runtime/vm/kernel_loader.h - sdk.git - Git at Google

 // Copyright (c) 2016, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #ifndef RUNTIME_VM_KERNEL_LOADER_H_
 #define RUNTIME_VM_KERNEL_LOADER_H_

 #if !defined(DART_PRECOMPILED_RUNTIME)
 #include <map>

 #include "vm/compiler/frontend/kernel_binary_flowgraph.h"
 #include "vm/compiler/frontend/kernel_to_il.h"
 #include "vm/kernel.h"
 #include "vm/object.h"

 namespace dart {
 namespace kernel {

 class KernelLoader;

 class BuildingTranslationHelper : public TranslationHelper {
  public:
   BuildingTranslationHelper(KernelLoader* loader, Thread* thread)
       : TranslationHelper(thread), loader_(loader) {}
   virtual ~BuildingTranslationHelper() {}

   virtual RawLibrary* LookupLibraryByKernelLibrary(NameIndex library);
   virtual RawClass* LookupClassByKernelClass(NameIndex klass);

  private:
   KernelLoader* loader_;
 };

 template <typename VmType>
 class Mapping {
  public:
   bool Lookup(intptr_t canonical_name, VmType** handle) {
     typename MapType::Pair* pair = map_.LookupPair(canonical_name);
     if (pair != NULL) {
       *handle = pair->value;
       return true;
     }
     return false;
   }

   void Insert(intptr_t canonical_name, VmType* object) {
     map_.Insert(canonical_name, object);
   }

  private:
   typedef IntMap<VmType*> MapType;
   MapType map_;
 };

 class LibraryIndex {
  public:
   // |kernel_data| is the kernel data for one library alone.
   explicit LibraryIndex(const TypedData& kernel_data);

   intptr_t class_count() const { return class_count_; }
   intptr_t procedure_count() const { return procedure_count_; }

   intptr_t ClassOffset(intptr_t index) const {
     return reader_.ReadUInt32At(class_index_offset_ + index * 4);
   }

   intptr_t ProcedureOffset(intptr_t index) const {
     return reader_.ReadUInt32At(procedure_index_offset_ + index * 4);
   }

   intptr_t SizeOfClassAtOffset(intptr_t class_offset) const {
     for (intptr_t i = 0, offset = class_index_offset_; i < class_count_;
          ++i, offset += 4) {
       if (static_cast<intptr_t>(reader_.ReadUInt32At(offset)) == class_offset) {
         return reader_.ReadUInt32At(offset + 4) - class_offset;
       }
     }
     UNREACHABLE();
     return -1;
   }

  private:
   Reader reader_;
   intptr_t class_index_offset_;
   intptr_t class_count_;
   intptr_t procedure_index_offset_;
   intptr_t procedure_count_;

   DISALLOW_COPY_AND_ASSIGN(LibraryIndex);
 };

 class ClassIndex {
  public:
   // |class_offset| is the offset of class' kernel data in |buffer| of
   // size |size|. The size of the class' kernel data is |class_size|.
   ClassIndex(const uint8_t* buffer,
              intptr_t buffer_size,
              intptr_t class_offset,
              intptr_t class_size);

   // |class_offset| is the offset of class' kernel data in |kernel_data|.
   // The size of the class' kernel data is |class_size|.
   ClassIndex(const TypedData& kernel_data,
              intptr_t class_offset,
              intptr_t class_size);

   intptr_t procedure_count() const { return procedure_count_; }

   intptr_t ProcedureOffset(intptr_t index) const {
     return reader_.ReadUInt32At(procedure_index_offset_ + index * 4);
   }

  private:
   void Init(intptr_t class_offset, intptr_t class_size);

   Reader reader_;
   intptr_t procedure_count_;
   intptr_t procedure_index_offset_;

   DISALLOW_COPY_AND_ASSIGN(ClassIndex);
 };

 class KernelLoader {
  public:
   explicit KernelLoader(Program* program);
   static Object& LoadEntireProgram(Program* program);

   // Returns the library containing the main procedure, null if there
   // was no main procedure, or a failure object if there was an error.
   Object& LoadProgram(bool process_pending_classes = true);

   // Finds all libraries that have been modified in this incremental
   // version of the kernel program file.
   static void FindModifiedLibraries(Program* program,
                                     Isolate* isolate,
                                     BitVector* modified_libs,
                                     bool force_reload);

   void LoadLibrary(intptr_t index);

   static void FinishLoading(const Class& klass);

   const Array& ReadConstantTable();
   RawString* DetectExternalName();
   void AnnotateNativeProcedures(const Array& constant_table);
   void LoadNativeExtensionLibraries(const Array& constant_table);

   const String& DartSymbolPlain(StringIndex index) {
     return translation_helper_.DartSymbolPlain(index);
   }
   const String& DartSymbolObfuscate(StringIndex index) {
     return translation_helper_.DartSymbolObfuscate(index);
   }

   const String& LibraryUri(intptr_t library_index) {
     return translation_helper_.DartSymbolPlain(
         translation_helper_.CanonicalNameString(
             library_canonical_name(library_index)));
   }

   intptr_t library_offset(intptr_t index) {
     kernel::Reader reader(program_->kernel_data(),
                           program_->kernel_data_size());
     return reader.ReadFromIndexNoReset(reader.size(),
                                        LibraryCountFieldCountFromEnd + 1,
                                        program_->library_count() + 1, index);
   }

   NameIndex library_canonical_name(intptr_t index) {
     kernel::Reader reader(program_->kernel_data(),
                           program_->kernel_data_size());
     reader.set_offset(library_offset(index));

     // Start reading library.
     reader.ReadFlags();
     return reader.ReadCanonicalNameReference();
   }

   uint8_t CharacterAt(StringIndex string_index, intptr_t index);

  private:
   friend class BuildingTranslationHelper;

   KernelLoader(const Script& script,
                const TypedData& kernel_data,
                intptr_t data_program_offset);

   void initialize_fields();
   static void index_programs(kernel::Reader* reader,
                              GrowableArray<intptr_t>* subprogram_file_starts);
   void walk_incremental_kernel(BitVector* modified_libs);

   void LoadPreliminaryClass(ClassHelper* class_helper,
                             intptr_t type_parameter_count);

   void CheckForInitializer(const Field& field);

   void FixCoreLibraryScriptUri(const Library& library, const Script& script);

   Class& LoadClass(const Library& library,
                    const Class& toplevel_class,
                    intptr_t class_end);

   void FinishClassLoading(const Class& klass,
                           const Library& library,
                           const Class& toplevel_class,
                           intptr_t class_offset,
                           const ClassIndex& class_index,
                           ClassHelper* class_helper);

   void LoadProcedure(const Library& library,
                      const Class& owner,
                      bool in_class,
                      intptr_t procedure_end);

   RawArray* MakeFunctionsArray();

   RawScript* LoadScriptAt(intptr_t index);

   // If klass's script is not the script at the uri index, return a PatchClass
   // for klass whose script corresponds to the uri index.
   // Otherwise return klass.
   const Object& ClassForScriptAt(const Class& klass, intptr_t source_uri_index);
   RawScript* ScriptAt(intptr_t source_uri_index,
                       StringIndex import_uri = StringIndex());

   void GenerateFieldAccessors(const Class& klass,
                               const Field& field,
                               FieldHelper* field_helper);

   void SetupFieldAccessorFunction(const Class& klass,
                                   const Function& function,
                                   const AbstractType& field_type);

   void LoadLibraryImportsAndExports(Library* library);

   Library& LookupLibrary(NameIndex library);
   Class& LookupClass(NameIndex klass);

   RawFunction::Kind GetFunctionType(ProcedureHelper::Kind procedure_kind);

   void EnsureExternalClassIsLookedUp() {
     if (external_name_class_.IsNull()) {
       ASSERT(external_name_field_.IsNull());
       const Library& internal_lib =
           Library::Handle(zone_, dart::Library::InternalLibrary());
       external_name_class_ = internal_lib.LookupClass(Symbols::ExternalName());
       external_name_field_ = external_name_class_.LookupField(Symbols::name());
     } else {
       ASSERT(!external_name_field_.IsNull());
     }
   }

   void EnsurePotentialNatives() {
     potential_natives_ = kernel_program_info_.potential_natives();
     if (potential_natives_.IsNull()) {
       // To avoid too many grows in this array, we'll set it's initial size to
       // something close to the actual number of potential native functions.
       potential_natives_ = GrowableObjectArray::New(100, Heap::kNew);
       kernel_program_info_.set_potential_natives(potential_natives_);
     }
   }

   void EnsurePotentialExtensionLibraries() {
     if (potential_extension_libraries_.IsNull()) {
       potential_extension_libraries_ = GrowableObjectArray::New();
     }
   }

   Program* program_;

   Thread* thread_;
   Zone* zone_;
   Isolate* isolate_;
   Array& patch_classes_;
   ActiveClass active_class_;
   // This is the offset of the current library within
   // the whole kernel program.
   intptr_t library_kernel_offset_;
   // This is the offset by which offsets, which are set relative
   // to their library's kernel data, have to be corrected.
   intptr_t correction_offset_;
   bool loading_native_wrappers_library_;

   NameIndex skip_vmservice_library_;

   TypedData& library_kernel_data_;
   KernelProgramInfo& kernel_program_info_;
   BuildingTranslationHelper translation_helper_;
   StreamingFlowGraphBuilder builder_;

   Class& external_name_class_;
   Field& external_name_field_;
   GrowableObjectArray& potential_natives_;
   GrowableObjectArray& potential_extension_libraries_;

   Mapping<Library> libraries_;
   Mapping<Class> classes_;

   GrowableArray<const Function*> functions_;
   GrowableArray<const Field*> fields_;
 };

 class ClassLoader {
  public:
   void LoadClassMembers();
 };

 }  // namespace kernel
 }  // namespace dart

 #endif  // !defined(DART_PRECOMPILED_RUNTIME)
 #endif  // RUNTIME_VM_KERNEL_LOADER_H_
	// Copyright (c) 2016, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#ifndef RUNTIME_VM_KERNEL_LOADER_H_
	#define RUNTIME_VM_KERNEL_LOADER_H_

	#if !defined(DART_PRECOMPILED_RUNTIME)
	#include <map>

	#include "vm/compiler/frontend/kernel_binary_flowgraph.h"
	#include "vm/compiler/frontend/kernel_to_il.h"
	#include "vm/kernel.h"
	#include "vm/object.h"

	namespace dart {
	namespace kernel {

	class KernelLoader;

	class BuildingTranslationHelper : public TranslationHelper {
	public:
	BuildingTranslationHelper(KernelLoader* loader, Thread* thread)
	: TranslationHelper(thread), loader_(loader) {}
	virtual ~BuildingTranslationHelper() {}

	virtual RawLibrary* LookupLibraryByKernelLibrary(NameIndex library);
	virtual RawClass* LookupClassByKernelClass(NameIndex klass);

	private:
	KernelLoader* loader_;
	};

	template <typename VmType>
	class Mapping {
	public:
	bool Lookup(intptr_t canonical_name, VmType** handle) {
	typename MapType::Pair* pair = map_.LookupPair(canonical_name);
	if (pair != NULL) {
	*handle = pair->value;
	return true;
	}
	return false;
	}

	void Insert(intptr_t canonical_name, VmType* object) {
	map_.Insert(canonical_name, object);
	}

	private:
	typedef IntMap<VmType*> MapType;
	MapType map_;
	};

	class LibraryIndex {
	public:
	// \|kernel_data\| is the kernel data for one library alone.
	explicit LibraryIndex(const TypedData& kernel_data);

	intptr_t class_count() const { return class_count_; }
	intptr_t procedure_count() const { return procedure_count_; }

	intptr_t ClassOffset(intptr_t index) const {
	return reader_.ReadUInt32At(class_index_offset_ + index * 4);
	}

	intptr_t ProcedureOffset(intptr_t index) const {
	return reader_.ReadUInt32At(procedure_index_offset_ + index * 4);
	}

	intptr_t SizeOfClassAtOffset(intptr_t class_offset) const {
	for (intptr_t i = 0, offset = class_index_offset_; i < class_count_;
	++i, offset += 4) {
	if (static_cast<intptr_t>(reader_.ReadUInt32At(offset)) == class_offset) {
	return reader_.ReadUInt32At(offset + 4) - class_offset;
	}
	}
	UNREACHABLE();
	return -1;
	}

	private:
	Reader reader_;
	intptr_t class_index_offset_;
	intptr_t class_count_;
	intptr_t procedure_index_offset_;
	intptr_t procedure_count_;

	DISALLOW_COPY_AND_ASSIGN(LibraryIndex);
	};

	class ClassIndex {
	public:
	// \|class_offset\| is the offset of class' kernel data in \|buffer\| of
	// size \|size\|. The size of the class' kernel data is \|class_size\|.
	ClassIndex(const uint8_t* buffer,
	intptr_t buffer_size,
	intptr_t class_offset,
	intptr_t class_size);

	// \|class_offset\| is the offset of class' kernel data in \|kernel_data\|.
	// The size of the class' kernel data is \|class_size\|.
	ClassIndex(const TypedData& kernel_data,
	intptr_t class_offset,
	intptr_t class_size);

	intptr_t procedure_count() const { return procedure_count_; }

	intptr_t ProcedureOffset(intptr_t index) const {
	return reader_.ReadUInt32At(procedure_index_offset_ + index * 4);
	}

	private:
	void Init(intptr_t class_offset, intptr_t class_size);

	Reader reader_;
	intptr_t procedure_count_;
	intptr_t procedure_index_offset_;

	DISALLOW_COPY_AND_ASSIGN(ClassIndex);
	};

	class KernelLoader {
	public:
	explicit KernelLoader(Program* program);
	static Object& LoadEntireProgram(Program* program);

	// Returns the library containing the main procedure, null if there
	// was no main procedure, or a failure object if there was an error.
	Object& LoadProgram(bool process_pending_classes = true);

	// Finds all libraries that have been modified in this incremental
	// version of the kernel program file.
	static void FindModifiedLibraries(Program* program,
	Isolate* isolate,
	BitVector* modified_libs,
	bool force_reload);

	void LoadLibrary(intptr_t index);

	static void FinishLoading(const Class& klass);

	const Array& ReadConstantTable();
	RawString* DetectExternalName();
	void AnnotateNativeProcedures(const Array& constant_table);
	void LoadNativeExtensionLibraries(const Array& constant_table);

	const String& DartSymbolPlain(StringIndex index) {
	return translation_helper_.DartSymbolPlain(index);
	}
	const String& DartSymbolObfuscate(StringIndex index) {
	return translation_helper_.DartSymbolObfuscate(index);
	}

	const String& LibraryUri(intptr_t library_index) {
	return translation_helper_.DartSymbolPlain(
	translation_helper_.CanonicalNameString(
	library_canonical_name(library_index)));
	}

	intptr_t library_offset(intptr_t index) {
	kernel::Reader reader(program_->kernel_data(),
	program_->kernel_data_size());
	return reader.ReadFromIndexNoReset(reader.size(),
	LibraryCountFieldCountFromEnd + 1,
	program_->library_count() + 1, index);
	}

	NameIndex library_canonical_name(intptr_t index) {
	kernel::Reader reader(program_->kernel_data(),
	program_->kernel_data_size());
	reader.set_offset(library_offset(index));

	// Start reading library.
	reader.ReadFlags();
	return reader.ReadCanonicalNameReference();
	}

	uint8_t CharacterAt(StringIndex string_index, intptr_t index);

	private:
	friend class BuildingTranslationHelper;

	KernelLoader(const Script& script,
	const TypedData& kernel_data,
	intptr_t data_program_offset);

	void initialize_fields();
	static void index_programs(kernel::Reader* reader,
	GrowableArray<intptr_t>* subprogram_file_starts);
	void walk_incremental_kernel(BitVector* modified_libs);

	void LoadPreliminaryClass(ClassHelper* class_helper,
	intptr_t type_parameter_count);

	void CheckForInitializer(const Field& field);

	void FixCoreLibraryScriptUri(const Library& library, const Script& script);

	Class& LoadClass(const Library& library,
	const Class& toplevel_class,
	intptr_t class_end);

	void FinishClassLoading(const Class& klass,
	const Library& library,
	const Class& toplevel_class,
	intptr_t class_offset,
	const ClassIndex& class_index,
	ClassHelper* class_helper);

	void LoadProcedure(const Library& library,
	const Class& owner,
	bool in_class,
	intptr_t procedure_end);

	RawArray* MakeFunctionsArray();

	RawScript* LoadScriptAt(intptr_t index);

	// If klass's script is not the script at the uri index, return a PatchClass
	// for klass whose script corresponds to the uri index.
	// Otherwise return klass.
	const Object& ClassForScriptAt(const Class& klass, intptr_t source_uri_index);
	RawScript* ScriptAt(intptr_t source_uri_index,
	StringIndex import_uri = StringIndex());

	void GenerateFieldAccessors(const Class& klass,
	const Field& field,
	FieldHelper* field_helper);

	void SetupFieldAccessorFunction(const Class& klass,
	const Function& function,
	const AbstractType& field_type);

	void LoadLibraryImportsAndExports(Library* library);

	Library& LookupLibrary(NameIndex library);
	Class& LookupClass(NameIndex klass);

	RawFunction::Kind GetFunctionType(ProcedureHelper::Kind procedure_kind);

	void EnsureExternalClassIsLookedUp() {
	if (external_name_class_.IsNull()) {
	ASSERT(external_name_field_.IsNull());
	const Library& internal_lib =
	Library::Handle(zone_, dart::Library::InternalLibrary());
	external_name_class_ = internal_lib.LookupClass(Symbols::ExternalName());
	external_name_field_ = external_name_class_.LookupField(Symbols::name());
	} else {
	ASSERT(!external_name_field_.IsNull());
	}
	}

	void EnsurePotentialNatives() {
	potential_natives_ = kernel_program_info_.potential_natives();
	if (potential_natives_.IsNull()) {
	// To avoid too many grows in this array, we'll set it's initial size to
	// something close to the actual number of potential native functions.
	potential_natives_ = GrowableObjectArray::New(100, Heap::kNew);
	kernel_program_info_.set_potential_natives(potential_natives_);
	}
	}

	void EnsurePotentialExtensionLibraries() {
	if (potential_extension_libraries_.IsNull()) {
	potential_extension_libraries_ = GrowableObjectArray::New();
	}
	}

	Program* program_;

	Thread* thread_;
	Zone* zone_;
	Isolate* isolate_;
	Array& patch_classes_;
	ActiveClass active_class_;
	// This is the offset of the current library within
	// the whole kernel program.
	intptr_t library_kernel_offset_;
	// This is the offset by which offsets, which are set relative
	// to their library's kernel data, have to be corrected.
	intptr_t correction_offset_;
	bool loading_native_wrappers_library_;

	NameIndex skip_vmservice_library_;

	TypedData& library_kernel_data_;
	KernelProgramInfo& kernel_program_info_;
	BuildingTranslationHelper translation_helper_;
	StreamingFlowGraphBuilder builder_;

	Class& external_name_class_;
	Field& external_name_field_;
	GrowableObjectArray& potential_natives_;
	GrowableObjectArray& potential_extension_libraries_;

	Mapping<Library> libraries_;
	Mapping<Class> classes_;

	GrowableArray<const Function*> functions_;
	GrowableArray<const Field*> fields_;
	};

	class ClassLoader {
	public:
	void LoadClassMembers();
	};

	} // namespace kernel
	} // namespace dart

	#endif // !defined(DART_PRECOMPILED_RUNTIME)
	#endif // RUNTIME_VM_KERNEL_LOADER_H_