1d3d88d08SYonghong Song //===----- BPFMISimplifyPatchable.cpp - MI Simplify Patchable Insts -------===//
2d3d88d08SYonghong Song //
3d3d88d08SYonghong Song // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4d3d88d08SYonghong Song // See https://llvm.org/LICENSE.txt for license information.
5d3d88d08SYonghong Song // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6d3d88d08SYonghong Song //
7d3d88d08SYonghong Song //===----------------------------------------------------------------------===//
8d3d88d08SYonghong Song //
9d3d88d08SYonghong Song // This pass targets a subset of instructions like below
10d3d88d08SYonghong Song // ld_imm64 r1, @global
11d3d88d08SYonghong Song // ldd r2, r1, 0
12d3d88d08SYonghong Song // add r3, struct_base_reg, r2
13d3d88d08SYonghong Song //
14d46a6a9eSYonghong Song // Here @global should represent an AMA (abstruct member access).
15d46a6a9eSYonghong Song // Such an access is subject to bpf load time patching. After this pass, the
16d3d88d08SYonghong Song // code becomes
17d3d88d08SYonghong Song // ld_imm64 r1, @global
18d3d88d08SYonghong Song // add r3, struct_base_reg, r1
19d3d88d08SYonghong Song //
20d3d88d08SYonghong Song // Eventually, at BTF output stage, a relocation record will be generated
21d3d88d08SYonghong Song // for ld_imm64 which should be replaced later by bpf loader:
22d46a6a9eSYonghong Song // r1 = <calculated field_info>
23d3d88d08SYonghong Song // add r3, struct_base_reg, r1
24d3d88d08SYonghong Song //
256b01b465SYonghong Song // This pass also removes the intermediate load generated in IR pass for
266b01b465SYonghong Song // __builtin_btf_type_id() intrinsic.
276b01b465SYonghong Song //
28d3d88d08SYonghong Song //===----------------------------------------------------------------------===//
29d3d88d08SYonghong Song
30d3d88d08SYonghong Song #include "BPF.h"
31d3d88d08SYonghong Song #include "BPFCORE.h"
32d3d88d08SYonghong Song #include "BPFInstrInfo.h"
33d3d88d08SYonghong Song #include "BPFTargetMachine.h"
34989f1c72Sserge-sans-paille #include "llvm/CodeGen/MachineFunctionPass.h"
35d3d88d08SYonghong Song #include "llvm/CodeGen/MachineInstrBuilder.h"
36d3d88d08SYonghong Song #include "llvm/CodeGen/MachineRegisterInfo.h"
37904cd3e0SReid Kleckner #include "llvm/Support/Debug.h"
38*497a5f04SPeter Klausler #include <set>
39d3d88d08SYonghong Song
40d3d88d08SYonghong Song using namespace llvm;
41d3d88d08SYonghong Song
42d3d88d08SYonghong Song #define DEBUG_TYPE "bpf-mi-simplify-patchable"
43d3d88d08SYonghong Song
44d3d88d08SYonghong Song namespace {
45d3d88d08SYonghong Song
46d3d88d08SYonghong Song struct BPFMISimplifyPatchable : public MachineFunctionPass {
47d3d88d08SYonghong Song
48d3d88d08SYonghong Song static char ID;
49d3d88d08SYonghong Song const BPFInstrInfo *TII;
50d3d88d08SYonghong Song MachineFunction *MF;
51d3d88d08SYonghong Song
BPFMISimplifyPatchable__anone037fbbc0111::BPFMISimplifyPatchable52d3d88d08SYonghong Song BPFMISimplifyPatchable() : MachineFunctionPass(ID) {
53d3d88d08SYonghong Song initializeBPFMISimplifyPatchablePass(*PassRegistry::getPassRegistry());
54d3d88d08SYonghong Song }
55d3d88d08SYonghong Song
56d3d88d08SYonghong Song private:
57*497a5f04SPeter Klausler std::set<MachineInstr *> SkipInsts;
58*497a5f04SPeter Klausler
59d3d88d08SYonghong Song // Initialize class variables.
60d3d88d08SYonghong Song void initialize(MachineFunction &MFParm);
61d3d88d08SYonghong Song
62*497a5f04SPeter Klausler bool isLoadInst(unsigned Opcode);
637e163afdSKazu Hirata bool removeLD();
64ffd57408SYonghong Song void processCandidate(MachineRegisterInfo *MRI, MachineBasicBlock &MBB,
65ffd57408SYonghong Song MachineInstr &MI, Register &SrcReg, Register &DstReg,
666b01b465SYonghong Song const GlobalValue *GVal, bool IsAma);
67ffd57408SYonghong Song void processDstReg(MachineRegisterInfo *MRI, Register &DstReg,
68ffd57408SYonghong Song Register &SrcReg, const GlobalValue *GVal,
696b01b465SYonghong Song bool doSrcRegProp, bool IsAma);
70ffd57408SYonghong Song void processInst(MachineRegisterInfo *MRI, MachineInstr *Inst,
71ffd57408SYonghong Song MachineOperand *RelocOp, const GlobalValue *GVal);
72ffd57408SYonghong Song void checkADDrr(MachineRegisterInfo *MRI, MachineOperand *RelocOp,
73ffd57408SYonghong Song const GlobalValue *GVal);
74ffd57408SYonghong Song void checkShift(MachineRegisterInfo *MRI, MachineBasicBlock &MBB,
75ffd57408SYonghong Song MachineOperand *RelocOp, const GlobalValue *GVal,
76ffd57408SYonghong Song unsigned Opcode);
77d3d88d08SYonghong Song
78d3d88d08SYonghong Song public:
79d3d88d08SYonghong Song // Main entry point for this pass.
runOnMachineFunction__anone037fbbc0111::BPFMISimplifyPatchable80d3d88d08SYonghong Song bool runOnMachineFunction(MachineFunction &MF) override {
81795bbb36SYonghong Song if (skipFunction(MF.getFunction()))
82795bbb36SYonghong Song return false;
83795bbb36SYonghong Song
84d3d88d08SYonghong Song initialize(MF);
85d3d88d08SYonghong Song return removeLD();
86d3d88d08SYonghong Song }
87d3d88d08SYonghong Song };
88d3d88d08SYonghong Song
89d3d88d08SYonghong Song // Initialize class variables.
initialize(MachineFunction & MFParm)90d3d88d08SYonghong Song void BPFMISimplifyPatchable::initialize(MachineFunction &MFParm) {
91d3d88d08SYonghong Song MF = &MFParm;
92d3d88d08SYonghong Song TII = MF->getSubtarget<BPFSubtarget>().getInstrInfo();
93d3d88d08SYonghong Song LLVM_DEBUG(dbgs() << "*** BPF simplify patchable insts pass ***\n\n");
94d3d88d08SYonghong Song }
95d3d88d08SYonghong Song
isLoadInst(unsigned Opcode)96*497a5f04SPeter Klausler bool BPFMISimplifyPatchable::isLoadInst(unsigned Opcode) {
97*497a5f04SPeter Klausler return Opcode == BPF::LDD || Opcode == BPF::LDW || Opcode == BPF::LDH ||
98*497a5f04SPeter Klausler Opcode == BPF::LDB || Opcode == BPF::LDW32 || Opcode == BPF::LDH32 ||
99*497a5f04SPeter Klausler Opcode == BPF::LDB32;
100*497a5f04SPeter Klausler }
101*497a5f04SPeter Klausler
checkADDrr(MachineRegisterInfo * MRI,MachineOperand * RelocOp,const GlobalValue * GVal)102ffd57408SYonghong Song void BPFMISimplifyPatchable::checkADDrr(MachineRegisterInfo *MRI,
103ffd57408SYonghong Song MachineOperand *RelocOp, const GlobalValue *GVal) {
104ffd57408SYonghong Song const MachineInstr *Inst = RelocOp->getParent();
105ffd57408SYonghong Song const MachineOperand *Op1 = &Inst->getOperand(1);
106ffd57408SYonghong Song const MachineOperand *Op2 = &Inst->getOperand(2);
107ffd57408SYonghong Song const MachineOperand *BaseOp = (RelocOp == Op1) ? Op2 : Op1;
108ffd57408SYonghong Song
109ffd57408SYonghong Song // Go through all uses of %1 as in %1 = ADD_rr %2, %3
110ffd57408SYonghong Song const MachineOperand Op0 = Inst->getOperand(0);
1112c4ba3e9SKazu Hirata for (MachineOperand &MO :
1122c4ba3e9SKazu Hirata llvm::make_early_inc_range(MRI->use_operands(Op0.getReg()))) {
113ffd57408SYonghong Song // The candidate needs to have a unique definition.
1142c4ba3e9SKazu Hirata if (!MRI->getUniqueVRegDef(MO.getReg()))
115ffd57408SYonghong Song continue;
116ffd57408SYonghong Song
1172c4ba3e9SKazu Hirata MachineInstr *DefInst = MO.getParent();
118ffd57408SYonghong Song unsigned Opcode = DefInst->getOpcode();
119ffd57408SYonghong Song unsigned COREOp;
120ffd57408SYonghong Song if (Opcode == BPF::LDB || Opcode == BPF::LDH || Opcode == BPF::LDW ||
121ffd57408SYonghong Song Opcode == BPF::LDD || Opcode == BPF::STB || Opcode == BPF::STH ||
122ffd57408SYonghong Song Opcode == BPF::STW || Opcode == BPF::STD)
123ffd57408SYonghong Song COREOp = BPF::CORE_MEM;
124ffd57408SYonghong Song else if (Opcode == BPF::LDB32 || Opcode == BPF::LDH32 ||
125ffd57408SYonghong Song Opcode == BPF::LDW32 || Opcode == BPF::STB32 ||
126ffd57408SYonghong Song Opcode == BPF::STH32 || Opcode == BPF::STW32)
127ffd57408SYonghong Song COREOp = BPF::CORE_ALU32_MEM;
128ffd57408SYonghong Song else
129ffd57408SYonghong Song continue;
130ffd57408SYonghong Song
1313cb7e7bfSYonghong Song // It must be a form of %2 = *(type *)(%1 + 0) or *(type *)(%1 + 0) = %2.
132ffd57408SYonghong Song const MachineOperand &ImmOp = DefInst->getOperand(2);
133ffd57408SYonghong Song if (!ImmOp.isImm() || ImmOp.getImm() != 0)
134ffd57408SYonghong Song continue;
135ffd57408SYonghong Song
1363cb7e7bfSYonghong Song // Reject the form:
1373cb7e7bfSYonghong Song // %1 = ADD_rr %2, %3
1383cb7e7bfSYonghong Song // *(type *)(%2 + 0) = %1
1393cb7e7bfSYonghong Song if (Opcode == BPF::STB || Opcode == BPF::STH || Opcode == BPF::STW ||
1403cb7e7bfSYonghong Song Opcode == BPF::STD || Opcode == BPF::STB32 || Opcode == BPF::STH32 ||
1413cb7e7bfSYonghong Song Opcode == BPF::STW32) {
1423cb7e7bfSYonghong Song const MachineOperand &Opnd = DefInst->getOperand(0);
1432c4ba3e9SKazu Hirata if (Opnd.isReg() && Opnd.getReg() == MO.getReg())
1443cb7e7bfSYonghong Song continue;
1453cb7e7bfSYonghong Song }
1463cb7e7bfSYonghong Song
147ffd57408SYonghong Song BuildMI(*DefInst->getParent(), *DefInst, DefInst->getDebugLoc(), TII->get(COREOp))
148ffd57408SYonghong Song .add(DefInst->getOperand(0)).addImm(Opcode).add(*BaseOp)
149ffd57408SYonghong Song .addGlobalAddress(GVal);
150ffd57408SYonghong Song DefInst->eraseFromParent();
151ffd57408SYonghong Song }
152ffd57408SYonghong Song }
153ffd57408SYonghong Song
checkShift(MachineRegisterInfo * MRI,MachineBasicBlock & MBB,MachineOperand * RelocOp,const GlobalValue * GVal,unsigned Opcode)154ffd57408SYonghong Song void BPFMISimplifyPatchable::checkShift(MachineRegisterInfo *MRI,
155ffd57408SYonghong Song MachineBasicBlock &MBB, MachineOperand *RelocOp, const GlobalValue *GVal,
156ffd57408SYonghong Song unsigned Opcode) {
157ffd57408SYonghong Song // Relocation operand should be the operand #2.
158ffd57408SYonghong Song MachineInstr *Inst = RelocOp->getParent();
159ffd57408SYonghong Song if (RelocOp != &Inst->getOperand(2))
160ffd57408SYonghong Song return;
161ffd57408SYonghong Song
162ffd57408SYonghong Song BuildMI(MBB, *Inst, Inst->getDebugLoc(), TII->get(BPF::CORE_SHIFT))
163ffd57408SYonghong Song .add(Inst->getOperand(0)).addImm(Opcode)
164ffd57408SYonghong Song .add(Inst->getOperand(1)).addGlobalAddress(GVal);
165ffd57408SYonghong Song Inst->eraseFromParent();
166ffd57408SYonghong Song }
167ffd57408SYonghong Song
processCandidate(MachineRegisterInfo * MRI,MachineBasicBlock & MBB,MachineInstr & MI,Register & SrcReg,Register & DstReg,const GlobalValue * GVal,bool IsAma)168ffd57408SYonghong Song void BPFMISimplifyPatchable::processCandidate(MachineRegisterInfo *MRI,
169ffd57408SYonghong Song MachineBasicBlock &MBB, MachineInstr &MI, Register &SrcReg,
1706b01b465SYonghong Song Register &DstReg, const GlobalValue *GVal, bool IsAma) {
171ffd57408SYonghong Song if (MRI->getRegClass(DstReg) == &BPF::GPR32RegClass) {
1726b01b465SYonghong Song if (IsAma) {
173ffd57408SYonghong Song // We can optimize such a pattern:
174ffd57408SYonghong Song // %1:gpr = LD_imm64 @"llvm.s:0:4$0:2"
175ffd57408SYonghong Song // %2:gpr32 = LDW32 %1:gpr, 0
176ffd57408SYonghong Song // %3:gpr = SUBREG_TO_REG 0, %2:gpr32, %subreg.sub_32
177ffd57408SYonghong Song // %4:gpr = ADD_rr %0:gpr, %3:gpr
178ffd57408SYonghong Song // or similar patterns below for non-alu32 case.
179ffd57408SYonghong Song auto Begin = MRI->use_begin(DstReg), End = MRI->use_end();
180ffd57408SYonghong Song decltype(End) NextI;
181ffd57408SYonghong Song for (auto I = Begin; I != End; I = NextI) {
182ffd57408SYonghong Song NextI = std::next(I);
183ffd57408SYonghong Song if (!MRI->getUniqueVRegDef(I->getReg()))
184ffd57408SYonghong Song continue;
185ffd57408SYonghong Song
186ffd57408SYonghong Song unsigned Opcode = I->getParent()->getOpcode();
187ffd57408SYonghong Song if (Opcode == BPF::SUBREG_TO_REG) {
188ffd57408SYonghong Song Register TmpReg = I->getParent()->getOperand(0).getReg();
1896b01b465SYonghong Song processDstReg(MRI, TmpReg, DstReg, GVal, false, IsAma);
1906b01b465SYonghong Song }
191ffd57408SYonghong Song }
192ffd57408SYonghong Song }
193ffd57408SYonghong Song
194ffd57408SYonghong Song BuildMI(MBB, MI, MI.getDebugLoc(), TII->get(BPF::COPY), DstReg)
195ffd57408SYonghong Song .addReg(SrcReg, 0, BPF::sub_32);
196ffd57408SYonghong Song return;
197ffd57408SYonghong Song }
198ffd57408SYonghong Song
199ffd57408SYonghong Song // All uses of DstReg replaced by SrcReg
2006b01b465SYonghong Song processDstReg(MRI, DstReg, SrcReg, GVal, true, IsAma);
201ffd57408SYonghong Song }
202ffd57408SYonghong Song
processDstReg(MachineRegisterInfo * MRI,Register & DstReg,Register & SrcReg,const GlobalValue * GVal,bool doSrcRegProp,bool IsAma)203ffd57408SYonghong Song void BPFMISimplifyPatchable::processDstReg(MachineRegisterInfo *MRI,
204ffd57408SYonghong Song Register &DstReg, Register &SrcReg, const GlobalValue *GVal,
2056b01b465SYonghong Song bool doSrcRegProp, bool IsAma) {
206ffd57408SYonghong Song auto Begin = MRI->use_begin(DstReg), End = MRI->use_end();
207ffd57408SYonghong Song decltype(End) NextI;
208ffd57408SYonghong Song for (auto I = Begin; I != End; I = NextI) {
209ffd57408SYonghong Song NextI = std::next(I);
210ffd57408SYonghong Song if (doSrcRegProp)
211ffd57408SYonghong Song I->setReg(SrcReg);
212ffd57408SYonghong Song
213ffd57408SYonghong Song // The candidate needs to have a unique definition.
2146b01b465SYonghong Song if (IsAma && MRI->getUniqueVRegDef(I->getReg()))
215ffd57408SYonghong Song processInst(MRI, I->getParent(), &*I, GVal);
216ffd57408SYonghong Song }
217ffd57408SYonghong Song }
218ffd57408SYonghong Song
219ffd57408SYonghong Song // Check to see whether we could do some optimization
220ffd57408SYonghong Song // to attach relocation to downstream dependent instructions.
221ffd57408SYonghong Song // Two kinds of patterns are recognized below:
222ffd57408SYonghong Song // Pattern 1:
223ffd57408SYonghong Song // %1 = LD_imm64 @"llvm.b:0:4$0:1" <== patch_imm = 4
224ffd57408SYonghong Song // %2 = LDD %1, 0 <== this insn will be removed
225ffd57408SYonghong Song // %3 = ADD_rr %0, %2
226ffd57408SYonghong Song // %4 = LDW[32] %3, 0 OR STW[32] %4, %3, 0
227ffd57408SYonghong Song // The `%4 = ...` will be transformed to
228ffd57408SYonghong Song // CORE_[ALU32_]MEM(%4, mem_opcode, %0, @"llvm.b:0:4$0:1")
229ffd57408SYonghong Song // and later on, BTF emit phase will translate to
230ffd57408SYonghong Song // %4 = LDW[32] %0, 4 STW[32] %4, %0, 4
231ffd57408SYonghong Song // and attach a relocation to it.
232ffd57408SYonghong Song // Pattern 2:
233ffd57408SYonghong Song // %15 = LD_imm64 @"llvm.t:5:63$0:2" <== relocation type 5
234ffd57408SYonghong Song // %16 = LDD %15, 0 <== this insn will be removed
235ffd57408SYonghong Song // %17 = SRA_rr %14, %16
236ffd57408SYonghong Song // The `%17 = ...` will be transformed to
237ffd57408SYonghong Song // %17 = CORE_SHIFT(SRA_ri, %14, @"llvm.t:5:63$0:2")
238ffd57408SYonghong Song // and later on, BTF emit phase will translate to
239ffd57408SYonghong Song // %r4 = SRA_ri %r4, 63
processInst(MachineRegisterInfo * MRI,MachineInstr * Inst,MachineOperand * RelocOp,const GlobalValue * GVal)240ffd57408SYonghong Song void BPFMISimplifyPatchable::processInst(MachineRegisterInfo *MRI,
241ffd57408SYonghong Song MachineInstr *Inst, MachineOperand *RelocOp, const GlobalValue *GVal) {
242ffd57408SYonghong Song unsigned Opcode = Inst->getOpcode();
243*497a5f04SPeter Klausler if (isLoadInst(Opcode)) {
244*497a5f04SPeter Klausler SkipInsts.insert(Inst);
245*497a5f04SPeter Klausler return;
246*497a5f04SPeter Klausler }
247*497a5f04SPeter Klausler
248ffd57408SYonghong Song if (Opcode == BPF::ADD_rr)
249ffd57408SYonghong Song checkADDrr(MRI, RelocOp, GVal);
250ffd57408SYonghong Song else if (Opcode == BPF::SLL_rr)
251ffd57408SYonghong Song checkShift(MRI, *Inst->getParent(), RelocOp, GVal, BPF::SLL_ri);
252ffd57408SYonghong Song else if (Opcode == BPF::SRA_rr)
253ffd57408SYonghong Song checkShift(MRI, *Inst->getParent(), RelocOp, GVal, BPF::SRA_ri);
254ffd57408SYonghong Song else if (Opcode == BPF::SRL_rr)
255ffd57408SYonghong Song checkShift(MRI, *Inst->getParent(), RelocOp, GVal, BPF::SRL_ri);
256ffd57408SYonghong Song }
257ffd57408SYonghong Song
258d3d88d08SYonghong Song /// Remove unneeded Load instructions.
removeLD()259d3d88d08SYonghong Song bool BPFMISimplifyPatchable::removeLD() {
260d3d88d08SYonghong Song MachineRegisterInfo *MRI = &MF->getRegInfo();
261d3d88d08SYonghong Song MachineInstr *ToErase = nullptr;
262d3d88d08SYonghong Song bool Changed = false;
263d3d88d08SYonghong Song
264d3d88d08SYonghong Song for (MachineBasicBlock &MBB : *MF) {
265d3d88d08SYonghong Song for (MachineInstr &MI : MBB) {
266d3d88d08SYonghong Song if (ToErase) {
267d3d88d08SYonghong Song ToErase->eraseFromParent();
268d3d88d08SYonghong Song ToErase = nullptr;
269d3d88d08SYonghong Song }
270d3d88d08SYonghong Song
271d3d88d08SYonghong Song // Ensure the register format is LOAD <reg>, <reg>, 0
272*497a5f04SPeter Klausler if (!isLoadInst(MI.getOpcode()))
273*497a5f04SPeter Klausler continue;
274*497a5f04SPeter Klausler
275*497a5f04SPeter Klausler if (SkipInsts.find(&MI) != SkipInsts.end())
276d3d88d08SYonghong Song continue;
277d3d88d08SYonghong Song
278d3d88d08SYonghong Song if (!MI.getOperand(0).isReg() || !MI.getOperand(1).isReg())
279d3d88d08SYonghong Song continue;
280d3d88d08SYonghong Song
281d3d88d08SYonghong Song if (!MI.getOperand(2).isImm() || MI.getOperand(2).getImm())
282d3d88d08SYonghong Song continue;
283d3d88d08SYonghong Song
2840c476111SDaniel Sanders Register DstReg = MI.getOperand(0).getReg();
2850c476111SDaniel Sanders Register SrcReg = MI.getOperand(1).getReg();
286d3d88d08SYonghong Song
287d3d88d08SYonghong Song MachineInstr *DefInst = MRI->getUniqueVRegDef(SrcReg);
288d3d88d08SYonghong Song if (!DefInst)
289d3d88d08SYonghong Song continue;
290d3d88d08SYonghong Song
2916b01b465SYonghong Song if (DefInst->getOpcode() != BPF::LD_imm64)
292d3d88d08SYonghong Song continue;
293d3d88d08SYonghong Song
2946b01b465SYonghong Song const MachineOperand &MO = DefInst->getOperand(1);
2956b01b465SYonghong Song if (!MO.isGlobal())
2966b01b465SYonghong Song continue;
2976b01b465SYonghong Song
2986b01b465SYonghong Song const GlobalValue *GVal = MO.getGlobal();
2996b01b465SYonghong Song auto *GVar = dyn_cast<GlobalVariable>(GVal);
3006b01b465SYonghong Song if (!GVar)
3016b01b465SYonghong Song continue;
3026b01b465SYonghong Song
3036b01b465SYonghong Song // Global variables representing structure offset or type id.
3046b01b465SYonghong Song bool IsAma = false;
3056b01b465SYonghong Song if (GVar->hasAttribute(BPFCoreSharedInfo::AmaAttr))
3066b01b465SYonghong Song IsAma = true;
3076b01b465SYonghong Song else if (!GVar->hasAttribute(BPFCoreSharedInfo::TypeIdAttr))
3086b01b465SYonghong Song continue;
3096b01b465SYonghong Song
3106b01b465SYonghong Song processCandidate(MRI, MBB, MI, SrcReg, DstReg, GVal, IsAma);
311d3d88d08SYonghong Song
312d3d88d08SYonghong Song ToErase = &MI;
313d3d88d08SYonghong Song Changed = true;
314d3d88d08SYonghong Song }
315d3d88d08SYonghong Song }
316d3d88d08SYonghong Song
317d3d88d08SYonghong Song return Changed;
318d3d88d08SYonghong Song }
319d3d88d08SYonghong Song
320d3d88d08SYonghong Song } // namespace
321d3d88d08SYonghong Song
322d3d88d08SYonghong Song INITIALIZE_PASS(BPFMISimplifyPatchable, DEBUG_TYPE,
323d3d88d08SYonghong Song "BPF PreEmit SimplifyPatchable", false, false)
324d3d88d08SYonghong Song
325d3d88d08SYonghong Song char BPFMISimplifyPatchable::ID = 0;
createBPFMISimplifyPatchablePass()326d3d88d08SYonghong Song FunctionPass *llvm::createBPFMISimplifyPatchablePass() {
327d3d88d08SYonghong Song return new BPFMISimplifyPatchable();
328d3d88d08SYonghong Song }
329