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android / platform / art / b1d8c31 / . / runtime / oat_file.h
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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_RUNTIME_OAT_FILE_H_
#define ART_RUNTIME_OAT_FILE_H_
#include <list>
#include <string>
#include <vector>
#include "base/mutex.h"
#include "base/stringpiece.h"
#include "dex_file.h"
#include "invoke_type.h"
#include "mem_map.h"
#include "mirror/class.h"
#include "oat.h"
#include "os.h"
namespace art {
class BitVector;
class ElfFile;
class MemMap;
class OatMethodOffsets;
class OatHeader;
class OatDexFile;
class OatFile FINAL {
public:
typedef art::OatDexFile OatDexFile;
// Opens an oat file contained within the given elf file. This is always opened as
// non-executable at the moment.
static OatFile* OpenWithElfFile(ElfFile* elf_file, const std::string& location,
const char* abs_dex_location,
std::string* error_msg);
// Open an oat file. Returns null on failure. Requested base can
// optionally be used to request where the file should be loaded.
// See the ResolveRelativeEncodedDexLocation for a description of how the
// abs_dex_location argument is used.
static OatFile* Open(const std::string& filename,
const std::string& location,
uint8_t* requested_base,
uint8_t* oat_file_begin,
bool executable,
const char* abs_dex_location,
std::string* error_msg);
// Open an oat file from an already opened File.
// Does not use dlopen underneath so cannot be used for runtime use
// where relocations may be required. Currently used from
// ImageWriter which wants to open a writable version from an existing
// file descriptor for patching.
static OatFile* OpenWritable(File* file, const std::string& location,
const char* abs_dex_location,
std::string* error_msg);
// Opens an oat file from an already opened File. Maps it PROT_READ, MAP_PRIVATE.
static OatFile* OpenReadable(File* file, const std::string& location,
const char* abs_dex_location,
std::string* error_msg);
~OatFile();
bool IsExecutable() const {
return is_executable_;
}
bool IsPic() const;
// Indicates whether the oat file was compiled with full debugging capability.
bool IsDebuggable() const;
ElfFile* GetElfFile() const {
CHECK_NE(reinterpret_cast<uintptr_t>(elf_file_.get()), reinterpret_cast<uintptr_t>(nullptr))
<< "Cannot get an elf file from " << GetLocation();
return elf_file_.get();
}
const std::string& GetLocation() const {
return location_;
}
const OatHeader& GetOatHeader() const;
class OatMethod FINAL {
public:
void LinkMethod(ArtMethod* method) const;
uint32_t GetCodeOffset() const;
const void* GetQuickCode() const;
// Returns size of quick code.
uint32_t GetQuickCodeSize() const;
uint32_t GetQuickCodeSizeOffset() const;
// Returns OatQuickMethodHeader for debugging. Most callers should
// use more specific methods such as GetQuickCodeSize.
const OatQuickMethodHeader* GetOatQuickMethodHeader() const;
uint32_t GetOatQuickMethodHeaderOffset() const;
size_t GetFrameSizeInBytes() const;
uint32_t GetCoreSpillMask() const;
uint32_t GetFpSpillMask() const;
const uint8_t* GetMappingTable() const;
uint32_t GetMappingTableOffset() const;
uint32_t GetMappingTableOffsetOffset() const;
const uint8_t* GetVmapTable() const;
uint32_t GetVmapTableOffset() const;
uint32_t GetVmapTableOffsetOffset() const;
const uint8_t* GetGcMap() const;
uint32_t GetGcMapOffset() const;
uint32_t GetGcMapOffsetOffset() const;
// Create an OatMethod with offsets relative to the given base address
OatMethod(const uint8_t* base, const uint32_t code_offset)
: begin_(base), code_offset_(code_offset) {
}
OatMethod(const OatMethod&) = default;
~OatMethod() {}
OatMethod& operator=(const OatMethod&) = default;
// A representation of an invalid OatMethod, used when an OatMethod or OatClass can't be found.
// See ClassLinker::FindOatMethodFor.
static const OatMethod Invalid() {
return OatMethod(nullptr, -1);
}
private:
template<class T>
T GetOatPointer(uint32_t offset) const {
if (offset == 0) {
return nullptr;
}
return reinterpret_cast<T>(begin_ + offset);
}
const uint8_t* begin_;
uint32_t code_offset_;
friend class OatClass;
};
class OatClass FINAL {
public:
mirror::Class::Status GetStatus() const {
return status_;
}
OatClassType GetType() const {
return type_;
}
// Get the OatMethod entry based on its index into the class
// defintion. Direct methods come first, followed by virtual
// methods. Note that runtime created methods such as miranda
// methods are not included.
const OatMethod GetOatMethod(uint32_t method_index) const;
// Return a pointer to the OatMethodOffsets for the requested
// method_index, or null if none is present. Note that most
// callers should use GetOatMethod.
const OatMethodOffsets* GetOatMethodOffsets(uint32_t method_index) const;
// Return the offset from the start of the OatFile to the
// OatMethodOffsets for the requested method_index, or 0 if none
// is present. Note that most callers should use GetOatMethod.
uint32_t GetOatMethodOffsetsOffset(uint32_t method_index) const;
// A representation of an invalid OatClass, used when an OatClass can't be found.
// See ClassLinker::FindOatClass.
static OatClass Invalid() {
return OatClass(nullptr, mirror::Class::kStatusError, kOatClassNoneCompiled, 0, nullptr,
nullptr);
}
private:
OatClass(const OatFile* oat_file,
mirror::Class::Status status,
OatClassType type,
uint32_t bitmap_size,
const uint32_t* bitmap_pointer,
const OatMethodOffsets* methods_pointer);
const OatFile* const oat_file_;
const mirror::Class::Status status_;
const OatClassType type_;
const uint32_t* const bitmap_;
const OatMethodOffsets* const methods_pointer_;
friend class art::OatDexFile;
};
const OatDexFile* GetOatDexFile(const char* dex_location,
const uint32_t* const dex_location_checksum,
bool exception_if_not_found = true) const
REQUIRES(!secondary_lookup_lock_);
const std::vector<const OatDexFile*>& GetOatDexFiles() const {
return oat_dex_files_storage_;
}
size_t Size() const {
return End() - Begin();
}
size_t BssSize() const {
return BssEnd() - BssBegin();
}
const uint8_t* Begin() const;
const uint8_t* End() const;
const uint8_t* BssBegin() const;
const uint8_t* BssEnd() const;
// Returns the absolute dex location for the encoded relative dex location.
//
// If not null, abs_dex_location is used to resolve the absolute dex
// location of relative dex locations encoded in the oat file.
// For example, given absolute location "/data/app/foo/base.apk", encoded
// dex locations "base.apk", "base.apk:classes2.dex", etc. would be resolved
// to "/data/app/foo/base.apk", "/data/app/foo/base.apk:classes2.dex", etc.
// Relative encoded dex locations that don't match the given abs_dex_location
// are left unchanged.
static std::string ResolveRelativeEncodedDexLocation(
const char* abs_dex_location, const std::string& rel_dex_location);
// Create a dependency list (dex locations and checksums) for the given dex files.
static std::string EncodeDexFileDependencies(const std::vector<const DexFile*>& dex_files);
// Check the given dependency list against their dex files - thus the name "Static," this does
// not check the class-loader environment, only whether there have been file updates.
static bool CheckStaticDexFileDependencies(const char* dex_dependencies, std::string* msg);
// Get the dex locations of a dependency list. Note: this is *not* cleaned for synthetic
// locations of multidex files.
static bool GetDexLocationsFromDependencies(const char* dex_dependencies,
std::vector<std::string>* locations);
private:
static void CheckLocation(const std::string& location);
static OatFile* OpenDlopen(const std::string& elf_filename,
const std::string& location,
uint8_t* requested_base,
const char* abs_dex_location,
std::string* error_msg);
static OatFile* OpenElfFile(File* file,
const std::string& location,
uint8_t* requested_base,
uint8_t* oat_file_begin, // Override base if not null
bool writable,
bool executable,
const char* abs_dex_location,
std::string* error_msg);
explicit OatFile(const std::string& filename, bool executable);
bool Dlopen(const std::string& elf_filename, uint8_t* requested_base,
const char* abs_dex_location, std::string* error_msg);
bool ElfFileOpen(File* file, uint8_t* requested_base,
uint8_t* oat_file_begin, // Override where the file is loaded to if not null
bool writable, bool executable,
const char* abs_dex_location,
std::string* error_msg);
bool Setup(const char* abs_dex_location, std::string* error_msg);
// The oat file name.
//
// The image will embed this to link its associated oat file.
const std::string location_;
// Pointer to OatHeader.
const uint8_t* begin_;
// Pointer to end of oat region for bounds checking.
const uint8_t* end_;
// Pointer to the .bss section, if present, otherwise null.
const uint8_t* bss_begin_;
// Pointer to the end of the .bss section, if present, otherwise null.
const uint8_t* bss_end_;
// Was this oat_file loaded executable?
const bool is_executable_;
// Backing memory map for oat file during when opened by ElfWriter during initial compilation.
std::unique_ptr<MemMap> mem_map_;
// Backing memory map for oat file during cross compilation.
std::unique_ptr<ElfFile> elf_file_;
// dlopen handle during runtime.
void* dlopen_handle_;
// Dummy memory map objects corresponding to the regions mapped by dlopen.
std::vector<std::unique_ptr<MemMap>> dlopen_mmaps_;
// Owning storage for the OatDexFile objects.
std::vector<const OatDexFile*> oat_dex_files_storage_;
// NOTE: We use a StringPiece as the key type to avoid a memory allocation on every
// lookup with a const char* key. The StringPiece doesn't own its backing storage,
// therefore we're using the OatDexFile::dex_file_location_ as the backing storage
// for keys in oat_dex_files_ and the string_cache_ entries for the backing storage
// of keys in secondary_oat_dex_files_ and oat_dex_files_by_canonical_location_.
typedef AllocationTrackingSafeMap<StringPiece, const OatDexFile*, kAllocatorTagOatFile> Table;
// Map each location and canonical location (if different) retrieved from the
// oat file to its OatDexFile. This map doesn't change after it's constructed in Setup()
// and therefore doesn't need any locking and provides the cheapest dex file lookup
// for GetOatDexFile() for a very frequent use case. Never contains a null value.
Table oat_dex_files_;
// Lock guarding all members needed for secondary lookup in GetOatDexFile().
mutable Mutex secondary_lookup_lock_ DEFAULT_MUTEX_ACQUIRED_AFTER;
// If the primary oat_dex_files_ lookup fails, use a secondary map. This map stores
// the results of all previous secondary lookups, whether successful (non-null) or
// failed (null). If it doesn't contain an entry we need to calculate the canonical
// location and use oat_dex_files_by_canonical_location_.
mutable Table secondary_oat_dex_files_ GUARDED_BY(secondary_lookup_lock_);
// Cache of strings. Contains the backing storage for keys in the secondary_oat_dex_files_
// and the lazily initialized oat_dex_files_by_canonical_location_.
// NOTE: We're keeping references to contained strings in form of StringPiece and adding
// new strings to the end. The adding of a new element must not touch any previously stored
// elements. std::list<> and std::deque<> satisfy this requirement, std::vector<> doesn't.
mutable std::list<std::string> string_cache_ GUARDED_BY(secondary_lookup_lock_);
friend class OatClass;
friend class art::OatDexFile;
friend class OatDumper; // For GetBase and GetLimit
DISALLOW_COPY_AND_ASSIGN(OatFile);
};
// OatDexFile should be an inner class of OatFile. Unfortunately, C++ doesn't
// support forward declarations of inner classes, and we want to
// forward-declare OatDexFile so that we can store an opaque pointer to an
// OatDexFile in DexFile.
class OatDexFile FINAL {
public:
// Opens the DexFile referred to by this OatDexFile from within the containing OatFile.
std::unique_ptr<const DexFile> OpenDexFile(std::string* error_msg) const;
const OatFile* GetOatFile() const {
return oat_file_;
}
// Returns the size of the DexFile refered to by this OatDexFile.
size_t FileSize() const;
// Returns original path of DexFile that was the source of this OatDexFile.
const std::string& GetDexFileLocation() const {
return dex_file_location_;
}
// Returns the canonical location of DexFile that was the source of this OatDexFile.
const std::string& GetCanonicalDexFileLocation() const {
return canonical_dex_file_location_;
}
// Returns checksum of original DexFile that was the source of this OatDexFile;
uint32_t GetDexFileLocationChecksum() const {
return dex_file_location_checksum_;
}
// Returns the OatClass for the class specified by the given DexFile class_def_index.
OatFile::OatClass GetOatClass(uint16_t class_def_index) const;
// Returns the offset to the OatClass information. Most callers should use GetOatClass.
uint32_t GetOatClassOffset(uint16_t class_def_index) const;
~OatDexFile();
private:
OatDexFile(const OatFile* oat_file,
const std::string& dex_file_location,
const std::string& canonical_dex_file_location,
uint32_t dex_file_checksum,
const uint8_t* dex_file_pointer,
const uint32_t* oat_class_offsets_pointer);
const OatFile* const oat_file_;
const std::string dex_file_location_;
const std::string canonical_dex_file_location_;
const uint32_t dex_file_location_checksum_;
const uint8_t* const dex_file_pointer_;
const uint32_t* const oat_class_offsets_pointer_;
friend class OatFile;
DISALLOW_COPY_AND_ASSIGN(OatDexFile);
};
} // namespace art
#endif // ART_RUNTIME_OAT_FILE_H_