// Copyright 2019 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. // This file defines internal versions of the public API structs. These should // all be tidy and simple classes which maintain proper ownership (unique_ptr) // of each other. Each contains an instance of its corresponding public type, // which can be filled out with GetPublicView. #ifndef V8_TOOLS_DEBUG_HELPER_DEBUG_HELPER_INTERNAL_H_ #define V8_TOOLS_DEBUG_HELPER_DEBUG_HELPER_INTERNAL_H_ #include #include #include #include "debug-helper.h" #include "src/objects/instance-type.h" namespace d = v8::debug_helper; namespace v8_debug_helper_internal { // A value that was read from the debuggee's memory. template struct Value { d::MemoryAccessResult validity; TValue value; }; // Internal version of API class v8::debug_helper::ObjectProperty. class ObjectProperty { public: inline ObjectProperty(std::string name, std::string type, std::string decompressed_type, uintptr_t address, size_t num_values = 1, d::PropertyKind kind = d::PropertyKind::kSingle) : name_(name), type_(type), decompressed_type_(decompressed_type), address_(address), num_values_(num_values), kind_(kind) {} inline d::ObjectProperty* GetPublicView() { public_view_.name = name_.c_str(); public_view_.type = type_.c_str(); public_view_.decompressed_type = decompressed_type_.c_str(); public_view_.address = address_; public_view_.num_values = num_values_; public_view_.kind = kind_; return &public_view_; } private: std::string name_; std::string type_; std::string decompressed_type_; uintptr_t address_; size_t num_values_; d::PropertyKind kind_; d::ObjectProperty public_view_; }; class ObjectPropertiesResult; using ObjectPropertiesResultInternal = ObjectPropertiesResult; struct ObjectPropertiesResultExtended : public d::ObjectPropertiesResult { ObjectPropertiesResultInternal* base; // Back reference for cleanup }; // Internal version of API class v8::debug_helper::ObjectPropertiesResult. class ObjectPropertiesResult { public: ObjectPropertiesResult(d::TypeCheckResult type_check_result, std::string brief, std::string type) : type_check_result_(type_check_result), brief_(brief), type_(type) {} ObjectPropertiesResult( d::TypeCheckResult type_check_result, std::string brief, std::string type, std::vector> properties, std::vector guessed_types) : ObjectPropertiesResult(type_check_result, brief, type) { properties_ = std::move(properties); guessed_types_ = std::move(guessed_types); } inline void Prepend(const char* prefix) { brief_ = prefix + brief_; } inline d::ObjectPropertiesResult* GetPublicView() { public_view_.type_check_result = type_check_result_; public_view_.brief = brief_.c_str(); public_view_.type = type_.c_str(); public_view_.num_properties = properties_.size(); properties_raw_.clear(); for (const auto& property : properties_) { properties_raw_.push_back(property->GetPublicView()); } public_view_.properties = properties_raw_.data(); public_view_.num_guessed_types = guessed_types_.size(); guessed_types_raw_.clear(); for (const auto& guess : guessed_types_) { guessed_types_raw_.push_back(guess.c_str()); } public_view_.guessed_types = guessed_types_raw_.data(); public_view_.base = this; return &public_view_; } private: d::TypeCheckResult type_check_result_; std::string brief_; std::string type_; std::vector> properties_; std::vector guessed_types_; ObjectPropertiesResultExtended public_view_; std::vector properties_raw_; std::vector guessed_types_raw_; }; class TqObjectVisitor; // Base class representing a V8 object in the debuggee's address space. // Subclasses for specific object types are generated by the Torque compiler. class TqObject { public: inline TqObject(uintptr_t address) : address_(address) {} virtual ~TqObject() = default; virtual std::vector> GetProperties( d::MemoryAccessor accessor) const; virtual const char* GetName() const; virtual void Visit(TqObjectVisitor* visitor) const; virtual bool IsSuperclassOf(const TqObject* other) const; protected: uintptr_t address_; }; // In ptr-compr builds, returns whether the address looks like a compressed // pointer (sign-extended from 32 bits). Otherwise returns false because no // pointers can be compressed. bool IsPointerCompressed(uintptr_t address); // If the given address looks like a compressed pointer, returns a decompressed // representation of it. Otherwise returns the address unmodified. uintptr_t EnsureDecompressed(uintptr_t address, uintptr_t any_uncompressed_address); // Converts the MemoryAccessResult from attempting to read an array's length // into the corresponding PropertyKind for the array. d::PropertyKind GetArrayKind(d::MemoryAccessResult mem_result); } // namespace v8_debug_helper_internal #endif