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LeafOS / LeafOS-Project / android_art / cb2ce333ee2d1053919fe0acc390369bea3ad77e / . / runtime / openjdkjvmti / ti_redefine.cc
blob: 68815e7de0ffaa40b1097cde7bd3df65ddbcca50 [file] [log] [blame]
/* Copyright (C) 2016 The Android Open Source Project
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This file implements interfaces from the file jvmti.h. This implementation
* is licensed under the same terms as the file jvmti.h. The
* copyright and license information for the file jvmti.h follows.
*
* Copyright (c) 2003, 2011, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
#include "ti_redefine.h"
#include <limits>
#include "android-base/stringprintf.h"
#include "art_jvmti.h"
#include "base/logging.h"
#include "events-inl.h"
#include "gc/allocation_listener.h"
#include "instrumentation.h"
#include "jni_env_ext-inl.h"
#include "jvmti_allocator.h"
#include "mirror/class.h"
#include "mirror/class_ext.h"
#include "mirror/object.h"
#include "object_lock.h"
#include "runtime.h"
#include "ScopedLocalRef.h"
namespace openjdkjvmti {
using android::base::StringPrintf;
// Moves dex data to an anonymous, read-only mmap'd region.
std::unique_ptr<art::MemMap> Redefiner::MoveDataToMemMap(const std::string& original_location,
jint data_len,
unsigned char* dex_data,
std::string* error_msg) {
std::unique_ptr<art::MemMap> map(art::MemMap::MapAnonymous(
StringPrintf("%s-transformed", original_location.c_str()).c_str(),
nullptr,
data_len,
PROT_READ|PROT_WRITE,
/*low_4gb*/false,
/*reuse*/false,
error_msg));
if (map == nullptr) {
return map;
}
memcpy(map->Begin(), dex_data, data_len);
// Make the dex files mmap read only. This matches how other DexFiles are mmaped and prevents
// programs from corrupting it.
map->Protect(PROT_READ);
return map;
}
jvmtiError Redefiner::RedefineClass(ArtJvmTiEnv* env,
art::Runtime* runtime,
art::Thread* self,
jclass klass,
const std::string& original_dex_location,
jint data_len,
unsigned char* dex_data,
std::string* error_msg) {
std::unique_ptr<art::MemMap> map(MoveDataToMemMap(original_dex_location,
data_len,
dex_data,
error_msg));
std::ostringstream os;
char* generic_ptr_unused = nullptr;
char* signature_ptr = nullptr;
if (env->GetClassSignature(klass, &signature_ptr, &generic_ptr_unused) != OK) {
signature_ptr = const_cast<char*>("<UNKNOWN CLASS>");
}
if (map.get() == nullptr) {
os << "Failed to create anonymous mmap for modified dex file of class " << signature_ptr
<< "in dex file " << original_dex_location << " because: " << *error_msg;
*error_msg = os.str();
return ERR(OUT_OF_MEMORY);
}
if (map->Size() < sizeof(art::DexFile::Header)) {
*error_msg = "Could not read dex file header because dex_data was too short";
return ERR(INVALID_CLASS_FORMAT);
}
uint32_t checksum = reinterpret_cast<const art::DexFile::Header*>(map->Begin())->checksum_;
std::unique_ptr<const art::DexFile> dex_file(art::DexFile::Open(map->GetName(),
checksum,
std::move(map),
/*verify*/true,
/*verify_checksum*/true,
error_msg));
if (dex_file.get() == nullptr) {
os << "Unable to load modified dex file for " << signature_ptr << ": " << *error_msg;
*error_msg = os.str();
return ERR(INVALID_CLASS_FORMAT);
}
// Get shared mutator lock.
art::ScopedObjectAccess soa(self);
art::StackHandleScope<1> hs(self);
Redefiner r(runtime, self, klass, signature_ptr, dex_file, error_msg);
// Lock around this class to avoid races.
art::ObjectLock<art::mirror::Class> lock(self, hs.NewHandle(r.GetMirrorClass()));
return r.Run();
}
// TODO *MAJOR* This should return the actual source java.lang.DexFile object for the klass.
// TODO Make mirror of DexFile and associated types to make this less hellish.
// TODO Make mirror of BaseDexClassLoader and associated types to make this less hellish.
art::mirror::Object* Redefiner::FindSourceDexFileObject(
art::Handle<art::mirror::ClassLoader> loader) {
const char* dex_path_list_element_array_name = "[Ldalvik/system/DexPathList$Element;";
const char* dex_path_list_element_name = "Ldalvik/system/DexPathList$Element;";
const char* dex_file_name = "Ldalvik/system/DexFile;";
const char* dex_path_list_name = "Ldalvik/system/DexPathList;";
const char* dex_class_loader_name = "Ldalvik/system/BaseDexClassLoader;";
CHECK(!self_->IsExceptionPending());
art::StackHandleScope<11> hs(self_);
art::ClassLinker* class_linker = runtime_->GetClassLinker();
art::Handle<art::mirror::ClassLoader> null_loader(hs.NewHandle<art::mirror::ClassLoader>(
nullptr));
art::Handle<art::mirror::Class> base_dex_loader_class(hs.NewHandle(class_linker->FindClass(
self_, dex_class_loader_name, null_loader)));
// Get all the ArtFields so we can look in the BaseDexClassLoader
art::ArtField* path_list_field = base_dex_loader_class->FindDeclaredInstanceField(
"pathList", dex_path_list_name);
CHECK(path_list_field != nullptr);
art::ArtField* dex_path_list_element_field =
class_linker->FindClass(self_, dex_path_list_name, null_loader)
->FindDeclaredInstanceField("dexElements", dex_path_list_element_array_name);
CHECK(dex_path_list_element_field != nullptr);
art::ArtField* element_dex_file_field =
class_linker->FindClass(self_, dex_path_list_element_name, null_loader)
->FindDeclaredInstanceField("dexFile", dex_file_name);
CHECK(element_dex_file_field != nullptr);
// Check if loader is a BaseDexClassLoader
art::Handle<art::mirror::Class> loader_class(hs.NewHandle(loader->GetClass()));
if (!loader_class->IsSubClass(base_dex_loader_class.Get())) {
LOG(ERROR) << "The classloader is not a BaseDexClassLoader which is currently the only "
<< "supported class loader type!";
return nullptr;
}
// Start navigating the fields of the loader (now known to be a BaseDexClassLoader derivative)
art::Handle<art::mirror::Object> path_list(
hs.NewHandle(path_list_field->GetObject(loader.Get())));
CHECK(path_list.Get() != nullptr);
CHECK(!self_->IsExceptionPending());
art::Handle<art::mirror::ObjectArray<art::mirror::Object>> dex_elements_list(hs.NewHandle(
dex_path_list_element_field->GetObject(path_list.Get())->
AsObjectArray<art::mirror::Object>()));
CHECK(!self_->IsExceptionPending());
CHECK(dex_elements_list.Get() != nullptr);
size_t num_elements = dex_elements_list->GetLength();
art::MutableHandle<art::mirror::Object> current_element(
hs.NewHandle<art::mirror::Object>(nullptr));
art::MutableHandle<art::mirror::Object> first_dex_file(
hs.NewHandle<art::mirror::Object>(nullptr));
// Iterate over the DexPathList$Element to find the right one
// TODO Or not ATM just return the first one.
for (size_t i = 0; i < num_elements; i++) {
current_element.Assign(dex_elements_list->Get(i));
CHECK(current_element.Get() != nullptr);
CHECK(!self_->IsExceptionPending());
CHECK(dex_elements_list.Get() != nullptr);
CHECK_EQ(current_element->GetClass(), class_linker->FindClass(self_,
dex_path_list_element_name,
null_loader));
// TODO It would be cleaner to put the art::DexFile into the dalvik.system.DexFile the class
// comes from but it is more annoying because we would need to find this class. It is not
// necessary for proper function since we just need to be in front of the classes old dex file
// in the path.
first_dex_file.Assign(element_dex_file_field->GetObject(current_element.Get()));
if (first_dex_file.Get() != nullptr) {
return first_dex_file.Get();
}
}
return nullptr;
}
art::mirror::Class* Redefiner::GetMirrorClass() {
return self_->DecodeJObject(klass_)->AsClass();
}
art::mirror::ClassLoader* Redefiner::GetClassLoader() {
return GetMirrorClass()->GetClassLoader();
}
art::mirror::DexCache* Redefiner::CreateNewDexCache(art::Handle<art::mirror::ClassLoader> loader) {
return runtime_->GetClassLinker()->RegisterDexFile(*dex_file_, loader.Get());
}
// TODO Really wishing I had that mirror of java.lang.DexFile now.
art::mirror::LongArray* Redefiner::AllocateDexFileCookie(
art::Handle<art::mirror::Object> java_dex_file_obj) {
art::StackHandleScope<2> hs(self_);
// mCookie is nulled out if the DexFile has been closed but mInternalCookie sticks around until
// the object is finalized. Since they always point to the same array if mCookie is not null we
// just use the mInternalCookie field. We will update one or both of these fields later.
// TODO Should I get the class from the classloader or directly?
art::ArtField* internal_cookie_field = java_dex_file_obj->GetClass()->FindDeclaredInstanceField(
"mInternalCookie", "Ljava/lang/Object;");
// TODO Add check that mCookie is either null or same as mInternalCookie
CHECK(internal_cookie_field != nullptr);
art::Handle<art::mirror::LongArray> cookie(
hs.NewHandle(internal_cookie_field->GetObject(java_dex_file_obj.Get())->AsLongArray()));
// TODO Maybe make these non-fatal.
CHECK(cookie.Get() != nullptr);
CHECK_GE(cookie->GetLength(), 1);
art::Handle<art::mirror::LongArray> new_cookie(
hs.NewHandle(art::mirror::LongArray::Alloc(self_, cookie->GetLength() + 1)));
if (new_cookie.Get() == nullptr) {
self_->AssertPendingOOMException();
return nullptr;
}
// Copy the oat-dex field at the start.
// TODO Should I clear this field?
// TODO This is a really crappy thing here with the first element being different.
new_cookie->SetWithoutChecks<false>(0, cookie->GetWithoutChecks(0));
new_cookie->SetWithoutChecks<false>(
1, static_cast<int64_t>(reinterpret_cast<intptr_t>(dex_file_.get())));
new_cookie->Memcpy(2, cookie.Get(), 1, cookie->GetLength() - 1);
return new_cookie.Get();
}
void Redefiner::RecordFailure(jvmtiError result, const std::string& error_msg) {
*error_msg_ = StringPrintf("Unable to perform redefinition of '%s': %s",
class_sig_,
error_msg.c_str());
result_ = result;
}
bool Redefiner::FinishRemainingAllocations(
/*out*/art::MutableHandle<art::mirror::ClassLoader>* source_class_loader,
/*out*/art::MutableHandle<art::mirror::Object>* java_dex_file_obj,
/*out*/art::MutableHandle<art::mirror::LongArray>* new_dex_file_cookie,
/*out*/art::MutableHandle<art::mirror::DexCache>* new_dex_cache) {
art::StackHandleScope<4> hs(self_);
// This shouldn't allocate
art::Handle<art::mirror::ClassLoader> loader(hs.NewHandle(GetClassLoader()));
if (loader.Get() == nullptr) {
// TODO Better error msg.
RecordFailure(ERR(INTERNAL), "Unable to find class loader!");
return false;
}
art::Handle<art::mirror::Object> dex_file_obj(hs.NewHandle(FindSourceDexFileObject(loader)));
if (dex_file_obj.Get() == nullptr) {
// TODO Better error msg.
RecordFailure(ERR(INTERNAL), "Unable to find class loader!");
return false;
}
art::Handle<art::mirror::LongArray> new_cookie(hs.NewHandle(AllocateDexFileCookie(dex_file_obj)));
if (new_cookie.Get() == nullptr) {
self_->AssertPendingOOMException();
self_->ClearException();
RecordFailure(ERR(OUT_OF_MEMORY), "Unable to allocate dex file array for class loader");
return false;
}
art::Handle<art::mirror::DexCache> dex_cache(hs.NewHandle(CreateNewDexCache(loader)));
if (dex_cache.Get() == nullptr) {
self_->AssertPendingOOMException();
self_->ClearException();
RecordFailure(ERR(OUT_OF_MEMORY), "Unable to allocate DexCache");
return false;
}
source_class_loader->Assign(loader.Get());
java_dex_file_obj->Assign(dex_file_obj.Get());
new_dex_file_cookie->Assign(new_cookie.Get());
new_dex_cache->Assign(dex_cache.Get());
return true;
}
jvmtiError Redefiner::Run() {
art::StackHandleScope<5> hs(self_);
// TODO We might want to have a global lock (or one based on the class being redefined at least)
// in order to make cleanup easier. Not a huge deal though.
//
// First we just allocate the ClassExt and its fields that we need. These can be updated
// atomically without any issues (since we allocate the map arrays as empty) so we don't bother
// doing a try loop. The other allocations we need to ensure that nothing has changed in the time
// between allocating them and pausing all threads before we can update them so we need to do a
// try loop.
if (!EnsureRedefinitionIsValid() || !EnsureClassAllocationsFinished()) {
return result_;
}
art::MutableHandle<art::mirror::ClassLoader> source_class_loader(
hs.NewHandle<art::mirror::ClassLoader>(nullptr));
art::MutableHandle<art::mirror::Object> java_dex_file(
hs.NewHandle<art::mirror::Object>(nullptr));
art::MutableHandle<art::mirror::LongArray> new_dex_file_cookie(
hs.NewHandle<art::mirror::LongArray>(nullptr));
art::MutableHandle<art::mirror::DexCache> new_dex_cache(
hs.NewHandle<art::mirror::DexCache>(nullptr));
if (!FinishRemainingAllocations(&source_class_loader,
&java_dex_file,
&new_dex_file_cookie,
&new_dex_cache)) {
// TODO Null out the ClassExt fields we allocated (if possible, might be racing with another
// redefineclass call which made it even bigger. Leak shouldn't be huge (2x array of size
// declared_methods_.length) but would be good to get rid of.
// new_dex_file_cookie & new_dex_cache should be cleaned up by the GC.
return result_;
}
// Get the mirror class now that we aren't allocating anymore.
art::Handle<art::mirror::Class> art_class(hs.NewHandle(GetMirrorClass()));
// Enable assertion that this thread isn't interrupted during this installation.
// After this we will need to do real cleanup in case of failure. Prior to this we could simply
// return and would let everything get cleaned up or harmlessly leaked.
// Do transition to final suspension
// TODO We might want to give this its own suspended state!
// TODO This isn't right. We need to change state without any chance of suspend ideally!
self_->TransitionFromRunnableToSuspended(art::ThreadState::kNative);
runtime_->GetThreadList()->SuspendAll(
"Final installation of redefined Class!", /*long_suspend*/true);
// TODO Might want to move this into a different type.
// Now we reach the part where we must do active cleanup if something fails.
// TODO We should really Retry if this fails instead of simply aborting.
// Set the new DexFileCookie returns the original so we can fix it back up if redefinition fails
art::ObjPtr<art::mirror::LongArray> original_dex_file_cookie(nullptr);
if (!UpdateJavaDexFile(java_dex_file.Get(),
new_dex_file_cookie.Get(),
&original_dex_file_cookie)) {
// Release suspendAll
runtime_->GetThreadList()->ResumeAll();
// Get back shared mutator lock as expected for return.
self_->TransitionFromSuspendedToRunnable();
return result_;
}
if (!UpdateClass(art_class.Get(), new_dex_cache.Get())) {
// TODO Should have some form of scope to do this.
RestoreJavaDexFile(java_dex_file.Get(), original_dex_file_cookie);
// Release suspendAll
runtime_->GetThreadList()->ResumeAll();
// Get back shared mutator lock as expected for return.
self_->TransitionFromSuspendedToRunnable();
return result_;
}
// Update the ClassObjects Keep the old DexCache (and other stuff) around so we can restore
// functions/fields.
// Verify the new Class.
// Failure then undo updates to class
// Do stack walks and allocate obsolete methods
// Shrink the obsolete method maps if possible?
// TODO find appropriate class loader. Allocate new dex files array. Pause all java treads.
// Replace dex files array. Do stack scan + allocate obsoletes. Remove array if possible.
// TODO We might want to ensure that all threads are stopped for this!
// AddDexToClassPath();
// TODO
// Release suspendAll
// TODO Put this into a scoped thing.
runtime_->GetThreadList()->ResumeAll();
// Get back shared mutator lock as expected for return.
self_->TransitionFromSuspendedToRunnable();
// TODO Do this at a more reasonable place.
dex_file_.release();
return OK;
}
void Redefiner::RestoreJavaDexFile(art::ObjPtr<art::mirror::Object> java_dex_file,
art::ObjPtr<art::mirror::LongArray> orig_cookie) {
art::ArtField* internal_cookie_field = java_dex_file->GetClass()->FindDeclaredInstanceField(
"mInternalCookie", "Ljava/lang/Object;");
art::ArtField* cookie_field = java_dex_file->GetClass()->FindDeclaredInstanceField(
"mCookie", "Ljava/lang/Object;");
art::ObjPtr<art::mirror::LongArray> new_cookie(
cookie_field->GetObject(java_dex_file)->AsLongArray());
internal_cookie_field->SetObject<false>(java_dex_file, orig_cookie);
if (!new_cookie.IsNull()) {
cookie_field->SetObject<false>(java_dex_file, orig_cookie);
}
}
bool Redefiner::UpdateMethods(art::ObjPtr<art::mirror::Class> mclass,
art::ObjPtr<art::mirror::DexCache> new_dex_cache,
const art::DexFile::ClassDef& class_def) {
art::ClassLinker* linker = runtime_->GetClassLinker();
art::PointerSize image_pointer_size = linker->GetImagePointerSize();
const art::DexFile::TypeId& declaring_class_id = dex_file_->GetTypeId(class_def.class_idx_);
const art::DexFile& old_dex_file = mclass->GetDexFile();
// Update methods.
for (art::ArtMethod& method : mclass->GetMethods(image_pointer_size)) {
const art::DexFile::StringId* new_name_id = dex_file_->FindStringId(method.GetName());
art::dex::TypeIndex method_return_idx =
dex_file_->GetIndexForTypeId(*dex_file_->FindTypeId(method.GetReturnTypeDescriptor()));
const auto* old_type_list = method.GetParameterTypeList();
std::vector<art::dex::TypeIndex> new_type_list;
for (uint32_t i = 0; old_type_list != nullptr && i < old_type_list->Size(); i++) {
new_type_list.push_back(
dex_file_->GetIndexForTypeId(
*dex_file_->FindTypeId(
old_dex_file.GetTypeDescriptor(
old_dex_file.GetTypeId(
old_type_list->GetTypeItem(i).type_idx_)))));
}
const art::DexFile::ProtoId* proto_id = dex_file_->FindProtoId(method_return_idx,
new_type_list);
CHECK(proto_id != nullptr || old_type_list == nullptr);
// TODO Return false, cleanup.
const art::DexFile::MethodId* method_id = dex_file_->FindMethodId(declaring_class_id,
*new_name_id,
*proto_id);
CHECK(method_id != nullptr);
// TODO Return false, cleanup.
uint32_t dex_method_idx = dex_file_->GetIndexForMethodId(*method_id);
method.SetDexMethodIndex(dex_method_idx);
linker->SetEntryPointsToInterpreter(&method);
method.SetCodeItemOffset(dex_file_->FindCodeItemOffset(class_def, dex_method_idx));
method.SetDexCacheResolvedMethods(new_dex_cache->GetResolvedMethods(), image_pointer_size);
method.SetDexCacheResolvedTypes(new_dex_cache->GetResolvedTypes(), image_pointer_size);
}
return true;
}
bool Redefiner::UpdateFields(art::ObjPtr<art::mirror::Class> mclass) {
// TODO The IFields & SFields pointers should be combined like the methods_ arrays were.
for (auto fields_iter : {mclass->GetIFields(), mclass->GetSFields()}) {
for (art::ArtField& field : fields_iter) {
std::string declaring_class_name;
const art::DexFile::TypeId* new_declaring_id =
dex_file_->FindTypeId(field.GetDeclaringClass()->GetDescriptor(&declaring_class_name));
const art::DexFile::StringId* new_name_id = dex_file_->FindStringId(field.GetName());
const art::DexFile::TypeId* new_type_id = dex_file_->FindTypeId(field.GetTypeDescriptor());
// TODO Handle error, cleanup.
CHECK(new_name_id != nullptr && new_type_id != nullptr && new_declaring_id != nullptr);
const art::DexFile::FieldId* new_field_id =
dex_file_->FindFieldId(*new_declaring_id, *new_name_id, *new_type_id);
CHECK(new_field_id != nullptr);
// We only need to update the index since the other data in the ArtField cannot be updated.
field.SetDexFieldIndex(dex_file_->GetIndexForFieldId(*new_field_id));
}
}
return true;
}
// Performs updates to class that will allow us to verify it.
bool Redefiner::UpdateClass(art::ObjPtr<art::mirror::Class> mclass,
art::ObjPtr<art::mirror::DexCache> new_dex_cache) {
const art::DexFile::ClassDef* class_def = art::OatFile::OatDexFile::FindClassDef(
*dex_file_, class_sig_, art::ComputeModifiedUtf8Hash(class_sig_));
if (class_def == nullptr) {
RecordFailure(ERR(INVALID_CLASS_FORMAT), "Unable to find ClassDef!");
return false;
}
if (!UpdateMethods(mclass, new_dex_cache, *class_def)) {
// TODO Investigate appropriate error types.
RecordFailure(ERR(INTERNAL), "Unable to update class methods.");
return false;
}
if (!UpdateFields(mclass)) {
// TODO Investigate appropriate error types.
RecordFailure(ERR(INTERNAL), "Unable to update class fields.");
return false;
}
// Update the class fields.
// Need to update class last since the ArtMethod gets its DexFile from the class (which is needed
// to call GetReturnTypeDescriptor and GetParameterTypeList above).
mclass->SetDexCache(new_dex_cache.Ptr());
mclass->SetDexClassDefIndex(dex_file_->GetIndexForClassDef(*class_def));
mclass->SetDexTypeIndex(dex_file_->GetIndexForTypeId(*dex_file_->FindTypeId(class_sig_)));
return true;
}
bool Redefiner::UpdateJavaDexFile(art::ObjPtr<art::mirror::Object> java_dex_file,
art::ObjPtr<art::mirror::LongArray> new_cookie,
/*out*/art::ObjPtr<art::mirror::LongArray>* original_cookie) {
art::ArtField* internal_cookie_field = java_dex_file->GetClass()->FindDeclaredInstanceField(
"mInternalCookie", "Ljava/lang/Object;");
art::ArtField* cookie_field = java_dex_file->GetClass()->FindDeclaredInstanceField(
"mCookie", "Ljava/lang/Object;");
CHECK(internal_cookie_field != nullptr);
art::ObjPtr<art::mirror::LongArray> orig_internal_cookie(
internal_cookie_field->GetObject(java_dex_file)->AsLongArray());
art::ObjPtr<art::mirror::LongArray> orig_cookie(
cookie_field->GetObject(java_dex_file)->AsLongArray());
internal_cookie_field->SetObject<false>(java_dex_file, new_cookie);
*original_cookie = orig_internal_cookie;
if (!orig_cookie.IsNull()) {
cookie_field->SetObject<false>(java_dex_file, new_cookie);
}
return true;
}
// This function does all (java) allocations we need to do for the Class being redefined.
// TODO Change this name maybe?
bool Redefiner::EnsureClassAllocationsFinished() {
art::StackHandleScope<2> hs(self_);
art::Handle<art::mirror::Class> klass(hs.NewHandle(self_->DecodeJObject(klass_)->AsClass()));
if (klass.Get() == nullptr) {
RecordFailure(ERR(INVALID_CLASS), "Unable to decode class argument!");
return false;
}
// Allocate the classExt
art::Handle<art::mirror::ClassExt> ext(hs.NewHandle(klass->EnsureExtDataPresent(self_)));
if (ext.Get() == nullptr) {
// No memory. Clear exception (it's not useful) and return error.
// TODO This doesn't need to be fatal. We could just not support obsolete methods after hitting
// this case.
self_->AssertPendingOOMException();
self_->ClearException();
RecordFailure(ERR(OUT_OF_MEMORY), "Could not allocate ClassExt");
return false;
}
// Allocate the 2 arrays that make up the obsolete methods map. Since the contents of the arrays
// are only modified when all threads (other than the modifying one) are suspended we don't need
// to worry about missing the unsyncronized writes to the array. We do synchronize when setting it
// however, since that can happen at any time.
// TODO Clear these after we walk the stacks in order to free them in the (likely?) event there
// are no obsolete methods.
{
art::ObjectLock<art::mirror::ClassExt> lock(self_, ext);
if (!ext->ExtendObsoleteArrays(
self_, klass->GetDeclaredMethodsSlice(art::kRuntimePointerSize).size())) {
// OOM. Clear exception and return error.
self_->AssertPendingOOMException();
self_->ClearException();
RecordFailure(ERR(OUT_OF_MEMORY), "Unable to allocate/extend obsolete methods map");
return false;
}
}
return true;
}
} // namespace openjdkjvmti