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/*
 * Copyright (C) 2011 The Android Open Source Project
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

#include "art_method.h"

#include "arch/context.h"
#include "art_field-inl.h"
#include "art_method-inl.h"
#include "base/stringpiece.h"
#include "dex_file-inl.h"
#include "dex_instruction.h"
#include "entrypoints/entrypoint_utils.h"
#include "entrypoints/runtime_asm_entrypoints.h"
#include "gc/accounting/card_table-inl.h"
#include "interpreter/interpreter.h"
#include "jit/jit.h"
#include "jit/jit_code_cache.h"
#include "jni_internal.h"
#include "mapping_table.h"
#include "mirror/abstract_method.h"
#include "mirror/class-inl.h"
#include "mirror/object_array-inl.h"
#include "mirror/object-inl.h"
#include "mirror/string.h"
#include "scoped_thread_state_change.h"
#include "well_known_classes.h"

namespace art {

extern "C" void art_quick_invoke_stub(ArtMethod*, uint32_t*, uint32_t, Thread*, JValue*,
                                      const char*);
#if defined(__LP64__) || defined(__arm__) || defined(__i386__)
extern "C" void art_quick_invoke_static_stub(ArtMethod*, uint32_t*, uint32_t, Thread*, JValue*,
                                             const char*);
#endif

ArtMethod* ArtMethod::FromReflectedMethod(const ScopedObjectAccessAlreadyRunnable& soa,
                                          jobject jlr_method) {
  auto* abstract_method = soa.Decode<mirror::AbstractMethod*>(jlr_method);
  DCHECK(abstract_method != nullptr);
  return abstract_method->GetArtMethod();
}

mirror::String* ArtMethod::GetNameAsString(Thread* self) {
  CHECK(!IsProxyMethod());
  StackHandleScope<1> hs(self);
  Handle<mirror::DexCache> dex_cache(hs.NewHandle(GetDexCache()));
  auto* dex_file = dex_cache->GetDexFile();
  uint32_t dex_method_idx = GetDexMethodIndex();
  const DexFile::MethodId& method_id = dex_file->GetMethodId(dex_method_idx);
  return Runtime::Current()->GetClassLinker()->ResolveString(*dex_file, method_id.name_idx_,
                                                             dex_cache);
}

InvokeType ArtMethod::GetInvokeType() {
  // TODO: kSuper?
  if (GetDeclaringClass()->IsInterface()) {
    return kInterface;
  } else if (IsStatic()) {
    return kStatic;
  } else if (IsDirect()) {
    return kDirect;
  } else {
    return kVirtual;
  }
}

size_t ArtMethod::NumArgRegisters(const StringPiece& shorty) {
  CHECK_LE(1U, shorty.length());
  uint32_t num_registers = 0;
  for (size_t i = 1; i < shorty.length(); ++i) {
    char ch = shorty[i];
    if (ch == 'D' || ch == 'J') {
      num_registers += 2;
    } else {
      num_registers += 1;
    }
  }
  return num_registers;
}

static bool HasSameNameAndSignature(ArtMethod* method1, ArtMethod* method2)
    SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
  ScopedAssertNoThreadSuspension ants(Thread::Current(), "HasSameNameAndSignature");
  const DexFile* dex_file = method1->GetDexFile();
  const DexFile::MethodId& mid = dex_file->GetMethodId(method1->GetDexMethodIndex());
  if (method1->GetDexCache() == method2->GetDexCache()) {
    const DexFile::MethodId& mid2 = dex_file->GetMethodId(method2->GetDexMethodIndex());
    return mid.name_idx_ == mid2.name_idx_ && mid.proto_idx_ == mid2.proto_idx_;
  }
  const DexFile* dex_file2 = method2->GetDexFile();
  const DexFile::MethodId& mid2 = dex_file2->GetMethodId(method2->GetDexMethodIndex());
  if (!DexFileStringEquals(dex_file, mid.name_idx_, dex_file2, mid2.name_idx_)) {
    return false;  // Name mismatch.
  }
  return dex_file->GetMethodSignature(mid) == dex_file2->GetMethodSignature(mid2);
}

ArtMethod* ArtMethod::FindOverriddenMethod(size_t pointer_size) {
  if (IsStatic()) {
    return nullptr;
  }
  mirror::Class* declaring_class = GetDeclaringClass();
  mirror::Class* super_class = declaring_class->GetSuperClass();
  uint16_t method_index = GetMethodIndex();
  ArtMethod* result = nullptr;
  // Did this method override a super class method? If so load the result from the super class'
  // vtable
  if (super_class->HasVTable() && method_index < super_class->GetVTableLength()) {
    result = super_class->GetVTableEntry(method_index, pointer_size);
  } else {
    // Method didn't override superclass method so search interfaces
    if (IsProxyMethod()) {
      result = GetDexCacheResolvedMethods()->GetElementPtrSize<ArtMethod*>(
          GetDexMethodIndex(), pointer_size);
      CHECK_EQ(result,
               Runtime::Current()->GetClassLinker()->FindMethodForProxy(GetDeclaringClass(), this));
    } else {
      mirror::IfTable* iftable = GetDeclaringClass()->GetIfTable();
      for (size_t i = 0; i < iftable->Count() && result == nullptr; i++) {
        mirror::Class* interface = iftable->GetInterface(i);
        for (size_t j = 0; j < interface->NumVirtualMethods(); ++j) {
          ArtMethod* interface_method = interface->GetVirtualMethod(j, pointer_size);
          if (HasSameNameAndSignature(
              this, interface_method->GetInterfaceMethodIfProxy(sizeof(void*)))) {
            result = interface_method;
            break;
          }
        }
      }
    }
  }
  DCHECK(result == nullptr || HasSameNameAndSignature(
      GetInterfaceMethodIfProxy(sizeof(void*)), result->GetInterfaceMethodIfProxy(sizeof(void*))));
  return result;
}

uint32_t ArtMethod::FindDexMethodIndexInOtherDexFile(const DexFile& other_dexfile,
                                                     uint32_t name_and_signature_idx) {
  const DexFile* dexfile = GetDexFile();
  const uint32_t dex_method_idx = GetDexMethodIndex();
  const DexFile::MethodId& mid = dexfile->GetMethodId(dex_method_idx);
  const DexFile::MethodId& name_and_sig_mid = other_dexfile.GetMethodId(name_and_signature_idx);
  DCHECK_STREQ(dexfile->GetMethodName(mid), other_dexfile.GetMethodName(name_and_sig_mid));
  DCHECK_EQ(dexfile->GetMethodSignature(mid), other_dexfile.GetMethodSignature(name_and_sig_mid));
  if (dexfile == &other_dexfile) {
    return dex_method_idx;
  }
  const char* mid_declaring_class_descriptor = dexfile->StringByTypeIdx(mid.class_idx_);
  const DexFile::StringId* other_descriptor =
      other_dexfile.FindStringId(mid_declaring_class_descriptor);
  if (other_descriptor != nullptr) {
    const DexFile::TypeId* other_type_id =
        other_dexfile.FindTypeId(other_dexfile.GetIndexForStringId(*other_descriptor));
    if (other_type_id != nullptr) {
      const DexFile::MethodId* other_mid = other_dexfile.FindMethodId(
          *other_type_id, other_dexfile.GetStringId(name_and_sig_mid.name_idx_),
          other_dexfile.GetProtoId(name_and_sig_mid.proto_idx_));
      if (other_mid != nullptr) {
        return other_dexfile.GetIndexForMethodId(*other_mid);
      }
    }
  }
  return DexFile::kDexNoIndex;
}

uint32_t ArtMethod::ToDexPc(const uintptr_t pc, bool abort_on_failure) {
  const void* entry_point = GetQuickOatEntryPoint(sizeof(void*));
  uint32_t sought_offset = pc - reinterpret_cast<uintptr_t>(entry_point);
  if (IsOptimized(sizeof(void*))) {
    CodeInfo code_info = GetOptimizedCodeInfo();
    return code_info.GetStackMapForNativePcOffset(sought_offset).GetDexPc(code_info);
  }

  MappingTable table(entry_point != nullptr ?
      GetMappingTable(EntryPointToCodePointer(entry_point), sizeof(void*)) : nullptr);
  if (table.TotalSize() == 0) {
    // NOTE: Special methods (see Mir2Lir::GenSpecialCase()) have an empty mapping
    // but they have no suspend checks and, consequently, we never call ToDexPc() for them.
    DCHECK(IsNative() || IsCalleeSaveMethod() || IsProxyMethod()) << PrettyMethod(this);
    return DexFile::kDexNoIndex;   // Special no mapping case
  }
  // Assume the caller wants a pc-to-dex mapping so check here first.
  typedef MappingTable::PcToDexIterator It;
  for (It cur = table.PcToDexBegin(), end = table.PcToDexEnd(); cur != end; ++cur) {
    if (cur.NativePcOffset() == sought_offset) {
      return cur.DexPc();
    }
  }
  // Now check dex-to-pc mappings.
  typedef MappingTable::DexToPcIterator It2;
  for (It2 cur = table.DexToPcBegin(), end = table.DexToPcEnd(); cur != end; ++cur) {
    if (cur.NativePcOffset() == sought_offset) {
      return cur.DexPc();
    }
  }
  if (abort_on_failure) {
      LOG(FATAL) << "Failed to find Dex offset for PC offset " << reinterpret_cast<void*>(sought_offset)
             << "(PC " << reinterpret_cast<void*>(pc) << ", entry_point=" << entry_point
             << " current entry_point=" << GetQuickOatEntryPoint(sizeof(void*))
             << ") in " << PrettyMethod(this);
  }
  return DexFile::kDexNoIndex;
}

uintptr_t ArtMethod::ToNativeQuickPc(const uint32_t dex_pc, bool abort_on_failure) {
  const void* entry_point = GetQuickOatEntryPoint(sizeof(void*));
  MappingTable table(entry_point != nullptr ?
      GetMappingTable(EntryPointToCodePointer(entry_point), sizeof(void*)) : nullptr);
  if (table.TotalSize() == 0) {
    DCHECK_EQ(dex_pc, 0U);
    return 0;   // Special no mapping/pc == 0 case
  }
  // Assume the caller wants a dex-to-pc mapping so check here first.
  typedef MappingTable::DexToPcIterator It;
  for (It cur = table.DexToPcBegin(), end = table.DexToPcEnd(); cur != end; ++cur) {
    if (cur.DexPc() == dex_pc) {
      return reinterpret_cast<uintptr_t>(entry_point) + cur.NativePcOffset();
    }
  }
  // Now check pc-to-dex mappings.
  typedef MappingTable::PcToDexIterator It2;
  for (It2 cur = table.PcToDexBegin(), end = table.PcToDexEnd(); cur != end; ++cur) {
    if (cur.DexPc() == dex_pc) {
      return reinterpret_cast<uintptr_t>(entry_point) + cur.NativePcOffset();
    }
  }
  if (abort_on_failure) {
    LOG(FATAL) << "Failed to find native offset for dex pc 0x" << std::hex << dex_pc
               << " in " << PrettyMethod(this);
  }
  return UINTPTR_MAX;
}

uint32_t ArtMethod::FindCatchBlock(Handle<mirror::Class> exception_type,
                                   uint32_t dex_pc, bool* has_no_move_exception) {
  const DexFile::CodeItem* code_item = GetCodeItem();
  // Set aside the exception while we resolve its type.
  Thread* self = Thread::Current();
  StackHandleScope<1> hs(self);
  Handle<mirror::Throwable> exception(hs.NewHandle(self->GetException()));
  self->ClearException();
  // Default to handler not found.
  uint32_t found_dex_pc = DexFile::kDexNoIndex;
  // Iterate over the catch handlers associated with dex_pc.
  for (CatchHandlerIterator it(*code_item, dex_pc); it.HasNext(); it.Next()) {
    uint16_t iter_type_idx = it.GetHandlerTypeIndex();
    // Catch all case
    if (iter_type_idx == DexFile::kDexNoIndex16) {
      found_dex_pc = it.GetHandlerAddress();
      break;
    }
    // Does this catch exception type apply?
    mirror::Class* iter_exception_type = GetClassFromTypeIndex(iter_type_idx, true);
    if (UNLIKELY(iter_exception_type == nullptr)) {
      // Now have a NoClassDefFoundError as exception. Ignore in case the exception class was
      // removed by a pro-guard like tool.
      // Note: this is not RI behavior. RI would have failed when loading the class.
      self->ClearException();
      // Delete any long jump context as this routine is called during a stack walk which will
      // release its in use context at the end.
      delete self->GetLongJumpContext();
      LOG(WARNING) << "Unresolved exception class when finding catch block: "
        << DescriptorToDot(GetTypeDescriptorFromTypeIdx(iter_type_idx));
    } else if (iter_exception_type->IsAssignableFrom(exception_type.Get())) {
      found_dex_pc = it.GetHandlerAddress();
      break;
    }
  }
  if (found_dex_pc != DexFile::kDexNoIndex) {
    const Instruction* first_catch_instr =
        Instruction::At(&code_item->insns_[found_dex_pc]);
    *has_no_move_exception = (first_catch_instr->Opcode() != Instruction::MOVE_EXCEPTION);
  }
  // Put the exception back.
  if (exception.Get() != nullptr) {
    self->SetException(exception.Get());
  }
  return found_dex_pc;
}

void ArtMethod::AssertPcIsWithinQuickCode(uintptr_t pc) {
  if (IsNative() || IsRuntimeMethod() || IsProxyMethod()) {
    return;
  }
  if (pc == reinterpret_cast<uintptr_t>(GetQuickInstrumentationExitPc())) {
    return;
  }
  const void* code = GetEntryPointFromQuickCompiledCode();
  if (code == GetQuickInstrumentationEntryPoint()) {
    return;
  }
  ClassLinker* class_linker = Runtime::Current()->GetClassLinker();
  if (class_linker->IsQuickToInterpreterBridge(code) ||
      class_linker->IsQuickResolutionStub(code)) {
    return;
  }
  // If we are the JIT then we may have just compiled the method after the
  // IsQuickToInterpreterBridge check.
  jit::Jit* const jit = Runtime::Current()->GetJit();
  if (jit != nullptr &&
      jit->GetCodeCache()->ContainsCodePtr(reinterpret_cast<const void*>(code))) {
    return;
  }
  /*
   * During a stack walk, a return PC may point past-the-end of the code
   * in the case that the last instruction is a call that isn't expected to
   * return.  Thus, we check <= code + GetCodeSize().
   *
   * NOTE: For Thumb both pc and code are offset by 1 indicating the Thumb state.
   */
  CHECK(PcIsWithinQuickCode(reinterpret_cast<uintptr_t>(code), pc))
      << PrettyMethod(this)
      << " pc=" << std::hex << pc
      << " code=" << code
      << " size=" << GetCodeSize(
          EntryPointToCodePointer(reinterpret_cast<const void*>(code)));
}

bool ArtMethod::IsEntrypointInterpreter() {
  ClassLinker* class_linker = Runtime::Current()->GetClassLinker();
  const void* oat_quick_code = class_linker->GetOatMethodQuickCodeFor(this);
  return oat_quick_code == nullptr || oat_quick_code != GetEntryPointFromQuickCompiledCode();
}

const void* ArtMethod::GetQuickOatEntryPoint(size_t pointer_size) {
  if (IsAbstract() || IsRuntimeMethod() || IsProxyMethod()) {
    return nullptr;
  }
  Runtime* runtime = Runtime::Current();
  ClassLinker* class_linker = runtime->GetClassLinker();
  const void* code = runtime->GetInstrumentation()->GetQuickCodeFor(this, pointer_size);
  // On failure, instead of null we get the quick-generic-jni-trampoline for native method
  // indicating the generic JNI, or the quick-to-interpreter-bridge (but not the trampoline)
  // for non-native methods.
  if (class_linker->IsQuickToInterpreterBridge(code) ||
      class_linker->IsQuickGenericJniStub(code)) {
    return nullptr;
  }
  return code;
}

#ifndef NDEBUG
uintptr_t ArtMethod::NativeQuickPcOffset(const uintptr_t pc, const void* quick_entry_point) {
  CHECK_NE(quick_entry_point, GetQuickToInterpreterBridge());
  CHECK_EQ(quick_entry_point,
           Runtime::Current()->GetInstrumentation()->GetQuickCodeFor(this, sizeof(void*)));
  return pc - reinterpret_cast<uintptr_t>(quick_entry_point);
}
#endif

void ArtMethod::Invoke(Thread* self, uint32_t* args, uint32_t args_size, JValue* result,
                       const char* shorty) {
  if (UNLIKELY(__builtin_frame_address(0) < self->GetStackEnd())) {
    ThrowStackOverflowError(self);
    return;
  }

  if (kIsDebugBuild) {
    self->AssertThreadSuspensionIsAllowable();
    CHECK_EQ(kRunnable, self->GetState());
    CHECK_STREQ(GetInterfaceMethodIfProxy(sizeof(void*))->GetShorty(), shorty);
  }

  // Push a transition back into managed code onto the linked list in thread.
  ManagedStack fragment;
  self->PushManagedStackFragment(&fragment);

  Runtime* runtime = Runtime::Current();
  // Call the invoke stub, passing everything as arguments.
  // If the runtime is not yet started or it is required by the debugger, then perform the
  // Invocation by the interpreter.
  if (UNLIKELY(!runtime->IsStarted() || Dbg::IsForcedInterpreterNeededForCalling(self, this))) {
    if (IsStatic()) {
      art::interpreter::EnterInterpreterFromInvoke(self, this, nullptr, args, result);
    } else {
      mirror::Object* receiver =
          reinterpret_cast<StackReference<mirror::Object>*>(&args[0])->AsMirrorPtr();
      art::interpreter::EnterInterpreterFromInvoke(self, this, receiver, args + 1, result);
    }
  } else {
    DCHECK_EQ(runtime->GetClassLinker()->GetImagePointerSize(), sizeof(void*));

    constexpr bool kLogInvocationStartAndReturn = false;
    bool have_quick_code = GetEntryPointFromQuickCompiledCode() != nullptr;
    if (LIKELY(have_quick_code)) {
      if (kLogInvocationStartAndReturn) {
        LOG(INFO) << StringPrintf(
            "Invoking '%s' quick code=%p static=%d", PrettyMethod(this).c_str(),
            GetEntryPointFromQuickCompiledCode(), static_cast<int>(IsStatic() ? 1 : 0));
      }

      // Ensure that we won't be accidentally calling quick compiled code when -Xint.
      if (kIsDebugBuild && runtime->GetInstrumentation()->IsForcedInterpretOnly()) {
        DCHECK(!runtime->UseJit());
        CHECK(IsEntrypointInterpreter())
            << "Don't call compiled code when -Xint " << PrettyMethod(this);
      }

#if defined(__LP64__) || defined(__arm__) || defined(__i386__)
      if (!IsStatic()) {
        (*art_quick_invoke_stub)(this, args, args_size, self, result, shorty);
      } else {
        (*art_quick_invoke_static_stub)(this, args, args_size, self, result, shorty);
      }
#else
      (*art_quick_invoke_stub)(this, args, args_size, self, result, shorty);
#endif
      if (UNLIKELY(self->GetException() == Thread::GetDeoptimizationException())) {
        // Unusual case where we were running generated code and an
        // exception was thrown to force the activations to be removed from the
        // stack. Continue execution in the interpreter.
        self->ClearException();
        ShadowFrame* shadow_frame = self->GetAndClearDeoptimizationShadowFrame(result);
        self->SetTopOfStack(nullptr);
        self->SetTopOfShadowStack(shadow_frame);
        interpreter::EnterInterpreterFromDeoptimize(self, shadow_frame, result);
      }
      if (kLogInvocationStartAndReturn) {
        LOG(INFO) << StringPrintf("Returned '%s' quick code=%p", PrettyMethod(this).c_str(),
                                  GetEntryPointFromQuickCompiledCode());
      }
    } else {
      LOG(INFO) << "Not invoking '" << PrettyMethod(this) << "' code=null";
      if (result != nullptr) {
        result->SetJ(0);
      }
    }
  }

  // Pop transition.
  self->PopManagedStackFragment(fragment);
}

// Counts the number of references in the parameter list of the corresponding method.
// Note: Thus does _not_ include "this" for non-static methods.
static uint32_t GetNumberOfReferenceArgsWithoutReceiver(ArtMethod* method)
    SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
  uint32_t shorty_len;
  const char* shorty = method->GetShorty(&shorty_len);
  uint32_t refs = 0;
  for (uint32_t i = 1; i < shorty_len ; ++i) {
    if (shorty[i] == 'L') {
      refs++;
    }
  }
  return refs;
}

QuickMethodFrameInfo ArtMethod::GetQuickFrameInfo() {
  Runtime* runtime = Runtime::Current();

  if (UNLIKELY(IsAbstract())) {
    return runtime->GetCalleeSaveMethodFrameInfo(Runtime::kRefsAndArgs);
  }

  // This goes before IsProxyMethod since runtime methods have a null declaring class.
  if (UNLIKELY(IsRuntimeMethod())) {
    return runtime->GetRuntimeMethodFrameInfo(this);
  }

  // For Proxy method we add special handling for the direct method case  (there is only one
  // direct method - constructor). Direct method is cloned from original
  // java.lang.reflect.Proxy class together with code and as a result it is executed as usual
  // quick compiled method without any stubs. So the frame info should be returned as it is a
  // quick method not a stub. However, if instrumentation stubs are installed, the
  // instrumentation->GetQuickCodeFor() returns the artQuickProxyInvokeHandler instead of an
  // oat code pointer, thus we have to add a special case here.
  if (UNLIKELY(IsProxyMethod())) {
    if (IsDirect()) {
      CHECK(IsConstructor());
      return GetQuickFrameInfo(EntryPointToCodePointer(GetEntryPointFromQuickCompiledCode()));
    } else {
      return runtime->GetCalleeSaveMethodFrameInfo(Runtime::kRefsAndArgs);
    }
  }

  const void* entry_point = runtime->GetInstrumentation()->GetQuickCodeFor(this, sizeof(void*));
  ClassLinker* class_linker = runtime->GetClassLinker();
  // On failure, instead of null we get the quick-generic-jni-trampoline for native method
  // indicating the generic JNI, or the quick-to-interpreter-bridge (but not the trampoline)
  // for non-native methods. And we really shouldn't see a failure for non-native methods here.
  DCHECK(!class_linker->IsQuickToInterpreterBridge(entry_point));

  if (class_linker->IsQuickGenericJniStub(entry_point)) {
    // Generic JNI frame.
    DCHECK(IsNative());
    uint32_t handle_refs = GetNumberOfReferenceArgsWithoutReceiver(this) + 1;
    size_t scope_size = HandleScope::SizeOf(handle_refs);
    QuickMethodFrameInfo callee_info = runtime->GetCalleeSaveMethodFrameInfo(Runtime::kRefsAndArgs);

    // Callee saves + handle scope + method ref + alignment
    // Note: -sizeof(void*) since callee-save frame stores a whole method pointer.
    size_t frame_size = RoundUp(callee_info.FrameSizeInBytes() - sizeof(void*) +
                                sizeof(ArtMethod*) + scope_size, kStackAlignment);
    return QuickMethodFrameInfo(frame_size, callee_info.CoreSpillMask(), callee_info.FpSpillMask());
  }

  const void* code_pointer = EntryPointToCodePointer(entry_point);
  return GetQuickFrameInfo(code_pointer);
}

void ArtMethod::RegisterNative(const void* native_method, bool is_fast) {
  CHECK(IsNative()) << PrettyMethod(this);
  CHECK(!IsFastNative()) << PrettyMethod(this);
  CHECK(native_method != nullptr) << PrettyMethod(this);
  if (is_fast) {
    SetAccessFlags(GetAccessFlags() | kAccFastNative);
  }
  SetEntryPointFromJni(native_method);
}

void ArtMethod::UnregisterNative() {
  CHECK(IsNative() && !IsFastNative()) << PrettyMethod(this);
  // restore stub to lookup native pointer via dlsym
  RegisterNative(GetJniDlsymLookupStub(), false);
}

bool ArtMethod::EqualParameters(Handle<mirror::ObjectArray<mirror::Class>> params) {
  auto* dex_cache = GetDexCache();
  auto* dex_file = dex_cache->GetDexFile();
  const auto& method_id = dex_file->GetMethodId(GetDexMethodIndex());
  const auto& proto_id = dex_file->GetMethodPrototype(method_id);
  const DexFile::TypeList* proto_params = dex_file->GetProtoParameters(proto_id);
  auto count = proto_params != nullptr ? proto_params->Size() : 0u;
  auto param_len = params.Get() != nullptr ? params->GetLength() : 0u;
  if (param_len != count) {
    return false;
  }
  auto* cl = Runtime::Current()->GetClassLinker();
  for (size_t i = 0; i < count; ++i) {
    auto type_idx = proto_params->GetTypeItem(i).type_idx_;
    auto* type = cl->ResolveType(type_idx, this);
    if (type == nullptr) {
      Thread::Current()->AssertPendingException();
      return false;
    }
    if (type != params->GetWithoutChecks(i)) {
      return false;
    }
  }
  return true;
}

}  // namespace art