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_RUNTIME_IMAGE_H_ 18 #define ART_RUNTIME_IMAGE_H_ 19 20 #include <string.h> 21 22 #include "base/enums.h" 23 #include "base/iteration_range.h" 24 #include "mirror/object.h" 25 #include "runtime_globals.h" 26 27 namespace art { 28 29 class ArtField; 30 class ArtMethod; 31 template <class MirrorType> class ObjPtr; 32 33 namespace linker { 34 class ImageWriter; 35 } // namespace linker 36 37 class ObjectVisitor { 38 public: ~ObjectVisitor()39 virtual ~ObjectVisitor() {} 40 41 virtual void Visit(mirror::Object* object) = 0; 42 }; 43 44 class PACKED(4) ImageSection { 45 public: ImageSection()46 ImageSection() : offset_(0), size_(0) { } ImageSection(uint32_t offset,uint32_t size)47 ImageSection(uint32_t offset, uint32_t size) : offset_(offset), size_(size) { } 48 ImageSection(const ImageSection& section) = default; 49 ImageSection& operator=(const ImageSection& section) = default; 50 Offset()51 uint32_t Offset() const { 52 return offset_; 53 } 54 Size()55 uint32_t Size() const { 56 return size_; 57 } 58 End()59 uint32_t End() const { 60 return Offset() + Size(); 61 } 62 Contains(uint64_t offset)63 bool Contains(uint64_t offset) const { 64 return offset - offset_ < size_; 65 } 66 67 private: 68 uint32_t offset_; 69 uint32_t size_; 70 }; 71 72 // Header of image files written by ImageWriter, read and validated by Space. 73 // Packed to object alignment since the first object follows directly after the header. 74 static_assert(kObjectAlignment == 8, "Alignment check"); 75 class PACKED(8) ImageHeader { 76 public: 77 enum StorageMode : uint32_t { 78 kStorageModeUncompressed, 79 kStorageModeLZ4, 80 kStorageModeLZ4HC, 81 kStorageModeCount, // Number of elements in enum. 82 }; 83 static constexpr StorageMode kDefaultStorageMode = kStorageModeUncompressed; 84 85 // Solid block of the image. May be compressed or uncompressed. 86 class PACKED(4) Block final { 87 public: Block(StorageMode storage_mode,uint32_t data_offset,uint32_t data_size,uint32_t image_offset,uint32_t image_size)88 Block(StorageMode storage_mode, 89 uint32_t data_offset, 90 uint32_t data_size, 91 uint32_t image_offset, 92 uint32_t image_size) 93 : storage_mode_(storage_mode), 94 data_offset_(data_offset), 95 data_size_(data_size), 96 image_offset_(image_offset), 97 image_size_(image_size) {} 98 99 bool Decompress(uint8_t* out_ptr, const uint8_t* in_ptr, std::string* error_msg) const; 100 GetStorageMode()101 StorageMode GetStorageMode() const { 102 return storage_mode_; 103 } 104 GetDataSize()105 uint32_t GetDataSize() const { 106 return data_size_; 107 } 108 GetImageSize()109 uint32_t GetImageSize() const { 110 return image_size_; 111 } 112 113 private: 114 // Storage method for the image, the image may be compressed. 115 StorageMode storage_mode_ = kDefaultStorageMode; 116 117 // Compressed offset and size. 118 uint32_t data_offset_ = 0u; 119 uint32_t data_size_ = 0u; 120 121 // Image offset and size (decompressed or mapped location). 122 uint32_t image_offset_ = 0u; 123 uint32_t image_size_ = 0u; 124 }; 125 ImageHeader()126 ImageHeader() {} 127 ImageHeader(uint32_t image_reservation_size, 128 uint32_t component_count, 129 uint32_t image_begin, 130 uint32_t image_size, 131 ImageSection* sections, 132 uint32_t image_roots, 133 uint32_t oat_checksum, 134 uint32_t oat_file_begin, 135 uint32_t oat_data_begin, 136 uint32_t oat_data_end, 137 uint32_t oat_file_end, 138 uint32_t boot_image_begin, 139 uint32_t boot_image_size, 140 uint32_t boot_image_component_count, 141 uint32_t boot_image_checksum, 142 uint32_t pointer_size); 143 144 bool IsValid() const; 145 const char* GetMagic() const; 146 GetImageReservationSize()147 uint32_t GetImageReservationSize() const { 148 return image_reservation_size_; 149 } 150 GetComponentCount()151 uint32_t GetComponentCount() const { 152 return component_count_; 153 } 154 GetImageBegin()155 uint8_t* GetImageBegin() const { 156 return reinterpret_cast<uint8_t*>(image_begin_); 157 } 158 GetImageSize()159 size_t GetImageSize() const { 160 return image_size_; 161 } 162 GetImageChecksum()163 uint32_t GetImageChecksum() const { 164 return image_checksum_; 165 } 166 SetImageChecksum(uint32_t image_checksum)167 void SetImageChecksum(uint32_t image_checksum) { 168 image_checksum_ = image_checksum; 169 } 170 GetOatChecksum()171 uint32_t GetOatChecksum() const { 172 return oat_checksum_; 173 } 174 SetOatChecksum(uint32_t oat_checksum)175 void SetOatChecksum(uint32_t oat_checksum) { 176 oat_checksum_ = oat_checksum; 177 } 178 179 // The location that the oat file was expected to be when the image was created. The actual 180 // oat file may be at a different location for application images. GetOatFileBegin()181 uint8_t* GetOatFileBegin() const { 182 return reinterpret_cast<uint8_t*>(oat_file_begin_); 183 } 184 GetOatDataBegin()185 uint8_t* GetOatDataBegin() const { 186 return reinterpret_cast<uint8_t*>(oat_data_begin_); 187 } 188 GetOatDataEnd()189 uint8_t* GetOatDataEnd() const { 190 return reinterpret_cast<uint8_t*>(oat_data_end_); 191 } 192 GetOatFileEnd()193 uint8_t* GetOatFileEnd() const { 194 return reinterpret_cast<uint8_t*>(oat_file_end_); 195 } 196 197 PointerSize GetPointerSize() const; 198 GetPointerSizeUnchecked()199 uint32_t GetPointerSizeUnchecked() const { 200 return pointer_size_; 201 } 202 GetOatLocationFromImageLocation(const std::string & image)203 static std::string GetOatLocationFromImageLocation(const std::string& image) { 204 return GetLocationFromImageLocation(image, "oat"); 205 } 206 GetVdexLocationFromImageLocation(const std::string & image)207 static std::string GetVdexLocationFromImageLocation(const std::string& image) { 208 return GetLocationFromImageLocation(image, "vdex"); 209 } 210 211 enum ImageMethod { 212 kResolutionMethod, 213 kImtConflictMethod, 214 kImtUnimplementedMethod, 215 kSaveAllCalleeSavesMethod, 216 kSaveRefsOnlyMethod, 217 kSaveRefsAndArgsMethod, 218 kSaveEverythingMethod, 219 kSaveEverythingMethodForClinit, 220 kSaveEverythingMethodForSuspendCheck, 221 kImageMethodsCount, // Number of elements in enum. 222 }; 223 224 enum ImageRoot { 225 kDexCaches, 226 kClassRoots, 227 kSpecialRoots, // Different for boot image and app image, see aliases below. 228 kImageRootsMax, 229 230 // Aliases. 231 kAppImageClassLoader = kSpecialRoots, // The class loader used to build the app image. 232 kBootImageLiveObjects = kSpecialRoots, // Array of boot image objects that must be kept live. 233 }; 234 235 enum BootImageLiveObjects { 236 kOomeWhenThrowingException, // Pre-allocated OOME when throwing exception. 237 kOomeWhenThrowingOome, // Pre-allocated OOME when throwing OOME. 238 kOomeWhenHandlingStackOverflow, // Pre-allocated OOME when handling StackOverflowError. 239 kNoClassDefFoundError, // Pre-allocated NoClassDefFoundError. 240 kClearedJniWeakSentinel, // Pre-allocated sentinel for cleared weak JNI references. 241 kIntrinsicObjectsStart 242 }; 243 244 /* 245 * This describes the number and ordering of sections inside of Boot 246 * and App Images. It is very important that changes to this struct 247 * are reflected in the compiler and loader. 248 * 249 * See: 250 * - ImageWriter::ImageInfo::CreateImageSections() 251 * - ImageWriter::Write() 252 * - ImageWriter::AllocMemory() 253 */ 254 enum ImageSections { 255 kSectionObjects, 256 kSectionArtFields, 257 kSectionArtMethods, 258 kSectionRuntimeMethods, 259 kSectionImTables, 260 kSectionIMTConflictTables, 261 kSectionInternedStrings, 262 kSectionClassTable, 263 kSectionStringReferenceOffsets, 264 kSectionMetadata, 265 kSectionImageBitmap, 266 kSectionCount, // Number of elements in enum. 267 }; 268 NumberOfImageRoots(bool app_image ATTRIBUTE_UNUSED)269 static size_t NumberOfImageRoots(bool app_image ATTRIBUTE_UNUSED) { 270 // At the moment, boot image and app image have the same number of roots, 271 // though the meaning of the kSpecialRoots is different. 272 return kImageRootsMax; 273 } 274 275 ArtMethod* GetImageMethod(ImageMethod index) const; 276 277 static const char* GetImageSectionName(ImageSections index); 278 GetImageSection(ImageSections index)279 ImageSection& GetImageSection(ImageSections index) { 280 DCHECK_LT(static_cast<size_t>(index), kSectionCount); 281 return sections_[index]; 282 } 283 GetImageSection(ImageSections index)284 const ImageSection& GetImageSection(ImageSections index) const { 285 DCHECK_LT(static_cast<size_t>(index), kSectionCount); 286 return sections_[index]; 287 } 288 GetObjectsSection()289 const ImageSection& GetObjectsSection() const { 290 return GetImageSection(kSectionObjects); 291 } 292 GetFieldsSection()293 const ImageSection& GetFieldsSection() const { 294 return GetImageSection(ImageHeader::kSectionArtFields); 295 } 296 GetMethodsSection()297 const ImageSection& GetMethodsSection() const { 298 return GetImageSection(kSectionArtMethods); 299 } 300 GetRuntimeMethodsSection()301 const ImageSection& GetRuntimeMethodsSection() const { 302 return GetImageSection(kSectionRuntimeMethods); 303 } 304 GetImTablesSection()305 const ImageSection& GetImTablesSection() const { 306 return GetImageSection(kSectionImTables); 307 } 308 GetIMTConflictTablesSection()309 const ImageSection& GetIMTConflictTablesSection() const { 310 return GetImageSection(kSectionIMTConflictTables); 311 } 312 GetInternedStringsSection()313 const ImageSection& GetInternedStringsSection() const { 314 return GetImageSection(kSectionInternedStrings); 315 } 316 GetClassTableSection()317 const ImageSection& GetClassTableSection() const { 318 return GetImageSection(kSectionClassTable); 319 } 320 GetImageStringReferenceOffsetsSection()321 const ImageSection& GetImageStringReferenceOffsetsSection() const { 322 return GetImageSection(kSectionStringReferenceOffsets); 323 } 324 GetMetadataSection()325 const ImageSection& GetMetadataSection() const { 326 return GetImageSection(kSectionMetadata); 327 } 328 GetImageBitmapSection()329 const ImageSection& GetImageBitmapSection() const { 330 return GetImageSection(kSectionImageBitmap); 331 } 332 333 template <ReadBarrierOption kReadBarrierOption = kWithReadBarrier> 334 ObjPtr<mirror::Object> GetImageRoot(ImageRoot image_root) const 335 REQUIRES_SHARED(Locks::mutator_lock_); 336 337 template <ReadBarrierOption kReadBarrierOption = kWithReadBarrier> 338 ObjPtr<mirror::ObjectArray<mirror::Object>> GetImageRoots() const 339 REQUIRES_SHARED(Locks::mutator_lock_); 340 341 void RelocateImageReferences(int64_t delta); 342 void RelocateBootImageReferences(int64_t delta); 343 GetBootImageBegin()344 uint32_t GetBootImageBegin() const { 345 return boot_image_begin_; 346 } 347 GetBootImageSize()348 uint32_t GetBootImageSize() const { 349 return boot_image_size_; 350 } 351 GetBootImageComponentCount()352 uint32_t GetBootImageComponentCount() const { 353 return boot_image_component_count_; 354 } 355 GetBootImageChecksum()356 uint32_t GetBootImageChecksum() const { 357 return boot_image_checksum_; 358 } 359 GetDataSize()360 uint64_t GetDataSize() const { 361 return data_size_; 362 } 363 364 bool IsAppImage() const; 365 366 uint32_t GetImageSpaceCount() const; 367 368 // Visit mirror::Objects in the section starting at base. 369 // TODO: Delete base parameter if it is always equal to GetImageBegin. 370 void VisitObjects(ObjectVisitor* visitor, 371 uint8_t* base, 372 PointerSize pointer_size) const 373 REQUIRES_SHARED(Locks::mutator_lock_); 374 375 // Visit ArtMethods in the section starting at base. Includes runtime methods. 376 // TODO: Delete base parameter if it is always equal to GetImageBegin. 377 // NO_THREAD_SAFETY_ANALYSIS for template visitor pattern. 378 template <typename Visitor> 379 void VisitPackedArtMethods(const Visitor& visitor, 380 uint8_t* base, 381 PointerSize pointer_size) const NO_THREAD_SAFETY_ANALYSIS; 382 383 // Visit ArtMethods in the section starting at base. 384 // TODO: Delete base parameter if it is always equal to GetImageBegin. 385 // NO_THREAD_SAFETY_ANALYSIS for template visitor pattern. 386 template <typename Visitor> 387 void VisitPackedArtFields(const Visitor& visitor, uint8_t* base) const NO_THREAD_SAFETY_ANALYSIS; 388 389 template <typename Visitor> 390 void VisitPackedImTables(const Visitor& visitor, 391 uint8_t* base, 392 PointerSize pointer_size) const; 393 394 template <typename Visitor> 395 void VisitPackedImtConflictTables(const Visitor& visitor, 396 uint8_t* base, 397 PointerSize pointer_size) const; 398 GetBlocks()399 IterationRange<const Block*> GetBlocks() const { 400 return GetBlocks(GetImageBegin()); 401 } 402 GetBlocks(const uint8_t * image_begin)403 IterationRange<const Block*> GetBlocks(const uint8_t* image_begin) const { 404 const Block* begin = reinterpret_cast<const Block*>(image_begin + blocks_offset_); 405 return {begin, begin + blocks_count_}; 406 } 407 408 // Return true if the image has any compressed blocks. HasCompressedBlock()409 bool HasCompressedBlock() const { 410 return blocks_count_ != 0u; 411 } 412 GetBlockCount()413 uint32_t GetBlockCount() const { 414 return blocks_count_; 415 } 416 417 private: 418 static const uint8_t kImageMagic[4]; 419 static const uint8_t kImageVersion[4]; 420 GetLocationFromImageLocation(const std::string & image,const std::string & extension)421 static std::string GetLocationFromImageLocation(const std::string& image, 422 const std::string& extension) { 423 std::string filename = image; 424 if (filename.length() <= 3) { 425 filename += "." + extension; 426 } else { 427 filename.replace(filename.length() - 3, 3, extension); 428 } 429 return filename; 430 } 431 432 uint8_t magic_[4]; 433 uint8_t version_[4]; 434 435 // The total memory reservation size for the image. 436 // For boot image or boot image extension, the primary image includes the reservation 437 // for all image files and oat files, secondary images have the reservation set to 0. 438 // App images have reservation equal to `image_size_` rounded up to page size because 439 // their oat files are mmapped independently. 440 uint32_t image_reservation_size_ = 0u; 441 442 // The number of components (jar files contributing to the image). 443 // For boot image or boot image extension, the primary image stores the total number 444 // of components, secondary images have this set to 0. App images have 1 component. 445 // The component count usually matches the total number of images (one image per component), but 446 // if multiple components are compiled with --single-image there will only be 1 image associated 447 // with those components. 448 uint32_t component_count_ = 0u; 449 450 // Required base address for mapping the image. 451 uint32_t image_begin_ = 0u; 452 453 // Image size, not page aligned. 454 uint32_t image_size_ = 0u; 455 456 // Image file checksum (calculated with the checksum field set to 0). 457 uint32_t image_checksum_ = 0u; 458 459 // Checksum of the oat file we link to for load time consistency check. 460 uint32_t oat_checksum_ = 0u; 461 462 // Start address for oat file. Will be before oat_data_begin_ for .so files. 463 uint32_t oat_file_begin_ = 0u; 464 465 // Required oat address expected by image Method::GetCode() pointers. 466 uint32_t oat_data_begin_ = 0u; 467 468 // End of oat data address range for this image file. 469 uint32_t oat_data_end_ = 0u; 470 471 // End of oat file address range. will be after oat_data_end_ for 472 // .so files. Used for positioning a following alloc spaces. 473 uint32_t oat_file_end_ = 0u; 474 475 // Boot image begin and end (only applies to boot image extension and app image headers). 476 uint32_t boot_image_begin_ = 0u; 477 uint32_t boot_image_size_ = 0u; // Includes heap (*.art) and code (.oat). 478 479 // Number of boot image components that this image depends on and their composite checksum 480 // (only applies to boot image extension and app image headers). 481 uint32_t boot_image_component_count_ = 0u; 482 uint32_t boot_image_checksum_ = 0u; 483 484 // Absolute address of an Object[] of objects needed to reinitialize from an image. 485 uint32_t image_roots_ = 0u; 486 487 // Pointer size, this affects the size of the ArtMethods. 488 uint32_t pointer_size_ = 0u; 489 490 // Image section sizes/offsets correspond to the uncompressed form. 491 ImageSection sections_[kSectionCount]; 492 493 // Image methods, may be inside of the boot image for app images. 494 uint64_t image_methods_[kImageMethodsCount]; 495 496 // Data size for the image data excluding the bitmap and the header. For compressed images, this 497 // is the compressed size in the file. 498 uint32_t data_size_ = 0u; 499 500 // Image blocks, only used for compressed images. 501 uint32_t blocks_offset_ = 0u; 502 uint32_t blocks_count_ = 0u; 503 504 friend class linker::ImageWriter; 505 }; 506 507 /* 508 * This type holds the information necessary to fix up AppImage string 509 * references. 510 * 511 * The first element indicates the location of a managed object with a field that needs fixing up. 512 * The second element of the pair is an object-relative offset to the field in question. 513 */ 514 using AppImageReferenceOffsetInfo = std::pair<uint32_t, uint32_t>; 515 516 std::ostream& operator<<(std::ostream& os, ImageHeader::ImageMethod method); 517 std::ostream& operator<<(std::ostream& os, ImageHeader::ImageRoot root); 518 std::ostream& operator<<(std::ostream& os, ImageHeader::ImageSections section); 519 std::ostream& operator<<(std::ostream& os, ImageHeader::StorageMode mode); 520 521 std::ostream& operator<<(std::ostream& os, const ImageSection& section); 522 523 } // namespace art 524 525 #endif // ART_RUNTIME_IMAGE_H_ 526