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1 /*
2  * Copyright (C) 2016 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 "method_handles-inl.h"
18 
19 #include "android-base/stringprintf.h"
20 
21 #include "class_root.h"
22 #include "common_dex_operations.h"
23 #include "common_throws.h"
24 #include "interpreter/shadow_frame-inl.h"
25 #include "jvalue-inl.h"
26 #include "mirror/class-inl.h"
27 #include "mirror/emulated_stack_frame-inl.h"
28 #include "mirror/method_handle_impl-inl.h"
29 #include "mirror/method_type-inl.h"
30 #include "mirror/var_handle.h"
31 #include "reflection-inl.h"
32 #include "reflection.h"
33 #include "well_known_classes.h"
34 
35 namespace art {
36 
37 using android::base::StringPrintf;
38 
39 namespace {
40 
41 #define PRIMITIVES_LIST(V) \
42   V(Primitive::kPrimBoolean, Boolean, Boolean, Z) \
43   V(Primitive::kPrimByte, Byte, Byte, B)          \
44   V(Primitive::kPrimChar, Char, Character, C)     \
45   V(Primitive::kPrimShort, Short, Short, S)       \
46   V(Primitive::kPrimInt, Int, Integer, I)         \
47   V(Primitive::kPrimLong, Long, Long, J)          \
48   V(Primitive::kPrimFloat, Float, Float, F)       \
49   V(Primitive::kPrimDouble, Double, Double, D)
50 
51 // Assigns |type| to the primitive type associated with |klass|. Returns
52 // true iff. |klass| was a boxed type (Integer, Long etc.), false otherwise.
GetUnboxedPrimitiveType(ObjPtr<mirror::Class> klass,Primitive::Type * type)53 bool GetUnboxedPrimitiveType(ObjPtr<mirror::Class> klass, Primitive::Type* type)
54     REQUIRES_SHARED(Locks::mutator_lock_) {
55   ScopedAssertNoThreadSuspension ants(__FUNCTION__);
56   std::string storage;
57   const char* descriptor = klass->GetDescriptor(&storage);
58   static const char kJavaLangPrefix[] = "Ljava/lang/";
59   static const size_t kJavaLangPrefixSize = sizeof(kJavaLangPrefix) - 1;
60   if (strncmp(descriptor, kJavaLangPrefix, kJavaLangPrefixSize) != 0) {
61     return false;
62   }
63 
64   descriptor += kJavaLangPrefixSize;
65 #define LOOKUP_PRIMITIVE(primitive, _, java_name, ___) \
66   if (strcmp(descriptor, #java_name ";") == 0) {       \
67     *type = primitive;                                 \
68     return true;                                       \
69   }
70 
71   PRIMITIVES_LIST(LOOKUP_PRIMITIVE);
72 #undef LOOKUP_PRIMITIVE
73   return false;
74 }
75 
GetBoxedPrimitiveClass(Primitive::Type type)76 ObjPtr<mirror::Class> GetBoxedPrimitiveClass(Primitive::Type type)
77     REQUIRES_SHARED(Locks::mutator_lock_) {
78   ScopedAssertNoThreadSuspension ants(__FUNCTION__);
79   jmethodID m = nullptr;
80   switch (type) {
81 #define CASE_PRIMITIVE(primitive, _, java_name, __)              \
82     case primitive:                                              \
83       m = WellKnownClasses::java_lang_ ## java_name ## _valueOf; \
84       break;
85     PRIMITIVES_LIST(CASE_PRIMITIVE);
86 #undef CASE_PRIMITIVE
87     case Primitive::Type::kPrimNot:
88     case Primitive::Type::kPrimVoid:
89       return nullptr;
90   }
91   return jni::DecodeArtMethod(m)->GetDeclaringClass();
92 }
93 
GetUnboxedTypeAndValue(ObjPtr<mirror::Object> o,Primitive::Type * type,JValue * value)94 bool GetUnboxedTypeAndValue(ObjPtr<mirror::Object> o, Primitive::Type* type, JValue* value)
95     REQUIRES_SHARED(Locks::mutator_lock_) {
96   ScopedAssertNoThreadSuspension ants(__FUNCTION__);
97   ObjPtr<mirror::Class> klass = o->GetClass();
98   ArtField* primitive_field = &klass->GetIFieldsPtr()->At(0);
99 #define CASE_PRIMITIVE(primitive, abbrev, _, shorthand)         \
100   if (klass == GetBoxedPrimitiveClass(primitive)) {             \
101     *type = primitive;                                          \
102     value->Set ## shorthand(primitive_field->Get ## abbrev(o)); \
103     return true;                                                \
104   }
105   PRIMITIVES_LIST(CASE_PRIMITIVE)
106 #undef CASE_PRIMITIVE
107   return false;
108 }
109 
IsReferenceType(Primitive::Type type)110 inline bool IsReferenceType(Primitive::Type type) {
111   return type == Primitive::kPrimNot;
112 }
113 
IsPrimitiveType(Primitive::Type type)114 inline bool IsPrimitiveType(Primitive::Type type) {
115   return !IsReferenceType(type);
116 }
117 
118 }  // namespace
119 
IsParameterTypeConvertible(ObjPtr<mirror::Class> from,ObjPtr<mirror::Class> to)120 bool IsParameterTypeConvertible(ObjPtr<mirror::Class> from, ObjPtr<mirror::Class> to)
121     REQUIRES_SHARED(Locks::mutator_lock_) {
122   // This function returns true if there's any conceivable conversion
123   // between |from| and |to|. It's expected this method will be used
124   // to determine if a WrongMethodTypeException should be raised. The
125   // decision logic follows the documentation for MethodType.asType().
126   if (from == to) {
127     return true;
128   }
129 
130   Primitive::Type from_primitive = from->GetPrimitiveType();
131   Primitive::Type to_primitive = to->GetPrimitiveType();
132   DCHECK(from_primitive != Primitive::Type::kPrimVoid);
133   DCHECK(to_primitive != Primitive::Type::kPrimVoid);
134 
135   // If |to| and |from| are references.
136   if (IsReferenceType(from_primitive) && IsReferenceType(to_primitive)) {
137     // Assignability is determined during parameter conversion when
138     // invoking the associated method handle.
139     return true;
140   }
141 
142   // If |to| and |from| are primitives and a widening conversion exists.
143   if (Primitive::IsWidenable(from_primitive, to_primitive)) {
144     return true;
145   }
146 
147   // If |to| is a reference and |from| is a primitive, then boxing conversion.
148   if (IsReferenceType(to_primitive) && IsPrimitiveType(from_primitive)) {
149     return to->IsAssignableFrom(GetBoxedPrimitiveClass(from_primitive));
150   }
151 
152   // If |from| is a reference and |to| is a primitive, then unboxing conversion.
153   if (IsPrimitiveType(to_primitive) && IsReferenceType(from_primitive)) {
154     if (from->DescriptorEquals("Ljava/lang/Object;")) {
155       // Object might be converted into a primitive during unboxing.
156       return true;
157     }
158 
159     if (Primitive::IsNumericType(to_primitive) && from->DescriptorEquals("Ljava/lang/Number;")) {
160       // Number might be unboxed into any of the number primitive types.
161       return true;
162     }
163 
164     Primitive::Type unboxed_type;
165     if (GetUnboxedPrimitiveType(from, &unboxed_type)) {
166       if (unboxed_type == to_primitive) {
167         // Straightforward unboxing conversion such as Boolean => boolean.
168         return true;
169       }
170 
171       // Check if widening operations for numeric primitives would work,
172       // such as Byte => byte => long.
173       return Primitive::IsWidenable(unboxed_type, to_primitive);
174     }
175   }
176 
177   return false;
178 }
179 
IsReturnTypeConvertible(ObjPtr<mirror::Class> from,ObjPtr<mirror::Class> to)180 bool IsReturnTypeConvertible(ObjPtr<mirror::Class> from, ObjPtr<mirror::Class> to)
181     REQUIRES_SHARED(Locks::mutator_lock_) {
182   if (to->GetPrimitiveType() == Primitive::Type::kPrimVoid) {
183     // Result will be ignored.
184     return true;
185   } else if (from->GetPrimitiveType() == Primitive::Type::kPrimVoid) {
186     // Returned value will be 0 / null.
187     return true;
188   } else {
189     // Otherwise apply usual parameter conversion rules.
190     return IsParameterTypeConvertible(from, to);
191   }
192 }
193 
ConvertJValueCommon(Handle<mirror::MethodType> callsite_type,Handle<mirror::MethodType> callee_type,ObjPtr<mirror::Class> from,ObjPtr<mirror::Class> to,JValue * value)194 bool ConvertJValueCommon(
195     Handle<mirror::MethodType> callsite_type,
196     Handle<mirror::MethodType> callee_type,
197     ObjPtr<mirror::Class> from,
198     ObjPtr<mirror::Class> to,
199     JValue* value) {
200   // The reader maybe concerned about the safety of the heap object
201   // that may be in |value|. There is only one case where allocation
202   // is obviously needed and that's for boxing. However, in the case
203   // of boxing |value| contains a non-reference type.
204 
205   const Primitive::Type from_type = from->GetPrimitiveType();
206   const Primitive::Type to_type = to->GetPrimitiveType();
207 
208   // Put incoming value into |src_value| and set return value to 0.
209   // Errors and conversions from void require the return value to be 0.
210   const JValue src_value(*value);
211   value->SetJ(0);
212 
213   // Conversion from void set result to zero.
214   if (from_type == Primitive::kPrimVoid) {
215     return true;
216   }
217 
218   // This method must be called only when the types don't match.
219   DCHECK(from != to);
220 
221   if (IsPrimitiveType(from_type) && IsPrimitiveType(to_type)) {
222     // The source and target types are both primitives.
223     if (UNLIKELY(!ConvertPrimitiveValueNoThrow(from_type, to_type, src_value, value))) {
224       ThrowWrongMethodTypeException(callee_type.Get(), callsite_type.Get());
225       return false;
226     }
227     return true;
228   } else if (IsReferenceType(from_type) && IsReferenceType(to_type)) {
229     // They're both reference types. If "from" is null, we can pass it
230     // through unchanged. If not, we must generate a cast exception if
231     // |to| is not assignable from the dynamic type of |ref|.
232     //
233     // Playing it safe with StackHandleScope here, not expecting any allocation
234     // in mirror::Class::IsAssignable().
235     StackHandleScope<2> hs(Thread::Current());
236     Handle<mirror::Class> h_to(hs.NewHandle(to));
237     Handle<mirror::Object> h_obj(hs.NewHandle(src_value.GetL()));
238     if (UNLIKELY(!h_obj.IsNull() && !to->IsAssignableFrom(h_obj->GetClass()))) {
239       ThrowClassCastException(h_to.Get(), h_obj->GetClass());
240       return false;
241     }
242     value->SetL(h_obj.Get());
243     return true;
244   } else if (IsReferenceType(to_type)) {
245     DCHECK(IsPrimitiveType(from_type));
246     // The source type is a primitive and the target type is a reference, so we must box.
247     // The target type maybe a super class of the boxed source type, for example,
248     // if the source type is int, it's boxed type is java.lang.Integer, and the target
249     // type could be java.lang.Number.
250     Primitive::Type type;
251     if (!GetUnboxedPrimitiveType(to, &type)) {
252       ObjPtr<mirror::Class> boxed_from_class = GetBoxedPrimitiveClass(from_type);
253       if (LIKELY(boxed_from_class->IsSubClass(to))) {
254         type = from_type;
255       } else {
256         ThrowWrongMethodTypeException(callee_type.Get(), callsite_type.Get());
257         return false;
258       }
259     }
260 
261     if (UNLIKELY(from_type != type)) {
262       ThrowWrongMethodTypeException(callee_type.Get(), callsite_type.Get());
263       return false;
264     }
265 
266     if (UNLIKELY(!ConvertPrimitiveValueNoThrow(from_type, type, src_value, value))) {
267       ThrowWrongMethodTypeException(callee_type.Get(), callsite_type.Get());
268       return false;
269     }
270 
271     // Then perform the actual boxing, and then set the reference.
272     ObjPtr<mirror::Object> boxed = BoxPrimitive(type, src_value);
273     value->SetL(boxed);
274     return true;
275   } else {
276     // The source type is a reference and the target type is a primitive, so we must unbox.
277     DCHECK(IsReferenceType(from_type));
278     DCHECK(IsPrimitiveType(to_type));
279 
280     ObjPtr<mirror::Object> from_obj(src_value.GetL());
281     if (UNLIKELY(from_obj.IsNull())) {
282       ThrowNullPointerException(
283           StringPrintf("Expected to unbox a '%s' primitive type but was returned null",
284                        from->PrettyDescriptor().c_str()).c_str());
285       return false;
286     }
287 
288     Primitive::Type unboxed_type;
289     JValue unboxed_value;
290     if (UNLIKELY(!GetUnboxedTypeAndValue(from_obj, &unboxed_type, &unboxed_value))) {
291       ThrowWrongMethodTypeException(callee_type.Get(), callsite_type.Get());
292       return false;
293     }
294 
295     if (UNLIKELY(!ConvertPrimitiveValueNoThrow(unboxed_type, to_type, unboxed_value, value))) {
296       if (from->IsAssignableFrom(GetBoxedPrimitiveClass(to_type))) {
297         // CallSite may be Number, but the Number object is
298         // incompatible, e.g. Number (Integer) for a short.
299         ThrowClassCastException(from, to);
300       } else {
301         // CallSite is incompatible, e.g. Integer for a short.
302         ThrowWrongMethodTypeException(callee_type.Get(), callsite_type.Get());
303       }
304       return false;
305     }
306 
307     return true;
308   }
309 }
310 
311 namespace {
312 
CopyArgumentsFromCallerFrame(const ShadowFrame & caller_frame,ShadowFrame * callee_frame,const InstructionOperands * const operands,const size_t first_dst_reg)313 inline void CopyArgumentsFromCallerFrame(const ShadowFrame& caller_frame,
314                                          ShadowFrame* callee_frame,
315                                          const InstructionOperands* const operands,
316                                          const size_t first_dst_reg)
317     REQUIRES_SHARED(Locks::mutator_lock_) {
318   for (size_t i = 0; i < operands->GetNumberOfOperands(); ++i) {
319     size_t dst_reg = first_dst_reg + i;
320     size_t src_reg = operands->GetOperand(i);
321     // Uint required, so that sign extension does not make this wrong on 64-bit systems
322     uint32_t src_value = caller_frame.GetVReg(src_reg);
323     ObjPtr<mirror::Object> o = caller_frame.GetVRegReference<kVerifyNone>(src_reg);
324     // If both register locations contains the same value, the register probably holds a reference.
325     // Note: As an optimization, non-moving collectors leave a stale reference value
326     // in the references array even after the original vreg was overwritten to a non-reference.
327     if (src_value == reinterpret_cast<uintptr_t>(o.Ptr())) {
328       callee_frame->SetVRegReference(dst_reg, o);
329     } else {
330       callee_frame->SetVReg(dst_reg, src_value);
331     }
332   }
333 }
334 
ConvertAndCopyArgumentsFromCallerFrame(Thread * self,Handle<mirror::MethodType> callsite_type,Handle<mirror::MethodType> callee_type,const ShadowFrame & caller_frame,uint32_t first_dest_reg,const InstructionOperands * const operands,ShadowFrame * callee_frame)335 inline bool ConvertAndCopyArgumentsFromCallerFrame(
336     Thread* self,
337     Handle<mirror::MethodType> callsite_type,
338     Handle<mirror::MethodType> callee_type,
339     const ShadowFrame& caller_frame,
340     uint32_t first_dest_reg,
341     const InstructionOperands* const operands,
342     ShadowFrame* callee_frame)
343     REQUIRES_SHARED(Locks::mutator_lock_) {
344   ObjPtr<mirror::ObjectArray<mirror::Class>> from_types(callsite_type->GetPTypes());
345   ObjPtr<mirror::ObjectArray<mirror::Class>> to_types(callee_type->GetPTypes());
346 
347   const int32_t num_method_params = from_types->GetLength();
348   if (to_types->GetLength() != num_method_params) {
349     ThrowWrongMethodTypeException(callee_type.Get(), callsite_type.Get());
350     return false;
351   }
352 
353   ShadowFrameGetter getter(caller_frame, operands);
354   ShadowFrameSetter setter(callee_frame, first_dest_reg);
355   return PerformConversions<ShadowFrameGetter, ShadowFrameSetter>(self,
356                                                                   callsite_type,
357                                                                   callee_type,
358                                                                   &getter,
359                                                                   &setter,
360                                                                   num_method_params);
361 }
362 
IsInvoke(const mirror::MethodHandle::Kind handle_kind)363 inline bool IsInvoke(const mirror::MethodHandle::Kind handle_kind) {
364   return handle_kind <= mirror::MethodHandle::Kind::kLastInvokeKind;
365 }
366 
IsInvokeTransform(const mirror::MethodHandle::Kind handle_kind)367 inline bool IsInvokeTransform(const mirror::MethodHandle::Kind handle_kind) {
368   return (handle_kind == mirror::MethodHandle::Kind::kInvokeTransform
369           || handle_kind == mirror::MethodHandle::Kind::kInvokeCallSiteTransform);
370 }
371 
IsInvokeVarHandle(const mirror::MethodHandle::Kind handle_kind)372 inline bool IsInvokeVarHandle(const mirror::MethodHandle::Kind handle_kind) {
373   return (handle_kind == mirror::MethodHandle::Kind::kInvokeVarHandle ||
374           handle_kind == mirror::MethodHandle::Kind::kInvokeVarHandleExact);
375 }
376 
IsFieldAccess(mirror::MethodHandle::Kind handle_kind)377 inline bool IsFieldAccess(mirror::MethodHandle::Kind handle_kind) {
378   return (handle_kind >= mirror::MethodHandle::Kind::kFirstAccessorKind
379           && handle_kind <= mirror::MethodHandle::Kind::kLastAccessorKind);
380 }
381 
382 // Calculate the number of ins for a proxy or native method, where we
383 // can't just look at the code item.
GetInsForProxyOrNativeMethod(ArtMethod * method)384 static inline size_t GetInsForProxyOrNativeMethod(ArtMethod* method)
385     REQUIRES_SHARED(Locks::mutator_lock_) {
386   DCHECK(method->IsNative() || method->IsProxyMethod());
387   method = method->GetInterfaceMethodIfProxy(kRuntimePointerSize);
388   uint32_t shorty_length = 0;
389   const char* shorty = method->GetShorty(&shorty_length);
390 
391   // Static methods do not include the receiver. The receiver isn't included
392   // in the shorty_length though the return value is.
393   size_t num_ins = method->IsStatic() ? shorty_length - 1 : shorty_length;
394   for (const char* c = shorty + 1; *c != '\0'; ++c) {
395     if (*c == 'J' || *c == 'D') {
396       ++num_ins;
397     }
398   }
399   return num_ins;
400 }
401 
402 // Returns true iff. the callsite type for a polymorphic invoke is transformer
403 // like, i.e that it has a single input argument whose type is
404 // dalvik.system.EmulatedStackFrame.
IsCallerTransformer(Handle<mirror::MethodType> callsite_type)405 static inline bool IsCallerTransformer(Handle<mirror::MethodType> callsite_type)
406     REQUIRES_SHARED(Locks::mutator_lock_) {
407   ObjPtr<mirror::ObjectArray<mirror::Class>> param_types(callsite_type->GetPTypes());
408   if (param_types->GetLength() == 1) {
409     ObjPtr<mirror::Class> param(param_types->GetWithoutChecks(0));
410     // NB Comparing descriptor here as it appears faster in cycle simulation than using:
411     //   param == WellKnownClasses::ToClass(WellKnownClasses::dalvik_system_EmulatedStackFrame)
412     // Costs are 98 vs 173 cycles per invocation.
413     return param->DescriptorEquals("Ldalvik/system/EmulatedStackFrame;");
414   }
415 
416   return false;
417 }
418 
MethodHandleInvokeMethod(ArtMethod * called_method,Handle<mirror::MethodType> callsite_type,Handle<mirror::MethodType> target_type,Handle<mirror::MethodType> nominal_type,Thread * self,ShadowFrame & shadow_frame,const InstructionOperands * const operands,JValue * result)419 static inline bool MethodHandleInvokeMethod(ArtMethod* called_method,
420                                             Handle<mirror::MethodType> callsite_type,
421                                             Handle<mirror::MethodType> target_type,
422                                             Handle<mirror::MethodType> nominal_type,
423                                             Thread* self,
424                                             ShadowFrame& shadow_frame,
425                                             const InstructionOperands* const operands,
426                                             JValue* result) REQUIRES_SHARED(Locks::mutator_lock_) {
427   // Compute method information.
428   CodeItemDataAccessor accessor(called_method->DexInstructionData());
429 
430   // Number of registers for the callee's call frame. Note that for non-exact
431   // invokes, we always derive this information from the callee method. We
432   // cannot guarantee during verification that the number of registers encoded
433   // in the invoke is equal to the number of ins for the callee. This is because
434   // some transformations (such as boxing a long -> Long or wideining an
435   // int -> long will change that number.
436   uint16_t num_regs;
437   size_t num_input_regs;
438   size_t first_dest_reg;
439   if (LIKELY(accessor.HasCodeItem())) {
440     num_regs = accessor.RegistersSize();
441     first_dest_reg = num_regs - accessor.InsSize();
442     num_input_regs = accessor.InsSize();
443     // Parameter registers go at the end of the shadow frame.
444     DCHECK_NE(first_dest_reg, (size_t)-1);
445   } else {
446     // No local regs for proxy and native methods.
447     DCHECK(called_method->IsNative() || called_method->IsProxyMethod());
448     num_regs = num_input_regs = GetInsForProxyOrNativeMethod(called_method);
449     first_dest_reg = 0;
450   }
451 
452   // Allocate shadow frame on the stack.
453   ShadowFrameAllocaUniquePtr shadow_frame_unique_ptr =
454       CREATE_SHADOW_FRAME(num_regs, &shadow_frame, called_method, /* dex pc */ 0);
455   ShadowFrame* new_shadow_frame = shadow_frame_unique_ptr.get();
456 
457   // Whether this polymorphic invoke was issued by a transformer method.
458   bool is_caller_transformer = false;
459   // Thread might be suspended during PerformArgumentConversions due to the
460   // allocations performed during boxing.
461   {
462     ScopedStackedShadowFramePusher pusher(
463         self, new_shadow_frame, StackedShadowFrameType::kShadowFrameUnderConstruction);
464     if (callsite_type->IsExactMatch(target_type.Get())) {
465       // This is an exact invoke, we can take the fast path of just copying all
466       // registers without performing any argument conversions.
467       CopyArgumentsFromCallerFrame(shadow_frame,
468                                    new_shadow_frame,
469                                    operands,
470                                    first_dest_reg);
471     } else {
472       // This includes the case where we're entering this invoke-polymorphic
473       // from a transformer method. In that case, the callsite_type will contain
474       // a single argument of type dalvik.system.EmulatedStackFrame. In that
475       // case, we'll have to unmarshal the EmulatedStackFrame into the
476       // new_shadow_frame and perform argument conversions on it.
477       if (IsCallerTransformer(callsite_type)) {
478         is_caller_transformer = true;
479         // The emulated stack frame is the first and only argument when we're coming
480         // through from a transformer.
481         size_t first_arg_register = operands->GetOperand(0);
482         ObjPtr<mirror::EmulatedStackFrame> emulated_stack_frame(
483             ObjPtr<mirror::EmulatedStackFrame>::DownCast(
484                 shadow_frame.GetVRegReference(first_arg_register)));
485         if (!emulated_stack_frame->WriteToShadowFrame(self,
486                                                       target_type,
487                                                       first_dest_reg,
488                                                       new_shadow_frame)) {
489           DCHECK(self->IsExceptionPending());
490           result->SetL(nullptr);
491           return false;
492         }
493       } else {
494         if (!callsite_type->IsConvertible(target_type.Get())) {
495           ThrowWrongMethodTypeException(target_type.Get(), callsite_type.Get());
496           return false;
497         }
498         if (!ConvertAndCopyArgumentsFromCallerFrame(self,
499                                                     callsite_type,
500                                                     target_type,
501                                                     shadow_frame,
502                                                     first_dest_reg,
503                                                     operands,
504                                                     new_shadow_frame)) {
505           DCHECK(self->IsExceptionPending());
506           result->SetL(nullptr);
507           return false;
508         }
509       }
510     }
511   }
512 
513   bool use_interpreter_entrypoint = ClassLinker::ShouldUseInterpreterEntrypoint(
514       called_method, called_method->GetEntryPointFromQuickCompiledCode());
515   PerformCall(self,
516               accessor,
517               shadow_frame.GetMethod(),
518               first_dest_reg,
519               new_shadow_frame,
520               result,
521               use_interpreter_entrypoint);
522   if (self->IsExceptionPending()) {
523     return false;
524   }
525 
526   // If the caller of this signature polymorphic method was a transformer,
527   // we need to copy the result back out to the emulated stack frame.
528   if (is_caller_transformer) {
529     StackHandleScope<2> hs(self);
530     size_t first_callee_register = operands->GetOperand(0);
531     Handle<mirror::EmulatedStackFrame> emulated_stack_frame(
532         hs.NewHandle(ObjPtr<mirror::EmulatedStackFrame>::DownCast(
533             shadow_frame.GetVRegReference(first_callee_register))));
534     Handle<mirror::MethodType> emulated_stack_type(hs.NewHandle(emulated_stack_frame->GetType()));
535     JValue local_result;
536     local_result.SetJ(result->GetJ());
537 
538     if (ConvertReturnValue(emulated_stack_type, target_type, &local_result)) {
539       emulated_stack_frame->SetReturnValue(self, local_result);
540       return true;
541     }
542 
543     DCHECK(self->IsExceptionPending());
544     return false;
545   }
546 
547   if (nominal_type != nullptr) {
548     return ConvertReturnValue(nominal_type, target_type, result) &&
549         ConvertReturnValue(callsite_type, nominal_type, result);
550   }
551 
552   return ConvertReturnValue(callsite_type, target_type, result);
553 }
554 
MethodHandleInvokeTransform(ArtMethod * called_method,Handle<mirror::MethodType> callsite_type,Handle<mirror::MethodType> callee_type,Thread * self,ShadowFrame & shadow_frame,Handle<mirror::MethodHandle> receiver,const InstructionOperands * const operands,JValue * result)555 static inline bool MethodHandleInvokeTransform(ArtMethod* called_method,
556                                                Handle<mirror::MethodType> callsite_type,
557                                                Handle<mirror::MethodType> callee_type,
558                                                Thread* self,
559                                                ShadowFrame& shadow_frame,
560                                                Handle<mirror::MethodHandle> receiver,
561                                                const InstructionOperands* const operands,
562                                                JValue* result)
563     REQUIRES_SHARED(Locks::mutator_lock_) {
564   // This can be fixed to two, because the method we're calling here
565   // (MethodHandle.transformInternal) doesn't have any locals and the signature
566   // is known :
567   //
568   // private MethodHandle.transformInternal(EmulatedStackFrame sf);
569   //
570   // This means we need only two vregs :
571   // - One for the receiver object.
572   // - One for the only method argument (an EmulatedStackFrame).
573   static constexpr size_t kNumRegsForTransform = 2;
574 
575   CodeItemDataAccessor accessor(called_method->DexInstructionData());
576   DCHECK_EQ(kNumRegsForTransform, accessor.RegistersSize());
577   DCHECK_EQ(kNumRegsForTransform, accessor.InsSize());
578 
579   ShadowFrameAllocaUniquePtr shadow_frame_unique_ptr =
580       CREATE_SHADOW_FRAME(kNumRegsForTransform, &shadow_frame, called_method, /* dex pc */ 0);
581   ShadowFrame* new_shadow_frame = shadow_frame_unique_ptr.get();
582 
583   StackHandleScope<1> hs(self);
584   MutableHandle<mirror::EmulatedStackFrame> sf(hs.NewHandle<mirror::EmulatedStackFrame>(nullptr));
585   if (IsCallerTransformer(callsite_type)) {
586     // If we're entering this transformer from another transformer, we can pass
587     // through the handle directly to the callee, instead of having to
588     // instantiate a new stack frame based on the shadow frame.
589     size_t first_callee_register = operands->GetOperand(0);
590     sf.Assign(ObjPtr<mirror::EmulatedStackFrame>::DownCast(
591         shadow_frame.GetVRegReference(first_callee_register)));
592   } else {
593     sf.Assign(mirror::EmulatedStackFrame::CreateFromShadowFrameAndArgs(self,
594                                                                        callsite_type,
595                                                                        callee_type,
596                                                                        shadow_frame,
597                                                                        operands));
598 
599     // Something went wrong while creating the emulated stack frame, we should
600     // throw the pending exception.
601     if (sf == nullptr) {
602       DCHECK(self->IsExceptionPending());
603       return false;
604     }
605   }
606 
607   new_shadow_frame->SetVRegReference(0, receiver.Get());
608   new_shadow_frame->SetVRegReference(1, sf.Get());
609 
610   bool use_interpreter_entrypoint = ClassLinker::ShouldUseInterpreterEntrypoint(
611       called_method, called_method->GetEntryPointFromQuickCompiledCode());
612   PerformCall(self,
613               accessor,
614               shadow_frame.GetMethod(),
615               0 /* first destination register */,
616               new_shadow_frame,
617               result,
618               use_interpreter_entrypoint);
619   if (self->IsExceptionPending()) {
620     return false;
621   }
622 
623   // If the called transformer method we called has returned a value, then we
624   // need to copy it back to |result|.
625   sf->GetReturnValue(self, result);
626   return ConvertReturnValue(callsite_type, callee_type, result);
627 }
628 
GetAndInitializeDeclaringClass(Thread * self,ArtField * field)629 inline static ObjPtr<mirror::Class> GetAndInitializeDeclaringClass(Thread* self, ArtField* field)
630     REQUIRES_SHARED(Locks::mutator_lock_) {
631   // Method handle invocations on static fields should ensure class is
632   // initialized. This usually happens when an instance is constructed
633   // or class members referenced, but this is not guaranteed when
634   // looking up method handles.
635   ObjPtr<mirror::Class> klass = field->GetDeclaringClass();
636   if (UNLIKELY(!klass->IsInitialized())) {
637     StackHandleScope<1> hs(self);
638     HandleWrapperObjPtr<mirror::Class> h(hs.NewHandleWrapper(&klass));
639     if (!Runtime::Current()->GetClassLinker()->EnsureInitialized(self, h, true, true)) {
640       DCHECK(self->IsExceptionPending());
641       return nullptr;
642     }
643   }
644   return klass;
645 }
646 
RefineTargetMethod(Thread * self,ShadowFrame & shadow_frame,const mirror::MethodHandle::Kind & handle_kind,Handle<mirror::MethodType> handle_type,Handle<mirror::MethodType> callsite_type,const uint32_t receiver_reg,ArtMethod * target_method)647 ArtMethod* RefineTargetMethod(Thread* self,
648                               ShadowFrame& shadow_frame,
649                               const mirror::MethodHandle::Kind& handle_kind,
650                               Handle<mirror::MethodType> handle_type,
651                               Handle<mirror::MethodType> callsite_type,
652                               const uint32_t receiver_reg,
653                               ArtMethod* target_method)
654     REQUIRES_SHARED(Locks::mutator_lock_) {
655   if (handle_kind == mirror::MethodHandle::Kind::kInvokeVirtual ||
656       handle_kind == mirror::MethodHandle::Kind::kInvokeInterface) {
657     // For virtual and interface methods ensure target_method points to
658     // the actual method to invoke.
659     ObjPtr<mirror::Object> receiver(shadow_frame.GetVRegReference(receiver_reg));
660     if (IsCallerTransformer(callsite_type)) {
661       // The current receiver is an emulated stack frame, the method's
662       // receiver needs to be fetched from there as the emulated frame
663       // will be unpacked into a new frame.
664       receiver = ObjPtr<mirror::EmulatedStackFrame>::DownCast(receiver)->GetReceiver();
665     }
666 
667     ObjPtr<mirror::Class> declaring_class(target_method->GetDeclaringClass());
668     if (receiver == nullptr || receiver->GetClass() != declaring_class) {
669       // Verify that _vRegC is an object reference and of the type expected by
670       // the receiver.
671       if (!VerifyObjectIsClass(receiver, declaring_class)) {
672         DCHECK(self->IsExceptionPending());
673         return nullptr;
674       }
675       return receiver->GetClass()->FindVirtualMethodForVirtualOrInterface(
676           target_method, kRuntimePointerSize);
677     }
678   } else if (handle_kind == mirror::MethodHandle::Kind::kInvokeDirect) {
679     // String constructors are a special case, they are replaced with
680     // StringFactory methods.
681     if (target_method->IsConstructor() && target_method->GetDeclaringClass()->IsStringClass()) {
682       DCHECK(handle_type->GetRType()->IsStringClass());
683       return WellKnownClasses::StringInitToStringFactory(target_method);
684     }
685   } else if (handle_kind == mirror::MethodHandle::Kind::kInvokeSuper) {
686     // Note that we're not dynamically dispatching on the type of the receiver
687     // here. We use the static type of the "receiver" object that we've
688     // recorded in the method handle's type, which will be the same as the
689     // special caller that was specified at the point of lookup.
690     ObjPtr<mirror::Class> referrer_class = handle_type->GetPTypes()->Get(0);
691     ObjPtr<mirror::Class> declaring_class = target_method->GetDeclaringClass();
692     if (referrer_class == declaring_class) {
693       return target_method;
694     }
695     if (declaring_class->IsInterface()) {
696       if (target_method->IsAbstract()) {
697         std::string msg =
698             "Method " + target_method->PrettyMethod() + " is abstract interface method!";
699         ThrowIllegalAccessException(msg.c_str());
700         return nullptr;
701       }
702     } else {
703       ObjPtr<mirror::Class> super_class = referrer_class->GetSuperClass();
704       uint16_t vtable_index = target_method->GetMethodIndex();
705       DCHECK(super_class != nullptr);
706       DCHECK(super_class->HasVTable());
707       // Note that super_class is a super of referrer_class and target_method
708       // will always be declared by super_class (or one of its super classes).
709       DCHECK_LT(vtable_index, super_class->GetVTableLength());
710       return super_class->GetVTableEntry(vtable_index, kRuntimePointerSize);
711     }
712   }
713   return target_method;
714 }
715 
DoInvokePolymorphicMethod(Thread * self,ShadowFrame & shadow_frame,Handle<mirror::MethodHandle> method_handle,Handle<mirror::MethodType> callsite_type,const InstructionOperands * const operands,JValue * result)716 bool DoInvokePolymorphicMethod(Thread* self,
717                                ShadowFrame& shadow_frame,
718                                Handle<mirror::MethodHandle> method_handle,
719                                Handle<mirror::MethodType> callsite_type,
720                                const InstructionOperands* const operands,
721                                JValue* result)
722   REQUIRES_SHARED(Locks::mutator_lock_) {
723   StackHandleScope<2> hs(self);
724   Handle<mirror::MethodType> handle_type(hs.NewHandle(method_handle->GetMethodType()));
725   Handle<mirror::MethodType> nominal_handle_type(hs.NewHandle(method_handle->GetNominalType()));
726   const mirror::MethodHandle::Kind handle_kind = method_handle->GetHandleKind();
727   DCHECK(IsInvoke(handle_kind));
728 
729   // Get the method we're actually invoking along with the kind of
730   // invoke that is desired. We don't need to perform access checks at this
731   // point because they would have been performed on our behalf at the point
732   // of creation of the method handle.
733   ArtMethod* target_method = method_handle->GetTargetMethod();
734   uint32_t receiver_reg = (operands->GetNumberOfOperands() > 0) ? operands->GetOperand(0) : 0u;
735   ArtMethod* called_method = RefineTargetMethod(self,
736                                                 shadow_frame,
737                                                 handle_kind,
738                                                 handle_type,
739                                                 callsite_type,
740                                                 receiver_reg,
741                                                 target_method);
742   if (called_method == nullptr) {
743     DCHECK(self->IsExceptionPending());
744     return false;
745   }
746 
747   if (IsInvokeTransform(handle_kind)) {
748     // There are two cases here - method handles representing regular
749     // transforms and those representing call site transforms. Method
750     // handles for call site transforms adapt their MethodType to match
751     // the call site. For these, the |callee_type| is the same as the
752     // |callsite_type|. The VarargsCollector is such a tranform, its
753     // method type depends on the call site, ie. x(a) or x(a, b), or
754     // x(a, b, c). The VarargsCollector invokes a variable arity method
755     // with the arity arguments in an array.
756     Handle<mirror::MethodType> callee_type =
757         (handle_kind == mirror::MethodHandle::Kind::kInvokeCallSiteTransform) ? callsite_type
758         : handle_type;
759     return MethodHandleInvokeTransform(called_method,
760                                        callsite_type,
761                                        callee_type,
762                                        self,
763                                        shadow_frame,
764                                        /* receiver= */ method_handle,
765                                        operands,
766                                        result);
767   } else {
768     return MethodHandleInvokeMethod(called_method,
769                                     callsite_type,
770                                     handle_type,
771                                     nominal_handle_type,
772                                     self,
773                                     shadow_frame,
774                                     operands,
775                                     result);
776   }
777 }
778 
779 // Helper for getters in invoke-polymorphic.
MethodHandleFieldGet(Thread * self,const ShadowFrame & shadow_frame,ObjPtr<mirror::Object> & obj,ArtField * field,Primitive::Type field_type,JValue * result)780 inline static void MethodHandleFieldGet(Thread* self,
781                                         const ShadowFrame& shadow_frame,
782                                         ObjPtr<mirror::Object>& obj,
783                                         ArtField* field,
784                                         Primitive::Type field_type,
785                                         JValue* result)
786     REQUIRES_SHARED(Locks::mutator_lock_) {
787   switch (field_type) {
788     case Primitive::kPrimBoolean:
789       DoFieldGetCommon<Primitive::kPrimBoolean>(self, shadow_frame, obj, field, result);
790       break;
791     case Primitive::kPrimByte:
792       DoFieldGetCommon<Primitive::kPrimByte>(self, shadow_frame, obj, field, result);
793       break;
794     case Primitive::kPrimChar:
795       DoFieldGetCommon<Primitive::kPrimChar>(self, shadow_frame, obj, field, result);
796       break;
797     case Primitive::kPrimShort:
798       DoFieldGetCommon<Primitive::kPrimShort>(self, shadow_frame, obj, field, result);
799       break;
800     case Primitive::kPrimInt:
801       DoFieldGetCommon<Primitive::kPrimInt>(self, shadow_frame, obj, field, result);
802       break;
803     case Primitive::kPrimLong:
804       DoFieldGetCommon<Primitive::kPrimLong>(self, shadow_frame, obj, field, result);
805       break;
806     case Primitive::kPrimFloat:
807       DoFieldGetCommon<Primitive::kPrimInt>(self, shadow_frame, obj, field, result);
808       break;
809     case Primitive::kPrimDouble:
810       DoFieldGetCommon<Primitive::kPrimLong>(self, shadow_frame, obj, field, result);
811       break;
812     case Primitive::kPrimNot:
813       DoFieldGetCommon<Primitive::kPrimNot>(self, shadow_frame, obj, field, result);
814       break;
815     case Primitive::kPrimVoid:
816       LOG(FATAL) << "Unreachable: " << field_type;
817       UNREACHABLE();
818   }
819 }
820 
821 // Helper for setters in invoke-polymorphic.
MethodHandleFieldPut(Thread * self,ShadowFrame & shadow_frame,ObjPtr<mirror::Object> & obj,ArtField * field,Primitive::Type field_type,JValue & value)822 inline bool MethodHandleFieldPut(Thread* self,
823                                  ShadowFrame& shadow_frame,
824                                  ObjPtr<mirror::Object>& obj,
825                                  ArtField* field,
826                                  Primitive::Type field_type,
827                                  JValue& value)
828     REQUIRES_SHARED(Locks::mutator_lock_) {
829   DCHECK(!Runtime::Current()->IsActiveTransaction());
830   static const bool kTransaction = false;         // Not in a transaction.
831   static const bool kAssignabilityCheck = false;  // No access check.
832   switch (field_type) {
833     case Primitive::kPrimBoolean:
834       return
835           DoFieldPutCommon<Primitive::kPrimBoolean, kAssignabilityCheck, kTransaction>(
836               self, shadow_frame, obj, field, value);
837     case Primitive::kPrimByte:
838       return DoFieldPutCommon<Primitive::kPrimByte, kAssignabilityCheck, kTransaction>(
839           self, shadow_frame, obj, field, value);
840     case Primitive::kPrimChar:
841       return DoFieldPutCommon<Primitive::kPrimChar, kAssignabilityCheck, kTransaction>(
842           self, shadow_frame, obj, field, value);
843     case Primitive::kPrimShort:
844       return DoFieldPutCommon<Primitive::kPrimShort, kAssignabilityCheck, kTransaction>(
845           self, shadow_frame, obj, field, value);
846     case Primitive::kPrimInt:
847     case Primitive::kPrimFloat:
848       return DoFieldPutCommon<Primitive::kPrimInt, kAssignabilityCheck, kTransaction>(
849           self, shadow_frame, obj, field, value);
850     case Primitive::kPrimLong:
851     case Primitive::kPrimDouble:
852       return DoFieldPutCommon<Primitive::kPrimLong, kAssignabilityCheck, kTransaction>(
853           self, shadow_frame, obj, field, value);
854     case Primitive::kPrimNot:
855       return DoFieldPutCommon<Primitive::kPrimNot, kAssignabilityCheck, kTransaction>(
856           self, shadow_frame, obj, field, value);
857     case Primitive::kPrimVoid:
858       LOG(FATAL) << "Unreachable: " << field_type;
859       UNREACHABLE();
860   }
861 }
862 
GetValueFromShadowFrame(const ShadowFrame & shadow_frame,Primitive::Type field_type,uint32_t vreg)863 static JValue GetValueFromShadowFrame(const ShadowFrame& shadow_frame,
864                                       Primitive::Type field_type,
865                                       uint32_t vreg)
866     REQUIRES_SHARED(Locks::mutator_lock_) {
867   JValue field_value;
868   switch (field_type) {
869     case Primitive::kPrimBoolean:
870       field_value.SetZ(static_cast<uint8_t>(shadow_frame.GetVReg(vreg)));
871       break;
872     case Primitive::kPrimByte:
873       field_value.SetB(static_cast<int8_t>(shadow_frame.GetVReg(vreg)));
874       break;
875     case Primitive::kPrimChar:
876       field_value.SetC(static_cast<uint16_t>(shadow_frame.GetVReg(vreg)));
877       break;
878     case Primitive::kPrimShort:
879       field_value.SetS(static_cast<int16_t>(shadow_frame.GetVReg(vreg)));
880       break;
881     case Primitive::kPrimInt:
882     case Primitive::kPrimFloat:
883       field_value.SetI(shadow_frame.GetVReg(vreg));
884       break;
885     case Primitive::kPrimLong:
886     case Primitive::kPrimDouble:
887       field_value.SetJ(shadow_frame.GetVRegLong(vreg));
888       break;
889     case Primitive::kPrimNot:
890       field_value.SetL(shadow_frame.GetVRegReference(vreg));
891       break;
892     case Primitive::kPrimVoid:
893       LOG(FATAL) << "Unreachable: " << field_type;
894       UNREACHABLE();
895   }
896   return field_value;
897 }
898 
899 template <bool do_conversions>
MethodHandleFieldAccess(Thread * self,ShadowFrame & shadow_frame,Handle<mirror::MethodHandle> method_handle,Handle<mirror::MethodType> callsite_type,const InstructionOperands * const operands,JValue * result)900 bool MethodHandleFieldAccess(Thread* self,
901                              ShadowFrame& shadow_frame,
902                              Handle<mirror::MethodHandle> method_handle,
903                              Handle<mirror::MethodType> callsite_type,
904                              const InstructionOperands* const operands,
905                              JValue* result) REQUIRES_SHARED(Locks::mutator_lock_) {
906   StackHandleScope<1> hs(self);
907   Handle<mirror::MethodType> handle_type(hs.NewHandle(method_handle->GetMethodType()));
908   const mirror::MethodHandle::Kind handle_kind = method_handle->GetHandleKind();
909   ArtField* field = method_handle->GetTargetField();
910   Primitive::Type field_type = field->GetTypeAsPrimitiveType();
911   switch (handle_kind) {
912     case mirror::MethodHandle::kInstanceGet: {
913       size_t obj_reg = operands->GetOperand(0);
914       ObjPtr<mirror::Object> obj = shadow_frame.GetVRegReference(obj_reg);
915       MethodHandleFieldGet(self, shadow_frame, obj, field, field_type, result);
916       if (do_conversions && !ConvertReturnValue(callsite_type, handle_type, result)) {
917         DCHECK(self->IsExceptionPending());
918         return false;
919       }
920       return true;
921     }
922     case mirror::MethodHandle::kStaticGet: {
923       ObjPtr<mirror::Object> obj = GetAndInitializeDeclaringClass(self, field);
924       if (obj == nullptr) {
925         DCHECK(self->IsExceptionPending());
926         return false;
927       }
928       MethodHandleFieldGet(self, shadow_frame, obj, field, field_type, result);
929       if (do_conversions && !ConvertReturnValue(callsite_type, handle_type, result)) {
930         DCHECK(self->IsExceptionPending());
931         return false;
932       }
933       return true;
934     }
935     case mirror::MethodHandle::kInstancePut: {
936       size_t obj_reg = operands->GetOperand(0);
937       size_t value_reg = operands->GetOperand(1);
938       const size_t kPTypeIndex = 1;
939       // Use ptypes instead of field type since we may be unboxing a reference for a primitive
940       // field. The field type is incorrect for this case.
941       JValue value = GetValueFromShadowFrame(
942           shadow_frame,
943           callsite_type->GetPTypes()->Get(kPTypeIndex)->GetPrimitiveType(),
944           value_reg);
945       if (do_conversions && !ConvertArgumentValue(callsite_type,
946                                                   handle_type,
947                                                   kPTypeIndex,
948                                                   &value)) {
949         DCHECK(self->IsExceptionPending());
950         return false;
951       }
952       ObjPtr<mirror::Object> obj = shadow_frame.GetVRegReference(obj_reg);
953       return MethodHandleFieldPut(self, shadow_frame, obj, field, field_type, value);
954     }
955     case mirror::MethodHandle::kStaticPut: {
956       ObjPtr<mirror::Object> obj = GetAndInitializeDeclaringClass(self, field);
957       if (obj == nullptr) {
958         DCHECK(self->IsExceptionPending());
959         return false;
960       }
961       size_t value_reg = operands->GetOperand(0);
962       const size_t kPTypeIndex = 0;
963       // Use ptypes instead of field type since we may be unboxing a reference for a primitive
964       // field. The field type is incorrect for this case.
965       JValue value = GetValueFromShadowFrame(
966           shadow_frame,
967           callsite_type->GetPTypes()->Get(kPTypeIndex)->GetPrimitiveType(),
968           value_reg);
969       if (do_conversions && !ConvertArgumentValue(callsite_type,
970                                                   handle_type,
971                                                   kPTypeIndex,
972                                                   &value)) {
973         DCHECK(self->IsExceptionPending());
974         return false;
975       }
976       return MethodHandleFieldPut(self, shadow_frame, obj, field, field_type, value);
977     }
978     default:
979       LOG(FATAL) << "Unreachable: " << handle_kind;
980       UNREACHABLE();
981   }
982 }
983 
DoVarHandleInvokeTranslationUnchecked(Thread * self,ShadowFrame & shadow_frame,mirror::VarHandle::AccessMode access_mode,Handle<mirror::VarHandle> vh,Handle<mirror::MethodType> vh_type,Handle<mirror::MethodType> callsite_type,const InstructionOperands * const operands,JValue * result)984 bool DoVarHandleInvokeTranslationUnchecked(Thread* self,
985                                            ShadowFrame& shadow_frame,
986                                            mirror::VarHandle::AccessMode access_mode,
987                                            Handle<mirror::VarHandle> vh,
988                                            Handle<mirror::MethodType> vh_type,
989                                            Handle<mirror::MethodType> callsite_type,
990                                            const InstructionOperands* const operands,
991                                            JValue* result)
992     REQUIRES_SHARED(Locks::mutator_lock_) {
993   DCHECK_EQ(operands->GetNumberOfOperands(), static_cast<uint32_t>(vh_type->GetNumberOfPTypes()));
994   DCHECK_EQ(operands->GetNumberOfOperands(),
995             static_cast<uint32_t>(callsite_type->GetNumberOfPTypes()));
996   const size_t vreg_count = vh_type->NumberOfVRegs();
997   ShadowFrameAllocaUniquePtr accessor_frame =
998       CREATE_SHADOW_FRAME(vreg_count, nullptr, shadow_frame.GetMethod(), shadow_frame.GetDexPC());
999   ShadowFrameGetter getter(shadow_frame, operands);
1000   static const uint32_t kFirstAccessorReg = 0;
1001   ShadowFrameSetter setter(accessor_frame.get(), kFirstAccessorReg);
1002   if (!PerformConversions(self, callsite_type, vh_type, &getter, &setter)) {
1003     return false;
1004   }
1005   RangeInstructionOperands accessor_operands(kFirstAccessorReg, kFirstAccessorReg + vreg_count);
1006   if (!vh->Access(access_mode, accessor_frame.get(), &accessor_operands, result)) {
1007     return false;
1008   }
1009   return ConvertReturnValue(callsite_type, vh_type, result);
1010 }
1011 
DoVarHandleInvokeTranslation(Thread * self,ShadowFrame & shadow_frame,bool invokeExact,Handle<mirror::MethodHandle> method_handle,Handle<mirror::MethodType> callsite_type,const InstructionOperands * const operands,JValue * result)1012 bool DoVarHandleInvokeTranslation(Thread* self,
1013                                   ShadowFrame& shadow_frame,
1014                                   bool invokeExact,
1015                                   Handle<mirror::MethodHandle> method_handle,
1016                                   Handle<mirror::MethodType> callsite_type,
1017                                   const InstructionOperands* const operands,
1018                                   JValue* result)
1019     REQUIRES_SHARED(Locks::mutator_lock_) {
1020   if (!invokeExact) {
1021     // Exact invokes are checked for compatability higher up. The
1022     // non-exact invoke path doesn't have a similar check due to
1023     // transformers which have EmulatedStack frame arguments with the
1024     // actual method type associated with the frame.
1025     if (UNLIKELY(!callsite_type->IsConvertible(method_handle->GetMethodType()))) {
1026       ThrowWrongMethodTypeException(method_handle->GetMethodType(), callsite_type.Get());
1027       return false;
1028     }
1029   }
1030 
1031   //
1032   // Basic checks that apply in all cases.
1033   //
1034   StackHandleScope<6> hs(self);
1035   Handle<mirror::ObjectArray<mirror::Class>>
1036       callsite_ptypes(hs.NewHandle(callsite_type->GetPTypes()));
1037   Handle<mirror::ObjectArray<mirror::Class>>
1038          mh_ptypes(hs.NewHandle(method_handle->GetMethodType()->GetPTypes()));
1039 
1040   // Check that the first parameter is a VarHandle
1041   if (callsite_ptypes->GetLength() < 1 ||
1042       !mh_ptypes->Get(0)->IsAssignableFrom(callsite_ptypes->Get(0)) ||
1043       mh_ptypes->Get(0) != GetClassRoot<mirror::VarHandle>()) {
1044     ThrowWrongMethodTypeException(method_handle->GetMethodType(), callsite_type.Get());
1045     return false;
1046   }
1047 
1048   // Get the receiver
1049   ObjPtr<mirror::Object> receiver = shadow_frame.GetVRegReference(operands->GetOperand(0));
1050   if (receiver == nullptr) {
1051     ThrowNullPointerException("Expected argument 1 to be a non-null VarHandle");
1052     return false;
1053   }
1054 
1055   // Cast to VarHandle instance
1056   Handle<mirror::VarHandle> vh(hs.NewHandle(ObjPtr<mirror::VarHandle>::DownCast(receiver)));
1057   DCHECK(GetClassRoot<mirror::VarHandle>()->IsAssignableFrom(vh->GetClass()));
1058 
1059   // Determine the accessor kind to dispatch
1060   ArtMethod* target_method = method_handle->GetTargetMethod();
1061   int intrinsic_index = target_method->GetIntrinsic();
1062   mirror::VarHandle::AccessMode access_mode =
1063       mirror::VarHandle::GetAccessModeByIntrinsic(static_cast<Intrinsics>(intrinsic_index));
1064   Handle<mirror::MethodType> vh_type =
1065       hs.NewHandle(vh->GetMethodTypeForAccessMode(self, access_mode));
1066   Handle<mirror::MethodType> mh_invoke_type = hs.NewHandle(
1067       mirror::MethodType::CloneWithoutLeadingParameter(self, method_handle->GetMethodType()));
1068   if (method_handle->GetHandleKind() == mirror::MethodHandle::Kind::kInvokeVarHandleExact) {
1069     if (!mh_invoke_type->IsExactMatch(vh_type.Get())) {
1070       ThrowWrongMethodTypeException(vh_type.Get(), mh_invoke_type.Get());
1071       return false;
1072     }
1073   } else {
1074     DCHECK_EQ(method_handle->GetHandleKind(), mirror::MethodHandle::Kind::kInvokeVarHandle);
1075     if (!mh_invoke_type->IsConvertible(vh_type.Get())) {
1076       ThrowWrongMethodTypeException(vh_type.Get(), mh_invoke_type.Get());
1077       return false;
1078     }
1079   }
1080 
1081   Handle<mirror::MethodType> callsite_type_without_varhandle =
1082       hs.NewHandle(mirror::MethodType::CloneWithoutLeadingParameter(self, callsite_type.Get()));
1083   NoReceiverInstructionOperands varhandle_operands(operands);
1084   DCHECK_EQ(static_cast<int32_t>(varhandle_operands.GetNumberOfOperands()),
1085             callsite_type_without_varhandle->GetPTypes()->GetLength());
1086   return DoVarHandleInvokeTranslationUnchecked(self,
1087                                                shadow_frame,
1088                                                access_mode,
1089                                                vh,
1090                                                vh_type,
1091                                                callsite_type_without_varhandle,
1092                                                &varhandle_operands,
1093                                                result);
1094 }
1095 
MethodHandleInvokeInternal(Thread * self,ShadowFrame & shadow_frame,Handle<mirror::MethodHandle> method_handle,Handle<mirror::MethodType> callsite_type,const InstructionOperands * const operands,JValue * result)1096 static inline bool MethodHandleInvokeInternal(Thread* self,
1097                                               ShadowFrame& shadow_frame,
1098                                               Handle<mirror::MethodHandle> method_handle,
1099                                               Handle<mirror::MethodType> callsite_type,
1100                                               const InstructionOperands* const operands,
1101                                               JValue* result)
1102     REQUIRES_SHARED(Locks::mutator_lock_) {
1103   const mirror::MethodHandle::Kind handle_kind = method_handle->GetHandleKind();
1104   if (IsFieldAccess(handle_kind)) {
1105     ObjPtr<mirror::MethodType> handle_type(method_handle->GetMethodType());
1106     DCHECK(!callsite_type->IsExactMatch(handle_type.Ptr()));
1107     if (!callsite_type->IsConvertible(handle_type.Ptr())) {
1108       ThrowWrongMethodTypeException(handle_type.Ptr(), callsite_type.Get());
1109       return false;
1110     }
1111     const bool do_convert = true;
1112     return MethodHandleFieldAccess<do_convert>(
1113         self,
1114         shadow_frame,
1115         method_handle,
1116         callsite_type,
1117         operands,
1118         result);
1119   }
1120   if (IsInvokeVarHandle(handle_kind)) {
1121     return DoVarHandleInvokeTranslation(self,
1122                                         shadow_frame,
1123                                         /*invokeExact=*/ false,
1124                                         method_handle,
1125                                         callsite_type,
1126                                         operands,
1127                                         result);
1128   }
1129   return DoInvokePolymorphicMethod(self,
1130                                    shadow_frame,
1131                                    method_handle,
1132                                    callsite_type,
1133                                    operands,
1134                                    result);
1135 }
1136 
MethodHandleInvokeExactInternal(Thread * self,ShadowFrame & shadow_frame,Handle<mirror::MethodHandle> method_handle,Handle<mirror::MethodType> callsite_type,const InstructionOperands * const operands,JValue * result)1137 static inline bool MethodHandleInvokeExactInternal(
1138     Thread* self,
1139     ShadowFrame& shadow_frame,
1140     Handle<mirror::MethodHandle> method_handle,
1141     Handle<mirror::MethodType> callsite_type,
1142     const InstructionOperands* const operands,
1143     JValue* result)
1144     REQUIRES_SHARED(Locks::mutator_lock_) {
1145   StackHandleScope<1> hs(self);
1146   Handle<mirror::MethodType> method_handle_type(hs.NewHandle(method_handle->GetMethodType()));
1147   if (!callsite_type->IsExactMatch(method_handle_type.Get())) {
1148     ThrowWrongMethodTypeException(method_handle_type.Get(), callsite_type.Get());
1149     return false;
1150   }
1151 
1152   const mirror::MethodHandle::Kind handle_kind = method_handle->GetHandleKind();
1153   if (IsFieldAccess(handle_kind)) {
1154     const bool do_convert = false;
1155     return MethodHandleFieldAccess<do_convert>(self,
1156                                                shadow_frame,
1157                                                method_handle,
1158                                                callsite_type,
1159                                                operands,
1160                                                result);
1161   }
1162 
1163   // Slow-path check.
1164   if (IsInvokeTransform(handle_kind) ||
1165       IsCallerTransformer(callsite_type)) {
1166     return DoInvokePolymorphicMethod(self,
1167                                      shadow_frame,
1168                                      method_handle,
1169                                      callsite_type,
1170                                      operands,
1171                                      result);
1172   } else if (IsInvokeVarHandle(handle_kind)) {
1173     return DoVarHandleInvokeTranslation(self,
1174                                         shadow_frame,
1175                                         /*invokeExact=*/ true,
1176                                         method_handle,
1177                                         callsite_type,
1178                                         operands,
1179                                         result);
1180   }
1181 
1182   // On the fast-path. This is equivalent to DoCallPolymoprhic without the conversion paths.
1183   ArtMethod* target_method = method_handle->GetTargetMethod();
1184   uint32_t receiver_reg = (operands->GetNumberOfOperands() > 0) ? operands->GetOperand(0) : 0u;
1185   ArtMethod* called_method = RefineTargetMethod(self,
1186                                                 shadow_frame,
1187                                                 handle_kind,
1188                                                 method_handle_type,
1189                                                 callsite_type,
1190                                                 receiver_reg,
1191                                                 target_method);
1192   if (called_method == nullptr) {
1193     DCHECK(self->IsExceptionPending());
1194     return false;
1195   }
1196 
1197   // Compute method information.
1198   CodeItemDataAccessor accessor(called_method->DexInstructionData());
1199   uint16_t num_regs;
1200   size_t num_input_regs;
1201   size_t first_dest_reg;
1202   if (LIKELY(accessor.HasCodeItem())) {
1203     num_regs = accessor.RegistersSize();
1204     first_dest_reg = num_regs - accessor.InsSize();
1205     num_input_regs = accessor.InsSize();
1206     // Parameter registers go at the end of the shadow frame.
1207     DCHECK_NE(first_dest_reg, (size_t)-1);
1208   } else {
1209     // No local regs for proxy and native methods.
1210     DCHECK(called_method->IsNative() || called_method->IsProxyMethod());
1211     num_regs = num_input_regs = GetInsForProxyOrNativeMethod(called_method);
1212     first_dest_reg = 0;
1213   }
1214 
1215   // Allocate shadow frame on the stack.
1216   const char* old_cause = self->StartAssertNoThreadSuspension("DoCallCommon");
1217   ShadowFrameAllocaUniquePtr shadow_frame_unique_ptr =
1218       CREATE_SHADOW_FRAME(num_regs, &shadow_frame, called_method, /* dex pc */ 0);
1219   ShadowFrame* new_shadow_frame = shadow_frame_unique_ptr.get();
1220   CopyArgumentsFromCallerFrame(shadow_frame,
1221                                new_shadow_frame,
1222                                operands,
1223                                first_dest_reg);
1224   self->EndAssertNoThreadSuspension(old_cause);
1225 
1226   bool use_interpreter_entrypoint = ClassLinker::ShouldUseInterpreterEntrypoint(
1227       called_method, called_method->GetEntryPointFromQuickCompiledCode());
1228   PerformCall(self,
1229               accessor,
1230               shadow_frame.GetMethod(),
1231               first_dest_reg,
1232               new_shadow_frame,
1233               result,
1234               use_interpreter_entrypoint);
1235   if (self->IsExceptionPending()) {
1236     return false;
1237   }
1238   return true;
1239 }
1240 
1241 }  // namespace
1242 
MethodHandleInvoke(Thread * self,ShadowFrame & shadow_frame,Handle<mirror::MethodHandle> method_handle,Handle<mirror::MethodType> callsite_type,const InstructionOperands * const operands,JValue * result)1243 bool MethodHandleInvoke(Thread* self,
1244                        ShadowFrame& shadow_frame,
1245                        Handle<mirror::MethodHandle> method_handle,
1246                        Handle<mirror::MethodType> callsite_type,
1247                        const InstructionOperands* const operands,
1248                        JValue* result)
1249     REQUIRES_SHARED(Locks::mutator_lock_) {
1250   if (UNLIKELY(callsite_type->IsExactMatch(method_handle->GetMethodType()))) {
1251     // A non-exact invoke that can be invoked exactly.
1252     return MethodHandleInvokeExactInternal(self,
1253                                            shadow_frame,
1254                                            method_handle,
1255                                            callsite_type,
1256                                            operands,
1257                                            result);
1258   } else {
1259     return MethodHandleInvokeInternal(self,
1260                                       shadow_frame,
1261                                       method_handle,
1262                                       callsite_type,
1263                                       operands,
1264                                       result);
1265   }
1266 }
1267 
MethodHandleInvokeExact(Thread * self,ShadowFrame & shadow_frame,Handle<mirror::MethodHandle> method_handle,Handle<mirror::MethodType> callsite_type,const InstructionOperands * const operands,JValue * result)1268 bool MethodHandleInvokeExact(Thread* self,
1269                              ShadowFrame& shadow_frame,
1270                              Handle<mirror::MethodHandle> method_handle,
1271                              Handle<mirror::MethodType> callsite_type,
1272                              const InstructionOperands* const operands,
1273                              JValue* result)
1274     REQUIRES_SHARED(Locks::mutator_lock_) {
1275   // We need to check the nominal type of the handle in addition to the
1276   // real type. The "nominal" type is present when MethodHandle.asType is
1277   // called any handle, and results in the declared type of the handle
1278   // changing.
1279   ObjPtr<mirror::MethodType> nominal_type(method_handle->GetNominalType());
1280   if (UNLIKELY(nominal_type != nullptr)) {
1281     if (UNLIKELY(!callsite_type->IsExactMatch(nominal_type.Ptr()))) {
1282       ThrowWrongMethodTypeException(nominal_type.Ptr(), callsite_type.Get());
1283       return false;
1284     }
1285     if (LIKELY(!nominal_type->IsExactMatch(method_handle->GetMethodType()))) {
1286       // Different nominal type means we have to treat as non-exact.
1287       return MethodHandleInvokeInternal(self,
1288                                         shadow_frame,
1289                                         method_handle,
1290                                         callsite_type,
1291                                         operands,
1292                                         result);
1293     }
1294   }
1295   return MethodHandleInvokeExactInternal(self,
1296                                          shadow_frame,
1297                                          method_handle,
1298                                          callsite_type,
1299                                          operands,
1300                                          result);
1301 }
1302 
1303 }  // namespace art
1304