1 /*
2  * Copyright (C) 2011 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #ifndef ART_DEX2OAT_LINKER_IMAGE_WRITER_H_
18 #define ART_DEX2OAT_LINKER_IMAGE_WRITER_H_
19 
20 #include <stdint.h>
21 #include "base/memory_tool.h"
22 
23 #include <cstddef>
24 #include <memory>
25 #include <ostream>
26 #include <set>
27 #include <stack>
28 #include <string>
29 #include <unordered_map>
30 
31 #include "art_method.h"
32 #include "base/bit_utils.h"
33 #include "base/dchecked_vector.h"
34 #include "base/enums.h"
35 #include "base/hash_set.h"
36 #include "base/length_prefixed_array.h"
37 #include "base/macros.h"
38 #include "base/mem_map.h"
39 #include "base/os.h"
40 #include "base/safe_map.h"
41 #include "base/utils.h"
42 #include "class_table.h"
43 #include "image.h"
44 #include "intern_table.h"
45 #include "lock_word.h"
46 #include "mirror/dex_cache.h"
47 #include "oat_file.h"
48 #include "obj_ptr.h"
49 
50 namespace art {
51 namespace gc {
52 namespace accounting {
53 template <size_t kAlignment> class SpaceBitmap;
54 typedef SpaceBitmap<kObjectAlignment> ContinuousSpaceBitmap;
55 }  // namespace accounting
56 namespace space {
57 class ImageSpace;
58 }  // namespace space
59 }  // namespace gc
60 
61 namespace mirror {
62 class ClassLoader;
63 }  // namespace mirror
64 
65 class ClassLoaderVisitor;
66 class CompilerOptions;
67 template<class T> class Handle;
68 class ImTable;
69 class ImtConflictTable;
70 class TimingLogger;
71 
72 static constexpr int kInvalidFd = -1;
73 
74 namespace linker {
75 
76 // Write a Space built during compilation for use during execution.
77 class ImageWriter final {
78  public:
79   ImageWriter(const CompilerOptions& compiler_options,
80               uintptr_t image_begin,
81               ImageHeader::StorageMode image_storage_mode,
82               const std::vector<std::string>& oat_filenames,
83               const std::unordered_map<const DexFile*, size_t>& dex_file_oat_index_map,
84               jobject class_loader,
85               const HashSet<std::string>* dirty_image_objects);
86 
87   /*
88    * Modifies the heap and collects information about objects and code so that
89    * they can be written to the boot or app image later.
90    *
91    * First, unneeded classes are removed from the managed heap.  Next, we
92    * remove cached values and calculate necessary metadata for later in the
93    * process. Optionally some debugging information is collected and used to
94    * verify the state of the heap at this point.  Next, metadata from earlier
95    * is used to calculate offsets of references to strings to speed up string
96    * interning when the image is loaded.  Lastly, we allocate enough memory to
97    * fit all image data minus the bitmap and relocation sections.
98    *
99    * This function should only be called when all objects to be included in the
100    * image have been initialized and all native methods have been generated.  In
101    * addition, no other thread should be modifying the heap.
102    */
103   bool PrepareImageAddressSpace(TimingLogger* timings);
104 
IsImageAddressSpaceReady()105   bool IsImageAddressSpaceReady() const {
106     DCHECK(!image_infos_.empty());
107     for (const ImageInfo& image_info : image_infos_) {
108       if (image_info.image_roots_address_ == 0u) {
109         return false;
110       }
111     }
112     return true;
113   }
114 
115   ObjPtr<mirror::ClassLoader> GetAppClassLoader() const REQUIRES_SHARED(Locks::mutator_lock_);
116 
117   template <typename T>
GetImageAddress(T * object)118   T* GetImageAddress(T* object) const REQUIRES_SHARED(Locks::mutator_lock_) {
119     if (object == nullptr || IsInBootImage(object)) {
120       return object;
121     } else {
122       size_t oat_index = GetOatIndex(object);
123       const ImageInfo& image_info = GetImageInfo(oat_index);
124       return reinterpret_cast<T*>(image_info.image_begin_ + GetImageOffset(object));
125     }
126   }
127 
128   ArtMethod* GetImageMethodAddress(ArtMethod* method) REQUIRES_SHARED(Locks::mutator_lock_);
129   const void* GetIntrinsicReferenceAddress(uint32_t intrinsic_data)
130       REQUIRES_SHARED(Locks::mutator_lock_);
131 
GetOatFileOffset(size_t oat_index)132   size_t GetOatFileOffset(size_t oat_index) const {
133     return GetImageInfo(oat_index).oat_offset_;
134   }
135 
GetOatFileBegin(size_t oat_index)136   const uint8_t* GetOatFileBegin(size_t oat_index) const {
137     return GetImageInfo(oat_index).oat_file_begin_;
138   }
139 
140   // If image_fd is not kInvalidFd, then we use that for the image file. Otherwise we open
141   // the names in image_filenames.
142   // If oat_fd is not kInvalidFd, then we use that for the oat file. Otherwise we open
143   // the names in oat_filenames.
144   bool Write(int image_fd,
145              const std::vector<std::string>& image_filenames,
146              const std::vector<std::string>& oat_filenames)
147       REQUIRES(!Locks::mutator_lock_);
148 
GetOatDataBegin(size_t oat_index)149   uintptr_t GetOatDataBegin(size_t oat_index) {
150     return reinterpret_cast<uintptr_t>(GetImageInfo(oat_index).oat_data_begin_);
151   }
152 
153   // Get the index of the oat file containing the dex file.
154   //
155   // This "oat_index" is used to retrieve information about the the memory layout
156   // of the oat file and its associated image file, needed for link-time patching
157   // of references to the image or across oat files.
158   size_t GetOatIndexForDexFile(const DexFile* dex_file) const;
159 
160   // Get the index of the oat file containing the dex file served by the dex cache.
161   size_t GetOatIndexForDexCache(ObjPtr<mirror::DexCache> dex_cache) const
162       REQUIRES_SHARED(Locks::mutator_lock_);
163 
164   // Update the oat layout for the given oat file.
165   // This will make the oat_offset for the next oat file valid.
166   void UpdateOatFileLayout(size_t oat_index,
167                            size_t oat_loaded_size,
168                            size_t oat_data_offset,
169                            size_t oat_data_size);
170   // Update information about the oat header, i.e. checksum and trampoline offsets.
171   void UpdateOatFileHeader(size_t oat_index, const OatHeader& oat_header);
172 
173  private:
174   using WorkStack = std::stack<std::pair<mirror::Object*, size_t>>;
175 
176   bool AllocMemory();
177 
178   // Mark the objects defined in this space in the given live bitmap.
179   void RecordImageAllocations() REQUIRES_SHARED(Locks::mutator_lock_);
180 
181   // Classify different kinds of bins that objects end up getting packed into during image writing.
182   // Ordered from dirtiest to cleanest (until ArtMethods).
183   enum class Bin {
184     kKnownDirty,                  // Known dirty objects from --dirty-image-objects list
185     kMiscDirty,                   // Dex caches, object locks, etc...
186     kClassVerified,               // Class verified, but initializers haven't been run
187     // Unknown mix of clean/dirty:
188     kRegular,
189     kClassInitialized,            // Class initializers have been run
190     // All classes get their own bins since their fields often dirty
191     kClassInitializedFinalStatics,  // Class initializers have been run, no non-final statics
192     // Likely-clean:
193     kString,                      // [String] Almost always immutable (except for obj header).
194     // Add more bins here if we add more segregation code.
195     // Non mirror fields must be below.
196     // ArtFields should be always clean.
197     kArtField,
198     // If the class is initialized, then the ArtMethods are probably clean.
199     kArtMethodClean,
200     // ArtMethods may be dirty if the class has native methods or a declaring class that isn't
201     // initialized.
202     kArtMethodDirty,
203     // IMT (clean)
204     kImTable,
205     // Conflict tables (clean).
206     kIMTConflictTable,
207     // Runtime methods (always clean, do not have a length prefix array).
208     kRuntimeMethod,
209     // Metadata bin for data that is temporary during image lifetime.
210     kMetadata,
211     // Dex cache arrays have a special slot for PC-relative addressing. Since they are
212     // huge, and as such their dirtiness is not important for the clean/dirty separation,
213     // we arbitrarily keep them at the end of the native data.
214     kDexCacheArray,               // Arrays belonging to dex cache.
215     kLast = kDexCacheArray,
216     // Number of bins which are for mirror objects.
217     kMirrorCount = kArtField,
218   };
219   friend std::ostream& operator<<(std::ostream& stream, const Bin& bin);
220 
221   enum class NativeObjectRelocationType {
222     kArtField,
223     kArtFieldArray,
224     kArtMethodClean,
225     kArtMethodArrayClean,
226     kArtMethodDirty,
227     kArtMethodArrayDirty,
228     kGcRootPointer,
229     kRuntimeMethod,
230     kIMTable,
231     kIMTConflictTable,
232     kDexCacheArray,
233   };
234   friend std::ostream& operator<<(std::ostream& stream, const NativeObjectRelocationType& type);
235 
236   enum class StubType {
237     kJNIDlsymLookup,
238     kQuickGenericJNITrampoline,
239     kQuickIMTConflictTrampoline,
240     kQuickResolutionTrampoline,
241     kQuickToInterpreterBridge,
242     kLast = kQuickToInterpreterBridge,
243   };
244   friend std::ostream& operator<<(std::ostream& stream, const StubType& stub_type);
245 
246   static constexpr size_t kBinBits =
247       MinimumBitsToStore<uint32_t>(static_cast<size_t>(Bin::kMirrorCount) - 1);
248   // uint32 = typeof(lockword_)
249   // Subtract read barrier bits since we want these to remain 0, or else it may result in DCHECK
250   // failures due to invalid read barrier bits during object field reads.
251   static const size_t kBinShift = BitSizeOf<uint32_t>() - kBinBits - LockWord::kGCStateSize;
252   // 111000.....0
253   static const size_t kBinMask = ((static_cast<size_t>(1) << kBinBits) - 1) << kBinShift;
254 
255   // Number of bins, including non-mirror bins.
256   static constexpr size_t kNumberOfBins = static_cast<size_t>(Bin::kLast) + 1u;
257 
258   // Number of stub types.
259   static constexpr size_t kNumberOfStubTypes = static_cast<size_t>(StubType::kLast) + 1u;
260 
261   // We use the lock word to store the bin # and bin index of the object in the image.
262   //
263   // The struct size must be exactly sizeof(LockWord), currently 32-bits, since this will end up
264   // stored in the lock word bit-for-bit when object forwarding addresses are being calculated.
265   struct BinSlot {
266     explicit BinSlot(uint32_t lockword);
267     BinSlot(Bin bin, uint32_t index);
268 
269     // The bin an object belongs to, i.e. regular, class/verified, class/initialized, etc.
270     Bin GetBin() const;
271     // The offset in bytes from the beginning of the bin. Aligned to object size.
272     uint32_t GetIndex() const;
273     // Pack into a single uint32_t, for storing into a lock word.
Uint32ValueBinSlot274     uint32_t Uint32Value() const { return lockword_; }
275     // Comparison operator for map support
276     bool operator<(const BinSlot& other) const  { return lockword_ < other.lockword_; }
277 
278    private:
279     // Must be the same size as LockWord, any larger and we would truncate the data.
280     uint32_t lockword_;
281   };
282 
283   struct ImageInfo {
284     ImageInfo();
285     ImageInfo(ImageInfo&&) = default;
286 
287     /*
288      * Creates ImageSection objects that describe most of the sections of a
289      * boot or AppImage. The following sections are not included:
290      *   - ImageHeader::kSectionImageBitmap
291      *
292      * In addition, the ImageHeader is not covered here.
293      *
294      * This function will return the total size of the covered sections as well
295      * as a vector containing the individual ImageSection objects.
296      */
297     std::pair<size_t, std::vector<ImageSection>> CreateImageSections() const;
298 
GetStubOffsetImageInfo299     size_t GetStubOffset(StubType stub_type) const {
300       DCHECK_LT(static_cast<size_t>(stub_type), kNumberOfStubTypes);
301       return stub_offsets_[static_cast<size_t>(stub_type)];
302     }
303 
SetStubOffsetImageInfo304     void SetStubOffset(StubType stub_type, size_t offset) {
305       DCHECK_LT(static_cast<size_t>(stub_type), kNumberOfStubTypes);
306       stub_offsets_[static_cast<size_t>(stub_type)] = offset;
307     }
308 
GetBinSlotOffsetImageInfo309     size_t GetBinSlotOffset(Bin bin) const {
310       DCHECK_LT(static_cast<size_t>(bin), kNumberOfBins);
311       return bin_slot_offsets_[static_cast<size_t>(bin)];
312     }
313 
IncrementBinSlotSizeImageInfo314     void IncrementBinSlotSize(Bin bin, size_t size_to_add) {
315       DCHECK_LT(static_cast<size_t>(bin), kNumberOfBins);
316       bin_slot_sizes_[static_cast<size_t>(bin)] += size_to_add;
317     }
318 
GetBinSlotSizeImageInfo319     size_t GetBinSlotSize(Bin bin) const {
320       DCHECK_LT(static_cast<size_t>(bin), kNumberOfBins);
321       return bin_slot_sizes_[static_cast<size_t>(bin)];
322     }
323 
IncrementBinSlotCountImageInfo324     void IncrementBinSlotCount(Bin bin, size_t count_to_add) {
325       DCHECK_LT(static_cast<size_t>(bin), kNumberOfBins);
326       bin_slot_count_[static_cast<size_t>(bin)] += count_to_add;
327     }
328 
329     // Calculate the sum total of the bin slot sizes in [0, up_to). Defaults to all bins.
330     size_t GetBinSizeSum(Bin up_to) const;
331 
332     MemMap image_;  // Memory mapped for generating the image.
333 
334     // Target begin of this image. Notes: It is not valid to write here, this is the address
335     // of the target image, not necessarily where image_ is mapped. The address is only valid
336     // after layouting (otherwise null).
337     uint8_t* image_begin_ = nullptr;
338 
339     // Offset to the free space in image_, initially size of image header.
340     size_t image_end_ = RoundUp(sizeof(ImageHeader), kObjectAlignment);
341     uint32_t image_roots_address_ = 0;  // The image roots address in the image.
342     size_t image_offset_ = 0;  // Offset of this image from the start of the first image.
343 
344     // Image size is the *address space* covered by this image. As the live bitmap is aligned
345     // to the page size, the live bitmap will cover more address space than necessary. But live
346     // bitmaps may not overlap, so an image has a "shadow," which is accounted for in the size.
347     // The next image may only start at image_begin_ + image_size_ (which is guaranteed to be
348     // page-aligned).
349     size_t image_size_ = 0;
350 
351     // Oat data.
352     // Offset of the oat file for this image from start of oat files. This is
353     // valid when the previous oat file has been written.
354     size_t oat_offset_ = 0;
355     // Layout of the loaded ELF file containing the oat file, valid after UpdateOatFileLayout().
356     const uint8_t* oat_file_begin_ = nullptr;
357     size_t oat_loaded_size_ = 0;
358     const uint8_t* oat_data_begin_ = nullptr;
359     size_t oat_size_ = 0;  // Size of the corresponding oat data.
360     // The oat header checksum, valid after UpdateOatFileHeader().
361     uint32_t oat_checksum_ = 0u;
362 
363     // Image bitmap which lets us know where the objects inside of the image reside.
364     std::unique_ptr<gc::accounting::ContinuousSpaceBitmap> image_bitmap_;
365 
366     // The start offsets of the dex cache arrays.
367     SafeMap<const DexFile*, size_t> dex_cache_array_starts_;
368 
369     // Offset from oat_data_begin_ to the stubs.
370     uint32_t stub_offsets_[kNumberOfStubTypes] = {};
371 
372     // Bin slot tracking for dirty object packing.
373     size_t bin_slot_sizes_[kNumberOfBins] = {};  // Number of bytes in a bin.
374     size_t bin_slot_offsets_[kNumberOfBins] = {};  // Number of bytes in previous bins.
375     size_t bin_slot_count_[kNumberOfBins] = {};  // Number of objects in a bin.
376 
377     // Cached size of the intern table for when we allocate memory.
378     size_t intern_table_bytes_ = 0;
379 
380     // Number of image class table bytes.
381     size_t class_table_bytes_ = 0;
382 
383     // Number of object fixup bytes.
384     size_t object_fixup_bytes_ = 0;
385 
386     // Number of pointer fixup bytes.
387     size_t pointer_fixup_bytes_ = 0;
388 
389     // Number of offsets to string references that will be written to the
390     // StringFieldOffsets section.
391     size_t num_string_references_ = 0;
392 
393     // Intern table associated with this image for serialization.
394     std::unique_ptr<InternTable> intern_table_;
395 
396     // Class table associated with this image for serialization.
397     std::unique_ptr<ClassTable> class_table_;
398 
399     // Padding objects to ensure region alignment (if required).
400     std::vector<size_t> padding_object_offsets_;
401   };
402 
403   // We use the lock word to store the offset of the object in the image.
404   void AssignImageOffset(mirror::Object* object, BinSlot bin_slot)
405       REQUIRES_SHARED(Locks::mutator_lock_);
406   void SetImageOffset(mirror::Object* object, size_t offset)
407       REQUIRES_SHARED(Locks::mutator_lock_);
408   bool IsImageOffsetAssigned(mirror::Object* object) const
409       REQUIRES_SHARED(Locks::mutator_lock_);
410   size_t GetImageOffset(mirror::Object* object) const REQUIRES_SHARED(Locks::mutator_lock_);
411   void UpdateImageOffset(mirror::Object* obj, uintptr_t offset)
412       REQUIRES_SHARED(Locks::mutator_lock_);
413 
414   void PrepareDexCacheArraySlots() REQUIRES_SHARED(Locks::mutator_lock_);
415   void AssignImageBinSlot(mirror::Object* object, size_t oat_index)
416       REQUIRES_SHARED(Locks::mutator_lock_);
417   mirror::Object* TryAssignBinSlot(WorkStack& work_stack, mirror::Object* obj, size_t oat_index)
418       REQUIRES_SHARED(Locks::mutator_lock_);
419   void SetImageBinSlot(mirror::Object* object, BinSlot bin_slot)
420       REQUIRES_SHARED(Locks::mutator_lock_);
421   bool IsImageBinSlotAssigned(mirror::Object* object) const
422       REQUIRES_SHARED(Locks::mutator_lock_);
423   BinSlot GetImageBinSlot(mirror::Object* object) const REQUIRES_SHARED(Locks::mutator_lock_);
424 
425   void AddDexCacheArrayRelocation(void* array, size_t offset, size_t oat_index)
426       REQUIRES_SHARED(Locks::mutator_lock_);
427   void AddMethodPointerArray(ObjPtr<mirror::PointerArray> arr)
428       REQUIRES_SHARED(Locks::mutator_lock_);
429 
GetLocalAddress(mirror::Object * object)430   mirror::Object* GetLocalAddress(mirror::Object* object) const
431       REQUIRES_SHARED(Locks::mutator_lock_) {
432     size_t offset = GetImageOffset(object);
433     size_t oat_index = GetOatIndex(object);
434     const ImageInfo& image_info = GetImageInfo(oat_index);
435     uint8_t* dst = image_info.image_.Begin() + offset;
436     return reinterpret_cast<mirror::Object*>(dst);
437   }
438 
439   // Returns the address in the boot image if we are compiling the app image.
440   const uint8_t* GetOatAddress(StubType type) const;
441 
GetOatAddressForOffset(uint32_t offset,const ImageInfo & image_info)442   const uint8_t* GetOatAddressForOffset(uint32_t offset, const ImageInfo& image_info) const {
443     // With Quick, code is within the OatFile, as there are all in one
444     // .o ELF object. But interpret it as signed.
445     DCHECK_LE(static_cast<int32_t>(offset), static_cast<int32_t>(image_info.oat_size_));
446     DCHECK(image_info.oat_data_begin_ != nullptr);
447     return offset == 0u ? nullptr : image_info.oat_data_begin_ + static_cast<int32_t>(offset);
448   }
449 
450   // Returns true if the class was in the original requested image classes list.
451   bool KeepClass(ObjPtr<mirror::Class> klass) REQUIRES_SHARED(Locks::mutator_lock_);
452 
453   // Debug aid that list of requested image classes.
454   void DumpImageClasses();
455 
456   // Visit all class loaders.
457   void VisitClassLoaders(ClassLoaderVisitor* visitor) REQUIRES_SHARED(Locks::mutator_lock_);
458 
459   // Remove unwanted classes from various roots.
460   void PruneNonImageClasses() REQUIRES_SHARED(Locks::mutator_lock_);
461 
462   // Remove unwanted classes from the DexCache roots.
463   void PruneDexCache(ObjPtr<mirror::DexCache> dex_cache, ObjPtr<mirror::ClassLoader> class_loader)
464       REQUIRES_SHARED(Locks::mutator_lock_)
465       REQUIRES(!Locks::classlinker_classes_lock_);
466 
467   // Preload deterministic DexCache contents.
468   void PreloadDexCache(ObjPtr<mirror::DexCache> dex_cache, ObjPtr<mirror::ClassLoader> class_loader)
469       REQUIRES_SHARED(Locks::mutator_lock_)
470       REQUIRES(!Locks::classlinker_classes_lock_);
471 
472   // Find dex caches for pruning or preloading.
473   std::vector<ObjPtr<mirror::DexCache>> FindDexCaches(Thread* self)
474       REQUIRES_SHARED(Locks::mutator_lock_)
475       REQUIRES(!Locks::classlinker_classes_lock_);
476 
477   // Verify unwanted classes removed.
478   void CheckNonImageClassesRemoved() REQUIRES_SHARED(Locks::mutator_lock_);
479 
480   // Lays out where the image objects will be at runtime.
481   void CalculateNewObjectOffsets()
482       REQUIRES_SHARED(Locks::mutator_lock_);
483   void ProcessWorkStack(WorkStack* work_stack)
484       REQUIRES_SHARED(Locks::mutator_lock_);
485   void CreateHeader(size_t oat_index)
486       REQUIRES_SHARED(Locks::mutator_lock_);
487   ObjPtr<mirror::ObjectArray<mirror::Object>> CollectDexCaches(Thread* self, size_t oat_index) const
488       REQUIRES_SHARED(Locks::mutator_lock_);
489   ObjPtr<mirror::ObjectArray<mirror::Object>> CreateImageRoots(
490       size_t oat_index,
491       Handle<mirror::ObjectArray<mirror::Object>> boot_image_live_objects) const
492       REQUIRES_SHARED(Locks::mutator_lock_);
493   void CalculateObjectBinSlots(mirror::Object* obj)
494       REQUIRES_SHARED(Locks::mutator_lock_);
495   void UnbinObjectsIntoOffset(mirror::Object* obj)
496       REQUIRES_SHARED(Locks::mutator_lock_);
497 
498   // Creates the contiguous image in memory and adjusts pointers.
499   void CopyAndFixupNativeData(size_t oat_index) REQUIRES_SHARED(Locks::mutator_lock_);
500   void CopyAndFixupObjects() REQUIRES_SHARED(Locks::mutator_lock_);
501   void CopyAndFixupObject(mirror::Object* obj) REQUIRES_SHARED(Locks::mutator_lock_);
502   void CopyAndFixupMethod(ArtMethod* orig, ArtMethod* copy, size_t oat_index)
503       REQUIRES_SHARED(Locks::mutator_lock_);
504   void CopyAndFixupImTable(ImTable* orig, ImTable* copy)
505       REQUIRES_SHARED(Locks::mutator_lock_);
506   void CopyAndFixupImtConflictTable(ImtConflictTable* orig, ImtConflictTable* copy)
507       REQUIRES_SHARED(Locks::mutator_lock_);
508 
509   /*
510    * Copies metadata from the heap into a buffer that will be compressed and
511    * written to the image.
512    *
513    * This function copies the string offset metadata from a local vector to an
514    * offset inside the image_ field of an ImageInfo struct.  The offset into the
515    * memory pointed to by the image_ field is obtained from the ImageSection
516    * object for the String Offsets section.
517    *
518    * All data for the image, besides the object bitmap and the relocation data,
519    * will also be copied into the memory region pointed to by image_.
520    */
521   void CopyMetadata();
522 
523   void FixupClass(mirror::Class* orig, mirror::Class* copy)
524       REQUIRES_SHARED(Locks::mutator_lock_);
525   void FixupObject(mirror::Object* orig, mirror::Object* copy)
526       REQUIRES_SHARED(Locks::mutator_lock_);
527   template <typename T>
528   void FixupDexCacheArrayEntry(std::atomic<mirror::DexCachePair<T>>* orig_array,
529                                std::atomic<mirror::DexCachePair<T>>* new_array,
530                                uint32_t array_index)
531       REQUIRES_SHARED(Locks::mutator_lock_);
532   template <typename T>
533   void FixupDexCacheArrayEntry(std::atomic<mirror::NativeDexCachePair<T>>* orig_array,
534                                std::atomic<mirror::NativeDexCachePair<T>>* new_array,
535                                uint32_t array_index)
536       REQUIRES_SHARED(Locks::mutator_lock_);
537   void FixupDexCacheArrayEntry(GcRoot<mirror::CallSite>* orig_array,
538                                GcRoot<mirror::CallSite>* new_array,
539                                uint32_t array_index)
540       REQUIRES_SHARED(Locks::mutator_lock_);
541   template <typename EntryType>
542   void FixupDexCacheArray(mirror::DexCache* orig_dex_cache,
543                           mirror::DexCache* copy_dex_cache,
544                           MemberOffset array_offset,
545                           uint32_t size)
546       REQUIRES_SHARED(Locks::mutator_lock_);
547   void FixupDexCache(mirror::DexCache* orig_dex_cache,
548                      mirror::DexCache* copy_dex_cache)
549       REQUIRES_SHARED(Locks::mutator_lock_);
550   void FixupPointerArray(mirror::Object* dst,
551                          mirror::PointerArray* arr,
552                          Bin array_type)
553       REQUIRES_SHARED(Locks::mutator_lock_);
554 
555   // Get quick code for non-resolution/imt_conflict/abstract method.
556   const uint8_t* GetQuickCode(ArtMethod* method,
557                               const ImageInfo& image_info,
558                               bool* quick_is_interpreted)
559       REQUIRES_SHARED(Locks::mutator_lock_);
560 
561   // Return true if a method is likely to be dirtied at runtime.
562   bool WillMethodBeDirty(ArtMethod* m) const REQUIRES_SHARED(Locks::mutator_lock_);
563 
564   // Assign the offset for an ArtMethod.
565   void AssignMethodOffset(ArtMethod* method,
566                           NativeObjectRelocationType type,
567                           size_t oat_index)
568       REQUIRES_SHARED(Locks::mutator_lock_);
569 
570   // Return true if imt was newly inserted.
571   bool TryAssignImTableOffset(ImTable* imt, size_t oat_index) REQUIRES_SHARED(Locks::mutator_lock_);
572 
573   // Assign the offset for an IMT conflict table. Does nothing if the table already has a native
574   // relocation.
575   void TryAssignConflictTableOffset(ImtConflictTable* table, size_t oat_index)
576       REQUIRES_SHARED(Locks::mutator_lock_);
577 
578   // Return true if klass is loaded by the boot class loader but not in the boot image.
579   bool IsBootClassLoaderNonImageClass(mirror::Class* klass) REQUIRES_SHARED(Locks::mutator_lock_);
580 
581   // Return true if klass depends on a boot class loader non image class. We want to prune these
582   // classes since we do not want any boot class loader classes in the image. This means that
583   // we also cannot have any classes which refer to these boot class loader non image classes.
584   // PruneAppImageClass also prunes if klass depends on a non-image class according to the compiler
585   // options.
586   bool PruneAppImageClass(ObjPtr<mirror::Class> klass) REQUIRES_SHARED(Locks::mutator_lock_);
587 
588   // early_exit is true if we had a cyclic dependency anywhere down the chain.
589   bool PruneAppImageClassInternal(ObjPtr<mirror::Class> klass,
590                                   bool* early_exit,
591                                   std::unordered_set<mirror::Object*>* visited)
592       REQUIRES_SHARED(Locks::mutator_lock_);
593 
594   /*
595    * This type holds the information necessary for calculating
596    * AppImageReferenceOffsetInfo values after the object relocations have been
597    * computed.
598    *
599    * The first element will always be a pointer to a managed object.  If the
600    * pointer has been tagged (testable with HasDexCacheNativeRefTag) it
601    * indicates that the referenced object is a DexCache object that requires
602    * special handling during loading and the second element has no meaningful
603    * value.  If the pointer isn't tagged then the second element is an
604    * object-relative offset to a field containing a string reference.
605    *
606    * Note that it is possible for an untagged DexCache pointer to occur in the
607    * first position if it has a managed reference that needs to be updated.
608    *
609    * TODO (chriswailes): Add a note indicating the source line where we ensure
610    * that no moving garbage collection will occur.
611    *
612    * TODO (chriswailes): Replace with std::variant once ART is building with
613    * C++17
614    */
615   typedef std::pair<uintptr_t, uint32_t> HeapReferencePointerInfo;
616 
617   /*
618    * Collects the info necessary for calculating image offsets to string field
619    * later.
620    *
621    * This function is used when constructing AppImages.  Because AppImages
622    * contain strings that must be interned we need to visit references to these
623    * strings when the AppImage is loaded and either insert them into the
624    * runtime intern table or replace the existing reference with a reference
625    * to the interned strings.
626    *
627    * To speed up the interning of strings when the AppImage is loaded we include
628    * a list of offsets to string references in the AppImage.  These are then
629    * iterated over at load time and fixed up.
630    *
631    * To record the offsets we first have to count the number of string
632    * references that will be included in the AppImage.  This allows use to both
633    * allocate enough memory for soring the offsets and correctly calculate the
634    * offsets of various objects into the image.  Once the image offset
635    * calculations are done for managed objects the reference object/offset pairs
636    * are translated to image offsets.  The CopyMetadata function then copies
637    * these offsets into the image.
638    */
639   std::vector<HeapReferencePointerInfo> CollectStringReferenceInfo() const
640       REQUIRES_SHARED(Locks::mutator_lock_);
641 
642   /*
643    * Ensures that assumptions about native GC roots and AppImages hold.
644    *
645    * This function verifies the following condition(s):
646    *   - Native references to managed strings are only reachable through DexCache
647    *     objects
648    */
649   void VerifyNativeGCRootInvariants() const REQUIRES_SHARED(Locks::mutator_lock_);
650 
IsMultiImage()651   bool IsMultiImage() const {
652     return image_infos_.size() > 1;
653   }
654 
655   static Bin BinTypeForNativeRelocationType(NativeObjectRelocationType type);
656 
657   struct NativeObjectRelocation {
658     size_t oat_index;
659     uintptr_t offset;
660     NativeObjectRelocationType type;
661 
IsArtMethodRelocationNativeObjectRelocation662     bool IsArtMethodRelocation() const {
663       return type == NativeObjectRelocationType::kArtMethodClean ||
664           type == NativeObjectRelocationType::kArtMethodDirty ||
665           type == NativeObjectRelocationType::kRuntimeMethod;
666     }
667   };
668 
669   NativeObjectRelocation GetNativeRelocation(void* obj) REQUIRES_SHARED(Locks::mutator_lock_);
670 
671   // Location of where the object will be when the image is loaded at runtime.
672   template <typename T>
673   T* NativeLocationInImage(T* obj) REQUIRES_SHARED(Locks::mutator_lock_);
674 
675   // Location of where the temporary copy of the object currently is.
676   template <typename T>
677   T* NativeCopyLocation(T* obj) REQUIRES_SHARED(Locks::mutator_lock_);
678 
679   // Return true if `obj` belongs to the image we're writing.
680   // For a boot image, this is true for all objects.
681   // For an app image, boot image objects and boot class path dex caches are excluded.
682   bool IsImageObject(ObjPtr<mirror::Object> obj) const REQUIRES_SHARED(Locks::mutator_lock_);
683 
684   // Return true if `obj` is inside of the boot image space. This may only return true if we are
685   // compiling an app image.
686   bool IsInBootImage(const void* obj) const;
687 
688   // Return true if ptr is within the boot oat file.
689   bool IsInBootOatFile(const void* ptr) const;
690 
691   // Get the index of the oat file associated with the object.
692   size_t GetOatIndex(mirror::Object* object) const REQUIRES_SHARED(Locks::mutator_lock_);
693 
694   // The oat index for shared data in multi-image and all data in single-image compilation.
GetDefaultOatIndex()695   size_t GetDefaultOatIndex() const {
696     return 0u;
697   }
698 
GetImageInfo(size_t oat_index)699   ImageInfo& GetImageInfo(size_t oat_index) {
700     return image_infos_[oat_index];
701   }
702 
GetImageInfo(size_t oat_index)703   const ImageInfo& GetImageInfo(size_t oat_index) const {
704     return image_infos_[oat_index];
705   }
706 
707   // Find an already strong interned string in the other images or in the boot image. Used to
708   // remove duplicates in the multi image and app image case.
709   mirror::String* FindInternedString(mirror::String* string) REQUIRES_SHARED(Locks::mutator_lock_);
710 
711   // Return true if there already exists a native allocation for an object.
712   bool NativeRelocationAssigned(void* ptr) const;
713 
714   // Copy a reference and record image relocation.
715   template <typename DestType>
716   void CopyAndFixupReference(DestType* dest, ObjPtr<mirror::Object> src)
717       REQUIRES_SHARED(Locks::mutator_lock_);
718 
719   // Copy a native pointer and record image relocation.
720   void CopyAndFixupPointer(void** target, void* value, PointerSize pointer_size)
721       REQUIRES_SHARED(Locks::mutator_lock_);
722   void CopyAndFixupPointer(void** target, void* value)
723       REQUIRES_SHARED(Locks::mutator_lock_);
724   void CopyAndFixupPointer(
725       void* object, MemberOffset offset, void* value, PointerSize pointer_size)
726       REQUIRES_SHARED(Locks::mutator_lock_);
727   void CopyAndFixupPointer(void* object, MemberOffset offset, void* value)
728       REQUIRES_SHARED(Locks::mutator_lock_);
729 
730   /*
731    * Tests an object to see if it will be contained in an AppImage.
732    *
733    * An object reference is considered to be a AppImage String reference iff:
734    *   - It isn't null
735    *   - The referred-object isn't in the boot image
736    *   - The referred-object is a Java String
737    */
738   ALWAYS_INLINE
739   bool IsValidAppImageStringReference(ObjPtr<mirror::Object> referred_obj) const
740       REQUIRES_SHARED(Locks::mutator_lock_);
741 
742   const CompilerOptions& compiler_options_;
743 
744   // Beginning target image address for the first image.
745   uint8_t* global_image_begin_;
746 
747   // Offset from image_begin_ to where the first object is in image_.
748   size_t image_objects_offset_begin_;
749 
750   // Pointer arrays that need to be updated. Since these are only some int and long arrays, we need
751   // to keep track. These include vtable arrays, iftable arrays, and dex caches.
752   std::unordered_map<mirror::PointerArray*, Bin> pointer_arrays_;
753 
754   // Saved hash codes. We use these to restore lockwords which were temporarily used to have
755   // forwarding addresses as well as copying over hash codes.
756   std::unordered_map<mirror::Object*, uint32_t> saved_hashcode_map_;
757 
758   // Oat index map for objects.
759   std::unordered_map<mirror::Object*, uint32_t> oat_index_map_;
760 
761   // Size of pointers on the target architecture.
762   PointerSize target_ptr_size_;
763 
764   // Image data indexed by the oat file index.
765   dchecked_vector<ImageInfo> image_infos_;
766 
767   // ArtField, ArtMethod relocating map. These are allocated as array of structs but we want to
768   // have one entry per art field for convenience. ArtFields are placed right after the end of the
769   // image objects (aka sum of bin_slot_sizes_). ArtMethods are placed right after the ArtFields.
770   std::unordered_map<void*, NativeObjectRelocation> native_object_relocations_;
771 
772   // Runtime ArtMethods which aren't reachable from any Class but need to be copied into the image.
773   ArtMethod* image_methods_[ImageHeader::kImageMethodsCount];
774 
775   // Counters for measurements, used for logging only.
776   uint64_t dirty_methods_;
777   uint64_t clean_methods_;
778 
779   // Prune class memoization table to speed up ContainsBootClassLoaderNonImageClass.
780   std::unordered_map<mirror::Class*, bool> prune_class_memo_;
781 
782   // The application class loader. Null for boot image.
783   jobject app_class_loader_;
784 
785   // Boot image live objects, null for app image.
786   mirror::ObjectArray<mirror::Object>* boot_image_live_objects_;
787 
788   // Offsets into the image that indicate where string references are recorded.
789   std::vector<AppImageReferenceOffsetInfo> string_reference_offsets_;
790 
791   // Which mode the image is stored as, see image.h
792   const ImageHeader::StorageMode image_storage_mode_;
793 
794   // The file names of oat files.
795   const std::vector<std::string>& oat_filenames_;
796 
797   // Map of dex files to the indexes of oat files that they were compiled into.
798   const std::unordered_map<const DexFile*, size_t>& dex_file_oat_index_map_;
799 
800   // Set of objects known to be dirty in the image. Can be nullptr if there are none.
801   const HashSet<std::string>* dirty_image_objects_;
802 
803   // Objects are guaranteed to not cross the region size boundary.
804   size_t region_size_ = 0u;
805 
806   // Region alignment bytes wasted.
807   size_t region_alignment_wasted_ = 0u;
808 
809   class ImageFileGuard;
810   class FixupClassVisitor;
811   class FixupRootVisitor;
812   class FixupVisitor;
813   class GetRootsVisitor;
814   class NativeLocationVisitor;
815   class PruneClassesVisitor;
816   class PruneClassLoaderClassesVisitor;
817   class PruneObjectReferenceVisitor;
818   class RegisterBootClassPathClassesVisitor;
819   class VisitReferencesVisitor;
820 
821   /*
822    * A visitor class for extracting object/offset pairs.
823    *
824    * This visitor walks the fields of an object and extracts object/offset pairs
825    * that are later translated to image offsets.  This visitor is only
826    * responsible for extracting info for Java references.  Native references to
827    * Java strings are handled in the wrapper function
828    * CollectStringReferenceInfo().
829    */
830   class CollectStringReferenceVisitor;
831 
832   // A visitor used by the VerifyNativeGCRootInvariants() function.
833   class NativeGCRootInvariantVisitor;
834 
835   DISALLOW_COPY_AND_ASSIGN(ImageWriter);
836 };
837 
838 }  // namespace linker
839 }  // namespace art
840 
841 #endif  // ART_DEX2OAT_LINKER_IMAGE_WRITER_H_
842