third_party/v8/tools/v8windbg/src/v8-debug-helper-interop.cc - cobalt - Git at Google

 // Copyright 2020 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.

 #include "tools/v8windbg/src/v8-debug-helper-interop.h"

 #include <Windows.h>
 #include <crtdbg.h>

 #include "src/common/globals.h"
 #include "tools/debug_helper/debug-helper.h"
 #include "tools/v8windbg/base/utilities.h"
 #include "tools/v8windbg/src/v8windbg-extension.h"

 namespace d = v8::debug_helper;

 // We need a plain C function pointer for interop with v8_debug_helper. We can
 // use this to get one as long as we never need two at once.
 class MemReaderScope {
  public:
   explicit MemReaderScope(WRL::ComPtr<IDebugHostContext> sp_context)
       : sp_context_(sp_context) {
     _ASSERTE(!context_);
     context_ = sp_context_.Get();
   }
   ~MemReaderScope() { context_ = nullptr; }
   d::MemoryAccessor GetReader() { return &MemReaderScope::Read; }

  private:
   MemReaderScope(const MemReaderScope&) = delete;
   MemReaderScope& operator=(const MemReaderScope&) = delete;
   static d::MemoryAccessResult Read(uintptr_t address, void* destination,
                                     size_t byte_count) {
     ULONG64 bytes_read;
     Location loc{address};
     HRESULT hr = sp_debug_host_memory->ReadBytes(context_, loc, destination,
                                                  byte_count, &bytes_read);
     // TODO determine when an address is valid but inaccessible
     return SUCCEEDED(hr) ? d::MemoryAccessResult::kOk
                          : d::MemoryAccessResult::kAddressNotValid;
   }
   WRL::ComPtr<IDebugHostContext> sp_context_;
   static IDebugHostContext* context_;
 };
 IDebugHostContext* MemReaderScope::context_;

 StructField::StructField(std::u16string field_name, std::u16string type_name,
                          std::string uncompressed_type_name, uint64_t offset,
                          uint8_t num_bits, uint8_t shift_bits)
     : name(field_name),
       type_name(type_name),
       uncompressed_type_name(uncompressed_type_name),
       offset(offset),
       num_bits(num_bits),
       shift_bits(shift_bits) {}
 StructField::~StructField() = default;
 StructField::StructField(const StructField&) = default;
 StructField::StructField(StructField&&) = default;
 StructField& StructField::operator=(const StructField&) = default;
 StructField& StructField::operator=(StructField&&) = default;

 Property::Property(std::u16string property_name, std::u16string type_name,
                    std::string uncompressed_type_name, uint64_t address,
                    size_t item_size)
     : name(property_name),
       type(PropertyType::kPointer),
       type_name(type_name),
       uncompressed_type_name(uncompressed_type_name),
       addr_value(address),
       item_size(item_size) {}
 Property::~Property() = default;
 Property::Property(const Property&) = default;
 Property::Property(Property&&) = default;
 Property& Property::operator=(const Property&) = default;
 Property& Property::operator=(Property&&) = default;

 V8HeapObject::V8HeapObject() = default;
 V8HeapObject::~V8HeapObject() = default;
 V8HeapObject::V8HeapObject(const V8HeapObject&) = default;
 V8HeapObject::V8HeapObject(V8HeapObject&&) = default;
 V8HeapObject& V8HeapObject::operator=(const V8HeapObject&) = default;
 V8HeapObject& V8HeapObject::operator=(V8HeapObject&&) = default;

 std::vector<Property> GetPropertiesAsVector(size_t num_properties,
                                             d::ObjectProperty** properties) {
   std::vector<Property> result;
   for (size_t property_index = 0; property_index < num_properties;
        ++property_index) {
     const auto& source_prop = *(properties)[property_index];
     Property dest_prop(ConvertToU16String(source_prop.name),
                        ConvertToU16String(source_prop.type),
                        source_prop.decompressed_type, source_prop.address,
                        source_prop.size);
     if (source_prop.kind != d::PropertyKind::kSingle) {
       dest_prop.type = PropertyType::kArray;
       dest_prop.length = source_prop.num_values;
     }
     if (dest_prop.type_name.empty() || source_prop.num_struct_fields > 0) {
       // If the helper library didn't provide a type, then it should have
       // provided struct fields instead. Set the struct type flag and copy the
       // fields into the result.
       dest_prop.type =
           static_cast<PropertyType>(static_cast<int>(dest_prop.type) |
                                     static_cast<int>(PropertyType::kStruct));
       for (size_t field_index = 0; field_index < source_prop.num_struct_fields;
            ++field_index) {
         const auto& struct_field = *source_prop.struct_fields[field_index];
         dest_prop.fields.push_back({ConvertToU16String(struct_field.name),
                                     ConvertToU16String(struct_field.type),
                                     struct_field.decompressed_type,
                                     struct_field.offset, struct_field.num_bits,
                                     struct_field.shift_bits});
       }
     }
     result.push_back(dest_prop);
   }
   return result;
 }

 V8HeapObject GetHeapObject(WRL::ComPtr<IDebugHostContext> sp_context,
                            uint64_t tagged_ptr, uint64_t referring_pointer,
                            const char* type_name, bool is_compressed) {
   // Read the value at the address, and see if it is a tagged pointer

   V8HeapObject obj;
   MemReaderScope reader_scope(sp_context);

   d::HeapAddresses heap_addresses = {0, 0, 0, 0};
   // TODO ideally we'd provide real heap page pointers. For now, just testing
   // decompression based on the pointer to wherever we found this value,
   // which is likely (though not guaranteed) to be a heap pointer itself.
   heap_addresses.any_heap_pointer = referring_pointer;

   auto props = d::GetObjectProperties(tagged_ptr, reader_scope.GetReader(),
                                       heap_addresses, type_name);
   obj.friendly_name = ConvertToU16String(props->brief);
   obj.properties =
       GetPropertiesAsVector(props->num_properties, props->properties);

   // For each guessed type, create a synthetic property that will request data
   // about the same object again but with a more specific type hint.
   if (referring_pointer != 0) {
     for (size_t type_index = 0; type_index < props->num_guessed_types;
          ++type_index) {
       const std::string& type_name = props->guessed_types[type_index];
       Property dest_prop(
           ConvertToU16String(("guessed type " + type_name).c_str()),
           ConvertToU16String(is_compressed ? kTaggedValue : type_name),
           type_name, referring_pointer,
           is_compressed ? i::kTaggedSize : sizeof(void*));
       obj.properties.push_back(dest_prop);
     }
   }

   return obj;
 }

 std::vector<std::u16string> ListObjectClasses() {
   const d::ClassList* class_list = d::ListObjectClasses();
   std::vector<std::u16string> result;
   for (size_t i = 0; i < class_list->num_class_names; ++i) {
     result.push_back(ConvertToU16String(class_list->class_names[i]));
   }
   return result;
 }

 const char* BitsetName(uint64_t payload) { return d::BitsetName(payload); }

 std::vector<Property> GetStackFrame(WRL::ComPtr<IDebugHostContext> sp_context,

                                     uint64_t frame_pointer) {
   MemReaderScope reader_scope(sp_context);
   auto props = d::GetStackFrame(static_cast<uintptr_t>(frame_pointer),
                                 reader_scope.GetReader());
   return GetPropertiesAsVector(props->num_properties, props->properties);
 }
	// Copyright 2020 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.

	#include "tools/v8windbg/src/v8-debug-helper-interop.h"

	#include <Windows.h>
	#include <crtdbg.h>

	#include "src/common/globals.h"
	#include "tools/debug_helper/debug-helper.h"
	#include "tools/v8windbg/base/utilities.h"
	#include "tools/v8windbg/src/v8windbg-extension.h"

	namespace d = v8::debug_helper;

	// We need a plain C function pointer for interop with v8_debug_helper. We can
	// use this to get one as long as we never need two at once.
	class MemReaderScope {
	public:
	explicit MemReaderScope(WRL::ComPtr<IDebugHostContext> sp_context)
	: sp_context_(sp_context) {
	_ASSERTE(!context_);
	context_ = sp_context_.Get();
	}
	~MemReaderScope() { context_ = nullptr; }
	d::MemoryAccessor GetReader() { return &MemReaderScope::Read; }

	private:
	MemReaderScope(const MemReaderScope&) = delete;
	MemReaderScope& operator=(const MemReaderScope&) = delete;
	static d::MemoryAccessResult Read(uintptr_t address, void* destination,
	size_t byte_count) {
	ULONG64 bytes_read;
	Location loc{address};
	HRESULT hr = sp_debug_host_memory->ReadBytes(context_, loc, destination,
	byte_count, &bytes_read);
	// TODO determine when an address is valid but inaccessible
	return SUCCEEDED(hr) ? d::MemoryAccessResult::kOk
	: d::MemoryAccessResult::kAddressNotValid;
	}
	WRL::ComPtr<IDebugHostContext> sp_context_;
	static IDebugHostContext* context_;
	};
	IDebugHostContext* MemReaderScope::context_;

	StructField::StructField(std::u16string field_name, std::u16string type_name,
	std::string uncompressed_type_name, uint64_t offset,
	uint8_t num_bits, uint8_t shift_bits)
	: name(field_name),
	type_name(type_name),
	uncompressed_type_name(uncompressed_type_name),
	offset(offset),
	num_bits(num_bits),
	shift_bits(shift_bits) {}
	StructField::~StructField() = default;
	StructField::StructField(const StructField&) = default;
	StructField::StructField(StructField&&) = default;
	StructField& StructField::operator=(const StructField&) = default;
	StructField& StructField::operator=(StructField&&) = default;

	Property::Property(std::u16string property_name, std::u16string type_name,
	std::string uncompressed_type_name, uint64_t address,
	size_t item_size)
	: name(property_name),
	type(PropertyType::kPointer),
	type_name(type_name),
	uncompressed_type_name(uncompressed_type_name),
	addr_value(address),
	item_size(item_size) {}
	Property::~Property() = default;
	Property::Property(const Property&) = default;
	Property::Property(Property&&) = default;
	Property& Property::operator=(const Property&) = default;
	Property& Property::operator=(Property&&) = default;

	V8HeapObject::V8HeapObject() = default;
	V8HeapObject::~V8HeapObject() = default;
	V8HeapObject::V8HeapObject(const V8HeapObject&) = default;
	V8HeapObject::V8HeapObject(V8HeapObject&&) = default;
	V8HeapObject& V8HeapObject::operator=(const V8HeapObject&) = default;
	V8HeapObject& V8HeapObject::operator=(V8HeapObject&&) = default;

	std::vector<Property> GetPropertiesAsVector(size_t num_properties,
	d::ObjectProperty** properties) {
	std::vector<Property> result;
	for (size_t property_index = 0; property_index < num_properties;
	++property_index) {
	const auto& source_prop = *(properties)[property_index];
	Property dest_prop(ConvertToU16String(source_prop.name),
	ConvertToU16String(source_prop.type),
	source_prop.decompressed_type, source_prop.address,
	source_prop.size);
	if (source_prop.kind != d::PropertyKind::kSingle) {
	dest_prop.type = PropertyType::kArray;
	dest_prop.length = source_prop.num_values;
	}
	if (dest_prop.type_name.empty() \|\| source_prop.num_struct_fields > 0) {
	// If the helper library didn't provide a type, then it should have
	// provided struct fields instead. Set the struct type flag and copy the
	// fields into the result.
	dest_prop.type =
	static_cast<PropertyType>(static_cast<int>(dest_prop.type) \|
	static_cast<int>(PropertyType::kStruct));
	for (size_t field_index = 0; field_index < source_prop.num_struct_fields;
	++field_index) {
	const auto& struct_field = *source_prop.struct_fields[field_index];
	dest_prop.fields.push_back({ConvertToU16String(struct_field.name),
	ConvertToU16String(struct_field.type),
	struct_field.decompressed_type,
	struct_field.offset, struct_field.num_bits,
	struct_field.shift_bits});
	}
	}
	result.push_back(dest_prop);
	}
	return result;
	}

	V8HeapObject GetHeapObject(WRL::ComPtr<IDebugHostContext> sp_context,
	uint64_t tagged_ptr, uint64_t referring_pointer,
	const char* type_name, bool is_compressed) {
	// Read the value at the address, and see if it is a tagged pointer

	V8HeapObject obj;
	MemReaderScope reader_scope(sp_context);

	d::HeapAddresses heap_addresses = {0, 0, 0, 0};
	// TODO ideally we'd provide real heap page pointers. For now, just testing
	// decompression based on the pointer to wherever we found this value,
	// which is likely (though not guaranteed) to be a heap pointer itself.
	heap_addresses.any_heap_pointer = referring_pointer;

	auto props = d::GetObjectProperties(tagged_ptr, reader_scope.GetReader(),
	heap_addresses, type_name);
	obj.friendly_name = ConvertToU16String(props->brief);
	obj.properties =
	GetPropertiesAsVector(props->num_properties, props->properties);

	// For each guessed type, create a synthetic property that will request data
	// about the same object again but with a more specific type hint.
	if (referring_pointer != 0) {
	for (size_t type_index = 0; type_index < props->num_guessed_types;
	++type_index) {
	const std::string& type_name = props->guessed_types[type_index];
	Property dest_prop(
	ConvertToU16String(("guessed type " + type_name).c_str()),
	ConvertToU16String(is_compressed ? kTaggedValue : type_name),
	type_name, referring_pointer,
	is_compressed ? i::kTaggedSize : sizeof(void*));
	obj.properties.push_back(dest_prop);
	}
	}

	return obj;
	}

	std::vector<std::u16string> ListObjectClasses() {
	const d::ClassList* class_list = d::ListObjectClasses();
	std::vector<std::u16string> result;
	for (size_t i = 0; i < class_list->num_class_names; ++i) {
	result.push_back(ConvertToU16String(class_list->class_names[i]));
	}
	return result;
	}

	const char* BitsetName(uint64_t payload) { return d::BitsetName(payload); }

	std::vector<Property> GetStackFrame(WRL::ComPtr<IDebugHostContext> sp_context,

	uint64_t frame_pointer) {
	MemReaderScope reader_scope(sp_context);
	auto props = d::GetStackFrame(static_cast<uintptr_t>(frame_pointer),
	reader_scope.GetReader());
	return GetPropertiesAsVector(props->num_properties, props->properties);
	}