/* * Copyright (C) 2008 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 "reference_table.h" #include "android-base/stringprintf.h" #include "base/mutex.h" #include "base/utils.h" #include "gc/allocation_record.h" #include "gc/heap.h" #include "indirect_reference_table.h" #include "mirror/array-inl.h" #include "mirror/array.h" #include "mirror/class-inl.h" #include "mirror/class.h" #include "mirror/object-inl.h" #include "mirror/string-inl.h" #include "runtime-inl.h" #include "thread.h" namespace art { using android::base::StringAppendF; using android::base::StringPrintf; ReferenceTable::ReferenceTable(const char* name, size_t initial_size, size_t max_size) : name_(name), max_size_(max_size) { CHECK_LE(initial_size, max_size); entries_.reserve(initial_size); } ReferenceTable::~ReferenceTable() { } void ReferenceTable::Add(ObjPtr obj) { DCHECK(obj != nullptr); VerifyObject(obj); if (entries_.size() >= max_size_) { LOG(FATAL) << "ReferenceTable '" << name_ << "' " << "overflowed (" << max_size_ << " entries)"; } entries_.push_back(GcRoot(obj)); } void ReferenceTable::Remove(ObjPtr obj) { // We iterate backwards on the assumption that references are LIFO. for (int i = entries_.size() - 1; i >= 0; --i) { ObjPtr entry = entries_[i].Read(); if (entry == obj) { entries_.erase(entries_.begin() + i); return; } } } // If "obj" is an array, return the number of elements in the array. // Otherwise, return zero. static size_t GetElementCount(ObjPtr obj) REQUIRES_SHARED(Locks::mutator_lock_) { // We assume the special cleared value isn't an array in the if statement below. DCHECK(!Runtime::Current()->GetClearedJniWeakGlobal()->IsArrayInstance()); if (obj == nullptr || !obj->IsArrayInstance()) { return 0; } return obj->AsArray()->GetLength(); } // Log an object with some additional info. // // Pass in the number of elements in the array (or 0 if this is not an // array object), and the number of additional objects that are identical // or equivalent to the original. static void DumpSummaryLine(std::ostream& os, ObjPtr obj, size_t element_count, int identical, int equiv) REQUIRES_SHARED(Locks::mutator_lock_) { if (obj == nullptr) { os << " null reference (count=" << equiv << ")\n"; return; } if (Runtime::Current()->IsClearedJniWeakGlobal(obj)) { os << " cleared jweak (count=" << equiv << ")\n"; return; } std::string className(obj->PrettyTypeOf()); if (obj->IsClass()) { // We're summarizing multiple instances, so using the exemplar // Class' type parameter here would be misleading. className = "java.lang.Class"; } if (element_count != 0) { StringAppendF(&className, " (%zd elements)", element_count); } size_t total = identical + equiv + 1; std::string msg(StringPrintf("%5zd of %s", total, className.c_str())); if (identical + equiv != 0) { StringAppendF(&msg, " (%d unique instances)", equiv + 1); } os << " " << msg << "\n"; } size_t ReferenceTable::Size() const { return entries_.size(); } void ReferenceTable::Dump(std::ostream& os) { os << name_ << " reference table dump:\n"; Dump(os, entries_); } void ReferenceTable::Dump(std::ostream& os, Table& entries) { // Compare GC roots, first by class, then size, then address. struct GcRootComparator { bool operator()(GcRoot root1, GcRoot root2) const // TODO: enable analysis when analysis can work with the STL. NO_THREAD_SAFETY_ANALYSIS { Locks::mutator_lock_->AssertSharedHeld(Thread::Current()); // These GC roots are already forwarded in ReferenceTable::Dump. We sort by class since there // are no suspend points which can happen during the sorting process. This works since // we are guaranteed that the addresses of obj1, obj2, obj1->GetClass, obj2->GetClass wont // change during the sorting process. The classes are forwarded by ref->GetClass(). ObjPtr obj1 = root1.Read(); ObjPtr obj2 = root2.Read(); DCHECK(obj1 != nullptr); DCHECK(obj2 != nullptr); Runtime* runtime = Runtime::Current(); DCHECK(!runtime->IsClearedJniWeakGlobal(obj1)); DCHECK(!runtime->IsClearedJniWeakGlobal(obj2)); // Sort by class... if (obj1->GetClass() != obj2->GetClass()) { return obj1->GetClass() < obj2->GetClass(); } // ...then by size... const size_t size1 = obj1->SizeOf(); const size_t size2 = obj2->SizeOf(); if (size1 != size2) { return size1 < size2; } // ...and finally by address. return obj1.Ptr() < obj2.Ptr(); } }; if (entries.empty()) { os << " (empty)\n"; return; } // Dump the most recent N entries. const size_t kLast = 10; size_t count = entries.size(); int first = count - kLast; if (first < 0) { first = 0; } os << " Last " << (count - first) << " entries (of " << count << "):\n"; Runtime* runtime = Runtime::Current(); for (int idx = count - 1; idx >= first; --idx) { ObjPtr ref = entries[idx].Read(); if (ref == nullptr) { continue; } if (runtime->IsClearedJniWeakGlobal(ref)) { os << StringPrintf(" %5d: cleared jweak\n", idx); continue; } if (ref->GetClass() == nullptr) { // should only be possible right after a plain dvmMalloc(). size_t size = ref->SizeOf(); os << StringPrintf(" %5d: %p (raw) (%zd bytes)\n", idx, ref.Ptr(), size); continue; } std::string className(ref->PrettyTypeOf()); std::string extras; size_t element_count = GetElementCount(ref); if (element_count != 0) { StringAppendF(&extras, " (%zd elements)", element_count); } else if (ref->GetClass()->IsStringClass()) { ObjPtr s = ref->AsString(); std::string utf8(s->ToModifiedUtf8()); if (s->GetLength() <= 16) { StringAppendF(&extras, " \"%s\"", utf8.c_str()); } else { StringAppendF(&extras, " \"%.16s... (%d chars)", utf8.c_str(), s->GetLength()); } } else if (ref->IsReferenceInstance()) { ObjPtr referent = ref->AsReference()->GetReferent(); if (referent == nullptr) { extras = " (referent is null)"; } else { extras = StringPrintf(" (referent is a %s)", referent->PrettyTypeOf().c_str()); } } os << StringPrintf(" %5d: ", idx) << ref << " " << className << extras << "\n"; if (runtime->GetHeap()->IsAllocTrackingEnabled()) { MutexLock mu(Thread::Current(), *Locks::alloc_tracker_lock_); gc::AllocRecordObjectMap* records = runtime->GetHeap()->GetAllocationRecords(); DCHECK(records != nullptr); // It's annoying that this is a list. But this code should be very uncommon to be executed. auto print_stack = [&](ObjPtr to_print, const std::string& msg) REQUIRES_SHARED(Locks::mutator_lock_) REQUIRES(Locks::alloc_tracker_lock_) { for (auto it = records->Begin(), end = records->End(); it != end; ++it) { GcRoot& stack_for_object = it->first; gc::AllocRecord& record = it->second; if (stack_for_object.Read() == to_print.Ptr()) { os << " " << msg << "\n"; const gc::AllocRecordStackTrace* trace = record.GetStackTrace(); size_t depth = trace->GetDepth(); if (depth == 0) { os << " (No managed frames)\n"; } else { for (size_t i = 0; i < depth; ++i) { const gc::AllocRecordStackTraceElement& frame = trace->GetStackElement(i); os << " "; if (frame.GetMethod() == nullptr) { os << "(missing method data)\n"; continue; } os << frame.GetMethod()->PrettyMethod(true) << ":" << frame.ComputeLineNumber() << "\n"; } } break; } } }; // Print the stack trace of the ref. print_stack(ref, "Allocated at:"); // If it's a reference, see if we have data about the referent. if (ref->IsReferenceInstance()) { ObjPtr referent = ref->AsReference()->GetReferent(); if (referent != nullptr) { print_stack(referent, "Referent allocated at:"); } } } } // Make a copy of the table and sort it, only adding non null and not cleared elements. Table sorted_entries; for (GcRoot& root : entries) { if (!root.IsNull() && !runtime->IsClearedJniWeakGlobal(root.Read())) { sorted_entries.push_back(root); } } if (sorted_entries.empty()) { return; } std::sort(sorted_entries.begin(), sorted_entries.end(), GcRootComparator()); class SummaryElement { public: GcRoot root; size_t equiv; size_t identical; SummaryElement() : equiv(0), identical(0) {} SummaryElement(SummaryElement&& ref) noexcept { root = ref.root; equiv = ref.equiv; identical = ref.identical; } SummaryElement(const SummaryElement&) = default; SummaryElement& operator=(SummaryElement&&) = default; void Reset(GcRoot& _root) { root = _root; equiv = 0; identical = 0; } }; std::vector sorted_summaries; { SummaryElement prev; for (GcRoot& root : sorted_entries) { ObjPtr current = root.Read(); if (UNLIKELY(prev.root.IsNull())) { prev.Reset(root); continue; } ObjPtr prevObj = prev.root.Read(); if (current == prevObj) { // Same reference, added more than once. ++prev.identical; } else if (current->GetClass() == prevObj->GetClass() && GetElementCount(current) == GetElementCount(prevObj)) { // Same class / element count, different object. ++prev.equiv; } else { sorted_summaries.push_back(prev); prev.Reset(root); } prev.root = root; } sorted_summaries.push_back(prev); // Compare summary elements, first by combined count, then by identical (indicating leaks), // then by class (and size and address). struct SummaryElementComparator { GcRootComparator gc_root_cmp; bool operator()(SummaryElement& elem1, SummaryElement& elem2) const NO_THREAD_SAFETY_ANALYSIS { Locks::mutator_lock_->AssertSharedHeld(Thread::Current()); size_t count1 = elem1.equiv + elem1.identical; size_t count2 = elem2.equiv + elem2.identical; if (count1 != count2) { return count1 > count2; } if (elem1.identical != elem2.identical) { return elem1.identical > elem2.identical; } // Otherwise, compare the GC roots as before. return gc_root_cmp(elem1.root, elem2.root); } }; std::sort(sorted_summaries.begin(), sorted_summaries.end(), SummaryElementComparator()); } // Dump a summary of the whole table. os << " Summary:\n"; for (SummaryElement& elem : sorted_summaries) { ObjPtr elemObj = elem.root.Read(); DumpSummaryLine(os, elemObj, GetElementCount(elemObj), elem.identical, elem.equiv); } } void ReferenceTable::VisitRoots(RootVisitor* visitor, const RootInfo& root_info) { BufferedRootVisitor buffered_visitor(visitor, root_info); for (GcRoot& root : entries_) { buffered_visitor.VisitRoot(root); } } } // namespace art