1 /* 2 * Copyright (C) 2015 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 #include "stack_map_stream.h" 17 18 namespace art { 19 20 void StackMapStream::BeginStackMapEntry(uint32_t dex_pc, 21 uint32_t native_pc_offset, 22 uint32_t register_mask, 23 BitVector* sp_mask, 24 uint32_t num_dex_registers, 25 uint8_t inlining_depth) { 26 DCHECK_EQ(0u, current_entry_.dex_pc) << "EndStackMapEntry not called after BeginStackMapEntry"; 27 DCHECK_NE(dex_pc, static_cast<uint32_t>(-1)) << "invalid dex_pc"; 28 current_entry_.dex_pc = dex_pc; 29 current_entry_.native_pc_offset = native_pc_offset; 30 current_entry_.register_mask = register_mask; 31 current_entry_.sp_mask = sp_mask; 32 current_entry_.num_dex_registers = num_dex_registers; 33 current_entry_.inlining_depth = inlining_depth; 34 current_entry_.dex_register_locations_start_index = dex_register_locations_.size(); 35 current_entry_.inline_infos_start_index = inline_infos_.size(); 36 current_entry_.dex_register_map_hash = 0; 37 current_entry_.same_dex_register_map_as_ = kNoSameDexMapFound; 38 if (num_dex_registers != 0) { 39 current_entry_.live_dex_registers_mask = 40 ArenaBitVector::Create(allocator_, num_dex_registers, true, kArenaAllocStackMapStream); 41 } else { 42 current_entry_.live_dex_registers_mask = nullptr; 43 } 44 45 if (sp_mask != nullptr) { 46 stack_mask_max_ = std::max(stack_mask_max_, sp_mask->GetHighestBitSet()); 47 } 48 if (inlining_depth > 0) { 49 number_of_stack_maps_with_inline_info_++; 50 } 51 52 dex_pc_max_ = std::max(dex_pc_max_, dex_pc); 53 register_mask_max_ = std::max(register_mask_max_, register_mask); 54 current_dex_register_ = 0; 55 } 56 57 void StackMapStream::EndStackMapEntry() { 58 current_entry_.same_dex_register_map_as_ = FindEntryWithTheSameDexMap(); 59 stack_maps_.push_back(current_entry_); 60 current_entry_ = StackMapEntry(); 61 } 62 63 void StackMapStream::AddDexRegisterEntry(DexRegisterLocation::Kind kind, int32_t value) { 64 if (kind != DexRegisterLocation::Kind::kNone) { 65 // Ensure we only use non-compressed location kind at this stage. 66 DCHECK(DexRegisterLocation::IsShortLocationKind(kind)) << kind; 67 DexRegisterLocation location(kind, value); 68 69 // Look for Dex register `location` in the location catalog (using the 70 // companion hash map of locations to indices). Use its index if it 71 // is already in the location catalog. If not, insert it (in the 72 // location catalog and the hash map) and use the newly created index. 73 auto it = location_catalog_entries_indices_.Find(location); 74 if (it != location_catalog_entries_indices_.end()) { 75 // Retrieve the index from the hash map. 76 dex_register_locations_.push_back(it->second); 77 } else { 78 // Create a new entry in the location catalog and the hash map. 79 size_t index = location_catalog_entries_.size(); 80 location_catalog_entries_.push_back(location); 81 dex_register_locations_.push_back(index); 82 location_catalog_entries_indices_.Insert(std::make_pair(location, index)); 83 } 84 85 if (in_inline_frame_) { 86 // TODO: Support sharing DexRegisterMap across InlineInfo. 87 DCHECK_LT(current_dex_register_, current_inline_info_.num_dex_registers); 88 current_inline_info_.live_dex_registers_mask->SetBit(current_dex_register_); 89 } else { 90 DCHECK_LT(current_dex_register_, current_entry_.num_dex_registers); 91 current_entry_.live_dex_registers_mask->SetBit(current_dex_register_); 92 current_entry_.dex_register_map_hash += (1 << 93 (current_dex_register_ % (sizeof(current_entry_.dex_register_map_hash) * kBitsPerByte))); 94 current_entry_.dex_register_map_hash += static_cast<uint32_t>(value); 95 current_entry_.dex_register_map_hash += static_cast<uint32_t>(kind); 96 } 97 } 98 current_dex_register_++; 99 } 100 101 void StackMapStream::BeginInlineInfoEntry(uint32_t method_index, 102 uint32_t dex_pc, 103 InvokeType invoke_type, 104 uint32_t num_dex_registers) { 105 DCHECK(!in_inline_frame_); 106 in_inline_frame_ = true; 107 current_inline_info_.method_index = method_index; 108 current_inline_info_.dex_pc = dex_pc; 109 current_inline_info_.invoke_type = invoke_type; 110 current_inline_info_.num_dex_registers = num_dex_registers; 111 current_inline_info_.dex_register_locations_start_index = dex_register_locations_.size(); 112 if (num_dex_registers != 0) { 113 current_inline_info_.live_dex_registers_mask = 114 ArenaBitVector::Create(allocator_, num_dex_registers, true, kArenaAllocStackMapStream); 115 } else { 116 current_inline_info_.live_dex_registers_mask = nullptr; 117 } 118 current_dex_register_ = 0; 119 } 120 121 void StackMapStream::EndInlineInfoEntry() { 122 DCHECK(in_inline_frame_); 123 DCHECK_EQ(current_dex_register_, current_inline_info_.num_dex_registers) 124 << "Inline information contains less registers than expected"; 125 in_inline_frame_ = false; 126 inline_infos_.push_back(current_inline_info_); 127 current_inline_info_ = InlineInfoEntry(); 128 } 129 130 uint32_t StackMapStream::ComputeMaxNativePcOffset() const { 131 uint32_t max_native_pc_offset = 0u; 132 for (const StackMapEntry& entry : stack_maps_) { 133 max_native_pc_offset = std::max(max_native_pc_offset, entry.native_pc_offset); 134 } 135 return max_native_pc_offset; 136 } 137 138 size_t StackMapStream::PrepareForFillIn() { 139 int stack_mask_number_of_bits = stack_mask_max_ + 1; // Need room for max element too. 140 dex_register_maps_size_ = ComputeDexRegisterMapsSize(); 141 ComputeInlineInfoEncoding(); // needs dex_register_maps_size_. 142 inline_info_size_ = inline_infos_.size() * inline_info_encoding_.GetEntrySize(); 143 uint32_t max_native_pc_offset = ComputeMaxNativePcOffset(); 144 size_t stack_map_size = stack_map_encoding_.SetFromSizes(max_native_pc_offset, 145 dex_pc_max_, 146 dex_register_maps_size_, 147 inline_info_size_, 148 register_mask_max_, 149 stack_mask_number_of_bits); 150 stack_maps_size_ = stack_maps_.size() * stack_map_size; 151 dex_register_location_catalog_size_ = ComputeDexRegisterLocationCatalogSize(); 152 153 size_t non_header_size = 154 stack_maps_size_ + 155 dex_register_location_catalog_size_ + 156 dex_register_maps_size_ + 157 inline_info_size_; 158 159 // Prepare the CodeInfo variable-sized encoding. 160 CodeInfoEncoding code_info_encoding; 161 code_info_encoding.non_header_size = non_header_size; 162 code_info_encoding.number_of_stack_maps = stack_maps_.size(); 163 code_info_encoding.stack_map_size_in_bytes = stack_map_size; 164 code_info_encoding.stack_map_encoding = stack_map_encoding_; 165 code_info_encoding.inline_info_encoding = inline_info_encoding_; 166 code_info_encoding.number_of_location_catalog_entries = location_catalog_entries_.size(); 167 code_info_encoding.Compress(&code_info_encoding_); 168 169 // TODO: Move the catalog at the end. It is currently too expensive at runtime 170 // to compute its size (note that we do not encode that size in the CodeInfo). 171 dex_register_location_catalog_start_ = code_info_encoding_.size() + stack_maps_size_; 172 dex_register_maps_start_ = 173 dex_register_location_catalog_start_ + dex_register_location_catalog_size_; 174 inline_infos_start_ = dex_register_maps_start_ + dex_register_maps_size_; 175 176 needed_size_ = code_info_encoding_.size() + non_header_size; 177 return needed_size_; 178 } 179 180 size_t StackMapStream::ComputeDexRegisterLocationCatalogSize() const { 181 size_t size = DexRegisterLocationCatalog::kFixedSize; 182 for (const DexRegisterLocation& dex_register_location : location_catalog_entries_) { 183 size += DexRegisterLocationCatalog::EntrySize(dex_register_location); 184 } 185 return size; 186 } 187 188 size_t StackMapStream::ComputeDexRegisterMapSize(uint32_t num_dex_registers, 189 const BitVector* live_dex_registers_mask) const { 190 // For num_dex_registers == 0u live_dex_registers_mask may be null. 191 if (num_dex_registers == 0u) { 192 return 0u; // No register map will be emitted. 193 } 194 DCHECK(live_dex_registers_mask != nullptr); 195 196 // Size of the map in bytes. 197 size_t size = DexRegisterMap::kFixedSize; 198 // Add the live bit mask for the Dex register liveness. 199 size += DexRegisterMap::GetLiveBitMaskSize(num_dex_registers); 200 // Compute the size of the set of live Dex register entries. 201 size_t number_of_live_dex_registers = live_dex_registers_mask->NumSetBits(); 202 size_t map_entries_size_in_bits = 203 DexRegisterMap::SingleEntrySizeInBits(location_catalog_entries_.size()) 204 * number_of_live_dex_registers; 205 size_t map_entries_size_in_bytes = 206 RoundUp(map_entries_size_in_bits, kBitsPerByte) / kBitsPerByte; 207 size += map_entries_size_in_bytes; 208 return size; 209 } 210 211 size_t StackMapStream::ComputeDexRegisterMapsSize() const { 212 size_t size = 0; 213 size_t inline_info_index = 0; 214 for (const StackMapEntry& entry : stack_maps_) { 215 if (entry.same_dex_register_map_as_ == kNoSameDexMapFound) { 216 size += ComputeDexRegisterMapSize(entry.num_dex_registers, entry.live_dex_registers_mask); 217 } else { 218 // Entries with the same dex map will have the same offset. 219 } 220 for (size_t j = 0; j < entry.inlining_depth; ++j) { 221 InlineInfoEntry inline_entry = inline_infos_[inline_info_index++]; 222 size += ComputeDexRegisterMapSize(inline_entry.num_dex_registers, 223 inline_entry.live_dex_registers_mask); 224 } 225 } 226 return size; 227 } 228 229 void StackMapStream::ComputeInlineInfoEncoding() { 230 uint32_t method_index_max = 0; 231 uint32_t dex_pc_max = 0; 232 uint32_t invoke_type_max = 0; 233 234 uint32_t inline_info_index = 0; 235 for (const StackMapEntry& entry : stack_maps_) { 236 for (size_t j = 0; j < entry.inlining_depth; ++j) { 237 InlineInfoEntry inline_entry = inline_infos_[inline_info_index++]; 238 method_index_max = std::max(method_index_max, inline_entry.method_index); 239 dex_pc_max = std::max(dex_pc_max, inline_entry.dex_pc); 240 invoke_type_max = std::max(invoke_type_max, static_cast<uint32_t>(inline_entry.invoke_type)); 241 } 242 } 243 DCHECK_EQ(inline_info_index, inline_infos_.size()); 244 245 inline_info_encoding_.SetFromSizes(method_index_max, 246 dex_pc_max, 247 invoke_type_max, 248 dex_register_maps_size_); 249 } 250 251 void StackMapStream::FillIn(MemoryRegion region) { 252 DCHECK_EQ(0u, current_entry_.dex_pc) << "EndStackMapEntry not called after BeginStackMapEntry"; 253 DCHECK_NE(0u, needed_size_) << "PrepareForFillIn not called before FillIn"; 254 255 DCHECK_EQ(region.size(), needed_size_); 256 257 // Note that the memory region does not have to be zeroed when we JIT code 258 // because we do not use the arena allocator there. 259 260 // Write the CodeInfo header. 261 region.CopyFrom(0, MemoryRegion(code_info_encoding_.data(), code_info_encoding_.size())); 262 263 MemoryRegion dex_register_locations_region = region.Subregion( 264 dex_register_maps_start_, dex_register_maps_size_); 265 266 MemoryRegion inline_infos_region = region.Subregion( 267 inline_infos_start_, inline_info_size_); 268 269 CodeInfo code_info(region); 270 CodeInfoEncoding encoding = code_info.ExtractEncoding(); 271 DCHECK_EQ(code_info.GetStackMapsSize(encoding), stack_maps_size_); 272 273 // Set the Dex register location catalog. 274 MemoryRegion dex_register_location_catalog_region = region.Subregion( 275 dex_register_location_catalog_start_, dex_register_location_catalog_size_); 276 DexRegisterLocationCatalog dex_register_location_catalog(dex_register_location_catalog_region); 277 // Offset in `dex_register_location_catalog` where to store the next 278 // register location. 279 size_t location_catalog_offset = DexRegisterLocationCatalog::kFixedSize; 280 for (DexRegisterLocation dex_register_location : location_catalog_entries_) { 281 dex_register_location_catalog.SetRegisterInfo(location_catalog_offset, dex_register_location); 282 location_catalog_offset += DexRegisterLocationCatalog::EntrySize(dex_register_location); 283 } 284 // Ensure we reached the end of the Dex registers location_catalog. 285 DCHECK_EQ(location_catalog_offset, dex_register_location_catalog_region.size()); 286 287 ArenaBitVector empty_bitmask(allocator_, 0, /* expandable */ false, kArenaAllocStackMapStream); 288 uintptr_t next_dex_register_map_offset = 0; 289 uintptr_t next_inline_info_offset = 0; 290 for (size_t i = 0, e = stack_maps_.size(); i < e; ++i) { 291 StackMap stack_map = code_info.GetStackMapAt(i, encoding); 292 StackMapEntry entry = stack_maps_[i]; 293 294 stack_map.SetDexPc(stack_map_encoding_, entry.dex_pc); 295 stack_map.SetNativePcOffset(stack_map_encoding_, entry.native_pc_offset); 296 stack_map.SetRegisterMask(stack_map_encoding_, entry.register_mask); 297 size_t number_of_stack_mask_bits = stack_map.GetNumberOfStackMaskBits(stack_map_encoding_); 298 if (entry.sp_mask != nullptr) { 299 for (size_t bit = 0; bit < number_of_stack_mask_bits; bit++) { 300 stack_map.SetStackMaskBit(stack_map_encoding_, bit, entry.sp_mask->IsBitSet(bit)); 301 } 302 } else { 303 // The MemoryRegion does not have to be zeroed, so make sure we clear the bits. 304 for (size_t bit = 0; bit < number_of_stack_mask_bits; bit++) { 305 stack_map.SetStackMaskBit(stack_map_encoding_, bit, false); 306 } 307 } 308 309 if (entry.num_dex_registers == 0 || (entry.live_dex_registers_mask->NumSetBits() == 0)) { 310 // No dex map available. 311 stack_map.SetDexRegisterMapOffset(stack_map_encoding_, StackMap::kNoDexRegisterMap); 312 } else { 313 // Search for an entry with the same dex map. 314 if (entry.same_dex_register_map_as_ != kNoSameDexMapFound) { 315 // If we have a hit reuse the offset. 316 stack_map.SetDexRegisterMapOffset( 317 stack_map_encoding_, 318 code_info.GetStackMapAt(entry.same_dex_register_map_as_, encoding) 319 .GetDexRegisterMapOffset(stack_map_encoding_)); 320 } else { 321 // New dex registers maps should be added to the stack map. 322 MemoryRegion register_region = dex_register_locations_region.Subregion( 323 next_dex_register_map_offset, 324 ComputeDexRegisterMapSize(entry.num_dex_registers, entry.live_dex_registers_mask)); 325 next_dex_register_map_offset += register_region.size(); 326 DexRegisterMap dex_register_map(register_region); 327 stack_map.SetDexRegisterMapOffset( 328 stack_map_encoding_, register_region.start() - dex_register_locations_region.start()); 329 330 // Set the dex register location. 331 FillInDexRegisterMap(dex_register_map, 332 entry.num_dex_registers, 333 *entry.live_dex_registers_mask, 334 entry.dex_register_locations_start_index); 335 } 336 } 337 338 // Set the inlining info. 339 if (entry.inlining_depth != 0) { 340 MemoryRegion inline_region = inline_infos_region.Subregion( 341 next_inline_info_offset, 342 entry.inlining_depth * inline_info_encoding_.GetEntrySize()); 343 next_inline_info_offset += inline_region.size(); 344 InlineInfo inline_info(inline_region); 345 346 // Currently relative to the dex register map. 347 stack_map.SetInlineDescriptorOffset( 348 stack_map_encoding_, inline_region.start() - dex_register_locations_region.start()); 349 350 inline_info.SetDepth(inline_info_encoding_, entry.inlining_depth); 351 DCHECK_LE(entry.inline_infos_start_index + entry.inlining_depth, inline_infos_.size()); 352 for (size_t depth = 0; depth < entry.inlining_depth; ++depth) { 353 InlineInfoEntry inline_entry = inline_infos_[depth + entry.inline_infos_start_index]; 354 inline_info.SetMethodIndexAtDepth(inline_info_encoding_, depth, inline_entry.method_index); 355 inline_info.SetDexPcAtDepth(inline_info_encoding_, depth, inline_entry.dex_pc); 356 inline_info.SetInvokeTypeAtDepth(inline_info_encoding_, depth, inline_entry.invoke_type); 357 if (inline_entry.num_dex_registers == 0) { 358 // No dex map available. 359 inline_info.SetDexRegisterMapOffsetAtDepth(inline_info_encoding_, 360 depth, 361 StackMap::kNoDexRegisterMap); 362 DCHECK(inline_entry.live_dex_registers_mask == nullptr); 363 } else { 364 MemoryRegion register_region = dex_register_locations_region.Subregion( 365 next_dex_register_map_offset, 366 ComputeDexRegisterMapSize(inline_entry.num_dex_registers, 367 inline_entry.live_dex_registers_mask)); 368 next_dex_register_map_offset += register_region.size(); 369 DexRegisterMap dex_register_map(register_region); 370 inline_info.SetDexRegisterMapOffsetAtDepth( 371 inline_info_encoding_, 372 depth, register_region.start() - dex_register_locations_region.start()); 373 374 FillInDexRegisterMap(dex_register_map, 375 inline_entry.num_dex_registers, 376 *inline_entry.live_dex_registers_mask, 377 inline_entry.dex_register_locations_start_index); 378 } 379 } 380 } else { 381 if (inline_info_size_ != 0) { 382 stack_map.SetInlineDescriptorOffset(stack_map_encoding_, StackMap::kNoInlineInfo); 383 } 384 } 385 } 386 387 // Verify all written data in debug build. 388 if (kIsDebugBuild) { 389 CheckCodeInfo(region); 390 } 391 } 392 393 void StackMapStream::FillInDexRegisterMap(DexRegisterMap dex_register_map, 394 uint32_t num_dex_registers, 395 const BitVector& live_dex_registers_mask, 396 uint32_t start_index_in_dex_register_locations) const { 397 dex_register_map.SetLiveBitMask(num_dex_registers, live_dex_registers_mask); 398 // Set the dex register location mapping data. 399 size_t number_of_live_dex_registers = live_dex_registers_mask.NumSetBits(); 400 DCHECK_LE(number_of_live_dex_registers, dex_register_locations_.size()); 401 DCHECK_LE(start_index_in_dex_register_locations, 402 dex_register_locations_.size() - number_of_live_dex_registers); 403 for (size_t index_in_dex_register_locations = 0; 404 index_in_dex_register_locations != number_of_live_dex_registers; 405 ++index_in_dex_register_locations) { 406 size_t location_catalog_entry_index = dex_register_locations_[ 407 start_index_in_dex_register_locations + index_in_dex_register_locations]; 408 dex_register_map.SetLocationCatalogEntryIndex( 409 index_in_dex_register_locations, 410 location_catalog_entry_index, 411 num_dex_registers, 412 location_catalog_entries_.size()); 413 } 414 } 415 416 size_t StackMapStream::FindEntryWithTheSameDexMap() { 417 size_t current_entry_index = stack_maps_.size(); 418 auto entries_it = dex_map_hash_to_stack_map_indices_.find(current_entry_.dex_register_map_hash); 419 if (entries_it == dex_map_hash_to_stack_map_indices_.end()) { 420 // We don't have a perfect hash functions so we need a list to collect all stack maps 421 // which might have the same dex register map. 422 ArenaVector<uint32_t> stack_map_indices(allocator_->Adapter(kArenaAllocStackMapStream)); 423 stack_map_indices.push_back(current_entry_index); 424 dex_map_hash_to_stack_map_indices_.Put(current_entry_.dex_register_map_hash, 425 std::move(stack_map_indices)); 426 return kNoSameDexMapFound; 427 } 428 429 // We might have collisions, so we need to check whether or not we really have a match. 430 for (uint32_t test_entry_index : entries_it->second) { 431 if (HaveTheSameDexMaps(GetStackMap(test_entry_index), current_entry_)) { 432 return test_entry_index; 433 } 434 } 435 entries_it->second.push_back(current_entry_index); 436 return kNoSameDexMapFound; 437 } 438 439 bool StackMapStream::HaveTheSameDexMaps(const StackMapEntry& a, const StackMapEntry& b) const { 440 if (a.live_dex_registers_mask == nullptr && b.live_dex_registers_mask == nullptr) { 441 return true; 442 } 443 if (a.live_dex_registers_mask == nullptr || b.live_dex_registers_mask == nullptr) { 444 return false; 445 } 446 if (a.num_dex_registers != b.num_dex_registers) { 447 return false; 448 } 449 if (a.num_dex_registers != 0u) { 450 DCHECK(a.live_dex_registers_mask != nullptr); 451 DCHECK(b.live_dex_registers_mask != nullptr); 452 if (!a.live_dex_registers_mask->Equal(b.live_dex_registers_mask)) { 453 return false; 454 } 455 size_t number_of_live_dex_registers = a.live_dex_registers_mask->NumSetBits(); 456 DCHECK_LE(number_of_live_dex_registers, dex_register_locations_.size()); 457 DCHECK_LE(a.dex_register_locations_start_index, 458 dex_register_locations_.size() - number_of_live_dex_registers); 459 DCHECK_LE(b.dex_register_locations_start_index, 460 dex_register_locations_.size() - number_of_live_dex_registers); 461 auto a_begin = dex_register_locations_.begin() + a.dex_register_locations_start_index; 462 auto b_begin = dex_register_locations_.begin() + b.dex_register_locations_start_index; 463 if (!std::equal(a_begin, a_begin + number_of_live_dex_registers, b_begin)) { 464 return false; 465 } 466 } 467 return true; 468 } 469 470 // Helper for CheckCodeInfo - check that register map has the expected content. 471 void StackMapStream::CheckDexRegisterMap(const CodeInfo& code_info, 472 const DexRegisterMap& dex_register_map, 473 size_t num_dex_registers, 474 BitVector* live_dex_registers_mask, 475 size_t dex_register_locations_index) const { 476 CodeInfoEncoding encoding = code_info.ExtractEncoding(); 477 for (size_t reg = 0; reg < num_dex_registers; reg++) { 478 // Find the location we tried to encode. 479 DexRegisterLocation expected = DexRegisterLocation::None(); 480 if (live_dex_registers_mask->IsBitSet(reg)) { 481 size_t catalog_index = dex_register_locations_[dex_register_locations_index++]; 482 expected = location_catalog_entries_[catalog_index]; 483 } 484 // Compare to the seen location. 485 if (expected.GetKind() == DexRegisterLocation::Kind::kNone) { 486 DCHECK(!dex_register_map.IsValid() || !dex_register_map.IsDexRegisterLive(reg)); 487 } else { 488 DCHECK(dex_register_map.IsDexRegisterLive(reg)); 489 DexRegisterLocation seen = dex_register_map.GetDexRegisterLocation( 490 reg, num_dex_registers, code_info, encoding); 491 DCHECK_EQ(expected.GetKind(), seen.GetKind()); 492 DCHECK_EQ(expected.GetValue(), seen.GetValue()); 493 } 494 } 495 if (num_dex_registers == 0) { 496 DCHECK(!dex_register_map.IsValid()); 497 } 498 } 499 500 // Check that all StackMapStream inputs are correctly encoded by trying to read them back. 501 void StackMapStream::CheckCodeInfo(MemoryRegion region) const { 502 CodeInfo code_info(region); 503 CodeInfoEncoding encoding = code_info.ExtractEncoding(); 504 DCHECK_EQ(code_info.GetNumberOfStackMaps(encoding), stack_maps_.size()); 505 for (size_t s = 0; s < stack_maps_.size(); ++s) { 506 const StackMap stack_map = code_info.GetStackMapAt(s, encoding); 507 const StackMapEncoding& stack_map_encoding = encoding.stack_map_encoding; 508 StackMapEntry entry = stack_maps_[s]; 509 510 // Check main stack map fields. 511 DCHECK_EQ(stack_map.GetNativePcOffset(stack_map_encoding), entry.native_pc_offset); 512 DCHECK_EQ(stack_map.GetDexPc(stack_map_encoding), entry.dex_pc); 513 DCHECK_EQ(stack_map.GetRegisterMask(stack_map_encoding), entry.register_mask); 514 size_t num_stack_mask_bits = stack_map.GetNumberOfStackMaskBits(stack_map_encoding); 515 if (entry.sp_mask != nullptr) { 516 DCHECK_GE(num_stack_mask_bits, entry.sp_mask->GetNumberOfBits()); 517 for (size_t b = 0; b < num_stack_mask_bits; b++) { 518 DCHECK_EQ(stack_map.GetStackMaskBit(stack_map_encoding, b), entry.sp_mask->IsBitSet(b)); 519 } 520 } else { 521 for (size_t b = 0; b < num_stack_mask_bits; b++) { 522 DCHECK_EQ(stack_map.GetStackMaskBit(stack_map_encoding, b), 0u); 523 } 524 } 525 526 CheckDexRegisterMap(code_info, 527 code_info.GetDexRegisterMapOf( 528 stack_map, encoding, entry.num_dex_registers), 529 entry.num_dex_registers, 530 entry.live_dex_registers_mask, 531 entry.dex_register_locations_start_index); 532 533 // Check inline info. 534 DCHECK_EQ(stack_map.HasInlineInfo(stack_map_encoding), (entry.inlining_depth != 0)); 535 if (entry.inlining_depth != 0) { 536 InlineInfo inline_info = code_info.GetInlineInfoOf(stack_map, encoding); 537 DCHECK_EQ(inline_info.GetDepth(encoding.inline_info_encoding), entry.inlining_depth); 538 for (size_t d = 0; d < entry.inlining_depth; ++d) { 539 size_t inline_info_index = entry.inline_infos_start_index + d; 540 DCHECK_LT(inline_info_index, inline_infos_.size()); 541 InlineInfoEntry inline_entry = inline_infos_[inline_info_index]; 542 DCHECK_EQ(inline_info.GetDexPcAtDepth(encoding.inline_info_encoding, d), 543 inline_entry.dex_pc); 544 DCHECK_EQ(inline_info.GetMethodIndexAtDepth(encoding.inline_info_encoding, d), 545 inline_entry.method_index); 546 DCHECK_EQ(inline_info.GetInvokeTypeAtDepth(encoding.inline_info_encoding, d), 547 inline_entry.invoke_type); 548 549 CheckDexRegisterMap(code_info, 550 code_info.GetDexRegisterMapAtDepth( 551 d, inline_info, encoding, inline_entry.num_dex_registers), 552 inline_entry.num_dex_registers, 553 inline_entry.live_dex_registers_mask, 554 inline_entry.dex_register_locations_start_index); 555 } 556 } 557 } 558 } 559 560 } // namespace art 561