12f09f445SMaksim Panchenko //===- bolt/Core/BinaryBasicBlock.cpp - Low-level basic block -------------===//
2a34c753fSRafael Auler //
3a34c753fSRafael Auler // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4a34c753fSRafael Auler // See https://llvm.org/LICENSE.txt for license information.
5a34c753fSRafael Auler // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6a34c753fSRafael Auler //
7a34c753fSRafael Auler //===----------------------------------------------------------------------===//
8a34c753fSRafael Auler //
92f09f445SMaksim Panchenko // This file implements the BinaryBasicBlock class.
102f09f445SMaksim Panchenko //
11a34c753fSRafael Auler //===----------------------------------------------------------------------===//
12a34c753fSRafael Auler
13a34c753fSRafael Auler #include "bolt/Core/BinaryBasicBlock.h"
14a34c753fSRafael Auler #include "bolt/Core/BinaryContext.h"
15a34c753fSRafael Auler #include "bolt/Core/BinaryFunction.h"
166bb26fcbSAmir Ayupov #include "llvm/ADT/SmallPtrSet.h"
17a34c753fSRafael Auler #include "llvm/MC/MCInst.h"
18a34c753fSRafael Auler #include "llvm/Support/Errc.h"
19a34c753fSRafael Auler
20a34c753fSRafael Auler #define DEBUG_TYPE "bolt"
21a34c753fSRafael Auler
22a34c753fSRafael Auler namespace llvm {
23a34c753fSRafael Auler namespace bolt {
24a34c753fSRafael Auler
25a34c753fSRafael Auler constexpr uint32_t BinaryBasicBlock::INVALID_OFFSET;
26a34c753fSRafael Auler
operator <(const BinaryBasicBlock & LHS,const BinaryBasicBlock & RHS)27a34c753fSRafael Auler bool operator<(const BinaryBasicBlock &LHS, const BinaryBasicBlock &RHS) {
28a34c753fSRafael Auler return LHS.Index < RHS.Index;
29a34c753fSRafael Auler }
30a34c753fSRafael Auler
hasCFG() const3140c2e0faSMaksim Panchenko bool BinaryBasicBlock::hasCFG() const { return getParent()->hasCFG(); }
32a34c753fSRafael Auler
isEntryPoint() const33a34c753fSRafael Auler bool BinaryBasicBlock::isEntryPoint() const {
34a34c753fSRafael Auler return getParent()->isEntryPoint(*this);
35a34c753fSRafael Auler }
36a34c753fSRafael Auler
hasInstructions() const37a34c753fSRafael Auler bool BinaryBasicBlock::hasInstructions() const {
38a34c753fSRafael Auler return getParent()->hasInstructions();
39a34c753fSRafael Auler }
40a34c753fSRafael Auler
getJumpTable() const415a343994SMaksim Panchenko const JumpTable *BinaryBasicBlock::getJumpTable() const {
42a34c753fSRafael Auler const MCInst *Inst = getLastNonPseudoInstr();
43a34c753fSRafael Auler const JumpTable *JT = Inst ? Function->getJumpTable(*Inst) : nullptr;
445a343994SMaksim Panchenko return JT;
45a34c753fSRafael Auler }
46a34c753fSRafael Auler
adjustNumPseudos(const MCInst & Inst,int Sign)47a34c753fSRafael Auler void BinaryBasicBlock::adjustNumPseudos(const MCInst &Inst, int Sign) {
48a34c753fSRafael Auler BinaryContext &BC = Function->getBinaryContext();
49a34c753fSRafael Auler if (BC.MIB->isPseudo(Inst))
50a34c753fSRafael Auler NumPseudos += Sign;
51a34c753fSRafael Auler }
52a34c753fSRafael Auler
getFirstNonPseudo()53a34c753fSRafael Auler BinaryBasicBlock::iterator BinaryBasicBlock::getFirstNonPseudo() {
54a34c753fSRafael Auler const BinaryContext &BC = Function->getBinaryContext();
55a34c753fSRafael Auler for (auto II = Instructions.begin(), E = Instructions.end(); II != E; ++II) {
56a34c753fSRafael Auler if (!BC.MIB->isPseudo(*II))
57a34c753fSRafael Auler return II;
58a34c753fSRafael Auler }
59a34c753fSRafael Auler return end();
60a34c753fSRafael Auler }
61a34c753fSRafael Auler
getLastNonPseudo()62a34c753fSRafael Auler BinaryBasicBlock::reverse_iterator BinaryBasicBlock::getLastNonPseudo() {
63a34c753fSRafael Auler const BinaryContext &BC = Function->getBinaryContext();
6440c2e0faSMaksim Panchenko for (auto RII = Instructions.rbegin(), E = Instructions.rend(); RII != E;
6540c2e0faSMaksim Panchenko ++RII) {
66a34c753fSRafael Auler if (!BC.MIB->isPseudo(*RII))
67a34c753fSRafael Auler return RII;
68a34c753fSRafael Auler }
69a34c753fSRafael Auler return rend();
70a34c753fSRafael Auler }
71a34c753fSRafael Auler
validateSuccessorInvariants()72a34c753fSRafael Auler bool BinaryBasicBlock::validateSuccessorInvariants() {
73a34c753fSRafael Auler const MCInst *Inst = getLastNonPseudoInstr();
74a34c753fSRafael Auler const JumpTable *JT = Inst ? Function->getJumpTable(*Inst) : nullptr;
75a34c753fSRafael Auler BinaryContext &BC = Function->getBinaryContext();
76a34c753fSRafael Auler bool Valid = true;
77a34c753fSRafael Auler
78a34c753fSRafael Auler if (JT) {
79a34c753fSRafael Auler // Note: for now we assume that successors do not reference labels from
80a34c753fSRafael Auler // any overlapping jump tables. We only look at the entries for the jump
81a34c753fSRafael Auler // table that is referenced at the last instruction.
82a34c753fSRafael Auler const auto Range = JT->getEntriesForAddress(BC.MIB->getJumpTable(*Inst));
83ae585be1SRafael Auler const std::vector<const MCSymbol *> Entries(
84ae585be1SRafael Auler std::next(JT->Entries.begin(), Range.first),
85ae585be1SRafael Auler std::next(JT->Entries.begin(), Range.second));
86a34c753fSRafael Auler std::set<const MCSymbol *> UniqueSyms(Entries.begin(), Entries.end());
87a34c753fSRafael Auler for (BinaryBasicBlock *Succ : Successors) {
88a34c753fSRafael Auler auto Itr = UniqueSyms.find(Succ->getLabel());
89a34c753fSRafael Auler if (Itr != UniqueSyms.end()) {
90a34c753fSRafael Auler UniqueSyms.erase(Itr);
91a34c753fSRafael Auler } else {
92a34c753fSRafael Auler // Work on the assumption that jump table blocks don't
93a34c753fSRafael Auler // have a conditional successor.
94a34c753fSRafael Auler Valid = false;
9552cf0711SAmir Ayupov BC.errs() << "BOLT-WARNING: Jump table successor " << Succ->getName()
96a34c753fSRafael Auler << " not contained in the jump table.\n";
97a34c753fSRafael Auler }
98a34c753fSRafael Auler }
99a34c753fSRafael Auler // If there are any leftover entries in the jump table, they
100a34c753fSRafael Auler // must be one of the function end labels.
101a34c753fSRafael Auler if (Valid) {
102a34c753fSRafael Auler for (const MCSymbol *Sym : UniqueSyms) {
103a34c753fSRafael Auler Valid &= (Sym == Function->getFunctionEndLabel() ||
104a191ea7dSFabian Parzefall Sym == Function->getFunctionEndLabel(getFragmentNum()));
105a34c753fSRafael Auler if (!Valid) {
10652cf0711SAmir Ayupov BC.errs() << "BOLT-WARNING: Jump table contains illegal entry: "
107a34c753fSRafael Auler << Sym->getName() << "\n";
108a34c753fSRafael Auler }
109a34c753fSRafael Auler }
110a34c753fSRafael Auler }
111a34c753fSRafael Auler } else {
112a34c753fSRafael Auler // Unknown control flow.
113a34c753fSRafael Auler if (Inst && BC.MIB->isIndirectBranch(*Inst))
114a34c753fSRafael Auler return true;
115a34c753fSRafael Auler
116a34c753fSRafael Auler const MCSymbol *TBB = nullptr;
117a34c753fSRafael Auler const MCSymbol *FBB = nullptr;
118a34c753fSRafael Auler MCInst *CondBranch = nullptr;
119a34c753fSRafael Auler MCInst *UncondBranch = nullptr;
120a34c753fSRafael Auler
121a34c753fSRafael Auler if (analyzeBranch(TBB, FBB, CondBranch, UncondBranch)) {
122a34c753fSRafael Auler switch (Successors.size()) {
123a34c753fSRafael Auler case 0:
124a34c753fSRafael Auler Valid = !CondBranch && !UncondBranch;
125a34c753fSRafael Auler break;
126a34c753fSRafael Auler case 1: {
12740c2e0faSMaksim Panchenko const bool HasCondBlock =
12840c2e0faSMaksim Panchenko CondBranch && Function->getBasicBlockForLabel(
12940c2e0faSMaksim Panchenko BC.MIB->getTargetSymbol(*CondBranch));
130a34c753fSRafael Auler Valid = !CondBranch || !HasCondBlock;
131a34c753fSRafael Auler break;
132a34c753fSRafael Auler }
133a34c753fSRafael Auler case 2:
134*1aff294fSNathan Sidwell Valid =
135*1aff294fSNathan Sidwell CondBranch && TBB == getConditionalSuccessor(true)->getLabel() &&
136*1aff294fSNathan Sidwell (UncondBranch ? FBB == getConditionalSuccessor(false)->getLabel()
137*1aff294fSNathan Sidwell : !FBB);
138a34c753fSRafael Auler break;
139a34c753fSRafael Auler }
140a34c753fSRafael Auler }
141a34c753fSRafael Auler }
142a34c753fSRafael Auler if (!Valid) {
14352cf0711SAmir Ayupov BC.errs() << "BOLT-WARNING: CFG invalid in " << *getFunction() << " @ "
144a34c753fSRafael Auler << getName() << "\n";
145a34c753fSRafael Auler if (JT) {
14652cf0711SAmir Ayupov BC.errs() << "Jump Table instruction addr = 0x"
147a34c753fSRafael Auler << Twine::utohexstr(BC.MIB->getJumpTable(*Inst)) << "\n";
148a34c753fSRafael Auler JT->print(errs());
149a34c753fSRafael Auler }
150a34c753fSRafael Auler getFunction()->dump();
151a34c753fSRafael Auler }
152a34c753fSRafael Auler return Valid;
153a34c753fSRafael Auler }
154a34c753fSRafael Auler
getSuccessor(const MCSymbol * Label) const155a34c753fSRafael Auler BinaryBasicBlock *BinaryBasicBlock::getSuccessor(const MCSymbol *Label) const {
156a34c753fSRafael Auler if (!Label && succ_size() == 1)
157a34c753fSRafael Auler return *succ_begin();
158a34c753fSRafael Auler
1593652483cSRafael Auler for (BinaryBasicBlock *BB : successors())
160a34c753fSRafael Auler if (BB->getLabel() == Label)
161a34c753fSRafael Auler return BB;
162a34c753fSRafael Auler
163a34c753fSRafael Auler return nullptr;
164a34c753fSRafael Auler }
165a34c753fSRafael Auler
getSuccessor(const MCSymbol * Label,BinaryBranchInfo & BI) const16640c2e0faSMaksim Panchenko BinaryBasicBlock *BinaryBasicBlock::getSuccessor(const MCSymbol *Label,
167a34c753fSRafael Auler BinaryBranchInfo &BI) const {
168a34c753fSRafael Auler auto BIIter = branch_info_begin();
169a34c753fSRafael Auler for (BinaryBasicBlock *BB : successors()) {
170a34c753fSRafael Auler if (BB->getLabel() == Label) {
171a34c753fSRafael Auler BI = *BIIter;
172a34c753fSRafael Auler return BB;
173a34c753fSRafael Auler }
174a34c753fSRafael Auler ++BIIter;
175a34c753fSRafael Auler }
176a34c753fSRafael Auler
177a34c753fSRafael Auler return nullptr;
178a34c753fSRafael Auler }
179a34c753fSRafael Auler
getLandingPad(const MCSymbol * Label) const180a34c753fSRafael Auler BinaryBasicBlock *BinaryBasicBlock::getLandingPad(const MCSymbol *Label) const {
1813652483cSRafael Auler for (BinaryBasicBlock *BB : landing_pads())
182a34c753fSRafael Auler if (BB->getLabel() == Label)
183a34c753fSRafael Auler return BB;
184a34c753fSRafael Auler
185a34c753fSRafael Auler return nullptr;
186a34c753fSRafael Auler }
187a34c753fSRafael Auler
getCFIStateAtInstr(const MCInst * Instr) const188a34c753fSRafael Auler int32_t BinaryBasicBlock::getCFIStateAtInstr(const MCInst *Instr) const {
189a34c753fSRafael Auler assert(
190a34c753fSRafael Auler getFunction()->getState() >= BinaryFunction::State::CFG &&
191a34c753fSRafael Auler "can only calculate CFI state when function is in or past the CFG state");
192a34c753fSRafael Auler
193ebe51c4dSMaksim Panchenko const BinaryFunction::CFIInstrMapType &FDEProgram =
194a34c753fSRafael Auler getFunction()->getFDEProgram();
195a34c753fSRafael Auler
196a34c753fSRafael Auler // Find the last CFI preceding Instr in this basic block.
197a34c753fSRafael Auler const MCInst *LastCFI = nullptr;
198a34c753fSRafael Auler bool InstrSeen = (Instr == nullptr);
199f40d25ddSAmir Ayupov for (const MCInst &Inst : llvm::reverse(Instructions)) {
200a34c753fSRafael Auler if (!InstrSeen) {
201f40d25ddSAmir Ayupov InstrSeen = (&Inst == Instr);
202a34c753fSRafael Auler continue;
203a34c753fSRafael Auler }
204f40d25ddSAmir Ayupov if (Function->getBinaryContext().MIB->isCFI(Inst)) {
205f40d25ddSAmir Ayupov LastCFI = &Inst;
206a34c753fSRafael Auler break;
207a34c753fSRafael Auler }
208a34c753fSRafael Auler }
209a34c753fSRafael Auler
210a34c753fSRafael Auler assert(InstrSeen && "instruction expected in basic block");
211a34c753fSRafael Auler
212a34c753fSRafael Auler // CFI state is the same as at basic block entry point.
213a34c753fSRafael Auler if (!LastCFI)
214a34c753fSRafael Auler return getCFIState();
215a34c753fSRafael Auler
216a34c753fSRafael Auler // Fold all RememberState/RestoreState sequences, such as for:
217a34c753fSRafael Auler //
218a34c753fSRafael Auler // [ CFI #(K-1) ]
219a34c753fSRafael Auler // RememberState (#K)
220a34c753fSRafael Auler // ....
221a34c753fSRafael Auler // RestoreState
222a34c753fSRafael Auler // RememberState
223a34c753fSRafael Auler // ....
224a34c753fSRafael Auler // RestoreState
225a34c753fSRafael Auler // [ GNU_args_size ]
226a34c753fSRafael Auler // RememberState
227a34c753fSRafael Auler // ....
228a34c753fSRafael Auler // RestoreState <- LastCFI
229a34c753fSRafael Auler //
230a34c753fSRafael Auler // we return K - the most efficient state to (re-)generate.
231a34c753fSRafael Auler int64_t State = LastCFI->getOperand(0).getImm();
232a34c753fSRafael Auler while (State >= 0 &&
233a34c753fSRafael Auler FDEProgram[State].getOperation() == MCCFIInstruction::OpRestoreState) {
234a34c753fSRafael Auler int32_t Depth = 1;
235a34c753fSRafael Auler --State;
236a34c753fSRafael Auler assert(State >= 0 && "first CFI cannot be RestoreState");
237a34c753fSRafael Auler while (Depth && State >= 0) {
238a34c753fSRafael Auler const MCCFIInstruction &CFIInstr = FDEProgram[State];
2393652483cSRafael Auler if (CFIInstr.getOperation() == MCCFIInstruction::OpRestoreState)
240a34c753fSRafael Auler ++Depth;
2413652483cSRafael Auler else if (CFIInstr.getOperation() == MCCFIInstruction::OpRememberState)
242a34c753fSRafael Auler --Depth;
243a34c753fSRafael Auler --State;
244a34c753fSRafael Auler }
245a34c753fSRafael Auler assert(Depth == 0 && "unbalanced RememberState/RestoreState stack");
246a34c753fSRafael Auler
247a34c753fSRafael Auler // Skip any GNU_args_size.
24840c2e0faSMaksim Panchenko while (State >= 0 && FDEProgram[State].getOperation() ==
24940c2e0faSMaksim Panchenko MCCFIInstruction::OpGnuArgsSize) {
250a34c753fSRafael Auler --State;
251a34c753fSRafael Auler }
252a34c753fSRafael Auler }
253a34c753fSRafael Auler
254a34c753fSRafael Auler assert((State + 1 >= 0) && "miscalculated CFI state");
255a34c753fSRafael Auler return State + 1;
256a34c753fSRafael Auler }
257a34c753fSRafael Auler
addSuccessor(BinaryBasicBlock * Succ,uint64_t Count,uint64_t MispredictedCount)25840c2e0faSMaksim Panchenko void BinaryBasicBlock::addSuccessor(BinaryBasicBlock *Succ, uint64_t Count,
259a34c753fSRafael Auler uint64_t MispredictedCount) {
260a34c753fSRafael Auler Successors.push_back(Succ);
261a34c753fSRafael Auler BranchInfo.push_back({Count, MispredictedCount});
262a34c753fSRafael Auler Succ->Predecessors.push_back(this);
263a34c753fSRafael Auler }
264a34c753fSRafael Auler
replaceSuccessor(BinaryBasicBlock * Succ,BinaryBasicBlock * NewSucc,uint64_t Count,uint64_t MispredictedCount)265a34c753fSRafael Auler void BinaryBasicBlock::replaceSuccessor(BinaryBasicBlock *Succ,
266a34c753fSRafael Auler BinaryBasicBlock *NewSucc,
267a34c753fSRafael Auler uint64_t Count,
268a34c753fSRafael Auler uint64_t MispredictedCount) {
269a34c753fSRafael Auler Succ->removePredecessor(this, /*Multiple=*/false);
270a34c753fSRafael Auler auto I = succ_begin();
271a34c753fSRafael Auler auto BI = BranchInfo.begin();
272a34c753fSRafael Auler for (; I != succ_end(); ++I) {
273a34c753fSRafael Auler assert(BI != BranchInfo.end() && "missing BranchInfo entry");
274a34c753fSRafael Auler if (*I == Succ)
275a34c753fSRafael Auler break;
276a34c753fSRafael Auler ++BI;
277a34c753fSRafael Auler }
278a34c753fSRafael Auler assert(I != succ_end() && "no such successor!");
279a34c753fSRafael Auler
280a34c753fSRafael Auler *I = NewSucc;
281a34c753fSRafael Auler *BI = BinaryBranchInfo{Count, MispredictedCount};
282a34c753fSRafael Auler NewSucc->addPredecessor(this);
283a34c753fSRafael Auler }
284a34c753fSRafael Auler
removeAllSuccessors()285a34c753fSRafael Auler void BinaryBasicBlock::removeAllSuccessors() {
2866bb26fcbSAmir Ayupov SmallPtrSet<BinaryBasicBlock *, 2> UniqSuccessors(succ_begin(), succ_end());
2876bb26fcbSAmir Ayupov for (BinaryBasicBlock *SuccessorBB : UniqSuccessors)
288a34c753fSRafael Auler SuccessorBB->removePredecessor(this);
289a34c753fSRafael Auler Successors.clear();
290a34c753fSRafael Auler BranchInfo.clear();
291a34c753fSRafael Auler }
292a34c753fSRafael Auler
removeSuccessor(BinaryBasicBlock * Succ)293a34c753fSRafael Auler void BinaryBasicBlock::removeSuccessor(BinaryBasicBlock *Succ) {
294a34c753fSRafael Auler Succ->removePredecessor(this, /*Multiple=*/false);
295a34c753fSRafael Auler auto I = succ_begin();
296a34c753fSRafael Auler auto BI = BranchInfo.begin();
297a34c753fSRafael Auler for (; I != succ_end(); ++I) {
298a34c753fSRafael Auler assert(BI != BranchInfo.end() && "missing BranchInfo entry");
299a34c753fSRafael Auler if (*I == Succ)
300a34c753fSRafael Auler break;
301a34c753fSRafael Auler ++BI;
302a34c753fSRafael Auler }
303a34c753fSRafael Auler assert(I != succ_end() && "no such successor!");
304a34c753fSRafael Auler
305a34c753fSRafael Auler Successors.erase(I);
306a34c753fSRafael Auler BranchInfo.erase(BI);
307a34c753fSRafael Auler }
308a34c753fSRafael Auler
addPredecessor(BinaryBasicBlock * Pred)309a34c753fSRafael Auler void BinaryBasicBlock::addPredecessor(BinaryBasicBlock *Pred) {
310a34c753fSRafael Auler Predecessors.push_back(Pred);
311a34c753fSRafael Auler }
312a34c753fSRafael Auler
removePredecessor(BinaryBasicBlock * Pred,bool Multiple)313a34c753fSRafael Auler void BinaryBasicBlock::removePredecessor(BinaryBasicBlock *Pred,
314a34c753fSRafael Auler bool Multiple) {
315a34c753fSRafael Auler // Note: the predecessor could be listed multiple times.
316a34c753fSRafael Auler bool Erased = false;
317a34c753fSRafael Auler for (auto PredI = Predecessors.begin(); PredI != Predecessors.end();) {
318a34c753fSRafael Auler if (*PredI == Pred) {
319a34c753fSRafael Auler Erased = true;
320a34c753fSRafael Auler PredI = Predecessors.erase(PredI);
321a34c753fSRafael Auler if (!Multiple)
322a34c753fSRafael Auler return;
323a34c753fSRafael Auler } else {
324a34c753fSRafael Auler ++PredI;
325a34c753fSRafael Auler }
326a34c753fSRafael Auler }
327a34c753fSRafael Auler assert(Erased && "Pred is not a predecessor of this block!");
328c907d6e0SAmir Ayupov (void)Erased;
329a34c753fSRafael Auler }
330a34c753fSRafael Auler
removeDuplicateConditionalSuccessor(MCInst * CondBranch)331a34c753fSRafael Auler void BinaryBasicBlock::removeDuplicateConditionalSuccessor(MCInst *CondBranch) {
332a34c753fSRafael Auler assert(succ_size() == 2 && Successors[0] == Successors[1] &&
333a34c753fSRafael Auler "conditional successors expected");
334a34c753fSRafael Auler
335a34c753fSRafael Auler BinaryBasicBlock *Succ = Successors[0];
336a34c753fSRafael Auler const BinaryBranchInfo CondBI = BranchInfo[0];
337a34c753fSRafael Auler const BinaryBranchInfo UncondBI = BranchInfo[1];
338a34c753fSRafael Auler
339a34c753fSRafael Auler eraseInstruction(findInstruction(CondBranch));
340a34c753fSRafael Auler
341a34c753fSRafael Auler Successors.clear();
342a34c753fSRafael Auler BranchInfo.clear();
343a34c753fSRafael Auler
344a34c753fSRafael Auler Successors.push_back(Succ);
345a34c753fSRafael Auler
346a34c753fSRafael Auler uint64_t Count = COUNT_NO_PROFILE;
347a34c753fSRafael Auler if (CondBI.Count != COUNT_NO_PROFILE && UncondBI.Count != COUNT_NO_PROFILE)
348a34c753fSRafael Auler Count = CondBI.Count + UncondBI.Count;
349a34c753fSRafael Auler BranchInfo.push_back({Count, 0});
350a34c753fSRafael Auler }
351a34c753fSRafael Auler
updateJumpTableSuccessors()3525a343994SMaksim Panchenko void BinaryBasicBlock::updateJumpTableSuccessors() {
3535a343994SMaksim Panchenko const JumpTable *JT = getJumpTable();
3545a343994SMaksim Panchenko assert(JT && "Expected jump table instruction.");
3555a343994SMaksim Panchenko
3565a343994SMaksim Panchenko // Clear existing successors.
3575a343994SMaksim Panchenko removeAllSuccessors();
3585a343994SMaksim Panchenko
3595a343994SMaksim Panchenko // Generate the list of successors in deterministic order without duplicates.
3605a343994SMaksim Panchenko SmallVector<BinaryBasicBlock *, 16> SuccessorBBs;
3615a343994SMaksim Panchenko for (const MCSymbol *Label : JT->Entries) {
3625a343994SMaksim Panchenko BinaryBasicBlock *BB = getFunction()->getBasicBlockForLabel(Label);
3635a343994SMaksim Panchenko // Ignore __builtin_unreachable()
3645a343994SMaksim Panchenko if (!BB) {
3655a343994SMaksim Panchenko assert(Label == getFunction()->getFunctionEndLabel() &&
3665a343994SMaksim Panchenko "JT label should match a block or end of function.");
3675a343994SMaksim Panchenko continue;
3685a343994SMaksim Panchenko }
3695a343994SMaksim Panchenko SuccessorBBs.emplace_back(BB);
3705a343994SMaksim Panchenko }
3715a343994SMaksim Panchenko llvm::sort(SuccessorBBs,
3725a343994SMaksim Panchenko [](const BinaryBasicBlock *BB1, const BinaryBasicBlock *BB2) {
3735a343994SMaksim Panchenko return BB1->getInputOffset() < BB2->getInputOffset();
3745a343994SMaksim Panchenko });
3755a343994SMaksim Panchenko SuccessorBBs.erase(std::unique(SuccessorBBs.begin(), SuccessorBBs.end()),
3765a343994SMaksim Panchenko SuccessorBBs.end());
3775a343994SMaksim Panchenko
3785a343994SMaksim Panchenko for (BinaryBasicBlock *BB : SuccessorBBs)
3795a343994SMaksim Panchenko addSuccessor(BB);
3805a343994SMaksim Panchenko }
3815a343994SMaksim Panchenko
adjustExecutionCount(double Ratio)382a34c753fSRafael Auler void BinaryBasicBlock::adjustExecutionCount(double Ratio) {
383a34c753fSRafael Auler auto adjustedCount = [&](uint64_t Count) -> uint64_t {
384a34c753fSRafael Auler double NewCount = Count * Ratio;
385a34c753fSRafael Auler if (!NewCount && Count && (Ratio > 0.0))
386a34c753fSRafael Auler NewCount = 1;
387a34c753fSRafael Auler return NewCount;
388a34c753fSRafael Auler };
389a34c753fSRafael Auler
390a34c753fSRafael Auler setExecutionCount(adjustedCount(getKnownExecutionCount()));
391a34c753fSRafael Auler for (BinaryBranchInfo &BI : branch_info()) {
392a34c753fSRafael Auler if (BI.Count != COUNT_NO_PROFILE)
393a34c753fSRafael Auler BI.Count = adjustedCount(BI.Count);
394a34c753fSRafael Auler if (BI.MispredictedCount != COUNT_INFERRED)
395a34c753fSRafael Auler BI.MispredictedCount = adjustedCount(BI.MispredictedCount);
396a34c753fSRafael Auler }
397a34c753fSRafael Auler }
398a34c753fSRafael Auler
analyzeBranch(const MCSymbol * & TBB,const MCSymbol * & FBB,MCInst * & CondBranch,MCInst * & UncondBranch)39940c2e0faSMaksim Panchenko bool BinaryBasicBlock::analyzeBranch(const MCSymbol *&TBB, const MCSymbol *&FBB,
400a34c753fSRafael Auler MCInst *&CondBranch,
401a34c753fSRafael Auler MCInst *&UncondBranch) {
402a34c753fSRafael Auler auto &MIB = Function->getBinaryContext().MIB;
40340c2e0faSMaksim Panchenko return MIB->analyzeBranch(Instructions.begin(), Instructions.end(), TBB, FBB,
40440c2e0faSMaksim Panchenko CondBranch, UncondBranch);
405a34c753fSRafael Auler }
406a34c753fSRafael Auler
getTerminatorBefore(MCInst * Pos)407a34c753fSRafael Auler MCInst *BinaryBasicBlock::getTerminatorBefore(MCInst *Pos) {
408a34c753fSRafael Auler BinaryContext &BC = Function->getBinaryContext();
409a34c753fSRafael Auler auto Itr = rbegin();
410a34c753fSRafael Auler bool Check = Pos ? false : true;
411a34c753fSRafael Auler MCInst *FirstTerminator = nullptr;
412a34c753fSRafael Auler while (Itr != rend()) {
413a34c753fSRafael Auler if (!Check) {
414a34c753fSRafael Auler if (&*Itr == Pos)
415a34c753fSRafael Auler Check = true;
416a34c753fSRafael Auler ++Itr;
417a34c753fSRafael Auler continue;
418a34c753fSRafael Auler }
419a34c753fSRafael Auler if (BC.MIB->isTerminator(*Itr))
420a34c753fSRafael Auler FirstTerminator = &*Itr;
421a34c753fSRafael Auler ++Itr;
422a34c753fSRafael Auler }
423a34c753fSRafael Auler return FirstTerminator;
424a34c753fSRafael Auler }
425a34c753fSRafael Auler
hasTerminatorAfter(MCInst * Pos)426a34c753fSRafael Auler bool BinaryBasicBlock::hasTerminatorAfter(MCInst *Pos) {
427a34c753fSRafael Auler BinaryContext &BC = Function->getBinaryContext();
428a34c753fSRafael Auler auto Itr = rbegin();
429a34c753fSRafael Auler while (Itr != rend()) {
430a34c753fSRafael Auler if (&*Itr == Pos)
431a34c753fSRafael Auler return false;
432a34c753fSRafael Auler if (BC.MIB->isTerminator(*Itr))
433a34c753fSRafael Auler return true;
434a34c753fSRafael Auler ++Itr;
435a34c753fSRafael Auler }
436a34c753fSRafael Auler return false;
437a34c753fSRafael Auler }
438a34c753fSRafael Auler
swapConditionalSuccessors()439a34c753fSRafael Auler bool BinaryBasicBlock::swapConditionalSuccessors() {
440a34c753fSRafael Auler if (succ_size() != 2)
441a34c753fSRafael Auler return false;
442a34c753fSRafael Auler
443a34c753fSRafael Auler std::swap(Successors[0], Successors[1]);
444a34c753fSRafael Auler std::swap(BranchInfo[0], BranchInfo[1]);
445a34c753fSRafael Auler return true;
446a34c753fSRafael Auler }
447a34c753fSRafael Auler
addBranchInstruction(const BinaryBasicBlock * Successor)448a34c753fSRafael Auler void BinaryBasicBlock::addBranchInstruction(const BinaryBasicBlock *Successor) {
449a34c753fSRafael Auler assert(isSuccessor(Successor));
450a34c753fSRafael Auler BinaryContext &BC = Function->getBinaryContext();
451a34c753fSRafael Auler MCInst NewInst;
452e8ce5f1eSNico Weber std::unique_lock<llvm::sys::RWMutex> Lock(BC.CtxMutex);
453a34c753fSRafael Auler BC.MIB->createUncondBranch(NewInst, Successor->getLabel(), BC.Ctx.get());
454a34c753fSRafael Auler Instructions.emplace_back(std::move(NewInst));
455a34c753fSRafael Auler }
456a34c753fSRafael Auler
addTailCallInstruction(const MCSymbol * Target)457a34c753fSRafael Auler void BinaryBasicBlock::addTailCallInstruction(const MCSymbol *Target) {
458a34c753fSRafael Auler BinaryContext &BC = Function->getBinaryContext();
459a34c753fSRafael Auler MCInst NewInst;
460a34c753fSRafael Auler BC.MIB->createTailCall(NewInst, Target, BC.Ctx.get());
461a34c753fSRafael Auler Instructions.emplace_back(std::move(NewInst));
462a34c753fSRafael Auler }
463a34c753fSRafael Auler
getNumCalls() const464a34c753fSRafael Auler uint32_t BinaryBasicBlock::getNumCalls() const {
465a34c753fSRafael Auler uint32_t N = 0;
466a34c753fSRafael Auler BinaryContext &BC = Function->getBinaryContext();
467a34c753fSRafael Auler for (const MCInst &Instr : Instructions) {
468a34c753fSRafael Auler if (BC.MIB->isCall(Instr))
469a34c753fSRafael Auler ++N;
470a34c753fSRafael Auler }
471a34c753fSRafael Auler return N;
472a34c753fSRafael Auler }
473a34c753fSRafael Auler
getNumPseudos() const474a34c753fSRafael Auler uint32_t BinaryBasicBlock::getNumPseudos() const {
475a34c753fSRafael Auler #ifndef NDEBUG
476a34c753fSRafael Auler BinaryContext &BC = Function->getBinaryContext();
477a34c753fSRafael Auler uint32_t N = 0;
4783652483cSRafael Auler for (const MCInst &Instr : Instructions)
479a34c753fSRafael Auler if (BC.MIB->isPseudo(Instr))
480a34c753fSRafael Auler ++N;
4813652483cSRafael Auler
482a34c753fSRafael Auler if (N != NumPseudos) {
48352cf0711SAmir Ayupov BC.errs() << "BOLT-ERROR: instructions for basic block " << getName()
48440c2e0faSMaksim Panchenko << " in function " << *Function << ": calculated pseudos " << N
48540c2e0faSMaksim Panchenko << ", set pseudos " << NumPseudos << ", size " << size() << '\n';
486a34c753fSRafael Auler llvm_unreachable("pseudos mismatch");
487a34c753fSRafael Auler }
488a34c753fSRafael Auler #endif
489a34c753fSRafael Auler return NumPseudos;
490a34c753fSRafael Auler }
491a34c753fSRafael Auler
492a34c753fSRafael Auler ErrorOr<std::pair<double, double>>
getBranchStats(const BinaryBasicBlock * Succ) const493a34c753fSRafael Auler BinaryBasicBlock::getBranchStats(const BinaryBasicBlock *Succ) const {
494a34c753fSRafael Auler if (Function->hasValidProfile()) {
495a34c753fSRafael Auler uint64_t TotalCount = 0;
496a34c753fSRafael Auler uint64_t TotalMispreds = 0;
497a34c753fSRafael Auler for (const BinaryBranchInfo &BI : BranchInfo) {
498a34c753fSRafael Auler if (BI.Count != COUNT_NO_PROFILE) {
499a34c753fSRafael Auler TotalCount += BI.Count;
500a34c753fSRafael Auler TotalMispreds += BI.MispredictedCount;
501a34c753fSRafael Auler }
502a34c753fSRafael Auler }
503a34c753fSRafael Auler
504a34c753fSRafael Auler if (TotalCount > 0) {
505d2c87699SAmir Ayupov auto Itr = llvm::find(Successors, Succ);
506a34c753fSRafael Auler assert(Itr != Successors.end());
507a34c753fSRafael Auler const BinaryBranchInfo &BI = BranchInfo[Itr - Successors.begin()];
508a34c753fSRafael Auler if (BI.Count && BI.Count != COUNT_NO_PROFILE) {
50940c2e0faSMaksim Panchenko if (TotalMispreds == 0)
51040c2e0faSMaksim Panchenko TotalMispreds = 1;
511a34c753fSRafael Auler return std::make_pair(double(BI.Count) / TotalCount,
512a34c753fSRafael Auler double(BI.MispredictedCount) / TotalMispreds);
513a34c753fSRafael Auler }
514a34c753fSRafael Auler }
515a34c753fSRafael Auler }
516a34c753fSRafael Auler return make_error_code(llvm::errc::result_out_of_range);
517a34c753fSRafael Auler }
518a34c753fSRafael Auler
dump() const519a34c753fSRafael Auler void BinaryBasicBlock::dump() const {
520a34c753fSRafael Auler BinaryContext &BC = Function->getBinaryContext();
52140c2e0faSMaksim Panchenko if (Label)
52252cf0711SAmir Ayupov BC.outs() << Label->getName() << ":\n";
52352cf0711SAmir Ayupov BC.printInstructions(BC.outs(), Instructions.begin(), Instructions.end(),
52402d510b4SAmir Ayupov getOffset(), Function);
52552cf0711SAmir Ayupov BC.outs() << "preds:";
526a34c753fSRafael Auler for (auto itr = pred_begin(); itr != pred_end(); ++itr) {
52752cf0711SAmir Ayupov BC.outs() << " " << (*itr)->getName();
528a34c753fSRafael Auler }
52952cf0711SAmir Ayupov BC.outs() << "\nsuccs:";
530a34c753fSRafael Auler for (auto itr = succ_begin(); itr != succ_end(); ++itr) {
53152cf0711SAmir Ayupov BC.outs() << " " << (*itr)->getName();
532a34c753fSRafael Auler }
53352cf0711SAmir Ayupov BC.outs() << "\n";
534a34c753fSRafael Auler }
535a34c753fSRafael Auler
estimateSize(const MCCodeEmitter * Emitter) const536a34c753fSRafael Auler uint64_t BinaryBasicBlock::estimateSize(const MCCodeEmitter *Emitter) const {
537a34c753fSRafael Auler return Function->getBinaryContext().computeCodeSize(begin(), end(), Emitter);
538a34c753fSRafael Auler }
539a34c753fSRafael Auler
540a34c753fSRafael Auler BinaryBasicBlock::BinaryBranchInfo &
getBranchInfo(const BinaryBasicBlock & Succ)541a34c753fSRafael Auler BinaryBasicBlock::getBranchInfo(const BinaryBasicBlock &Succ) {
542d5c03defSFabian Parzefall return const_cast<BinaryBranchInfo &>(
543d5c03defSFabian Parzefall static_cast<const BinaryBasicBlock &>(*this).getBranchInfo(Succ));
544a34c753fSRafael Auler }
545a34c753fSRafael Auler
546d5c03defSFabian Parzefall const BinaryBasicBlock::BinaryBranchInfo &
getBranchInfo(const BinaryBasicBlock & Succ) const547d5c03defSFabian Parzefall BinaryBasicBlock::getBranchInfo(const BinaryBasicBlock &Succ) const {
548d5c03defSFabian Parzefall const auto Zip = llvm::zip(successors(), branch_info());
549d5c03defSFabian Parzefall const auto Result = llvm::find_if(
550d5c03defSFabian Parzefall Zip, [&](const auto &Tuple) { return std::get<0>(Tuple) == &Succ; });
551d5c03defSFabian Parzefall assert(Result != Zip.end() && "Cannot find target in successors");
552d5c03defSFabian Parzefall return std::get<1>(*Result);
553a34c753fSRafael Auler }
554a34c753fSRafael Auler
splitAt(iterator II)555a34c753fSRafael Auler BinaryBasicBlock *BinaryBasicBlock::splitAt(iterator II) {
556a34c753fSRafael Auler assert(II != end() && "expected iterator pointing to instruction");
557a34c753fSRafael Auler
5588228c703SMaksim Panchenko BinaryBasicBlock *NewBlock = getFunction()->addBasicBlock();
559a34c753fSRafael Auler
560a34c753fSRafael Auler // Adjust successors/predecessors and propagate the execution count.
561a34c753fSRafael Auler moveAllSuccessorsTo(NewBlock);
562a34c753fSRafael Auler addSuccessor(NewBlock, getExecutionCount(), 0);
563a34c753fSRafael Auler
564a34c753fSRafael Auler // Set correct CFI state for the new block.
565a34c753fSRafael Auler NewBlock->setCFIState(getCFIStateAtInstr(&*II));
566a34c753fSRafael Auler
567a34c753fSRafael Auler // Move instructions over.
568a34c753fSRafael Auler adjustNumPseudos(II, end(), -1);
569a34c753fSRafael Auler NewBlock->addInstructions(II, end());
570a34c753fSRafael Auler Instructions.erase(II, end());
571a34c753fSRafael Auler
572a34c753fSRafael Auler return NewBlock;
573a34c753fSRafael Auler }
574a34c753fSRafael Auler
575a34c753fSRafael Auler } // namespace bolt
576a34c753fSRafael Auler } // namespace llvm
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