// 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_CODEGEN_EXTERNAL_REFERENCE_TABLE_H_ #define V8_CODEGEN_EXTERNAL_REFERENCE_TABLE_H_ #include "src/builtins/accessors.h" #include "src/builtins/builtins.h" #include "src/codegen/external-reference.h" #include "src/logging/counters-definitions.h" namespace v8 { namespace internal { class Isolate; // ExternalReferenceTable is a helper class that defines the relationship // between external references and their encodings. It is used to build // hashmaps in ExternalReferenceEncoder and ExternalReferenceDecoder. class ExternalReferenceTable { public: // For the nullptr ref, see the constructor. static constexpr int kSpecialReferenceCount = 1; static constexpr int kExternalReferenceCountIsolateIndependent = ExternalReference::kExternalReferenceCountIsolateIndependent; static constexpr int kExternalReferenceCountIsolateDependent = ExternalReference::kExternalReferenceCountIsolateDependent; static constexpr int kBuiltinsReferenceCount = #define COUNT_C_BUILTIN(...) +1 BUILTIN_LIST_C(COUNT_C_BUILTIN); #undef COUNT_C_BUILTIN static constexpr int kRuntimeReferenceCount = Runtime::kNumFunctions - Runtime::kNumInlineFunctions; // Don't count dupe kInline... functions. static constexpr int kIsolateAddressReferenceCount = kIsolateAddressCount; static constexpr int kAccessorReferenceCount = Accessors::kAccessorInfoCount + Accessors::kAccessorSetterCount; // The number of stub cache external references, see AddStubCache. static constexpr int kStubCacheReferenceCount = 12; static constexpr int kStatsCountersReferenceCount = #define SC(...) +1 STATS_COUNTER_NATIVE_CODE_LIST(SC); #undef SC static constexpr int kSizeIsolateIndependent = kSpecialReferenceCount + kExternalReferenceCountIsolateIndependent + kBuiltinsReferenceCount + kRuntimeReferenceCount + kAccessorReferenceCount; static constexpr int kSize = kSizeIsolateIndependent + kExternalReferenceCountIsolateDependent + kIsolateAddressReferenceCount + kStubCacheReferenceCount + kStatsCountersReferenceCount; static constexpr uint32_t kEntrySize = static_cast(kSystemPointerSize); static constexpr uint32_t kSizeInBytes = kSize * kEntrySize + 2 * kUInt32Size; Address address(uint32_t i) const { return ref_addr_[i]; } const char* name(uint32_t i) const { return ref_name_[i]; } bool is_initialized() const { return is_initialized_ != 0; } static const char* ResolveSymbol(void* address); static constexpr uint32_t OffsetOfEntry(uint32_t i) { // Used in CodeAssembler::LookupExternalReference. return i * kEntrySize; } static void InitializeOncePerProcess(); static const char* NameOfIsolateIndependentAddress(Address address); const char* NameFromOffset(uint32_t offset) { DCHECK_EQ(offset % kEntrySize, 0); DCHECK_LT(offset, kSizeInBytes); int index = offset / kEntrySize; return name(index); } ExternalReferenceTable() = default; ExternalReferenceTable(const ExternalReferenceTable&) = delete; ExternalReferenceTable& operator=(const ExternalReferenceTable&) = delete; void Init(Isolate* isolate); private: static void AddIsolateIndependent(Address address, int* index); static void AddIsolateIndependentReferences(int* index); static void AddBuiltins(int* index); static void AddRuntimeFunctions(int* index); static void AddAccessors(int* index); void Add(Address address, int* index); void CopyIsolateIndependentReferences(int* index); void AddIsolateDependentReferences(Isolate* isolate, int* index); void AddIsolateAddresses(Isolate* isolate, int* index); void AddStubCache(Isolate* isolate, int* index); Address GetStatsCounterAddress(StatsCounter* counter); void AddNativeCodeStatsCounters(Isolate* isolate, int* index); STATIC_ASSERT(sizeof(Address) == kEntrySize); Address ref_addr_[kSize]; static const char* const ref_name_[kSize]; // Not bool to guarantee deterministic size. uint32_t is_initialized_ = 0; // Redirect disabled stats counters to this field. This is done to make sure // we can have a snapshot that includes native counters even when the embedder // isn't collecting them. // This field is uint32_t since the MacroAssembler and CodeStubAssembler // accesses this field as a uint32_t. uint32_t dummy_stats_counter_ = 0; }; STATIC_ASSERT(ExternalReferenceTable::kSizeInBytes == sizeof(ExternalReferenceTable)); } // namespace internal } // namespace v8 #endif // V8_CODEGEN_EXTERNAL_REFERENCE_TABLE_H_