// Copyright 2016 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef V8_SNAPSHOT_SERIALIZER_H_ #define V8_SNAPSHOT_SERIALIZER_H_ #include #include "src/instruction-stream.h" #include "src/isolate.h" #include "src/log.h" #include "src/objects.h" #include "src/snapshot/default-serializer-allocator.h" #include "src/snapshot/serializer-common.h" #include "src/snapshot/snapshot-source-sink.h" namespace v8 { namespace internal { class CodeAddressMap : public CodeEventLogger { public: explicit CodeAddressMap(Isolate* isolate) : CodeEventLogger(isolate) { isolate->logger()->AddCodeEventListener(this); } ~CodeAddressMap() override { isolate_->logger()->RemoveCodeEventListener(this); } void CodeMoveEvent(AbstractCode* from, AbstractCode* to) override { address_to_name_map_.Move(from->address(), to->address()); } void CodeDisableOptEvent(AbstractCode* code, SharedFunctionInfo* shared) override {} const char* Lookup(Address address) { return address_to_name_map_.Lookup(address); } private: class NameMap { public: NameMap() : impl_() {} ~NameMap() { for (base::HashMap::Entry* p = impl_.Start(); p != nullptr; p = impl_.Next(p)) { DeleteArray(static_cast(p->value)); } } void Insert(Address code_address, const char* name, int name_size) { base::HashMap::Entry* entry = FindOrCreateEntry(code_address); if (entry->value == nullptr) { entry->value = CopyName(name, name_size); } } const char* Lookup(Address code_address) { base::HashMap::Entry* entry = FindEntry(code_address); return (entry != nullptr) ? static_cast(entry->value) : nullptr; } void Remove(Address code_address) { base::HashMap::Entry* entry = FindEntry(code_address); if (entry != nullptr) { DeleteArray(static_cast(entry->value)); RemoveEntry(entry); } } void Move(Address from, Address to) { if (from == to) return; base::HashMap::Entry* from_entry = FindEntry(from); DCHECK_NOT_NULL(from_entry); void* value = from_entry->value; RemoveEntry(from_entry); base::HashMap::Entry* to_entry = FindOrCreateEntry(to); DCHECK_NULL(to_entry->value); to_entry->value = value; } private: static char* CopyName(const char* name, int name_size) { char* result = NewArray(name_size + 1); for (int i = 0; i < name_size; ++i) { char c = name[i]; if (c == '\0') c = ' '; result[i] = c; } result[name_size] = '\0'; return result; } base::HashMap::Entry* FindOrCreateEntry(Address code_address) { return impl_.LookupOrInsert(reinterpret_cast(code_address), ComputeAddressHash(code_address)); } base::HashMap::Entry* FindEntry(Address code_address) { return impl_.Lookup(reinterpret_cast(code_address), ComputeAddressHash(code_address)); } void RemoveEntry(base::HashMap::Entry* entry) { impl_.Remove(entry->key, entry->hash); } base::HashMap impl_; DISALLOW_COPY_AND_ASSIGN(NameMap); }; void LogRecordedBuffer(AbstractCode* code, SharedFunctionInfo*, const char* name, int length) override { address_to_name_map_.Insert(code->address(), name, length); } void LogRecordedBuffer(const wasm::WasmCode* code, const char* name, int length) override { UNREACHABLE(); } NameMap address_to_name_map_; }; template class Serializer : public SerializerDeserializer { public: explicit Serializer(Isolate* isolate); ~Serializer() override; std::vector EncodeReservations() const { return allocator_.EncodeReservations(); } const std::vector* Payload() const { return sink_.data(); } bool ReferenceMapContains(HeapObject* o) { return reference_map()->LookupReference(o).is_valid(); } Isolate* isolate() const { return isolate_; } protected: class ObjectSerializer; class RecursionScope { public: explicit RecursionScope(Serializer* serializer) : serializer_(serializer) { serializer_->recursion_depth_++; } ~RecursionScope() { serializer_->recursion_depth_--; } bool ExceedsMaximum() { return serializer_->recursion_depth_ >= kMaxRecursionDepth; } private: static const int kMaxRecursionDepth = 32; Serializer* serializer_; }; void SerializeDeferredObjects(); virtual void SerializeObject(HeapObject* o, HowToCode how_to_code, WhereToPoint where_to_point, int skip) = 0; virtual bool MustBeDeferred(HeapObject* object); void VisitRootPointers(Root root, const char* description, Object** start, Object** end) override; void SerializeRootObject(Object* object); void PutRoot(int index, HeapObject* object, HowToCode how, WhereToPoint where, int skip); void PutSmi(Smi* smi); void PutBackReference(HeapObject* object, SerializerReference reference); void PutAttachedReference(SerializerReference reference, HowToCode how_to_code, WhereToPoint where_to_point); // Emit alignment prefix if necessary, return required padding space in bytes. int PutAlignmentPrefix(HeapObject* object); void PutNextChunk(int space); // Returns true if the object was successfully serialized as hot object. bool SerializeHotObject(HeapObject* obj, HowToCode how_to_code, WhereToPoint where_to_point, int skip); // Returns true if the object was successfully serialized as back reference. bool SerializeBackReference(HeapObject* obj, HowToCode how_to_code, WhereToPoint where_to_point, int skip); // Returns true if the object was successfully serialized as a builtin // reference. bool SerializeBuiltinReference(HeapObject* obj, HowToCode how_to_code, WhereToPoint where_to_point, int skip); // Returns true if the given heap object is a bytecode handler code object. bool ObjectIsBytecodeHandler(HeapObject* obj) const; inline void FlushSkip(int skip) { if (skip != 0) { sink_.Put(kSkip, "SkipFromSerializeObject"); sink_.PutInt(skip, "SkipDistanceFromSerializeObject"); } } ExternalReferenceEncoder::Value EncodeExternalReference(Address addr) { return external_reference_encoder_.Encode(addr); } // GetInt reads 4 bytes at once, requiring padding at the end. void Pad(); // We may not need the code address map for logging for every instance // of the serializer. Initialize it on demand. void InitializeCodeAddressMap(); Code* CopyCode(Code* code); void QueueDeferredObject(HeapObject* obj) { DCHECK(reference_map_.LookupReference(obj).is_back_reference()); deferred_objects_.push_back(obj); } void OutputStatistics(const char* name); #ifdef OBJECT_PRINT void CountInstanceType(Map* map, int size, AllocationSpace space); #endif // OBJECT_PRINT #ifdef DEBUG void PushStack(HeapObject* o) { stack_.push_back(o); } void PopStack() { stack_.pop_back(); } void PrintStack(); #endif // DEBUG SerializerReferenceMap* reference_map() { return &reference_map_; } RootIndexMap* root_index_map() { return &root_index_map_; } AllocatorT* allocator() { return &allocator_; } SnapshotByteSink sink_; // Used directly by subclasses. private: Isolate* isolate_; SerializerReferenceMap reference_map_; ExternalReferenceEncoder external_reference_encoder_; RootIndexMap root_index_map_; CodeAddressMap* code_address_map_ = nullptr; std::vector code_buffer_; std::vector deferred_objects_; // To handle stack overflow. int recursion_depth_ = 0; AllocatorT allocator_; #ifdef OBJECT_PRINT static const int kInstanceTypes = LAST_TYPE + 1; int* instance_type_count_[LAST_SPACE]; size_t* instance_type_size_[LAST_SPACE]; #endif // OBJECT_PRINT #ifdef DEBUG std::vector stack_; #endif // DEBUG friend class DefaultSerializerAllocator; DISALLOW_COPY_AND_ASSIGN(Serializer); }; class RelocInfoIterator; template class Serializer::ObjectSerializer : public ObjectVisitor { public: ObjectSerializer(Serializer* serializer, HeapObject* obj, SnapshotByteSink* sink, HowToCode how_to_code, WhereToPoint where_to_point) : serializer_(serializer), object_(obj), sink_(sink), reference_representation_(how_to_code + where_to_point), bytes_processed_so_far_(0) { #ifdef DEBUG serializer_->PushStack(obj); #endif // DEBUG } ~ObjectSerializer() override { #ifdef DEBUG serializer_->PopStack(); #endif // DEBUG } void Serialize(); void SerializeObject(); void SerializeDeferred(); void VisitPointers(HeapObject* host, Object** start, Object** end) override; void VisitPointers(HeapObject* host, MaybeObject** start, MaybeObject** end) override; void VisitEmbeddedPointer(Code* host, RelocInfo* target) override; void VisitExternalReference(Foreign* host, Address* p) override; void VisitExternalReference(Code* host, RelocInfo* rinfo) override; void VisitInternalReference(Code* host, RelocInfo* rinfo) override; void VisitCodeTarget(Code* host, RelocInfo* target) override; void VisitRuntimeEntry(Code* host, RelocInfo* reloc) override; void VisitOffHeapTarget(Code* host, RelocInfo* target) override; // Relocation info needs to be visited sorted by target_address_address. void VisitRelocInfo(RelocIterator* it) override; private: void SerializePrologue(AllocationSpace space, int size, Map* map); // This function outputs or skips the raw data between the last pointer and // up to the current position. void SerializeContent(Map* map, int size); void OutputRawData(Address up_to); void OutputCode(int size); int SkipTo(Address to); int32_t SerializeBackingStore(void* backing_store, int32_t byte_length); void SerializeJSTypedArray(); void SerializeJSArrayBuffer(); void SerializeExternalString(); void SerializeExternalStringAsSequentialString(); Serializer* serializer_; HeapObject* object_; SnapshotByteSink* sink_; std::map backing_stores; int reference_representation_; int bytes_processed_so_far_; }; } // namespace internal } // namespace v8 #endif // V8_SNAPSHOT_SERIALIZER_H_