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/*
* Copyright (C) 2011 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef ART_SRC_CLASS_LINKER_H_
#define ART_SRC_CLASS_LINKER_H_
#include <map>
#include <string>
#include <utility>
#include <vector>
#include "dex_cache.h"
#include "dex_file.h"
#include "gtest/gtest.h"
#include "heap.h"
#include "macros.h"
#include "mutex.h"
#include "oat_file.h"
#include "object.h"
#include "stack_indirect_reference_table.h"
namespace art {
class ClassLoader;
class ImageSpace;
class InternTable;
class ObjectLock;
typedef bool (ClassVisitor)(Class* c, void* arg);
class ClassLinker {
public:
// Creates the class linker by boot strapping from dex files.
static ClassLinker* CreateFromCompiler(const std::vector<const DexFile*>& boot_class_path,
InternTable* intern_table);
// Creates the class linker from an image.
static ClassLinker* CreateFromImage(InternTable* intern_table);
~ClassLinker();
// Finds a class by its descriptor, loading it if necessary.
// If class_loader is null, searches boot_class_path_.
Class* FindClass(const char* descriptor, const ClassLoader* class_loader);
Class* FindSystemClass(const char* descriptor);
// Define a new a class based on a ClassDef from a DexFile
Class* DefineClass(const StringPiece& descriptor, const ClassLoader* class_loader,
const DexFile& dex_file, const DexFile::ClassDef& dex_class_def);
// Finds a class by its descriptor, returning NULL if it isn't wasn't loaded
// by the given 'class_loader'.
Class* LookupClass(const char* descriptor, const ClassLoader* class_loader);
// Finds all the classes with the given descriptor, regardless of ClassLoader.
void LookupClasses(const char* descriptor, std::vector<Class*>& classes);
Class* FindPrimitiveClass(char type);
// General class unloading is not supported, this is used to prune
// unwanted classes during image writing.
bool RemoveClass(const char* descriptor, const ClassLoader* class_loader);
void DumpAllClasses(int flags) const;
void DumpForSigQuit(std::ostream& os) const;
size_t NumLoadedClasses() const;
// Resolve a String with the given index from the DexFile, storing the
// result in the DexCache. The referrer is used to identify the
// target DexCache and ClassLoader to use for resolution.
String* ResolveString(uint32_t string_idx, const Method* referrer) {
String* resolved_string = referrer->GetDexCacheStrings()->Get(string_idx);
if (UNLIKELY(resolved_string == NULL)) {
Class* declaring_class = referrer->GetDeclaringClass();
DexCache* dex_cache = declaring_class->GetDexCache();
const DexFile& dex_file = FindDexFile(dex_cache);
resolved_string = ResolveString(dex_file, string_idx, dex_cache);
}
return resolved_string;
}
// Resolve a String with the given index from the DexFile, storing the
// result in the DexCache.
String* ResolveString(const DexFile& dex_file, uint32_t string_idx, DexCache* dex_cache);
// Resolve a Type with the given index from the DexFile, storing the
// result in the DexCache. The referrer is used to identity the
// target DexCache and ClassLoader to use for resolution.
Class* ResolveType(const DexFile& dex_file,
uint16_t type_idx,
const Class* referrer) {
return ResolveType(dex_file,
type_idx,
referrer->GetDexCache(),
referrer->GetClassLoader());
}
// Resolve a Type with the given index from the DexFile, storing the
// result in the DexCache. The referrer is used to identify the
// target DexCache and ClassLoader to use for resolution.
Class* ResolveType(uint16_t type_idx, const Method* referrer) {
Class* resolved_type = referrer->GetDexCacheResolvedTypes()->Get(type_idx);
if (UNLIKELY(resolved_type == NULL)) {
Class* declaring_class = referrer->GetDeclaringClass();
DexCache* dex_cache = declaring_class->GetDexCache();
const ClassLoader* class_loader = declaring_class->GetClassLoader();
const DexFile& dex_file = FindDexFile(dex_cache);
resolved_type = ResolveType(dex_file, type_idx, dex_cache, class_loader);
}
return resolved_type;
}
Class* ResolveType(uint16_t type_idx, const Field* referrer) {
Class* declaring_class = referrer->GetDeclaringClass();
DexCache* dex_cache = declaring_class->GetDexCache();
Class* resolved_type = dex_cache->GetResolvedType(type_idx);
if (UNLIKELY(resolved_type == NULL)) {
const ClassLoader* class_loader = declaring_class->GetClassLoader();
const DexFile& dex_file = FindDexFile(dex_cache);
resolved_type = ResolveType(dex_file, type_idx, dex_cache, class_loader);
}
return resolved_type;
}
// Resolve a type with the given ID from the DexFile, storing the
// result in DexCache. The ClassLoader is used to search for the
// type, since it may be referenced from but not contained within
// the given DexFile.
Class* ResolveType(const DexFile& dex_file,
uint16_t type_idx,
DexCache* dex_cache,
const ClassLoader* class_loader);
// Resolve a method with a given ID from the DexFile, storing the
// result in DexCache. The ClassLinker and ClassLoader are used as
// in ResolveType. What is unique is the method type argument which
// is used to determine if this method is a direct, static, or
// virtual method.
Method* ResolveMethod(const DexFile& dex_file,
uint32_t method_idx,
DexCache* dex_cache,
const ClassLoader* class_loader,
bool is_direct);
Method* ResolveMethod(uint32_t method_idx, const Method* referrer, bool is_direct) {
Method* resolved_method = referrer->GetDexCacheResolvedMethods()->Get(method_idx);
if (UNLIKELY(resolved_method == NULL || resolved_method->IsRuntimeMethod())) {
Class* declaring_class = referrer->GetDeclaringClass();
DexCache* dex_cache = declaring_class->GetDexCache();
const ClassLoader* class_loader = declaring_class->GetClassLoader();
const DexFile& dex_file = FindDexFile(dex_cache);
resolved_method = ResolveMethod(dex_file, method_idx, dex_cache, class_loader, is_direct);
}
return resolved_method;
}
Field* ResolveField(uint32_t field_idx, const Method* referrer, bool is_static) {
Field* resolved_field =
referrer->GetDeclaringClass()->GetDexCache()->GetResolvedField(field_idx);
if (UNLIKELY(resolved_field == NULL)) {
Class* declaring_class = referrer->GetDeclaringClass();
DexCache* dex_cache = declaring_class->GetDexCache();
const ClassLoader* class_loader = declaring_class->GetClassLoader();
const DexFile& dex_file = FindDexFile(dex_cache);
resolved_field = ResolveField(dex_file, field_idx, dex_cache, class_loader, is_static);
}
return resolved_field;
}
// Resolve a field with a given ID from the DexFile, storing the
// result in DexCache. The ClassLinker and ClassLoader are used as
// in ResolveType. What is unique is the is_static argument which is
// used to determine if we are resolving a static or non-static
// field.
Field* ResolveField(const DexFile& dex_file,
uint32_t field_idx,
DexCache* dex_cache,
const ClassLoader* class_loader,
bool is_static);
Field* ResolveFieldJLS(uint32_t field_idx, const Method* referrer) {
Field* resolved_field =
referrer->GetDeclaringClass()->GetDexCache()->GetResolvedField(field_idx);
if (UNLIKELY(resolved_field == NULL)) {
Class* declaring_class = referrer->GetDeclaringClass();
DexCache* dex_cache = declaring_class->GetDexCache();
const ClassLoader* class_loader = declaring_class->GetClassLoader();
const DexFile& dex_file = FindDexFile(dex_cache);
resolved_field = ResolveFieldJLS(dex_file, field_idx, dex_cache, class_loader);
}
return resolved_field;
}
// Resolve a field with a given ID from the DexFile, storing the
// result in DexCache. The ClassLinker and ClassLoader are used as
// in ResolveType. No is_static argument is provided so that Java
// field resolution semantics are followed.
Field* ResolveFieldJLS(const DexFile& dex_file,
uint32_t field_idx,
DexCache* dex_cache,
const ClassLoader* class_loader);
// Get shorty from method index without resolution. Used to do handlerization.
const char* MethodShorty(uint32_t method_idx, Method* referrer, uint32_t* length);
// Returns true on success, false if there's an exception pending.
// can_run_clinit=false allows the compiler to attempt to init a class,
// given the restriction that no <clinit> execution is possible.
bool EnsureInitialized(Class* c, bool can_run_clinit, bool can_init_fields);
// Initializes classes that have instances in the image but that have
// <clinit> methods so they could not be initialized by the compiler.
void RunRootClinits();
void RegisterDexFile(const DexFile& dex_file);
void RegisterDexFile(const DexFile& dex_file, SirtRef<DexCache>& dex_cache);
void RegisterOatFile(const OatFile& oat_file);
const std::vector<const DexFile*>& GetBootClassPath() {
return boot_class_path_;
}
void VisitClasses(ClassVisitor* visitor, void* arg) const;
void VisitRoots(Heap::RootVisitor* visitor, void* arg) const;
const DexFile& FindDexFile(const DexCache* dex_cache) const;
DexCache* FindDexCache(const DexFile& dex_file) const;
bool IsDexFileRegistered(const DexFile& dex_file) const;
void FixupDexCaches(Method* resolution_method) const;
// Generate an oat file from a dex file
bool GenerateOatFile(const std::string& dex_filename,
int oat_fd,
const std::string& oat_cache_filename);
const OatFile* FindOatFileFromOatLocation(const std::string& location);
// Finds the oat file for a dex location, generating the oat file if
// it is missing or out of date. Returns the DexFile from within the
// created oat file.
const DexFile* FindOrCreateOatFileForDexLocation(const std::string& dex_location,
const std::string& oat_location);
// Find a DexFile within an OatFile given a DexFile location. Note
// that this returns null if the location checksum of the DexFile
// does not match the OatFile.
const DexFile* FindDexFileInOatFileFromDexLocation(const std::string& location);
// TODO: replace this with multiple methods that allocate the correct managed type.
template <class T>
ObjectArray<T>* AllocObjectArray(size_t length) {
return ObjectArray<T>::Alloc(GetClassRoot(kObjectArrayClass), length);
}
ObjectArray<Class>* AllocClassArray(size_t length) {
return ObjectArray<Class>::Alloc(GetClassRoot(kClassArrayClass), length);
}
ObjectArray<StackTraceElement>* AllocStackTraceElementArray(size_t length);
void VerifyClass(Class* klass);
bool VerifyClassUsingOatFile(const DexFile& dex_file, Class* klass,
Class::Status& oat_file_class_status);
void ResolveClassExceptionHandlerTypes(const DexFile& dex_file, Class* klass);
void ResolveMethodExceptionHandlerTypes(const DexFile& dex_file, Method* klass);
Class* CreateProxyClass(String* name, ObjectArray<Class>* interfaces, ClassLoader* loader,
ObjectArray<Method>* methods, ObjectArray<ObjectArray<Class> >* throws);
std::string GetDescriptorForProxy(const Class* proxy_class);
Method* FindMethodForProxy(const Class* proxy_class, const Method* proxy_method);
// Get the oat code for a method when its class isn't yet initialized
const void* GetOatCodeFor(const Method* method);
void LinkOatCodeFor(Method* method);
// Relocate the OatFiles (ELF images)
void RelocateExecutable();
pid_t GetClassesLockOwner(); // For SignalCatcher.
pid_t GetDexLockOwner(); // For SignalCatcher.
private:
explicit ClassLinker(InternTable*);
const OatFile::OatMethod GetOatMethodFor(const Method* method);
// Initialize class linker by bootstraping from dex files
void InitFromCompiler(const std::vector<const DexFile*>& boot_class_path);
// Initialize class linker from one or more images.
void InitFromImage();
OatFile* OpenOat(const ImageSpace* space);
static void InitFromImageCallback(Object* obj, void* arg);
struct InitFromImageCallbackState;
void FinishInit();
// For early bootstrapping by Init
Class* AllocClass(Class* java_lang_Class, size_t class_size);
// Alloc* convenience functions to avoid needing to pass in Class*
// values that are known to the ClassLinker such as
// kObjectArrayClass and kJavaLangString etc.
Class* AllocClass(size_t class_size);
DexCache* AllocDexCache(const DexFile& dex_file);
Field* AllocField();
Method* AllocMethod();
InterfaceEntry* AllocInterfaceEntry(Class* interface);
Class* CreatePrimitiveClass(const char* descriptor, Primitive::Type type) {
return InitializePrimitiveClass(AllocClass(sizeof(Class)), descriptor, type);
}
Class* InitializePrimitiveClass(Class* primitive_class,
const char* descriptor,
Primitive::Type type);
Class* CreateArrayClass(const std::string& descriptor, const ClassLoader* class_loader);
void AppendToBootClassPath(const DexFile& dex_file);
void AppendToBootClassPath(const DexFile& dex_file, SirtRef<DexCache>& dex_cache);
void ConstructFieldMap(const DexFile& dex_file, const DexFile::ClassDef& dex_class_def,
Class* c, std::map<uint32_t, Field*>& field_map);
size_t SizeOfClass(const DexFile& dex_file,
const DexFile::ClassDef& dex_class_def);
void LoadClass(const DexFile& dex_file,
const DexFile::ClassDef& dex_class_def,
SirtRef<Class>& klass,
const ClassLoader* class_loader);
void LoadField(const DexFile& dex_file, const ClassDataItemIterator& it, SirtRef<Class>& klass,
SirtRef<Field>& dst);
void LoadMethod(const DexFile& dex_file, const ClassDataItemIterator& dex_method,
SirtRef<Class>& klass, SirtRef<Method>& dst);
void FixupStaticTrampolines(Class* klass);
// Finds the associated oat class for a dex_file and descriptor
const OatFile::OatClass* GetOatClass(const DexFile& dex_file, const char* descriptor);
// Attempts to insert a class into a class table. Returns NULL if
// the class was inserted, otherwise returns an existing class with
// the same descriptor and ClassLoader.
Class* InsertClass(const StringPiece& descriptor, Class* klass, bool image_class);
void RegisterDexFileLocked(const DexFile& dex_file, SirtRef<DexCache>& dex_cache);
bool IsDexFileRegisteredLocked(const DexFile& dex_file) const;
void RegisterOatFileLocked(const OatFile& oat_file);
bool InitializeClass(Class* klass, bool can_run_clinit, bool can_init_statics);
bool WaitForInitializeClass(Class* klass, Thread* self, ObjectLock& lock);
bool ValidateSuperClassDescriptors(const Class* klass);
bool InitializeSuperClass(Class* klass, bool can_run_clinit, bool can_init_fields);
// Initialize static fields, returns true if fields were initialized.
bool InitializeStaticFields(Class* klass);
bool IsSameDescriptorInDifferentClassContexts(const char* descriptor,
const Class* klass1,
const Class* klass2);
bool IsSameMethodSignatureInDifferentClassContexts(const Method* descriptor,
const Class* klass1,
const Class* klass2);
bool LinkClass(SirtRef<Class>& klass, ObjectArray<Class>* interfaces);
bool LinkSuperClass(SirtRef<Class>& klass);
bool LoadSuperAndInterfaces(SirtRef<Class>& klass, const DexFile& dex_file);
bool LinkMethods(SirtRef<Class>& klass, ObjectArray<Class>* interfaces);
bool LinkVirtualMethods(SirtRef<Class>& klass);
bool LinkInterfaceMethods(SirtRef<Class>& klass, ObjectArray<Class>* interfaces);
bool LinkStaticFields(SirtRef<Class>& klass);
bool LinkInstanceFields(SirtRef<Class>& klass);
bool LinkFields(SirtRef<Class>& klass, bool is_static);
void CreateReferenceInstanceOffsets(SirtRef<Class>& klass);
void CreateReferenceStaticOffsets(SirtRef<Class>& klass);
void CreateReferenceOffsets(SirtRef<Class>& klass, bool is_static,
uint32_t reference_offsets);
// For use by ImageWriter to find DexCaches for its roots
const std::vector<DexCache*>& GetDexCaches() {
return dex_caches_;
}
const OatFile* FindOpenedOatFileForDexFile(const DexFile& dex_file);
const OatFile* FindOpenedOatFileFromDexLocation(const std::string& dex_location);
const OatFile* FindOpenedOatFileFromOatLocation(const std::string& oat_location);
Method* CreateProxyConstructor(SirtRef<Class>& klass, Class* proxy_class);
Method* CreateProxyMethod(SirtRef<Class>& klass, SirtRef<Method>& prototype);
std::vector<const DexFile*> boot_class_path_;
std::vector<const DexFile*> dex_files_;
std::vector<DexCache*> dex_caches_;
std::vector<const OatFile*> oat_files_;
// lock to protect concurrent access to dex_files_, dex_caches_, and oat_files_
mutable Mutex dex_lock_;
// multimap from a string hash code of a class descriptor to
// Class* instances. Results should be compared for a matching
// Class::descriptor_ and Class::class_loader_.
// Protected by classes_lock_
typedef std::multimap<size_t, Class*> Table;
Class* LookupClass(const char* descriptor, const ClassLoader* class_loader,
size_t hash, const Table& classes);
Table image_classes_;
Table classes_;
mutable Mutex classes_lock_;
// indexes into class_roots_.
// needs to be kept in sync with class_roots_descriptors_.
enum ClassRoot {
kJavaLangClass,
kJavaLangObject,
kClassArrayClass,
kObjectArrayClass,
kJavaLangString,
kJavaLangRefReference,
kJavaLangReflectConstructor,
kJavaLangReflectField,
kJavaLangReflectMethod,
kJavaLangReflectProxy,
kJavaLangClassLoader,
kDalvikSystemBaseDexClassLoader,
kDalvikSystemPathClassLoader,
kJavaLangThrowable,
kJavaLangClassNotFoundException,
kJavaLangStackTraceElement,
kPrimitiveBoolean,
kPrimitiveByte,
kPrimitiveChar,
kPrimitiveDouble,
kPrimitiveFloat,
kPrimitiveInt,
kPrimitiveLong,
kPrimitiveShort,
kPrimitiveVoid,
kBooleanArrayClass,
kByteArrayClass,
kCharArrayClass,
kDoubleArrayClass,
kFloatArrayClass,
kIntArrayClass,
kLongArrayClass,
kShortArrayClass,
kJavaLangStackTraceElementArrayClass,
kClassRootsMax,
};
ObjectArray<Class>* class_roots_;
Class* GetClassRoot(ClassRoot class_root) {
DCHECK(class_roots_ != NULL);
Class* klass = class_roots_->Get(class_root);
DCHECK(klass != NULL);
return klass;
}
void SetClassRoot(ClassRoot class_root, Class* klass);
ObjectArray<Class>* GetClassRoots() {
DCHECK(class_roots_ != NULL);
return class_roots_;
}
static const char* class_roots_descriptors_[];
const char* GetClassRootDescriptor(ClassRoot class_root) {
const char* descriptor = class_roots_descriptors_[class_root];
CHECK(descriptor != NULL);
return descriptor;
}
ObjectArray<InterfaceEntry>* array_iftable_;
bool init_done_;
InternTable* intern_table_;
friend class CommonTest;
friend class ImageWriter; // for GetClassRoots
friend class ObjectTest;
FRIEND_TEST(ClassLinkerTest, ClassRootDescriptors);
FRIEND_TEST(DexCacheTest, Open);
FRIEND_TEST(ExceptionTest, FindExceptionHandler);
FRIEND_TEST(ObjectTest, AllocObjectArray);
DISALLOW_COPY_AND_ASSIGN(ClassLinker);
};
} // namespace art
#endif // ART_SRC_CLASS_LINKER_H_