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ark_runtime_core/runtime/mem/heap_verifier.cpp
T
wanyanglan 14c9021696 add ark runtime_core
Signed-off-by: wanyanglan <wanyanglan1@huawei.com>
Change-Id: I2564094cef9c6c41263e37faf9ffbbec14223dc7
2021-09-05 20:53:43 +08:00

102 lines
3.5 KiB
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/*
* Copyright (c) 2021 Huawei Device Co., Ltd.
* 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 "runtime/include/language_context.h"
#include "runtime/include/class_root.h"
#include "runtime/include/runtime.h"
#include "runtime/include/panda_vm.h"
#include "runtime/mem/gc/gc_root.h"
#include "runtime/mem/heap_manager.h"
#include "runtime/mem/heap_verifier.h"
namespace panda::mem {
// Should be called only with MutatorLock held
template <class LanguageConfig>
size_t HeapVerifier<LanguageConfig>::VerifyAllPaused() const
{
Rendezvous *rendezvous = Runtime::GetCurrent()->GetPandaVM()->GetRendezvous();
rendezvous->SafepointBegin();
size_t fail_count = VerifyAll();
rendezvous->SafepointEnd();
return fail_count;
}
template <LangTypeT LangType>
void HeapObjectVerifier<LangType>::operator()(ObjectHeader *obj)
{
HeapReferenceVerifier ref_verifier(HEAP, FAIL_COUNT);
ObjectHelpers<LangType>::TraverseAllObjects(obj, ref_verifier);
}
void HeapReferenceVerifier::operator()([[maybe_unused]] ObjectHeader *object_header, ObjectHeader *referent)
{
auto obj_allocator = HEAP->GetObjectAllocator().AsObjectAllocator();
if (!obj_allocator->IsLive(referent)) {
LOG_HEAP_VERIFIER(ERROR) << "Heap corruption found! Heap references a dead object at " << referent;
++(*FAIL_COUNT);
}
}
void HeapReferenceVerifier::operator()(const GCRoot &root)
{
auto obj_allocator = HEAP->GetObjectAllocator().AsObjectAllocator();
auto referent = root.GetObjectHeader();
if (!obj_allocator->IsLive(referent)) {
LOG_HEAP_VERIFIER(ERROR) << "Heap corruption found! Root references a dead object at " << referent;
++(*FAIL_COUNT);
}
}
template <class LanguageConfig>
bool HeapVerifier<LanguageConfig>::IsValidObjectAddress(void *addr) const
{
return IsAligned<DEFAULT_ALIGNMENT_IN_BYTES>(ToUintPtr(addr)) && IsHeapAddress(addr);
}
template <class LanguageConfig>
bool HeapVerifier<LanguageConfig>::IsHeapAddress(void *addr) const
{
return heap_->GetObjectAllocator().AsObjectAllocator()->ContainObject(reinterpret_cast<ObjectHeader *>(addr));
}
template <class LanguageConfig>
size_t HeapVerifier<LanguageConfig>::VerifyHeap() const
{
return heap_->VerifyHeapReferences();
}
template <class LanguageConfig>
size_t HeapVerifier<LanguageConfig>::VerifyRoot() const
{
RootManager<LanguageConfig> root_manager;
size_t fail_count = 0;
root_manager.SetPandaVM(heap_->GetPandaVM());
root_manager.VisitNonHeapRoots([this, &fail_count](const GCRoot &root) {
if (root.GetType() == RootType::ROOT_FRAME || root.GetType() == RootType::ROOT_THREAD) {
auto base_cls = root.GetObjectHeader()->ClassAddr<BaseClass>();
if (!(!base_cls->IsDynamicClass() && static_cast<Class *>(base_cls)->IsClassClass())) {
HeapReferenceVerifier(heap_, &fail_count)(root);
}
}
});
return fail_count;
}
template class HeapVerifier<PandaAssemblyLanguageConfig>;
} // namespace panda::mem