1 /*
2 * Copyright (C) 2014 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17 #include "inline_method_analyser.h"
18
19 #include "art_field-inl.h"
20 #include "art_method-inl.h"
21 #include "class_linker-inl.h"
22 #include "dex_file-inl.h"
23 #include "dex_instruction.h"
24 #include "dex_instruction-inl.h"
25 #include "dex_instruction_utils.h"
26 #include "mirror/class-inl.h"
27 #include "mirror/dex_cache-inl.h"
28 #include "verifier/method_verifier-inl.h"
29
30 /*
31 * NOTE: This code is part of the quick compiler. It lives in the runtime
32 * only to allow the debugger to check whether a method has been inlined.
33 */
34
35 namespace art {
36
37 namespace { // anonymous namespace
38
39 // Helper class for matching a pattern.
40 class Matcher {
41 public:
42 // Match function type.
43 typedef bool MatchFn(Matcher* matcher);
44
45 template <size_t size>
46 static bool Match(const DexFile::CodeItem* code_item, MatchFn* const (&pattern)[size]);
47
48 // Match and advance.
49
50 static bool Mark(Matcher* matcher);
51
52 template <bool (Matcher::*Fn)()>
53 static bool Required(Matcher* matcher);
54
55 template <bool (Matcher::*Fn)()>
56 static bool Repeated(Matcher* matcher); // On match, returns to the mark.
57
58 // Match an individual instruction.
59
60 template <Instruction::Code opcode> bool Opcode();
61 bool Const0();
62 bool IPutOnThis();
63
64 private:
Matcher(const DexFile::CodeItem * code_item)65 explicit Matcher(const DexFile::CodeItem* code_item)
66 : code_item_(code_item),
67 instruction_(Instruction::At(code_item->insns_)),
68 pos_(0u),
69 mark_(0u) { }
70
71 static bool DoMatch(const DexFile::CodeItem* code_item, MatchFn* const* pattern, size_t size);
72
73 const DexFile::CodeItem* const code_item_;
74 const Instruction* instruction_;
75 size_t pos_;
76 size_t mark_;
77 };
78
79 template <size_t size>
Match(const DexFile::CodeItem * code_item,MatchFn * const (& pattern)[size])80 bool Matcher::Match(const DexFile::CodeItem* code_item, MatchFn* const (&pattern)[size]) {
81 return DoMatch(code_item, pattern, size);
82 }
83
Mark(Matcher * matcher)84 bool Matcher::Mark(Matcher* matcher) {
85 matcher->pos_ += 1u; // Advance to the next match function before marking.
86 matcher->mark_ = matcher->pos_;
87 return true;
88 }
89
90 template <bool (Matcher::*Fn)()>
Required(Matcher * matcher)91 bool Matcher::Required(Matcher* matcher) {
92 if (!(matcher->*Fn)()) {
93 return false;
94 }
95 matcher->pos_ += 1u;
96 matcher->instruction_ = matcher->instruction_->Next();
97 return true;
98 }
99
100 template <bool (Matcher::*Fn)()>
Repeated(Matcher * matcher)101 bool Matcher::Repeated(Matcher* matcher) {
102 if (!(matcher->*Fn)()) {
103 // Didn't match optional instruction, try the next match function.
104 matcher->pos_ += 1u;
105 return true;
106 }
107 matcher->pos_ = matcher->mark_;
108 matcher->instruction_ = matcher->instruction_->Next();
109 return true;
110 }
111
112 template <Instruction::Code opcode>
Opcode()113 bool Matcher::Opcode() {
114 return instruction_->Opcode() == opcode;
115 }
116
117 // Match const 0.
Const0()118 bool Matcher::Const0() {
119 return IsInstructionDirectConst(instruction_->Opcode()) &&
120 (instruction_->Opcode() == Instruction::CONST_WIDE ? instruction_->VRegB_51l() == 0
121 : instruction_->VRegB() == 0);
122 }
123
IPutOnThis()124 bool Matcher::IPutOnThis() {
125 DCHECK_NE(code_item_->ins_size_, 0u);
126 return IsInstructionIPut(instruction_->Opcode()) &&
127 instruction_->VRegB_22c() == code_item_->registers_size_ - code_item_->ins_size_;
128 }
129
DoMatch(const DexFile::CodeItem * code_item,MatchFn * const * pattern,size_t size)130 bool Matcher::DoMatch(const DexFile::CodeItem* code_item, MatchFn* const* pattern, size_t size) {
131 Matcher matcher(code_item);
132 while (matcher.pos_ != size) {
133 if (!pattern[matcher.pos_](&matcher)) {
134 return false;
135 }
136 }
137 return true;
138 }
139
140 // Used for a single invoke in a constructor. In that situation, the method verifier makes
141 // sure we invoke a constructor either in the same class or superclass with at least "this".
GetTargetConstructor(ArtMethod * method,const Instruction * invoke_direct)142 ArtMethod* GetTargetConstructor(ArtMethod* method, const Instruction* invoke_direct)
143 SHARED_REQUIRES(Locks::mutator_lock_) {
144 DCHECK_EQ(invoke_direct->Opcode(), Instruction::INVOKE_DIRECT);
145 DCHECK_EQ(invoke_direct->VRegC_35c(),
146 method->GetCodeItem()->registers_size_ - method->GetCodeItem()->ins_size_);
147 uint32_t method_index = invoke_direct->VRegB_35c();
148 size_t pointer_size = Runtime::Current()->GetClassLinker()->GetImagePointerSize();
149 ArtMethod* target_method =
150 method->GetDexCache()->GetResolvedMethod(method_index, pointer_size);
151 if (kIsDebugBuild && target_method != nullptr) {
152 CHECK(!target_method->IsStatic());
153 CHECK(target_method->IsConstructor());
154 CHECK(target_method->GetDeclaringClass() == method->GetDeclaringClass() ||
155 target_method->GetDeclaringClass() == method->GetDeclaringClass()->GetSuperClass());
156 }
157 return target_method;
158 }
159
160 // Return the forwarded arguments and check that all remaining arguments are zero.
161 // If the check fails, return static_cast<size_t>(-1).
CountForwardedConstructorArguments(const DexFile::CodeItem * code_item,const Instruction * invoke_direct,uint16_t zero_vreg_mask)162 size_t CountForwardedConstructorArguments(const DexFile::CodeItem* code_item,
163 const Instruction* invoke_direct,
164 uint16_t zero_vreg_mask) {
165 DCHECK_EQ(invoke_direct->Opcode(), Instruction::INVOKE_DIRECT);
166 size_t number_of_args = invoke_direct->VRegA_35c();
167 DCHECK_NE(number_of_args, 0u);
168 uint32_t args[Instruction::kMaxVarArgRegs];
169 invoke_direct->GetVarArgs(args);
170 uint16_t this_vreg = args[0];
171 DCHECK_EQ(this_vreg, code_item->registers_size_ - code_item->ins_size_); // Checked by verifier.
172 size_t forwarded = 1u;
173 while (forwarded < number_of_args &&
174 args[forwarded] == this_vreg + forwarded &&
175 (zero_vreg_mask & (1u << args[forwarded])) == 0) {
176 ++forwarded;
177 }
178 for (size_t i = forwarded; i != number_of_args; ++i) {
179 if ((zero_vreg_mask & (1u << args[i])) == 0) {
180 return static_cast<size_t>(-1);
181 }
182 }
183 return forwarded;
184 }
185
GetZeroVRegMask(const Instruction * const0)186 uint16_t GetZeroVRegMask(const Instruction* const0) {
187 DCHECK(IsInstructionDirectConst(const0->Opcode()));
188 DCHECK((const0->Opcode() == Instruction::CONST_WIDE) ? const0->VRegB_51l() == 0u
189 : const0->VRegB() == 0);
190 uint16_t base_mask = IsInstructionConstWide(const0->Opcode()) ? 3u : 1u;
191 return base_mask << const0->VRegA();
192 }
193
194 // We limit the number of IPUTs storing parameters. There can be any number
195 // of IPUTs that store the value 0 as they are useless in a constructor as
196 // the object always starts zero-initialized. We also eliminate all but the
197 // last store to any field as they are not observable; not even if the field
198 // is volatile as no reference to the object can escape from a constructor
199 // with this pattern.
200 static constexpr size_t kMaxConstructorIPuts = 3u;
201
202 struct ConstructorIPutData {
ConstructorIPutDataart::__anon8023c6a50111::ConstructorIPutData203 ConstructorIPutData() : field_index(DexFile::kDexNoIndex16), arg(0u) { }
204
205 uint16_t field_index;
206 uint16_t arg;
207 };
208
RecordConstructorIPut(ArtMethod * method,const Instruction * new_iput,uint16_t this_vreg,uint16_t zero_vreg_mask,ConstructorIPutData (& iputs)[kMaxConstructorIPuts])209 bool RecordConstructorIPut(ArtMethod* method,
210 const Instruction* new_iput,
211 uint16_t this_vreg,
212 uint16_t zero_vreg_mask,
213 /*inout*/ ConstructorIPutData (&iputs)[kMaxConstructorIPuts])
214 SHARED_REQUIRES(Locks::mutator_lock_) {
215 DCHECK(IsInstructionIPut(new_iput->Opcode()));
216 uint32_t field_index = new_iput->VRegC_22c();
217 size_t pointer_size = Runtime::Current()->GetClassLinker()->GetImagePointerSize();
218 mirror::DexCache* dex_cache = method->GetDexCache();
219 ArtField* field = dex_cache->GetResolvedField(field_index, pointer_size);
220 if (UNLIKELY(field == nullptr)) {
221 return false;
222 }
223 // Remove previous IPUT to the same field, if any. Different field indexes may refer
224 // to the same field, so we need to compare resolved fields from the dex cache.
225 for (size_t old_pos = 0; old_pos != arraysize(iputs); ++old_pos) {
226 if (iputs[old_pos].field_index == DexFile::kDexNoIndex16) {
227 break;
228 }
229 ArtField* f = dex_cache->GetResolvedField(iputs[old_pos].field_index, pointer_size);
230 DCHECK(f != nullptr);
231 if (f == field) {
232 auto back_it = std::copy(iputs + old_pos + 1, iputs + arraysize(iputs), iputs + old_pos);
233 *back_it = ConstructorIPutData();
234 break;
235 }
236 }
237 // If the stored value isn't zero, record the IPUT.
238 if ((zero_vreg_mask & (1u << new_iput->VRegA_22c())) == 0u) {
239 size_t new_pos = 0;
240 while (new_pos != arraysize(iputs) && iputs[new_pos].field_index != DexFile::kDexNoIndex16) {
241 ++new_pos;
242 }
243 if (new_pos == arraysize(iputs)) {
244 return false; // Exceeded capacity of the output array.
245 }
246 iputs[new_pos].field_index = field_index;
247 iputs[new_pos].arg = new_iput->VRegA_22c() - this_vreg;
248 }
249 return true;
250 }
251
DoAnalyseConstructor(const DexFile::CodeItem * code_item,ArtMethod * method,ConstructorIPutData (& iputs)[kMaxConstructorIPuts])252 bool DoAnalyseConstructor(const DexFile::CodeItem* code_item,
253 ArtMethod* method,
254 /*inout*/ ConstructorIPutData (&iputs)[kMaxConstructorIPuts])
255 SHARED_REQUIRES(Locks::mutator_lock_) {
256 // On entry we should not have any IPUTs yet.
257 DCHECK_EQ(0, std::count_if(
258 iputs,
259 iputs + arraysize(iputs),
260 [](const ConstructorIPutData& iput_data) {
261 return iput_data.field_index != DexFile::kDexNoIndex16;
262 }));
263
264 // Limit the maximum number of code units we're willing to match.
265 static constexpr size_t kMaxCodeUnits = 16u;
266
267 // Limit the number of registers that the constructor may use to 16.
268 // Given that IPUTs must use low 16 registers and we do not match MOVEs,
269 // this is a reasonable limitation.
270 static constexpr size_t kMaxVRegs = 16u;
271
272 // We try to match a constructor that calls another constructor (either in
273 // superclass or in the same class) with the same parameters, or with some
274 // parameters truncated (allowed only for calls to superclass constructor)
275 // or with extra parameters with value 0 (with any type, including null).
276 // This call can be followed by optional IPUTs on "this" storing either one
277 // of the parameters or 0 and the code must then finish with RETURN_VOID.
278 // The called constructor must be either java.lang.Object.<init>() or it
279 // must also match the same pattern.
280 static Matcher::MatchFn* const kConstructorPattern[] = {
281 &Matcher::Mark,
282 &Matcher::Repeated<&Matcher::Const0>,
283 &Matcher::Required<&Matcher::Opcode<Instruction::INVOKE_DIRECT>>,
284 &Matcher::Mark,
285 &Matcher::Repeated<&Matcher::Const0>,
286 &Matcher::Repeated<&Matcher::IPutOnThis>,
287 &Matcher::Required<&Matcher::Opcode<Instruction::RETURN_VOID>>,
288 };
289
290 DCHECK(method != nullptr);
291 DCHECK(!method->IsStatic());
292 DCHECK(method->IsConstructor());
293 DCHECK(code_item != nullptr);
294 if (!method->GetDeclaringClass()->IsVerified() ||
295 code_item->insns_size_in_code_units_ > kMaxCodeUnits ||
296 code_item->registers_size_ > kMaxVRegs ||
297 !Matcher::Match(code_item, kConstructorPattern)) {
298 return false;
299 }
300
301 // Verify the invoke, prevent a few odd cases and collect IPUTs.
302 uint16_t this_vreg = code_item->registers_size_ - code_item->ins_size_;
303 uint16_t zero_vreg_mask = 0u;
304 for (const Instruction* instruction = Instruction::At(code_item->insns_);
305 instruction->Opcode() != Instruction::RETURN_VOID;
306 instruction = instruction->Next()) {
307 if (instruction->Opcode() == Instruction::INVOKE_DIRECT) {
308 ArtMethod* target_method = GetTargetConstructor(method, instruction);
309 if (target_method == nullptr) {
310 return false;
311 }
312 // We allow forwarding constructors only if they pass more arguments
313 // to prevent infinite recursion.
314 if (target_method->GetDeclaringClass() == method->GetDeclaringClass() &&
315 instruction->VRegA_35c() <= code_item->ins_size_) {
316 return false;
317 }
318 size_t forwarded = CountForwardedConstructorArguments(code_item, instruction, zero_vreg_mask);
319 if (forwarded == static_cast<size_t>(-1)) {
320 return false;
321 }
322 if (target_method->GetDeclaringClass()->IsObjectClass()) {
323 DCHECK_EQ(Instruction::At(target_method->GetCodeItem()->insns_)->Opcode(),
324 Instruction::RETURN_VOID);
325 } else {
326 const DexFile::CodeItem* target_code_item = target_method->GetCodeItem();
327 if (target_code_item == nullptr) {
328 return false; // Native constructor?
329 }
330 if (!DoAnalyseConstructor(target_code_item, target_method, iputs)) {
331 return false;
332 }
333 // Prune IPUTs with zero input.
334 auto kept_end = std::remove_if(
335 iputs,
336 iputs + arraysize(iputs),
337 [forwarded](const ConstructorIPutData& iput_data) {
338 return iput_data.arg >= forwarded;
339 });
340 std::fill(kept_end, iputs + arraysize(iputs), ConstructorIPutData());
341 // If we have any IPUTs from the call, check that the target method is in the same
342 // dex file (compare DexCache references), otherwise field_indexes would be bogus.
343 if (iputs[0].field_index != DexFile::kDexNoIndex16 &&
344 target_method->GetDexCache() != method->GetDexCache()) {
345 return false;
346 }
347 }
348 } else if (IsInstructionDirectConst(instruction->Opcode())) {
349 zero_vreg_mask |= GetZeroVRegMask(instruction);
350 if ((zero_vreg_mask & (1u << this_vreg)) != 0u) {
351 return false; // Overwriting `this` is unsupported.
352 }
353 } else {
354 DCHECK(IsInstructionIPut(instruction->Opcode()));
355 DCHECK_EQ(instruction->VRegB_22c(), this_vreg);
356 if (!RecordConstructorIPut(method, instruction, this_vreg, zero_vreg_mask, iputs)) {
357 return false;
358 }
359 }
360 }
361 return true;
362 }
363
364 } // anonymous namespace
365
AnalyseConstructor(const DexFile::CodeItem * code_item,ArtMethod * method,InlineMethod * result)366 bool AnalyseConstructor(const DexFile::CodeItem* code_item,
367 ArtMethod* method,
368 InlineMethod* result)
369 SHARED_REQUIRES(Locks::mutator_lock_) {
370 ConstructorIPutData iputs[kMaxConstructorIPuts];
371 if (!DoAnalyseConstructor(code_item, method, iputs)) {
372 return false;
373 }
374 static_assert(kMaxConstructorIPuts == 3, "Unexpected limit"); // Code below depends on this.
375 DCHECK(iputs[0].field_index != DexFile::kDexNoIndex16 ||
376 iputs[1].field_index == DexFile::kDexNoIndex16);
377 DCHECK(iputs[1].field_index != DexFile::kDexNoIndex16 ||
378 iputs[2].field_index == DexFile::kDexNoIndex16);
379
380 #define STORE_IPUT(n) \
381 do { \
382 result->d.constructor_data.iput##n##_field_index = iputs[n].field_index; \
383 result->d.constructor_data.iput##n##_arg = iputs[n].arg; \
384 } while (false)
385
386 STORE_IPUT(0);
387 STORE_IPUT(1);
388 STORE_IPUT(2);
389 #undef STORE_IPUT
390
391 result->opcode = kInlineOpConstructor;
392 result->flags = kInlineSpecial;
393 result->d.constructor_data.reserved = 0u;
394 return true;
395 }
396
397 static_assert(InlineMethodAnalyser::IsInstructionIGet(Instruction::IGET), "iget type");
398 static_assert(InlineMethodAnalyser::IsInstructionIGet(Instruction::IGET_WIDE), "iget_wide type");
399 static_assert(InlineMethodAnalyser::IsInstructionIGet(Instruction::IGET_OBJECT),
400 "iget_object type");
401 static_assert(InlineMethodAnalyser::IsInstructionIGet(Instruction::IGET_BOOLEAN),
402 "iget_boolean type");
403 static_assert(InlineMethodAnalyser::IsInstructionIGet(Instruction::IGET_BYTE), "iget_byte type");
404 static_assert(InlineMethodAnalyser::IsInstructionIGet(Instruction::IGET_CHAR), "iget_char type");
405 static_assert(InlineMethodAnalyser::IsInstructionIGet(Instruction::IGET_SHORT), "iget_short type");
406 static_assert(InlineMethodAnalyser::IsInstructionIPut(Instruction::IPUT), "iput type");
407 static_assert(InlineMethodAnalyser::IsInstructionIPut(Instruction::IPUT_WIDE), "iput_wide type");
408 static_assert(InlineMethodAnalyser::IsInstructionIPut(Instruction::IPUT_OBJECT),
409 "iput_object type");
410 static_assert(InlineMethodAnalyser::IsInstructionIPut(Instruction::IPUT_BOOLEAN),
411 "iput_boolean type");
412 static_assert(InlineMethodAnalyser::IsInstructionIPut(Instruction::IPUT_BYTE), "iput_byte type");
413 static_assert(InlineMethodAnalyser::IsInstructionIPut(Instruction::IPUT_CHAR), "iput_char type");
414 static_assert(InlineMethodAnalyser::IsInstructionIPut(Instruction::IPUT_SHORT), "iput_short type");
415 static_assert(InlineMethodAnalyser::IGetVariant(Instruction::IGET) ==
416 InlineMethodAnalyser::IPutVariant(Instruction::IPUT), "iget/iput variant");
417 static_assert(InlineMethodAnalyser::IGetVariant(Instruction::IGET_WIDE) ==
418 InlineMethodAnalyser::IPutVariant(Instruction::IPUT_WIDE), "iget/iput_wide variant");
419 static_assert(InlineMethodAnalyser::IGetVariant(Instruction::IGET_OBJECT) ==
420 InlineMethodAnalyser::IPutVariant(Instruction::IPUT_OBJECT), "iget/iput_object variant");
421 static_assert(InlineMethodAnalyser::IGetVariant(Instruction::IGET_BOOLEAN) ==
422 InlineMethodAnalyser::IPutVariant(Instruction::IPUT_BOOLEAN), "iget/iput_boolean variant");
423 static_assert(InlineMethodAnalyser::IGetVariant(Instruction::IGET_BYTE) ==
424 InlineMethodAnalyser::IPutVariant(Instruction::IPUT_BYTE), "iget/iput_byte variant");
425 static_assert(InlineMethodAnalyser::IGetVariant(Instruction::IGET_CHAR) ==
426 InlineMethodAnalyser::IPutVariant(Instruction::IPUT_CHAR), "iget/iput_char variant");
427 static_assert(InlineMethodAnalyser::IGetVariant(Instruction::IGET_SHORT) ==
428 InlineMethodAnalyser::IPutVariant(Instruction::IPUT_SHORT), "iget/iput_short variant");
429
430 // This is used by compiler and debugger. We look into the dex cache for resolved methods and
431 // fields. However, in the context of the debugger, not all methods and fields are resolved. Since
432 // we need to be able to detect possibly inlined method, we pass a null inline method to indicate
433 // we don't want to take unresolved methods and fields into account during analysis.
AnalyseMethodCode(verifier::MethodVerifier * verifier,InlineMethod * result)434 bool InlineMethodAnalyser::AnalyseMethodCode(verifier::MethodVerifier* verifier,
435 InlineMethod* result) {
436 DCHECK(verifier != nullptr);
437 if (!Runtime::Current()->UseJitCompilation()) {
438 DCHECK_EQ(verifier->CanLoadClasses(), result != nullptr);
439 }
440
441 // Note: verifier->GetMethod() may be null.
442 return AnalyseMethodCode(verifier->CodeItem(),
443 verifier->GetMethodReference(),
444 (verifier->GetAccessFlags() & kAccStatic) != 0u,
445 verifier->GetMethod(),
446 result);
447 }
448
AnalyseMethodCode(ArtMethod * method,InlineMethod * result)449 bool InlineMethodAnalyser::AnalyseMethodCode(ArtMethod* method, InlineMethod* result) {
450 const DexFile::CodeItem* code_item = method->GetCodeItem();
451 if (code_item == nullptr) {
452 // Native or abstract.
453 return false;
454 }
455 return AnalyseMethodCode(
456 code_item, method->ToMethodReference(), method->IsStatic(), method, result);
457 }
458
AnalyseMethodCode(const DexFile::CodeItem * code_item,const MethodReference & method_ref,bool is_static,ArtMethod * method,InlineMethod * result)459 bool InlineMethodAnalyser::AnalyseMethodCode(const DexFile::CodeItem* code_item,
460 const MethodReference& method_ref,
461 bool is_static,
462 ArtMethod* method,
463 InlineMethod* result) {
464 // We currently support only plain return or 2-instruction methods.
465
466 DCHECK_NE(code_item->insns_size_in_code_units_, 0u);
467 const Instruction* instruction = Instruction::At(code_item->insns_);
468 Instruction::Code opcode = instruction->Opcode();
469
470 switch (opcode) {
471 case Instruction::RETURN_VOID:
472 if (result != nullptr) {
473 result->opcode = kInlineOpNop;
474 result->flags = kInlineSpecial;
475 result->d.data = 0u;
476 }
477 return true;
478 case Instruction::RETURN:
479 case Instruction::RETURN_OBJECT:
480 case Instruction::RETURN_WIDE:
481 return AnalyseReturnMethod(code_item, result);
482 case Instruction::CONST:
483 case Instruction::CONST_4:
484 case Instruction::CONST_16:
485 case Instruction::CONST_HIGH16:
486 // TODO: Support wide constants (RETURN_WIDE).
487 if (AnalyseConstMethod(code_item, result)) {
488 return true;
489 }
490 FALLTHROUGH_INTENDED;
491 case Instruction::CONST_WIDE:
492 case Instruction::CONST_WIDE_16:
493 case Instruction::CONST_WIDE_32:
494 case Instruction::CONST_WIDE_HIGH16:
495 case Instruction::INVOKE_DIRECT:
496 if (method != nullptr && !method->IsStatic() && method->IsConstructor()) {
497 return AnalyseConstructor(code_item, method, result);
498 }
499 return false;
500 case Instruction::IGET:
501 case Instruction::IGET_OBJECT:
502 case Instruction::IGET_BOOLEAN:
503 case Instruction::IGET_BYTE:
504 case Instruction::IGET_CHAR:
505 case Instruction::IGET_SHORT:
506 case Instruction::IGET_WIDE:
507 // TODO: Add handling for JIT.
508 // case Instruction::IGET_QUICK:
509 // case Instruction::IGET_WIDE_QUICK:
510 // case Instruction::IGET_OBJECT_QUICK:
511 return AnalyseIGetMethod(code_item, method_ref, is_static, method, result);
512 case Instruction::IPUT:
513 case Instruction::IPUT_OBJECT:
514 case Instruction::IPUT_BOOLEAN:
515 case Instruction::IPUT_BYTE:
516 case Instruction::IPUT_CHAR:
517 case Instruction::IPUT_SHORT:
518 case Instruction::IPUT_WIDE:
519 // TODO: Add handling for JIT.
520 // case Instruction::IPUT_QUICK:
521 // case Instruction::IPUT_WIDE_QUICK:
522 // case Instruction::IPUT_OBJECT_QUICK:
523 return AnalyseIPutMethod(code_item, method_ref, is_static, method, result);
524 default:
525 return false;
526 }
527 }
528
IsSyntheticAccessor(MethodReference ref)529 bool InlineMethodAnalyser::IsSyntheticAccessor(MethodReference ref) {
530 const DexFile::MethodId& method_id = ref.dex_file->GetMethodId(ref.dex_method_index);
531 const char* method_name = ref.dex_file->GetMethodName(method_id);
532 // javac names synthetic accessors "access$nnn",
533 // jack names them "-getN", "-putN", "-wrapN".
534 return strncmp(method_name, "access$", strlen("access$")) == 0 ||
535 strncmp(method_name, "-", strlen("-")) == 0;
536 }
537
AnalyseReturnMethod(const DexFile::CodeItem * code_item,InlineMethod * result)538 bool InlineMethodAnalyser::AnalyseReturnMethod(const DexFile::CodeItem* code_item,
539 InlineMethod* result) {
540 const Instruction* return_instruction = Instruction::At(code_item->insns_);
541 Instruction::Code return_opcode = return_instruction->Opcode();
542 uint32_t reg = return_instruction->VRegA_11x();
543 uint32_t arg_start = code_item->registers_size_ - code_item->ins_size_;
544 DCHECK_GE(reg, arg_start);
545 DCHECK_LT((return_opcode == Instruction::RETURN_WIDE) ? reg + 1 : reg,
546 code_item->registers_size_);
547
548 if (result != nullptr) {
549 result->opcode = kInlineOpReturnArg;
550 result->flags = kInlineSpecial;
551 InlineReturnArgData* data = &result->d.return_data;
552 data->arg = reg - arg_start;
553 data->is_wide = (return_opcode == Instruction::RETURN_WIDE) ? 1u : 0u;
554 data->is_object = (return_opcode == Instruction::RETURN_OBJECT) ? 1u : 0u;
555 data->reserved = 0u;
556 data->reserved2 = 0u;
557 }
558 return true;
559 }
560
AnalyseConstMethod(const DexFile::CodeItem * code_item,InlineMethod * result)561 bool InlineMethodAnalyser::AnalyseConstMethod(const DexFile::CodeItem* code_item,
562 InlineMethod* result) {
563 const Instruction* instruction = Instruction::At(code_item->insns_);
564 const Instruction* return_instruction = instruction->Next();
565 Instruction::Code return_opcode = return_instruction->Opcode();
566 if (return_opcode != Instruction::RETURN &&
567 return_opcode != Instruction::RETURN_OBJECT) {
568 return false;
569 }
570
571 int32_t return_reg = return_instruction->VRegA_11x();
572 DCHECK_LT(return_reg, code_item->registers_size_);
573
574 int32_t const_value = instruction->VRegB();
575 if (instruction->Opcode() == Instruction::CONST_HIGH16) {
576 const_value <<= 16;
577 }
578 DCHECK_LT(instruction->VRegA(), code_item->registers_size_);
579 if (instruction->VRegA() != return_reg) {
580 return false; // Not returning the value set by const?
581 }
582 if (return_opcode == Instruction::RETURN_OBJECT && const_value != 0) {
583 return false; // Returning non-null reference constant?
584 }
585 if (result != nullptr) {
586 result->opcode = kInlineOpNonWideConst;
587 result->flags = kInlineSpecial;
588 result->d.data = static_cast<uint64_t>(const_value);
589 }
590 return true;
591 }
592
AnalyseIGetMethod(const DexFile::CodeItem * code_item,const MethodReference & method_ref,bool is_static,ArtMethod * method,InlineMethod * result)593 bool InlineMethodAnalyser::AnalyseIGetMethod(const DexFile::CodeItem* code_item,
594 const MethodReference& method_ref,
595 bool is_static,
596 ArtMethod* method,
597 InlineMethod* result) {
598 const Instruction* instruction = Instruction::At(code_item->insns_);
599 Instruction::Code opcode = instruction->Opcode();
600 DCHECK(IsInstructionIGet(opcode));
601
602 const Instruction* return_instruction = instruction->Next();
603 Instruction::Code return_opcode = return_instruction->Opcode();
604 if (!(return_opcode == Instruction::RETURN_WIDE && opcode == Instruction::IGET_WIDE) &&
605 !(return_opcode == Instruction::RETURN_OBJECT && opcode == Instruction::IGET_OBJECT) &&
606 !(return_opcode == Instruction::RETURN && opcode != Instruction::IGET_WIDE &&
607 opcode != Instruction::IGET_OBJECT)) {
608 return false;
609 }
610
611 uint32_t return_reg = return_instruction->VRegA_11x();
612 DCHECK_LT(return_opcode == Instruction::RETURN_WIDE ? return_reg + 1 : return_reg,
613 code_item->registers_size_);
614
615 uint32_t dst_reg = instruction->VRegA_22c();
616 uint32_t object_reg = instruction->VRegB_22c();
617 uint32_t field_idx = instruction->VRegC_22c();
618 uint32_t arg_start = code_item->registers_size_ - code_item->ins_size_;
619 DCHECK_GE(object_reg, arg_start);
620 DCHECK_LT(object_reg, code_item->registers_size_);
621 uint32_t object_arg = object_reg - arg_start;
622
623 DCHECK_LT(opcode == Instruction::IGET_WIDE ? dst_reg + 1 : dst_reg, code_item->registers_size_);
624 if (dst_reg != return_reg) {
625 return false; // Not returning the value retrieved by IGET?
626 }
627
628 if (is_static || object_arg != 0u) {
629 // TODO: Implement inlining of IGET on non-"this" registers (needs correct stack trace for NPE).
630 // Allow synthetic accessors. We don't care about losing their stack frame in NPE.
631 if (!IsSyntheticAccessor(method_ref)) {
632 return false;
633 }
634 }
635
636 // InlineIGetIPutData::object_arg is only 4 bits wide.
637 static constexpr uint16_t kMaxObjectArg = 15u;
638 if (object_arg > kMaxObjectArg) {
639 return false;
640 }
641
642 if (result != nullptr) {
643 InlineIGetIPutData* data = &result->d.ifield_data;
644 if (!ComputeSpecialAccessorInfo(method, field_idx, false, data)) {
645 return false;
646 }
647 result->opcode = kInlineOpIGet;
648 result->flags = kInlineSpecial;
649 data->op_variant = IGetVariant(opcode);
650 data->method_is_static = is_static ? 1u : 0u;
651 data->object_arg = object_arg; // Allow IGET on any register, not just "this".
652 data->src_arg = 0u;
653 data->return_arg_plus1 = 0u;
654 }
655 return true;
656 }
657
AnalyseIPutMethod(const DexFile::CodeItem * code_item,const MethodReference & method_ref,bool is_static,ArtMethod * method,InlineMethod * result)658 bool InlineMethodAnalyser::AnalyseIPutMethod(const DexFile::CodeItem* code_item,
659 const MethodReference& method_ref,
660 bool is_static,
661 ArtMethod* method,
662 InlineMethod* result) {
663 const Instruction* instruction = Instruction::At(code_item->insns_);
664 Instruction::Code opcode = instruction->Opcode();
665 DCHECK(IsInstructionIPut(opcode));
666
667 const Instruction* return_instruction = instruction->Next();
668 Instruction::Code return_opcode = return_instruction->Opcode();
669 uint32_t arg_start = code_item->registers_size_ - code_item->ins_size_;
670 uint16_t return_arg_plus1 = 0u;
671 if (return_opcode != Instruction::RETURN_VOID) {
672 if (return_opcode != Instruction::RETURN &&
673 return_opcode != Instruction::RETURN_OBJECT &&
674 return_opcode != Instruction::RETURN_WIDE) {
675 return false;
676 }
677 // Returning an argument.
678 uint32_t return_reg = return_instruction->VRegA_11x();
679 DCHECK_GE(return_reg, arg_start);
680 DCHECK_LT(return_opcode == Instruction::RETURN_WIDE ? return_reg + 1u : return_reg,
681 code_item->registers_size_);
682 return_arg_plus1 = return_reg - arg_start + 1u;
683 }
684
685 uint32_t src_reg = instruction->VRegA_22c();
686 uint32_t object_reg = instruction->VRegB_22c();
687 uint32_t field_idx = instruction->VRegC_22c();
688 DCHECK_GE(object_reg, arg_start);
689 DCHECK_LT(object_reg, code_item->registers_size_);
690 DCHECK_GE(src_reg, arg_start);
691 DCHECK_LT(opcode == Instruction::IPUT_WIDE ? src_reg + 1 : src_reg, code_item->registers_size_);
692 uint32_t object_arg = object_reg - arg_start;
693 uint32_t src_arg = src_reg - arg_start;
694
695 if (is_static || object_arg != 0u) {
696 // TODO: Implement inlining of IPUT on non-"this" registers (needs correct stack trace for NPE).
697 // Allow synthetic accessors. We don't care about losing their stack frame in NPE.
698 if (!IsSyntheticAccessor(method_ref)) {
699 return false;
700 }
701 }
702
703 // InlineIGetIPutData::object_arg/src_arg/return_arg_plus1 are each only 4 bits wide.
704 static constexpr uint16_t kMaxObjectArg = 15u;
705 static constexpr uint16_t kMaxSrcArg = 15u;
706 static constexpr uint16_t kMaxReturnArgPlus1 = 15u;
707 if (object_arg > kMaxObjectArg || src_arg > kMaxSrcArg || return_arg_plus1 > kMaxReturnArgPlus1) {
708 return false;
709 }
710
711 if (result != nullptr) {
712 InlineIGetIPutData* data = &result->d.ifield_data;
713 if (!ComputeSpecialAccessorInfo(method, field_idx, true, data)) {
714 return false;
715 }
716 result->opcode = kInlineOpIPut;
717 result->flags = kInlineSpecial;
718 data->op_variant = IPutVariant(opcode);
719 data->method_is_static = is_static ? 1u : 0u;
720 data->object_arg = object_arg; // Allow IPUT on any register, not just "this".
721 data->src_arg = src_arg;
722 data->return_arg_plus1 = return_arg_plus1;
723 }
724 return true;
725 }
726
ComputeSpecialAccessorInfo(ArtMethod * method,uint32_t field_idx,bool is_put,InlineIGetIPutData * result)727 bool InlineMethodAnalyser::ComputeSpecialAccessorInfo(ArtMethod* method,
728 uint32_t field_idx,
729 bool is_put,
730 InlineIGetIPutData* result) {
731 if (method == nullptr) {
732 return false;
733 }
734 mirror::DexCache* dex_cache = method->GetDexCache();
735 size_t pointer_size = Runtime::Current()->GetClassLinker()->GetImagePointerSize();
736 ArtField* field = dex_cache->GetResolvedField(field_idx, pointer_size);
737 if (field == nullptr || field->IsStatic()) {
738 return false;
739 }
740 mirror::Class* method_class = method->GetDeclaringClass();
741 mirror::Class* field_class = field->GetDeclaringClass();
742 if (!method_class->CanAccessResolvedField(field_class, field, dex_cache, field_idx) ||
743 (is_put && field->IsFinal() && method_class != field_class)) {
744 return false;
745 }
746 DCHECK_GE(field->GetOffset().Int32Value(), 0);
747 // Do not interleave function calls with bit field writes to placate valgrind. Bug: 27552451.
748 uint32_t field_offset = field->GetOffset().Uint32Value();
749 bool is_volatile = field->IsVolatile();
750 result->field_idx = field_idx;
751 result->field_offset = field_offset;
752 result->is_volatile = is_volatile ? 1u : 0u;
753 return true;
754 }
755
756 } // namespace art
757