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1 /*
2  * Copyright (C) 2012 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 #ifndef ART_RUNTIME_ENTRYPOINTS_ENTRYPOINT_UTILS_INL_H_
18 #define ART_RUNTIME_ENTRYPOINTS_ENTRYPOINT_UTILS_INL_H_
19 
20 #include "entrypoint_utils.h"
21 
22 #include "art_method.h"
23 #include "class_linker-inl.h"
24 #include "common_throws.h"
25 #include "dex_file.h"
26 #include "entrypoints/quick/callee_save_frame.h"
27 #include "handle_scope-inl.h"
28 #include "indirect_reference_table.h"
29 #include "invoke_type.h"
30 #include "jni_internal.h"
31 #include "mirror/array.h"
32 #include "mirror/class-inl.h"
33 #include "mirror/object-inl.h"
34 #include "mirror/throwable.h"
35 #include "nth_caller_visitor.h"
36 #include "runtime.h"
37 #include "thread.h"
38 
39 namespace art {
40 
GetCalleeSaveMethodCaller(Thread * self,Runtime::CalleeSaveType type)41 inline ArtMethod* GetCalleeSaveMethodCaller(Thread* self, Runtime::CalleeSaveType type)
42     SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
43   auto** refs_only_sp = self->GetManagedStack()->GetTopQuickFrame();
44   DCHECK_EQ(*refs_only_sp, Runtime::Current()->GetCalleeSaveMethod(type));
45 
46   const size_t callee_frame_size = GetCalleeSaveFrameSize(kRuntimeISA, type);
47   auto** caller_sp = reinterpret_cast<ArtMethod**>(
48       reinterpret_cast<uintptr_t>(refs_only_sp) + callee_frame_size);
49   auto* caller = *caller_sp;
50 
51   if (kIsDebugBuild) {
52     NthCallerVisitor visitor(self, 1, true);
53     visitor.WalkStack();
54     CHECK(caller == visitor.caller);
55   }
56 
57   return caller;
58 }
59 
60 template <const bool kAccessCheck>
61 ALWAYS_INLINE
CheckObjectAlloc(uint32_t type_idx,ArtMethod * method,Thread * self,bool * slow_path)62 inline mirror::Class* CheckObjectAlloc(uint32_t type_idx,
63                                        ArtMethod* method,
64                                        Thread* self, bool* slow_path) {
65   mirror::Class* klass = method->GetDexCacheResolvedType<false>(type_idx);
66   if (UNLIKELY(klass == nullptr)) {
67     klass = Runtime::Current()->GetClassLinker()->ResolveType(type_idx, method);
68     *slow_path = true;
69     if (klass == nullptr) {
70       DCHECK(self->IsExceptionPending());
71       return nullptr;  // Failure
72     } else {
73       DCHECK(!self->IsExceptionPending());
74     }
75   }
76   if (kAccessCheck) {
77     if (UNLIKELY(!klass->IsInstantiable())) {
78       self->ThrowNewException("Ljava/lang/InstantiationError;", PrettyDescriptor(klass).c_str());
79       *slow_path = true;
80       return nullptr;  // Failure
81     }
82     mirror::Class* referrer = method->GetDeclaringClass();
83     if (UNLIKELY(!referrer->CanAccess(klass))) {
84       ThrowIllegalAccessErrorClass(referrer, klass);
85       *slow_path = true;
86       return nullptr;  // Failure
87     }
88   }
89   if (UNLIKELY(!klass->IsInitialized())) {
90     StackHandleScope<1> hs(self);
91     Handle<mirror::Class> h_klass(hs.NewHandle(klass));
92     // EnsureInitialized (the class initializer) might cause a GC.
93     // may cause us to suspend meaning that another thread may try to
94     // change the allocator while we are stuck in the entrypoints of
95     // an old allocator. Also, the class initialization may fail. To
96     // handle these cases we mark the slow path boolean as true so
97     // that the caller knows to check the allocator type to see if it
98     // has changed and to null-check the return value in case the
99     // initialization fails.
100     *slow_path = true;
101     if (!Runtime::Current()->GetClassLinker()->EnsureInitialized(self, h_klass, true, true)) {
102       DCHECK(self->IsExceptionPending());
103       return nullptr;  // Failure
104     } else {
105       DCHECK(!self->IsExceptionPending());
106     }
107     return h_klass.Get();
108   }
109   return klass;
110 }
111 
112 ALWAYS_INLINE
CheckClassInitializedForObjectAlloc(mirror::Class * klass,Thread * self,bool * slow_path)113 inline mirror::Class* CheckClassInitializedForObjectAlloc(mirror::Class* klass,
114                                                           Thread* self,
115                                                           bool* slow_path) {
116   if (UNLIKELY(!klass->IsInitialized())) {
117     StackHandleScope<1> hs(self);
118     Handle<mirror::Class> h_class(hs.NewHandle(klass));
119     // EnsureInitialized (the class initializer) might cause a GC.
120     // may cause us to suspend meaning that another thread may try to
121     // change the allocator while we are stuck in the entrypoints of
122     // an old allocator. Also, the class initialization may fail. To
123     // handle these cases we mark the slow path boolean as true so
124     // that the caller knows to check the allocator type to see if it
125     // has changed and to null-check the return value in case the
126     // initialization fails.
127     *slow_path = true;
128     if (!Runtime::Current()->GetClassLinker()->EnsureInitialized(self, h_class, true, true)) {
129       DCHECK(self->IsExceptionPending());
130       return nullptr;  // Failure
131     }
132     return h_class.Get();
133   }
134   return klass;
135 }
136 
137 // Given the context of a calling Method, use its DexCache to resolve a type to a Class. If it
138 // cannot be resolved, throw an error. If it can, use it to create an instance.
139 // When verification/compiler hasn't been able to verify access, optionally perform an access
140 // check.
141 template <bool kAccessCheck, bool kInstrumented>
142 ALWAYS_INLINE
AllocObjectFromCode(uint32_t type_idx,ArtMethod * method,Thread * self,gc::AllocatorType allocator_type)143 inline mirror::Object* AllocObjectFromCode(uint32_t type_idx,
144                                            ArtMethod* method,
145                                            Thread* self,
146                                            gc::AllocatorType allocator_type) {
147   bool slow_path = false;
148   mirror::Class* klass = CheckObjectAlloc<kAccessCheck>(type_idx, method, self, &slow_path);
149   if (UNLIKELY(slow_path)) {
150     if (klass == nullptr) {
151       return nullptr;
152     }
153     return klass->Alloc<kInstrumented>(self, Runtime::Current()->GetHeap()->GetCurrentAllocator());
154   }
155   DCHECK(klass != nullptr);
156   return klass->Alloc<kInstrumented>(self, allocator_type);
157 }
158 
159 // Given the context of a calling Method and a resolved class, create an instance.
160 template <bool kInstrumented>
161 ALWAYS_INLINE
AllocObjectFromCodeResolved(mirror::Class * klass,Thread * self,gc::AllocatorType allocator_type)162 inline mirror::Object* AllocObjectFromCodeResolved(mirror::Class* klass,
163                                                    Thread* self,
164                                                    gc::AllocatorType allocator_type) {
165   DCHECK(klass != nullptr);
166   bool slow_path = false;
167   klass = CheckClassInitializedForObjectAlloc(klass, self, &slow_path);
168   if (UNLIKELY(slow_path)) {
169     if (klass == nullptr) {
170       return nullptr;
171     }
172     gc::Heap* heap = Runtime::Current()->GetHeap();
173     // Pass in false since the object can not be finalizable.
174     return klass->Alloc<kInstrumented, false>(self, heap->GetCurrentAllocator());
175   }
176   // Pass in false since the object can not be finalizable.
177   return klass->Alloc<kInstrumented, false>(self, allocator_type);
178 }
179 
180 // Given the context of a calling Method and an initialized class, create an instance.
181 template <bool kInstrumented>
182 ALWAYS_INLINE
AllocObjectFromCodeInitialized(mirror::Class * klass,Thread * self,gc::AllocatorType allocator_type)183 inline mirror::Object* AllocObjectFromCodeInitialized(mirror::Class* klass,
184                                                       Thread* self,
185                                                       gc::AllocatorType allocator_type) {
186   DCHECK(klass != nullptr);
187   // Pass in false since the object can not be finalizable.
188   return klass->Alloc<kInstrumented, false>(self, allocator_type);
189 }
190 
191 
192 template <bool kAccessCheck>
193 ALWAYS_INLINE
CheckArrayAlloc(uint32_t type_idx,int32_t component_count,ArtMethod * method,bool * slow_path)194 inline mirror::Class* CheckArrayAlloc(uint32_t type_idx,
195                                       int32_t component_count,
196                                       ArtMethod* method,
197                                       bool* slow_path) {
198   if (UNLIKELY(component_count < 0)) {
199     ThrowNegativeArraySizeException(component_count);
200     *slow_path = true;
201     return nullptr;  // Failure
202   }
203   mirror::Class* klass = method->GetDexCacheResolvedType<false>(type_idx);
204   if (UNLIKELY(klass == nullptr)) {  // Not in dex cache so try to resolve
205     klass = Runtime::Current()->GetClassLinker()->ResolveType(type_idx, method);
206     *slow_path = true;
207     if (klass == nullptr) {  // Error
208       DCHECK(Thread::Current()->IsExceptionPending());
209       return nullptr;  // Failure
210     }
211     CHECK(klass->IsArrayClass()) << PrettyClass(klass);
212   }
213   if (kAccessCheck) {
214     mirror::Class* referrer = method->GetDeclaringClass();
215     if (UNLIKELY(!referrer->CanAccess(klass))) {
216       ThrowIllegalAccessErrorClass(referrer, klass);
217       *slow_path = true;
218       return nullptr;  // Failure
219     }
220   }
221   return klass;
222 }
223 
224 // Given the context of a calling Method, use its DexCache to resolve a type to an array Class. If
225 // it cannot be resolved, throw an error. If it can, use it to create an array.
226 // When verification/compiler hasn't been able to verify access, optionally perform an access
227 // check.
228 template <bool kAccessCheck, bool kInstrumented>
229 ALWAYS_INLINE
AllocArrayFromCode(uint32_t type_idx,int32_t component_count,ArtMethod * method,Thread * self,gc::AllocatorType allocator_type)230 inline mirror::Array* AllocArrayFromCode(uint32_t type_idx,
231                                          int32_t component_count,
232                                          ArtMethod* method,
233                                          Thread* self,
234                                          gc::AllocatorType allocator_type) {
235   bool slow_path = false;
236   mirror::Class* klass = CheckArrayAlloc<kAccessCheck>(type_idx, component_count, method,
237                                                        &slow_path);
238   if (UNLIKELY(slow_path)) {
239     if (klass == nullptr) {
240       return nullptr;
241     }
242     gc::Heap* heap = Runtime::Current()->GetHeap();
243     return mirror::Array::Alloc<kInstrumented>(self, klass, component_count,
244                                                klass->GetComponentSizeShift(),
245                                                heap->GetCurrentAllocator());
246   }
247   return mirror::Array::Alloc<kInstrumented>(self, klass, component_count,
248                                              klass->GetComponentSizeShift(), allocator_type);
249 }
250 
251 template <bool kAccessCheck, bool kInstrumented>
252 ALWAYS_INLINE
AllocArrayFromCodeResolved(mirror::Class * klass,int32_t component_count,ArtMethod * method,Thread * self,gc::AllocatorType allocator_type)253 inline mirror::Array* AllocArrayFromCodeResolved(mirror::Class* klass,
254                                                  int32_t component_count,
255                                                  ArtMethod* method,
256                                                  Thread* self,
257                                                  gc::AllocatorType allocator_type) {
258   DCHECK(klass != nullptr);
259   if (UNLIKELY(component_count < 0)) {
260     ThrowNegativeArraySizeException(component_count);
261     return nullptr;  // Failure
262   }
263   if (kAccessCheck) {
264     mirror::Class* referrer = method->GetDeclaringClass();
265     if (UNLIKELY(!referrer->CanAccess(klass))) {
266       ThrowIllegalAccessErrorClass(referrer, klass);
267       return nullptr;  // Failure
268     }
269   }
270   // No need to retry a slow-path allocation as the above code won't cause a GC or thread
271   // suspension.
272   return mirror::Array::Alloc<kInstrumented>(self, klass, component_count,
273                                              klass->GetComponentSizeShift(), allocator_type);
274 }
275 
276 template<FindFieldType type, bool access_check>
FindFieldFromCode(uint32_t field_idx,ArtMethod * referrer,Thread * self,size_t expected_size)277 inline ArtField* FindFieldFromCode(uint32_t field_idx, ArtMethod* referrer,
278                                            Thread* self, size_t expected_size) {
279   bool is_primitive;
280   bool is_set;
281   bool is_static;
282   switch (type) {
283     case InstanceObjectRead:     is_primitive = false; is_set = false; is_static = false; break;
284     case InstanceObjectWrite:    is_primitive = false; is_set = true;  is_static = false; break;
285     case InstancePrimitiveRead:  is_primitive = true;  is_set = false; is_static = false; break;
286     case InstancePrimitiveWrite: is_primitive = true;  is_set = true;  is_static = false; break;
287     case StaticObjectRead:       is_primitive = false; is_set = false; is_static = true;  break;
288     case StaticObjectWrite:      is_primitive = false; is_set = true;  is_static = true;  break;
289     case StaticPrimitiveRead:    is_primitive = true;  is_set = false; is_static = true;  break;
290     case StaticPrimitiveWrite:   // Keep GCC happy by having a default handler, fall-through.
291     default:                     is_primitive = true;  is_set = true;  is_static = true;  break;
292   }
293   ClassLinker* class_linker = Runtime::Current()->GetClassLinker();
294   ArtField* resolved_field = class_linker->ResolveField(field_idx, referrer, is_static);
295   if (UNLIKELY(resolved_field == nullptr)) {
296     DCHECK(self->IsExceptionPending());  // Throw exception and unwind.
297     return nullptr;  // Failure.
298   }
299   mirror::Class* fields_class = resolved_field->GetDeclaringClass();
300   if (access_check) {
301     if (UNLIKELY(resolved_field->IsStatic() != is_static)) {
302       ThrowIncompatibleClassChangeErrorField(resolved_field, is_static, referrer);
303       return nullptr;
304     }
305     mirror::Class* referring_class = referrer->GetDeclaringClass();
306     if (UNLIKELY(!referring_class->CheckResolvedFieldAccess(fields_class, resolved_field,
307                                                             field_idx))) {
308       DCHECK(self->IsExceptionPending());  // Throw exception and unwind.
309       return nullptr;  // Failure.
310     }
311     if (UNLIKELY(is_set && resolved_field->IsFinal() && (fields_class != referring_class))) {
312       ThrowIllegalAccessErrorFinalField(referrer, resolved_field);
313       return nullptr;  // Failure.
314     } else {
315       if (UNLIKELY(resolved_field->IsPrimitiveType() != is_primitive ||
316                    resolved_field->FieldSize() != expected_size)) {
317         self->ThrowNewExceptionF("Ljava/lang/NoSuchFieldError;",
318                                  "Attempted read of %zd-bit %s on field '%s'",
319                                  expected_size * (32 / sizeof(int32_t)),
320                                  is_primitive ? "primitive" : "non-primitive",
321                                  PrettyField(resolved_field, true).c_str());
322         return nullptr;  // Failure.
323       }
324     }
325   }
326   if (!is_static) {
327     // instance fields must be being accessed on an initialized class
328     return resolved_field;
329   } else {
330     // If the class is initialized we're done.
331     if (LIKELY(fields_class->IsInitialized())) {
332       return resolved_field;
333     } else {
334       StackHandleScope<1> hs(self);
335       Handle<mirror::Class> h_class(hs.NewHandle(fields_class));
336       if (LIKELY(class_linker->EnsureInitialized(self, h_class, true, true))) {
337         // Otherwise let's ensure the class is initialized before resolving the field.
338         return resolved_field;
339       }
340       DCHECK(self->IsExceptionPending());  // Throw exception and unwind
341       return nullptr;  // Failure.
342     }
343   }
344 }
345 
346 // Explicit template declarations of FindFieldFromCode for all field access types.
347 #define EXPLICIT_FIND_FIELD_FROM_CODE_TEMPLATE_DECL(_type, _access_check) \
348 template SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) ALWAYS_INLINE \
349 ArtField* FindFieldFromCode<_type, _access_check>(uint32_t field_idx, \
350                                                   ArtMethod* referrer, \
351                                                   Thread* self, size_t expected_size) \
352 
353 #define EXPLICIT_FIND_FIELD_FROM_CODE_TYPED_TEMPLATE_DECL(_type) \
354     EXPLICIT_FIND_FIELD_FROM_CODE_TEMPLATE_DECL(_type, false); \
355     EXPLICIT_FIND_FIELD_FROM_CODE_TEMPLATE_DECL(_type, true)
356 
357 EXPLICIT_FIND_FIELD_FROM_CODE_TYPED_TEMPLATE_DECL(InstanceObjectRead);
358 EXPLICIT_FIND_FIELD_FROM_CODE_TYPED_TEMPLATE_DECL(InstanceObjectWrite);
359 EXPLICIT_FIND_FIELD_FROM_CODE_TYPED_TEMPLATE_DECL(InstancePrimitiveRead);
360 EXPLICIT_FIND_FIELD_FROM_CODE_TYPED_TEMPLATE_DECL(InstancePrimitiveWrite);
361 EXPLICIT_FIND_FIELD_FROM_CODE_TYPED_TEMPLATE_DECL(StaticObjectRead);
362 EXPLICIT_FIND_FIELD_FROM_CODE_TYPED_TEMPLATE_DECL(StaticObjectWrite);
363 EXPLICIT_FIND_FIELD_FROM_CODE_TYPED_TEMPLATE_DECL(StaticPrimitiveRead);
364 EXPLICIT_FIND_FIELD_FROM_CODE_TYPED_TEMPLATE_DECL(StaticPrimitiveWrite);
365 
366 #undef EXPLICIT_FIND_FIELD_FROM_CODE_TYPED_TEMPLATE_DECL
367 #undef EXPLICIT_FIND_FIELD_FROM_CODE_TEMPLATE_DECL
368 
369 template<InvokeType type, bool access_check>
FindMethodFromCode(uint32_t method_idx,mirror::Object ** this_object,ArtMethod ** referrer,Thread * self)370 inline ArtMethod* FindMethodFromCode(uint32_t method_idx, mirror::Object** this_object,
371                                      ArtMethod** referrer, Thread* self) {
372   ClassLinker* const class_linker = Runtime::Current()->GetClassLinker();
373   ArtMethod* resolved_method = class_linker->GetResolvedMethod(method_idx, *referrer);
374   if (resolved_method == nullptr) {
375     StackHandleScope<1> hs(self);
376     mirror::Object* null_this = nullptr;
377     HandleWrapper<mirror::Object> h_this(
378         hs.NewHandleWrapper(type == kStatic ? &null_this : this_object));
379     resolved_method = class_linker->ResolveMethod(self, method_idx, *referrer, type);
380   }
381   if (UNLIKELY(resolved_method == nullptr)) {
382     DCHECK(self->IsExceptionPending());  // Throw exception and unwind.
383     return nullptr;  // Failure.
384   } else if (UNLIKELY(*this_object == nullptr && type != kStatic)) {
385     // Maintain interpreter-like semantics where NullPointerException is thrown
386     // after potential NoSuchMethodError from class linker.
387     ThrowNullPointerExceptionForMethodAccess(method_idx, type);
388     return nullptr;  // Failure.
389   } else if (access_check) {
390     // Incompatible class change should have been handled in resolve method.
391     if (UNLIKELY(resolved_method->CheckIncompatibleClassChange(type))) {
392       ThrowIncompatibleClassChangeError(type, resolved_method->GetInvokeType(), resolved_method,
393                                         *referrer);
394       return nullptr;  // Failure.
395     }
396     mirror::Class* methods_class = resolved_method->GetDeclaringClass();
397     mirror::Class* referring_class = (*referrer)->GetDeclaringClass();
398     bool can_access_resolved_method =
399         referring_class->CheckResolvedMethodAccess<type>(methods_class, resolved_method,
400                                                          method_idx);
401     if (UNLIKELY(!can_access_resolved_method)) {
402       DCHECK(self->IsExceptionPending());  // Throw exception and unwind.
403       return nullptr;  // Failure.
404     }
405   }
406   switch (type) {
407     case kStatic:
408     case kDirect:
409       return resolved_method;
410     case kVirtual: {
411       mirror::Class* klass = (*this_object)->GetClass();
412       uint16_t vtable_index = resolved_method->GetMethodIndex();
413       if (access_check &&
414           (!klass->HasVTable() ||
415            vtable_index >= static_cast<uint32_t>(klass->GetVTableLength()))) {
416         // Behavior to agree with that of the verifier.
417         ThrowNoSuchMethodError(type, resolved_method->GetDeclaringClass(),
418                                resolved_method->GetName(), resolved_method->GetSignature());
419         return nullptr;  // Failure.
420       }
421       DCHECK(klass->HasVTable()) << PrettyClass(klass);
422       return klass->GetVTableEntry(vtable_index, class_linker->GetImagePointerSize());
423     }
424     case kSuper: {
425       mirror::Class* super_class = (*referrer)->GetDeclaringClass()->GetSuperClass();
426       uint16_t vtable_index = resolved_method->GetMethodIndex();
427       if (access_check) {
428         // Check existence of super class.
429         if (super_class == nullptr || !super_class->HasVTable() ||
430             vtable_index >= static_cast<uint32_t>(super_class->GetVTableLength())) {
431           // Behavior to agree with that of the verifier.
432           ThrowNoSuchMethodError(type, resolved_method->GetDeclaringClass(),
433                                  resolved_method->GetName(), resolved_method->GetSignature());
434           return nullptr;  // Failure.
435         }
436       } else {
437         // Super class must exist.
438         DCHECK(super_class != nullptr);
439       }
440       DCHECK(super_class->HasVTable());
441       return super_class->GetVTableEntry(vtable_index, class_linker->GetImagePointerSize());
442     }
443     case kInterface: {
444       uint32_t imt_index = resolved_method->GetDexMethodIndex() % mirror::Class::kImtSize;
445       ArtMethod* imt_method = (*this_object)->GetClass()->GetEmbeddedImTableEntry(
446           imt_index, class_linker->GetImagePointerSize());
447       if (!imt_method->IsImtConflictMethod() && !imt_method->IsImtUnimplementedMethod()) {
448         if (kIsDebugBuild) {
449           mirror::Class* klass = (*this_object)->GetClass();
450           ArtMethod* method = klass->FindVirtualMethodForInterface(
451               resolved_method, class_linker->GetImagePointerSize());
452           CHECK_EQ(imt_method, method) << PrettyMethod(resolved_method) << " / " <<
453               PrettyMethod(imt_method) << " / " << PrettyMethod(method) << " / " <<
454               PrettyClass(klass);
455         }
456         return imt_method;
457       } else {
458         ArtMethod* interface_method = (*this_object)->GetClass()->FindVirtualMethodForInterface(
459             resolved_method, class_linker->GetImagePointerSize());
460         if (UNLIKELY(interface_method == nullptr)) {
461           ThrowIncompatibleClassChangeErrorClassForInterfaceDispatch(resolved_method,
462                                                                      *this_object, *referrer);
463           return nullptr;  // Failure.
464         }
465         return interface_method;
466       }
467     }
468     default:
469       LOG(FATAL) << "Unknown invoke type " << type;
470       return nullptr;  // Failure.
471   }
472 }
473 
474 // Explicit template declarations of FindMethodFromCode for all invoke types.
475 #define EXPLICIT_FIND_METHOD_FROM_CODE_TEMPLATE_DECL(_type, _access_check)                 \
476   template SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) ALWAYS_INLINE                       \
477   ArtMethod* FindMethodFromCode<_type, _access_check>(uint32_t method_idx,         \
478                                                       mirror::Object** this_object, \
479                                                       ArtMethod** referrer, \
480                                                       Thread* self)
481 #define EXPLICIT_FIND_METHOD_FROM_CODE_TYPED_TEMPLATE_DECL(_type) \
482     EXPLICIT_FIND_METHOD_FROM_CODE_TEMPLATE_DECL(_type, false);   \
483     EXPLICIT_FIND_METHOD_FROM_CODE_TEMPLATE_DECL(_type, true)
484 
485 EXPLICIT_FIND_METHOD_FROM_CODE_TYPED_TEMPLATE_DECL(kStatic);
486 EXPLICIT_FIND_METHOD_FROM_CODE_TYPED_TEMPLATE_DECL(kDirect);
487 EXPLICIT_FIND_METHOD_FROM_CODE_TYPED_TEMPLATE_DECL(kVirtual);
488 EXPLICIT_FIND_METHOD_FROM_CODE_TYPED_TEMPLATE_DECL(kSuper);
489 EXPLICIT_FIND_METHOD_FROM_CODE_TYPED_TEMPLATE_DECL(kInterface);
490 
491 #undef EXPLICIT_FIND_METHOD_FROM_CODE_TYPED_TEMPLATE_DECL
492 #undef EXPLICIT_FIND_METHOD_FROM_CODE_TEMPLATE_DECL
493 
494 // Fast path field resolution that can't initialize classes or throw exceptions.
FindFieldFast(uint32_t field_idx,ArtMethod * referrer,FindFieldType type,size_t expected_size)495 inline ArtField* FindFieldFast(uint32_t field_idx, ArtMethod* referrer, FindFieldType type,
496                                size_t expected_size) {
497   ArtField* resolved_field =
498       referrer->GetDeclaringClass()->GetDexCache()->GetResolvedField(field_idx, sizeof(void*));
499   if (UNLIKELY(resolved_field == nullptr)) {
500     return nullptr;
501   }
502   // Check for incompatible class change.
503   bool is_primitive;
504   bool is_set;
505   bool is_static;
506   switch (type) {
507     case InstanceObjectRead:     is_primitive = false; is_set = false; is_static = false; break;
508     case InstanceObjectWrite:    is_primitive = false; is_set = true;  is_static = false; break;
509     case InstancePrimitiveRead:  is_primitive = true;  is_set = false; is_static = false; break;
510     case InstancePrimitiveWrite: is_primitive = true;  is_set = true;  is_static = false; break;
511     case StaticObjectRead:       is_primitive = false; is_set = false; is_static = true;  break;
512     case StaticObjectWrite:      is_primitive = false; is_set = true;  is_static = true;  break;
513     case StaticPrimitiveRead:    is_primitive = true;  is_set = false; is_static = true;  break;
514     case StaticPrimitiveWrite:   is_primitive = true;  is_set = true;  is_static = true;  break;
515     default:
516       LOG(FATAL) << "UNREACHABLE";
517       UNREACHABLE();
518   }
519   if (UNLIKELY(resolved_field->IsStatic() != is_static)) {
520     // Incompatible class change.
521     return nullptr;
522   }
523   mirror::Class* fields_class = resolved_field->GetDeclaringClass();
524   if (is_static) {
525     // Check class is initialized else fail so that we can contend to initialize the class with
526     // other threads that may be racing to do this.
527     if (UNLIKELY(!fields_class->IsInitialized())) {
528       return nullptr;
529     }
530   }
531   mirror::Class* referring_class = referrer->GetDeclaringClass();
532   if (UNLIKELY(!referring_class->CanAccess(fields_class) ||
533                !referring_class->CanAccessMember(fields_class, resolved_field->GetAccessFlags()) ||
534                (is_set && resolved_field->IsFinal() && (fields_class != referring_class)))) {
535     // Illegal access.
536     return nullptr;
537   }
538   if (UNLIKELY(resolved_field->IsPrimitiveType() != is_primitive ||
539                resolved_field->FieldSize() != expected_size)) {
540     return nullptr;
541   }
542   return resolved_field;
543 }
544 
545 // Fast path method resolution that can't throw exceptions.
FindMethodFast(uint32_t method_idx,mirror::Object * this_object,ArtMethod * referrer,bool access_check,InvokeType type)546 inline ArtMethod* FindMethodFast(uint32_t method_idx, mirror::Object* this_object,
547                                  ArtMethod* referrer, bool access_check, InvokeType type) {
548   if (UNLIKELY(this_object == nullptr && type != kStatic)) {
549     return nullptr;
550   }
551   ArtMethod* resolved_method =
552       referrer->GetDeclaringClass()->GetDexCache()->GetResolvedMethod(method_idx, sizeof(void*));
553   if (UNLIKELY(resolved_method == nullptr)) {
554     return nullptr;
555   }
556   if (access_check) {
557     // Check for incompatible class change errors and access.
558     bool icce = resolved_method->CheckIncompatibleClassChange(type);
559     if (UNLIKELY(icce)) {
560       return nullptr;
561     }
562     mirror::Class* methods_class = resolved_method->GetDeclaringClass();
563     mirror::Class* referring_class = referrer->GetDeclaringClass();
564     if (UNLIKELY(!referring_class->CanAccess(methods_class) ||
565                  !referring_class->CanAccessMember(methods_class,
566                                                    resolved_method->GetAccessFlags()))) {
567       // Potential illegal access, may need to refine the method's class.
568       return nullptr;
569     }
570   }
571   if (type == kInterface) {  // Most common form of slow path dispatch.
572     return this_object->GetClass()->FindVirtualMethodForInterface(resolved_method, sizeof(void*));
573   } else if (type == kStatic || type == kDirect) {
574     return resolved_method;
575   } else if (type == kSuper) {
576     return referrer->GetDeclaringClass()->GetSuperClass()->GetVTableEntry(
577         resolved_method->GetMethodIndex(), sizeof(void*));
578   } else {
579     DCHECK(type == kVirtual);
580     return this_object->GetClass()->GetVTableEntry(
581         resolved_method->GetMethodIndex(), sizeof(void*));
582   }
583 }
584 
ResolveVerifyAndClinit(uint32_t type_idx,ArtMethod * referrer,Thread * self,bool can_run_clinit,bool verify_access)585 inline mirror::Class* ResolveVerifyAndClinit(uint32_t type_idx, ArtMethod* referrer, Thread* self,
586                                              bool can_run_clinit, bool verify_access) {
587   ClassLinker* class_linker = Runtime::Current()->GetClassLinker();
588   mirror::Class* klass = class_linker->ResolveType(type_idx, referrer);
589   if (UNLIKELY(klass == nullptr)) {
590     CHECK(self->IsExceptionPending());
591     return nullptr;  // Failure - Indicate to caller to deliver exception
592   }
593   // Perform access check if necessary.
594   mirror::Class* referring_class = referrer->GetDeclaringClass();
595   if (verify_access && UNLIKELY(!referring_class->CanAccess(klass))) {
596     ThrowIllegalAccessErrorClass(referring_class, klass);
597     return nullptr;  // Failure - Indicate to caller to deliver exception
598   }
599   // If we're just implementing const-class, we shouldn't call <clinit>.
600   if (!can_run_clinit) {
601     return klass;
602   }
603   // If we are the <clinit> of this class, just return our storage.
604   //
605   // Do not set the DexCache InitializedStaticStorage, since that implies <clinit> has finished
606   // running.
607   if (klass == referring_class && referrer->IsConstructor() && referrer->IsStatic()) {
608     return klass;
609   }
610   StackHandleScope<1> hs(self);
611   Handle<mirror::Class> h_class(hs.NewHandle(klass));
612   if (!class_linker->EnsureInitialized(self, h_class, true, true)) {
613     CHECK(self->IsExceptionPending());
614     return nullptr;  // Failure - Indicate to caller to deliver exception
615   }
616   return h_class.Get();
617 }
618 
ResolveStringFromCode(ArtMethod * referrer,uint32_t string_idx)619 inline mirror::String* ResolveStringFromCode(ArtMethod* referrer, uint32_t string_idx) {
620   ClassLinker* class_linker = Runtime::Current()->GetClassLinker();
621   return class_linker->ResolveString(string_idx, referrer);
622 }
623 
UnlockJniSynchronizedMethod(jobject locked,Thread * self)624 inline void UnlockJniSynchronizedMethod(jobject locked, Thread* self) {
625   // Save any pending exception over monitor exit call.
626   mirror::Throwable* saved_exception = nullptr;
627   if (UNLIKELY(self->IsExceptionPending())) {
628     saved_exception = self->GetException();
629     self->ClearException();
630   }
631   // Decode locked object and unlock, before popping local references.
632   self->DecodeJObject(locked)->MonitorExit(self);
633   if (UNLIKELY(self->IsExceptionPending())) {
634     LOG(FATAL) << "Synchronized JNI code returning with an exception:\n"
635         << saved_exception->Dump()
636         << "\nEncountered second exception during implicit MonitorExit:\n"
637         << self->GetException()->Dump();
638   }
639   // Restore pending exception.
640   if (saved_exception != nullptr) {
641     self->SetException(saved_exception);
642   }
643 }
644 
645 template <typename INT_TYPE, typename FLOAT_TYPE>
art_float_to_integral(FLOAT_TYPE f)646 inline INT_TYPE art_float_to_integral(FLOAT_TYPE f) {
647   const INT_TYPE kMaxInt = static_cast<INT_TYPE>(std::numeric_limits<INT_TYPE>::max());
648   const INT_TYPE kMinInt = static_cast<INT_TYPE>(std::numeric_limits<INT_TYPE>::min());
649   const FLOAT_TYPE kMaxIntAsFloat = static_cast<FLOAT_TYPE>(kMaxInt);
650   const FLOAT_TYPE kMinIntAsFloat = static_cast<FLOAT_TYPE>(kMinInt);
651   if (LIKELY(f > kMinIntAsFloat)) {
652      if (LIKELY(f < kMaxIntAsFloat)) {
653        return static_cast<INT_TYPE>(f);
654      } else {
655        return kMaxInt;
656      }
657   } else {
658     return (f != f) ? 0 : kMinInt;  // f != f implies NaN
659   }
660 }
661 
662 }  // namespace art
663 
664 #endif  // ART_RUNTIME_ENTRYPOINTS_ENTRYPOINT_UTILS_INL_H_
665