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android / platform / art / 67ff7d1 / . / compiler / image_writer.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_COMPILER_IMAGE_WRITER_H_
#define ART_COMPILER_IMAGE_WRITER_H_
#include <stdint.h>
#include <valgrind.h>
#include <cstddef>
#include <memory>
#include <set>
#include <string>
#include <ostream>
#include "base/macros.h"
#include "driver/compiler_driver.h"
#include "gc/space/space.h"
#include "mem_map.h"
#include "oat_file.h"
#include "mirror/dex_cache.h"
#include "os.h"
#include "safe_map.h"
#include "gc/space/space.h"
#include "utils.h"
namespace art {
// Write a Space built during compilation for use during execution.
class ImageWriter FINAL {
public:
ImageWriter(const CompilerDriver& compiler_driver, uintptr_t image_begin,
bool compile_pic)
: compiler_driver_(compiler_driver), image_begin_(reinterpret_cast<uint8_t*>(image_begin)),
image_end_(0), image_objects_offset_begin_(0), image_roots_address_(0), oat_file_(nullptr),
oat_data_begin_(nullptr), interpreter_to_interpreter_bridge_offset_(0),
interpreter_to_compiled_code_bridge_offset_(0), jni_dlsym_lookup_offset_(0),
quick_generic_jni_trampoline_offset_(0),
quick_imt_conflict_trampoline_offset_(0), quick_resolution_trampoline_offset_(0),
quick_to_interpreter_bridge_offset_(0), compile_pic_(compile_pic),
target_ptr_size_(InstructionSetPointerSize(compiler_driver_.GetInstructionSet())),
bin_slot_sizes_(), bin_slot_previous_sizes_(), bin_slot_count_(),
string_data_array_(nullptr) {
CHECK_NE(image_begin, 0U);
}
~ImageWriter() {
// For interned strings a large array is allocated to hold all the character data and avoid
// overhead. However, no GC is run anymore at this point. As the array is likely large, it
// will be allocated in the large object space, where valgrind can track every single
// allocation. Not explicitly freeing that array will be recognized as a leak.
if (RUNNING_ON_VALGRIND != 0) {
FreeStringDataArray();
}
}
bool PrepareImageAddressSpace();
bool IsImageAddressSpaceReady() const {
return image_roots_address_ != 0u;
}
mirror::Object* GetImageAddress(mirror::Object* object) const
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
if (object == nullptr) {
return nullptr;
}
return reinterpret_cast<mirror::Object*>(image_begin_ + GetImageOffset(object));
}
mirror::HeapReference<mirror::Object>* GetDexCacheArrayElementImageAddress(
const DexFile* dex_file, uint32_t offset) const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
auto it = dex_cache_array_starts_.find(dex_file);
DCHECK(it != dex_cache_array_starts_.end());
return reinterpret_cast<mirror::HeapReference<mirror::Object>*>(
image_begin_ + RoundUp(sizeof(ImageHeader), kObjectAlignment) + it->second + offset);
}
uint8_t* GetOatFileBegin() const {
return image_begin_ + RoundUp(image_end_ + bin_slot_sizes_[kBinArtField], kPageSize);
}
bool Write(const std::string& image_filename,
const std::string& oat_filename,
const std::string& oat_location)
LOCKS_EXCLUDED(Locks::mutator_lock_);
uintptr_t GetOatDataBegin() {
return reinterpret_cast<uintptr_t>(oat_data_begin_);
}
private:
bool AllocMemory();
// Mark the objects defined in this space in the given live bitmap.
void RecordImageAllocations() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
// Classify different kinds of bins that objects end up getting packed into during image writing.
enum Bin {
// Dex cache arrays have a special slot for PC-relative addressing. Since they are
// huge, and as such their dirtiness is not important for the clean/dirty separation,
// we arbitrarily keep them at the beginning.
kBinDexCacheArray, // Object arrays belonging to dex cache.
// Likely-clean:
kBinString, // [String] Almost always immutable (except for obj header).
kBinArtMethodsManagedInitialized, // [ArtMethod] Not-native, and initialized. Unlikely to dirty
// Unknown mix of clean/dirty:
kBinRegular,
// Likely-dirty:
// All classes get their own bins since their fields often dirty
kBinClassInitializedFinalStatics, // Class initializers have been run, no non-final statics
kBinClassInitialized, // Class initializers have been run
kBinClassVerified, // Class verified, but initializers haven't been run
kBinArtMethodNative, // Art method that is actually native
kBinArtMethodNotInitialized, // Art method with a declaring class that wasn't initialized
// Add more bins here if we add more segregation code.
// Non mirror fields must be below. ArtFields should be always clean.
kBinArtField,
kBinSize,
// Number of bins which are for mirror objects.
kBinMirrorCount = kBinArtField,
};
friend std::ostream& operator<<(std::ostream& stream, const Bin& bin);
static constexpr size_t kBinBits = MinimumBitsToStore(kBinMirrorCount - 1);
// uint32 = typeof(lockword_)
static constexpr size_t kBinShift = BitSizeOf<uint32_t>() - kBinBits;
// 111000.....0
static constexpr size_t kBinMask = ((static_cast<size_t>(1) << kBinBits) - 1) << kBinShift;
// We use the lock word to store the bin # and bin index of the object in the image.
//
// The struct size must be exactly sizeof(LockWord), currently 32-bits, since this will end up
// stored in the lock word bit-for-bit when object forwarding addresses are being calculated.
struct BinSlot {
explicit BinSlot(uint32_t lockword);
BinSlot(Bin bin, uint32_t index);
// The bin an object belongs to, i.e. regular, class/verified, class/initialized, etc.
Bin GetBin() const;
// The offset in bytes from the beginning of the bin. Aligned to object size.
uint32_t GetIndex() const;
// Pack into a single uint32_t, for storing into a lock word.
explicit operator uint32_t() const { return lockword_; }
// Comparison operator for map support
bool operator<(const BinSlot& other) const { return lockword_ < other.lockword_; }
private:
// Must be the same size as LockWord, any larger and we would truncate the data.
const uint32_t lockword_;
};
// We use the lock word to store the offset of the object in the image.
void AssignImageOffset(mirror::Object* object, BinSlot bin_slot)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void SetImageOffset(mirror::Object* object, BinSlot bin_slot, size_t offset)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
bool IsImageOffsetAssigned(mirror::Object* object) const
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
size_t GetImageOffset(mirror::Object* object) const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void PrepareDexCacheArraySlots() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void AssignImageBinSlot(mirror::Object* object) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void SetImageBinSlot(mirror::Object* object, BinSlot bin_slot)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
bool IsImageBinSlotAssigned(mirror::Object* object) const
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
BinSlot GetImageBinSlot(mirror::Object* object) const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
static void* GetImageAddressCallback(void* writer, mirror::Object* obj)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
return reinterpret_cast<ImageWriter*>(writer)->GetImageAddress(obj);
}
mirror::Object* GetLocalAddress(mirror::Object* object) const
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
size_t offset = GetImageOffset(object);
uint8_t* dst = image_->Begin() + offset;
return reinterpret_cast<mirror::Object*>(dst);
}
const uint8_t* GetOatAddress(uint32_t offset) const {
// With Quick, code is within the OatFile, as there are all in one
// .o ELF object.
DCHECK_LT(offset, oat_file_->Size());
if (offset == 0u) {
return nullptr;
}
return oat_data_begin_ + offset;
}
// Returns true if the class was in the original requested image classes list.
bool IsImageClass(mirror::Class* klass) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
// Debug aid that list of requested image classes.
void DumpImageClasses();
// Preinitializes some otherwise lazy fields (such as Class name) to avoid runtime image dirtying.
void ComputeLazyFieldsForImageClasses()
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
static bool ComputeLazyFieldsForClassesVisitor(mirror::Class* klass, void* arg)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
// Wire dex cache resolved strings to strings in the image to avoid runtime resolution.
void ComputeEagerResolvedStrings() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
static void ComputeEagerResolvedStringsCallback(mirror::Object* obj, void* arg)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
// Remove unwanted classes from various roots.
void PruneNonImageClasses() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
static bool NonImageClassesVisitor(mirror::Class* c, void* arg)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
// Verify unwanted classes removed.
void CheckNonImageClassesRemoved() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
static void CheckNonImageClassesRemovedCallback(mirror::Object* obj, void* arg)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
// Lays out where the image objects will be at runtime.
void CalculateNewObjectOffsets()
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void CreateHeader(size_t oat_loaded_size, size_t oat_data_offset)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
mirror::ObjectArray<mirror::Object>* CreateImageRoots() const
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void CalculateObjectBinSlots(mirror::Object* obj)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void UnbinObjectsIntoOffset(mirror::Object* obj)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void WalkInstanceFields(mirror::Object* obj, mirror::Class* klass)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void WalkFieldsInOrder(mirror::Object* obj)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
static void WalkFieldsCallback(mirror::Object* obj, void* arg)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
static void UnbinObjectsIntoOffsetCallback(mirror::Object* obj, void* arg)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
// Creates the contiguous image in memory and adjusts pointers.
void CopyAndFixupNativeData() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void CopyAndFixupObjects() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
static void CopyAndFixupObjectsCallback(mirror::Object* obj, void* arg)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void CopyAndFixupObject(mirror::Object* obj) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
bool CopyAndFixupIfDexCacheFieldArray(mirror::Object* dst, mirror::Object* obj,
mirror::Class* klass)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void FixupMethod(mirror::ArtMethod* orig, mirror::ArtMethod* copy)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void FixupClass(mirror::Class* orig, mirror::Class* copy)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
void FixupObject(mirror::Object* orig, mirror::Object* copy)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
// Get quick code for non-resolution/imt_conflict/abstract method.
const uint8_t* GetQuickCode(mirror::ArtMethod* method, bool* quick_is_interpreted)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
const uint8_t* GetQuickEntryPoint(mirror::ArtMethod* method)
SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
// Patches references in OatFile to expect runtime addresses.
void SetOatChecksumFromElfFile(File* elf_file);
// Calculate the sum total of the bin slot sizes in [0, up_to). Defaults to all bins.
size_t GetBinSizeSum(Bin up_to = kBinSize) const;
// Release the string_data_array_.
void FreeStringDataArray();
const CompilerDriver& compiler_driver_;
// Beginning target image address for the output image.
uint8_t* image_begin_;
// Offset to the free space in image_.
size_t image_end_;
// Offset from image_begin_ to where the first object is in image_.
size_t image_objects_offset_begin_;
// The image roots address in the image.
uint32_t image_roots_address_;
// oat file with code for this image
OatFile* oat_file_;
// Memory mapped for generating the image.
std::unique_ptr<MemMap> image_;
// Indexes, lengths for dex cache arrays (objects are inside of the image so that they don't
// move).
struct DexCacheArrayLocation {
size_t offset_;
size_t length_;
};
SafeMap<mirror::Object*, DexCacheArrayLocation> dex_cache_array_indexes_;
// The start offsets of the dex cache arrays.
SafeMap<const DexFile*, size_t> dex_cache_array_starts_;
// Saved hashes (objects are inside of the image so that they don't move).
std::vector<std::pair<mirror::Object*, uint32_t>> saved_hashes_;
// Saved hashes (objects are bin slots to inside of the image, not yet allocated an address).
std::map<BinSlot, uint32_t> saved_hashes_map_;
// Beginning target oat address for the pointers from the output image to its oat file.
const uint8_t* oat_data_begin_;
// Image bitmap which lets us know where the objects inside of the image reside.
std::unique_ptr<gc::accounting::ContinuousSpaceBitmap> image_bitmap_;
// Offset from oat_data_begin_ to the stubs.
uint32_t interpreter_to_interpreter_bridge_offset_;
uint32_t interpreter_to_compiled_code_bridge_offset_;
uint32_t jni_dlsym_lookup_offset_;
uint32_t quick_generic_jni_trampoline_offset_;
uint32_t quick_imt_conflict_trampoline_offset_;
uint32_t quick_resolution_trampoline_offset_;
uint32_t quick_to_interpreter_bridge_offset_;
const bool compile_pic_;
// Size of pointers on the target architecture.
size_t target_ptr_size_;
// Bin slot tracking for dirty object packing
size_t bin_slot_sizes_[kBinSize]; // Number of bytes in a bin
size_t bin_slot_previous_sizes_[kBinSize]; // Number of bytes in previous bins.
size_t bin_slot_count_[kBinSize]; // Number of objects in a bin
// ArtField relocating map, ArtFields are allocated as array of structs but we want to have one
// entry per art field for convenience.
// ArtFields are placed right after the end of the image objects (aka sum of bin_slot_sizes_).
std::unordered_map<ArtField*, uintptr_t> art_field_reloc_;
void* string_data_array_; // The backing for the interned strings.
friend class FixupVisitor;
friend class FixupClassVisitor;
DISALLOW_COPY_AND_ASSIGN(ImageWriter);
};
} // namespace art
#endif // ART_COMPILER_IMAGE_WRITER_H_