegion;
172	unsigned NumBlocksLeft;
173
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;
177
178	explicit Entry(const SortRegion *R)
179	: TheRegion(R), NumBlocksLeft(R->getNumBlocks()) {}
180	};
181	} // end anonymous namespace
182
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.
186	/// Explore them.
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.
192	MF.RenumberBlocks();
193
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(BB: &MBB))
200	if (L->getHeader() == &MBB)
201	for (const MachineBasicBlock *Pred : MBB.predecessors())
202	if (L->contains(BB: Pred))
203	--N;
204	NumPredsLeft [MBB.getNumber()] = N;
205	}
206
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
214	// from both queues.
215	PriorityQueue<MachineBasicBlock , std::vector<MachineBasicBlock >,
216	CompareBlockNumbers>
217	Preferred;
218	PriorityQueue<MachineBasicBlock , std::vector<MachineBasicBlock >,
219	CompareBlockNumbersBackwards>
220	Ready;
221
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);
227	if (R) {
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
230	// region.
231	if (R->getHeader() == MBB)
232	Entries.push_back(Elt: 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(x: DeferredBlock);
240	while (!Entries.empty() && Entries.back().NumBlocksLeft == `0`)
241	Entries.pop_back();
242	}
243	// The main topological sort logic.
244	for (MachineBasicBlock *Succ : MBB->successors()) {
245	// Ignore backedges.
246	if (MachineLoop *SuccL = MLI.getLoopFor(BB: Succ))
247	if (SuccL->getHeader() == Succ && SuccL->contains(BB: MBB))
248	continue;
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(MBB: Succ)) {
263	SmallPtrSet<MachineBasicBlock *, `4`> UnwindSrcs =
264	EHInfo->getUnwindSrcs(MBB: Succ);
265	bool IsDeferred = false;
266	for (Entry &E : Entries) {
267	if (UnwindSrcs.count(Ptr: E.TheRegion->getHeader())) {
268	E.Deferred.push_back(x: Succ);
269	IsDeferred = true;
270	break;
271	}
272	}
273	if (IsDeferred)
274	continue;
275	}
276	Preferred.push(x: Succ);
277	}
278	}
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();
284	Preferred.pop();
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(A: Entries.back().TheRegion->getHeader(), B: Next)) {
289	Entries.back().Deferred.push_back(x: Next);
290	Next = nullptr;
291	continue;
292	}
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(MBB: Next) \|\|
298	R->getHeader()->getNumber() < Next->getNumber())) {
299	Ready.push(x: Next);
300	Next = nullptr;
301	continue;
302	}
303	break;
304	}
305	// If we didn't find a suitable block in the Preferred list, check the
306	// general Ready list.
307	if (!Next) {
308	// If there are no more blocks to process, we're done.
309	if (Ready.empty()) {
310	maybeUpdateTerminator(MBB);
311	break;
312	}
313	for (;;) {
314	Next = Ready.top();
315	Ready.pop();
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(A: Entries.back().TheRegion->getHeader(), B: Next)) {
320	Entries.back().Deferred.push_back(x: Next);
321	continue;
322	}
323	break;
324	}
325	}
326	// Move the next block into place and iterate.
327	Next->moveAfter(NewBefore: MBB);
328	maybeUpdateTerminator(MBB);
329	MBB = Next;
330	}
331	assert(Entries.empty() && "Active sort region list not finished");
332	MF.RenumberBlocks();
333
334	#ifndef NDEBUG
335	SmallSetVector<const SortRegion *, `8`> OnStack;
336
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
339	// executes once.
340	OnStack.insert(X: nullptr);
341
342	for (auto &MBB : MF) {
343	assert(MBB.getNumber() >= `0` && "Renumbered blocks should be non-negative.");
344	const SortRegion *Region = SRI.getRegionFor(MBB: &MBB);
345
346	if (Region && &MBB == Region->getHeader()) {
347	// Region header.
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())
352	assert(
353	(Pred->getNumber() < MBB.getNumber() \|\| Region->contains(Pred)) &&
354	"Loop header predecessors must be loop predecessors or "
355	"backedges");
356	} else {
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");
361	}
362	assert(OnStack.insert(Region) &&
363	"Regions should be declared at most once.");
364
365	} else {
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");
372	}
373	while (OnStack.size() > `1` && &MBB == SRI.getBottom(R: OnStack.back()))
374	OnStack.pop_back();
375	}
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.");
380	#endif
381	}
382
383	bool WebAssemblyCFGSort::runOnMachineFunction(MachineFunction &MF) {
384	LLVM_DEBUG(dbgs() << "******** CFG Sorting ********\n"
385	"********** Function: "
386	<< MF.getName() << `'\n'`);
387
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();
393
394	// Sort the blocks, with contiguous sort regions.
395	sortBlocks(MF, MLI, WEI, MDT);
396
397	return true;
398	}
399

source code of llvm/lib/Target/WebAssembly/WebAssemblyCFGSort.cpp