BinaryResourceParser.cpp revision 1ab598f46c3ff520a67f9d80194847741f3467ab
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 17#include "ResourceTable.h" 18#include "ResourceUtils.h" 19#include "ResourceValues.h" 20#include "Source.h" 21#include "ValueVisitor.h" 22 23#include "flatten/ResourceTypeExtensions.h" 24#include "unflatten/BinaryResourceParser.h" 25#include "unflatten/ResChunkPullParser.h" 26#include "util/Util.h" 27 28#include <androidfw/ResourceTypes.h> 29#include <androidfw/TypeWrappers.h> 30#include <utils/misc.h> 31 32#include <map> 33#include <string> 34 35namespace aapt { 36 37using namespace android; 38 39/* 40 * Visitor that converts a reference's resource ID to a resource name, 41 * given a mapping from resource ID to resource name. 42 */ 43class ReferenceIdToNameVisitor : public ValueVisitor { 44private: 45 const std::map<ResourceId, ResourceName>* mMapping; 46 47public: 48 using ValueVisitor::visit; 49 50 ReferenceIdToNameVisitor(const std::map<ResourceId, ResourceName>* mapping) : 51 mMapping(mapping) { 52 assert(mMapping); 53 } 54 55 void visit(Reference* reference) override { 56 if (!reference->id || !reference->id.value().isValid()) { 57 return; 58 } 59 60 ResourceId id = reference->id.value(); 61 auto cacheIter = mMapping->find(id); 62 if (cacheIter != mMapping->end()) { 63 reference->name = cacheIter->second; 64 reference->id = {}; 65 } 66 } 67}; 68 69BinaryResourceParser::BinaryResourceParser(IAaptContext* context, ResourceTable* table, 70 const Source& source, const void* data, size_t len) : 71 mContext(context), mTable(table), mSource(source), mData(data), mDataLen(len) { 72} 73 74bool BinaryResourceParser::parse() { 75 ResChunkPullParser parser(mData, mDataLen); 76 77 bool error = false; 78 while(ResChunkPullParser::isGoodEvent(parser.next())) { 79 if (parser.getChunk()->type != android::RES_TABLE_TYPE) { 80 mContext->getDiagnostics()->warn(DiagMessage(mSource) 81 << "unknown chunk of type '" 82 << (int) parser.getChunk()->type << "'"); 83 continue; 84 } 85 86 if (!parseTable(parser.getChunk())) { 87 error = true; 88 } 89 } 90 91 if (parser.getEvent() == ResChunkPullParser::Event::BadDocument) { 92 mContext->getDiagnostics()->error(DiagMessage(mSource) 93 << "corrupt resource table: " 94 << parser.getLastError()); 95 return false; 96 } 97 return !error; 98} 99 100bool BinaryResourceParser::getSymbol(const void* data, ResourceNameRef* outSymbol) { 101 if (!mSymbolEntries || mSymbolEntryCount == 0) { 102 return false; 103 } 104 105 if ((uintptr_t) data < (uintptr_t) mData) { 106 return false; 107 } 108 109 // We only support 32 bit offsets right now. 110 const uintptr_t offset = (uintptr_t) data - (uintptr_t) mData; 111 if (offset > std::numeric_limits<uint32_t>::max()) { 112 return false; 113 } 114 115 for (size_t i = 0; i < mSymbolEntryCount; i++) { 116 if (util::deviceToHost32(mSymbolEntries[i].offset) == offset) { 117 // This offset is a symbol! 118 const StringPiece16 str = util::getString( 119 mSymbolPool, util::deviceToHost32(mSymbolEntries[i].stringIndex)); 120 121 StringPiece16 typeStr; 122 ResourceUtils::extractResourceName(str, &outSymbol->package, &typeStr, 123 &outSymbol->entry); 124 const ResourceType* type = parseResourceType(typeStr); 125 if (!type) { 126 return false; 127 } 128 129 outSymbol->type = *type; 130 131 // Since we scan the symbol table in order, we can start looking for the 132 // next symbol from this point. 133 mSymbolEntryCount -= i + 1; 134 mSymbolEntries += i + 1; 135 return true; 136 } 137 } 138 return false; 139} 140 141/** 142 * Parses the SymbolTable_header, which is present on non-final resource tables 143 * after the compile phase. 144 * 145 * | SymbolTable_header | 146 * |--------------------| 147 * |SymbolTable_entry 0 | 148 * |SymbolTable_entry 1 | 149 * | ... | 150 * |SymbolTable_entry n | 151 * |--------------------| 152 * 153 */ 154bool BinaryResourceParser::parseSymbolTable(const ResChunk_header* chunk) { 155 const SymbolTable_header* header = convertTo<SymbolTable_header>(chunk); 156 if (!header) { 157 mContext->getDiagnostics()->error(DiagMessage(mSource) 158 << "corrupt SymbolTable_header"); 159 return false; 160 } 161 162 const uint32_t entrySizeBytes = 163 util::deviceToHost32(header->count) * sizeof(SymbolTable_entry); 164 if (entrySizeBytes > getChunkDataLen(&header->header)) { 165 mContext->getDiagnostics()->error(DiagMessage(mSource) 166 << "SymbolTable_header data section too long"); 167 return false; 168 } 169 170 mSymbolEntries = (const SymbolTable_entry*) getChunkData(&header->header); 171 mSymbolEntryCount = util::deviceToHost32(header->count); 172 173 // Skip over the symbol entries and parse the StringPool chunk that should be next. 174 ResChunkPullParser parser(getChunkData(&header->header) + entrySizeBytes, 175 getChunkDataLen(&header->header) - entrySizeBytes); 176 if (!ResChunkPullParser::isGoodEvent(parser.next())) { 177 mContext->getDiagnostics()->error(DiagMessage(mSource) 178 << "failed to parse chunk in SymbolTable: " 179 << parser.getLastError()); 180 return false; 181 } 182 183 const ResChunk_header* nextChunk = parser.getChunk(); 184 if (util::deviceToHost16(nextChunk->type) != android::RES_STRING_POOL_TYPE) { 185 mContext->getDiagnostics()->error(DiagMessage(mSource) 186 << "expected string pool in SymbolTable but got " 187 << "chunk of type " 188 << (int) util::deviceToHost16(nextChunk->type)); 189 return false; 190 } 191 192 if (mSymbolPool.setTo(nextChunk, util::deviceToHost32(nextChunk->size)) != NO_ERROR) { 193 mContext->getDiagnostics()->error(DiagMessage(mSource) 194 << "corrupt string pool in SymbolTable: " 195 << mSymbolPool.getError()); 196 return false; 197 } 198 return true; 199} 200 201/** 202 * Parses the resource table, which contains all the packages, types, and entries. 203 */ 204bool BinaryResourceParser::parseTable(const ResChunk_header* chunk) { 205 const ResTable_header* tableHeader = convertTo<ResTable_header>(chunk); 206 if (!tableHeader) { 207 mContext->getDiagnostics()->error(DiagMessage(mSource) << "corrupt ResTable_header chunk"); 208 return false; 209 } 210 211 ResChunkPullParser parser(getChunkData(&tableHeader->header), 212 getChunkDataLen(&tableHeader->header)); 213 while (ResChunkPullParser::isGoodEvent(parser.next())) { 214 switch (util::deviceToHost16(parser.getChunk()->type)) { 215 case android::RES_STRING_POOL_TYPE: 216 if (mValuePool.getError() == NO_INIT) { 217 status_t err = mValuePool.setTo(parser.getChunk(), 218 util::deviceToHost32(parser.getChunk()->size)); 219 if (err != NO_ERROR) { 220 mContext->getDiagnostics()->error(DiagMessage(mSource) 221 << "corrupt string pool in ResTable: " 222 << mValuePool.getError()); 223 return false; 224 } 225 226 // Reserve some space for the strings we are going to add. 227 mTable->stringPool.hintWillAdd(mValuePool.size(), mValuePool.styleCount()); 228 } else { 229 mContext->getDiagnostics()->warn(DiagMessage(mSource) 230 << "unexpected string pool in ResTable"); 231 } 232 break; 233 234 case RES_TABLE_SYMBOL_TABLE_TYPE: 235 if (!parseSymbolTable(parser.getChunk())) { 236 return false; 237 } 238 break; 239 240 case RES_TABLE_SOURCE_POOL_TYPE: { 241 status_t err = mSourcePool.setTo(getChunkData(parser.getChunk()), 242 getChunkDataLen(parser.getChunk())); 243 if (err != NO_ERROR) { 244 mContext->getDiagnostics()->error(DiagMessage(mSource) 245 << "corrupt source string pool in ResTable: " 246 << mSourcePool.getError()); 247 return false; 248 } 249 break; 250 } 251 252 case android::RES_TABLE_PACKAGE_TYPE: 253 if (!parsePackage(parser.getChunk())) { 254 return false; 255 } 256 break; 257 258 default: 259 mContext->getDiagnostics() 260 ->warn(DiagMessage(mSource) 261 << "unexpected chunk type " 262 << (int) util::deviceToHost16(parser.getChunk()->type)); 263 break; 264 } 265 } 266 267 if (parser.getEvent() == ResChunkPullParser::Event::BadDocument) { 268 mContext->getDiagnostics()->error(DiagMessage(mSource) 269 << "corrupt resource table: " << parser.getLastError()); 270 return false; 271 } 272 return true; 273} 274 275 276bool BinaryResourceParser::parsePackage(const ResChunk_header* chunk) { 277 const ResTable_package* packageHeader = convertTo<ResTable_package>(chunk); 278 if (!packageHeader) { 279 mContext->getDiagnostics()->error(DiagMessage(mSource) 280 << "corrupt ResTable_package chunk"); 281 return false; 282 } 283 284 uint32_t packageId = util::deviceToHost32(packageHeader->id); 285 if (packageId > std::numeric_limits<uint8_t>::max()) { 286 mContext->getDiagnostics()->error(DiagMessage(mSource) 287 << "package ID is too big (" << packageId << ")"); 288 return false; 289 } 290 291 // Extract the package name. 292 size_t len = strnlen16((const char16_t*) packageHeader->name, NELEM(packageHeader->name)); 293 std::u16string packageName; 294 packageName.resize(len); 295 for (size_t i = 0; i < len; i++) { 296 packageName[i] = util::deviceToHost16(packageHeader->name[i]); 297 } 298 299 ResourceTablePackage* package = mTable->createPackage(packageName, (uint8_t) packageId); 300 if (!package) { 301 mContext->getDiagnostics()->error(DiagMessage(mSource) 302 << "incompatible package '" << packageName 303 << "' with ID " << packageId); 304 return false; 305 } 306 307 ResChunkPullParser parser(getChunkData(&packageHeader->header), 308 getChunkDataLen(&packageHeader->header)); 309 while (ResChunkPullParser::isGoodEvent(parser.next())) { 310 switch (util::deviceToHost16(parser.getChunk()->type)) { 311 case android::RES_STRING_POOL_TYPE: 312 if (mTypePool.getError() == NO_INIT) { 313 status_t err = mTypePool.setTo(parser.getChunk(), 314 util::deviceToHost32(parser.getChunk()->size)); 315 if (err != NO_ERROR) { 316 mContext->getDiagnostics()->error(DiagMessage(mSource) 317 << "corrupt type string pool in " 318 << "ResTable_package: " 319 << mTypePool.getError()); 320 return false; 321 } 322 } else if (mKeyPool.getError() == NO_INIT) { 323 status_t err = mKeyPool.setTo(parser.getChunk(), 324 util::deviceToHost32(parser.getChunk()->size)); 325 if (err != NO_ERROR) { 326 mContext->getDiagnostics()->error(DiagMessage(mSource) 327 << "corrupt key string pool in " 328 << "ResTable_package: " 329 << mKeyPool.getError()); 330 return false; 331 } 332 } else { 333 mContext->getDiagnostics()->warn(DiagMessage(mSource) << "unexpected string pool"); 334 } 335 break; 336 337 case android::RES_TABLE_TYPE_SPEC_TYPE: 338 if (!parseTypeSpec(parser.getChunk())) { 339 return false; 340 } 341 break; 342 343 case android::RES_TABLE_TYPE_TYPE: 344 if (!parseType(package, parser.getChunk())) { 345 return false; 346 } 347 break; 348 349 case RES_TABLE_PUBLIC_TYPE: 350 if (!parsePublic(package, parser.getChunk())) { 351 return false; 352 } 353 break; 354 355 default: 356 mContext->getDiagnostics() 357 ->warn(DiagMessage(mSource) 358 << "unexpected chunk type " 359 << (int) util::deviceToHost16(parser.getChunk()->type)); 360 break; 361 } 362 } 363 364 if (parser.getEvent() == ResChunkPullParser::Event::BadDocument) { 365 mContext->getDiagnostics()->error(DiagMessage(mSource) 366 << "corrupt ResTable_package: " 367 << parser.getLastError()); 368 return false; 369 } 370 371 // Now go through the table and change local resource ID references to 372 // symbolic references. 373 ReferenceIdToNameVisitor visitor(&mIdIndex); 374 for (auto& package : mTable->packages) { 375 for (auto& type : package->types) { 376 for (auto& entry : type->entries) { 377 for (auto& configValue : entry->values) { 378 configValue.value->accept(&visitor); 379 } 380 } 381 } 382 } 383 return true; 384} 385 386bool BinaryResourceParser::parsePublic(const ResourceTablePackage* package, 387 const ResChunk_header* chunk) { 388 const Public_header* header = convertTo<Public_header>(chunk); 389 if (!header) { 390 mContext->getDiagnostics()->error(DiagMessage(mSource) 391 << "corrupt Public_header chunk"); 392 return false; 393 } 394 395 if (header->typeId == 0) { 396 mContext->getDiagnostics()->error(DiagMessage(mSource) 397 << "invalid type ID " 398 << (int) header->typeId); 399 return false; 400 } 401 402 StringPiece16 typeStr16 = util::getString(mTypePool, header->typeId - 1); 403 const ResourceType* parsedType = parseResourceType(typeStr16); 404 if (!parsedType) { 405 mContext->getDiagnostics()->error(DiagMessage(mSource) 406 << "invalid type '" << typeStr16 << "'"); 407 return false; 408 } 409 410 const uintptr_t chunkEnd = (uintptr_t) chunk + util::deviceToHost32(chunk->size); 411 const Public_entry* entry = (const Public_entry*) getChunkData(&header->header); 412 for (uint32_t i = 0; i < util::deviceToHost32(header->count); i++) { 413 if ((uintptr_t) entry + sizeof(*entry) > chunkEnd) { 414 mContext->getDiagnostics()->error(DiagMessage(mSource) 415 << "Public_entry data section is too long"); 416 return false; 417 } 418 419 const ResourceId resId = { 420 package->id.value(), header->typeId, util::deviceToHost16(entry->entryId) }; 421 422 const ResourceName name = { 423 package->name, 424 *parsedType, 425 util::getString(mKeyPool, entry->key.index).toString() }; 426 427 Source source; 428 if (mSourcePool.getError() == NO_ERROR) { 429 source.path = util::utf16ToUtf8(util::getString( 430 mSourcePool, util::deviceToHost32(entry->source.index))); 431 source.line = util::deviceToHost32(entry->sourceLine); 432 } 433 434 if (!mTable->markPublicAllowMangled(name, resId, source, mContext->getDiagnostics())) { 435 return false; 436 } 437 438 // Add this resource name->id mapping to the index so 439 // that we can resolve all ID references to name references. 440 auto cacheIter = mIdIndex.find(resId); 441 if (cacheIter == mIdIndex.end()) { 442 mIdIndex.insert({ resId, name }); 443 } 444 445 entry++; 446 } 447 return true; 448} 449 450bool BinaryResourceParser::parseTypeSpec(const ResChunk_header* chunk) { 451 if (mTypePool.getError() != NO_ERROR) { 452 mContext->getDiagnostics()->error(DiagMessage(mSource) 453 << "missing type string pool"); 454 return false; 455 } 456 457 const ResTable_typeSpec* typeSpec = convertTo<ResTable_typeSpec>(chunk); 458 if (!typeSpec) { 459 mContext->getDiagnostics()->error(DiagMessage(mSource) 460 << "corrupt ResTable_typeSpec chunk"); 461 return false; 462 } 463 464 if (typeSpec->id == 0) { 465 mContext->getDiagnostics()->error(DiagMessage(mSource) 466 << "ResTable_typeSpec has invalid id: " << typeSpec->id); 467 return false; 468 } 469 return true; 470} 471 472bool BinaryResourceParser::parseType(const ResourceTablePackage* package, 473 const ResChunk_header* chunk) { 474 if (mTypePool.getError() != NO_ERROR) { 475 mContext->getDiagnostics()->error(DiagMessage(mSource) 476 << "missing type string pool"); 477 return false; 478 } 479 480 if (mKeyPool.getError() != NO_ERROR) { 481 mContext->getDiagnostics()->error(DiagMessage(mSource) 482 << "missing key string pool"); 483 return false; 484 } 485 486 const ResTable_type* type = convertTo<ResTable_type>(chunk); 487 if (!type) { 488 mContext->getDiagnostics()->error(DiagMessage(mSource) 489 << "corrupt ResTable_type chunk"); 490 return false; 491 } 492 493 if (type->id == 0) { 494 mContext->getDiagnostics()->error(DiagMessage(mSource) 495 << "ResTable_type has invalid id: " << (int) type->id); 496 return false; 497 } 498 499 ConfigDescription config; 500 config.copyFromDtoH(type->config); 501 502 StringPiece16 typeStr16 = util::getString(mTypePool, type->id - 1); 503 504 const ResourceType* parsedType = parseResourceType(typeStr16); 505 if (!parsedType) { 506 mContext->getDiagnostics()->error(DiagMessage(mSource) 507 << "invalid type name '" << typeStr16 508 << "' for type with ID " << (int) type->id); 509 return false; 510 } 511 512 TypeVariant tv(type); 513 for (auto it = tv.beginEntries(); it != tv.endEntries(); ++it) { 514 const ResTable_entry* entry = *it; 515 if (!entry) { 516 continue; 517 } 518 519 const ResourceName name = { 520 package->name, 521 *parsedType, 522 util::getString(mKeyPool, util::deviceToHost32(entry->key.index)).toString() }; 523 524 const ResourceId resId = 525 { package->id.value(), type->id, static_cast<uint16_t>(it.index()) }; 526 527 std::unique_ptr<Value> resourceValue; 528 const ResTable_entry_source* sourceBlock = nullptr; 529 530 if (entry->flags & ResTable_entry::FLAG_COMPLEX) { 531 const ResTable_map_entry* mapEntry = static_cast<const ResTable_map_entry*>(entry); 532 if (util::deviceToHost32(mapEntry->size) - sizeof(*mapEntry) == sizeof(*sourceBlock)) { 533 const uint8_t* data = (const uint8_t*) mapEntry; 534 data += util::deviceToHost32(mapEntry->size) - sizeof(*sourceBlock); 535 sourceBlock = (const ResTable_entry_source*) data; 536 } 537 538 // TODO(adamlesinski): Check that the entry count is valid. 539 resourceValue = parseMapEntry(name, config, mapEntry); 540 } else { 541 if (util::deviceToHost32(entry->size) - sizeof(*entry) == sizeof(*sourceBlock)) { 542 const uint8_t* data = (const uint8_t*) entry; 543 data += util::deviceToHost32(entry->size) - sizeof(*sourceBlock); 544 sourceBlock = (const ResTable_entry_source*) data; 545 } 546 547 const Res_value* value = (const Res_value*)( 548 (const uint8_t*) entry + util::deviceToHost32(entry->size)); 549 resourceValue = parseValue(name, config, value, entry->flags); 550 } 551 552 assert(resourceValue && "failed to interpret valid resource"); 553 554 Source source = mSource; 555 if (sourceBlock) { 556 size_t len; 557 const char* str = mSourcePool.string8At(util::deviceToHost32(sourceBlock->pathIndex), 558 &len); 559 if (str) { 560 source.path.assign(str, len); 561 } 562 source.line = util::deviceToHost32(sourceBlock->line); 563 } 564 565 if (!mTable->addResourceAllowMangled(name, config, source, std::move(resourceValue), 566 mContext->getDiagnostics())) { 567 return false; 568 } 569 570 if ((entry->flags & ResTable_entry::FLAG_PUBLIC) != 0) { 571 if (!mTable->markPublicAllowMangled(name, resId, mSource.withLine(0), 572 mContext->getDiagnostics())) { 573 return false; 574 } 575 } 576 577 // Add this resource name->id mapping to the index so 578 // that we can resolve all ID references to name references. 579 auto cacheIter = mIdIndex.find(resId); 580 if (cacheIter == mIdIndex.end()) { 581 mIdIndex.insert({ resId, name }); 582 } 583 } 584 return true; 585} 586 587std::unique_ptr<Item> BinaryResourceParser::parseValue(const ResourceNameRef& name, 588 const ConfigDescription& config, 589 const Res_value* value, 590 uint16_t flags) { 591 if (name.type == ResourceType::kId) { 592 return util::make_unique<Id>(); 593 } 594 595 const uint32_t data = util::deviceToHost32(value->data); 596 597 if (value->dataType == Res_value::TYPE_STRING) { 598 StringPiece16 str = util::getString(mValuePool, data); 599 600 const ResStringPool_span* spans = mValuePool.styleAt(data); 601 if (spans != nullptr) { 602 StyleString styleStr = { str.toString() }; 603 while (spans->name.index != ResStringPool_span::END) { 604 styleStr.spans.push_back(Span{ 605 util::getString(mValuePool, spans->name.index).toString(), 606 spans->firstChar, 607 spans->lastChar 608 }); 609 spans++; 610 } 611 return util::make_unique<StyledString>(mTable->stringPool.makeRef( 612 styleStr, StringPool::Context{1, config})); 613 } else { 614 if (name.type != ResourceType::kString && 615 util::stringStartsWith<char16_t>(str, u"res/")) { 616 // This must be a FileReference. 617 return util::make_unique<FileReference>(mTable->stringPool.makeRef( 618 str, StringPool::Context{ 0, config })); 619 } 620 621 // There are no styles associated with this string, so treat it as 622 // a simple string. 623 return util::make_unique<String>(mTable->stringPool.makeRef( 624 str, StringPool::Context{1, config})); 625 } 626 } 627 628 if (value->dataType == Res_value::TYPE_REFERENCE || 629 value->dataType == Res_value::TYPE_ATTRIBUTE) { 630 const Reference::Type type = (value->dataType == Res_value::TYPE_REFERENCE) ? 631 Reference::Type::kResource : Reference::Type::kAttribute; 632 633 if (data != 0) { 634 // This is a normal reference. 635 return util::make_unique<Reference>(data, type); 636 } 637 638 // This reference has an invalid ID. Check if it is an unresolved symbol. 639 ResourceNameRef symbol; 640 if (getSymbol(&value->data, &symbol)) { 641 return util::make_unique<Reference>(symbol, type); 642 } 643 644 // This is not an unresolved symbol, so it must be the magic @null reference. 645 Res_value nullType = {}; 646 nullType.dataType = Res_value::TYPE_REFERENCE; 647 return util::make_unique<BinaryPrimitive>(nullType); 648 } 649 650 if (value->dataType == ExtendedTypes::TYPE_RAW_STRING) { 651 return util::make_unique<RawString>(mTable->stringPool.makeRef( 652 util::getString(mValuePool, data), StringPool::Context{ 1, config })); 653 } 654 655 // Treat this as a raw binary primitive. 656 return util::make_unique<BinaryPrimitive>(*value); 657} 658 659std::unique_ptr<Value> BinaryResourceParser::parseMapEntry(const ResourceNameRef& name, 660 const ConfigDescription& config, 661 const ResTable_map_entry* map) { 662 switch (name.type) { 663 case ResourceType::kStyle: 664 return parseStyle(name, config, map); 665 case ResourceType::kAttr: 666 return parseAttr(name, config, map); 667 case ResourceType::kArray: 668 return parseArray(name, config, map); 669 case ResourceType::kStyleable: 670 return parseStyleable(name, config, map); 671 case ResourceType::kPlurals: 672 return parsePlural(name, config, map); 673 default: 674 break; 675 } 676 return {}; 677} 678 679std::unique_ptr<Style> BinaryResourceParser::parseStyle(const ResourceNameRef& name, 680 const ConfigDescription& config, 681 const ResTable_map_entry* map) { 682 std::unique_ptr<Style> style = util::make_unique<Style>(); 683 if (util::deviceToHost32(map->parent.ident) == 0) { 684 // The parent is either not set or it is an unresolved symbol. 685 // Check to see if it is a symbol. 686 ResourceNameRef symbol; 687 if (getSymbol(&map->parent.ident, &symbol)) { 688 style->parent = Reference(symbol.toResourceName()); 689 } 690 } else { 691 // The parent is a regular reference to a resource. 692 style->parent = Reference(util::deviceToHost32(map->parent.ident)); 693 } 694 695 for (const ResTable_map& mapEntry : map) { 696 style->entries.emplace_back(); 697 Style::Entry& styleEntry = style->entries.back(); 698 699 if (util::deviceToHost32(mapEntry.name.ident) == 0) { 700 // The map entry's key (attribute) is not set. This must be 701 // a symbol reference, so resolve it. 702 ResourceNameRef symbol; 703 bool result = getSymbol(&mapEntry.name.ident, &symbol); 704 assert(result); 705 styleEntry.key.name = symbol.toResourceName(); 706 } else { 707 // The map entry's key (attribute) is a regular reference. 708 styleEntry.key.id = ResourceId(util::deviceToHost32(mapEntry.name.ident)); 709 } 710 711 // Parse the attribute's value. 712 styleEntry.value = parseValue(name, config, &mapEntry.value, 0); 713 assert(styleEntry.value); 714 } 715 return style; 716} 717 718std::unique_ptr<Attribute> BinaryResourceParser::parseAttr(const ResourceNameRef& name, 719 const ConfigDescription& config, 720 const ResTable_map_entry* map) { 721 const bool isWeak = (util::deviceToHost16(map->flags) & ResTable_entry::FLAG_WEAK) != 0; 722 std::unique_ptr<Attribute> attr = util::make_unique<Attribute>(isWeak); 723 724 // First we must discover what type of attribute this is. Find the type mask. 725 auto typeMaskIter = std::find_if(begin(map), end(map), [](const ResTable_map& entry) -> bool { 726 return util::deviceToHost32(entry.name.ident) == ResTable_map::ATTR_TYPE; 727 }); 728 729 if (typeMaskIter != end(map)) { 730 attr->typeMask = util::deviceToHost32(typeMaskIter->value.data); 731 } 732 733 if (attr->typeMask & (ResTable_map::TYPE_ENUM | ResTable_map::TYPE_FLAGS)) { 734 for (const ResTable_map& mapEntry : map) { 735 if (Res_INTERNALID(util::deviceToHost32(mapEntry.name.ident))) { 736 continue; 737 } 738 739 Attribute::Symbol symbol; 740 symbol.value = util::deviceToHost32(mapEntry.value.data); 741 if (util::deviceToHost32(mapEntry.name.ident) == 0) { 742 // The map entry's key (id) is not set. This must be 743 // a symbol reference, so resolve it. 744 ResourceNameRef symbolName; 745 bool result = getSymbol(&mapEntry.name.ident, &symbolName); 746 assert(result); 747 symbol.symbol.name = symbolName.toResourceName(); 748 } else { 749 // The map entry's key (id) is a regular reference. 750 symbol.symbol.id = ResourceId(util::deviceToHost32(mapEntry.name.ident)); 751 } 752 753 attr->symbols.push_back(std::move(symbol)); 754 } 755 } 756 757 // TODO(adamlesinski): Find min, max, i80n, etc attributes. 758 return attr; 759} 760 761std::unique_ptr<Array> BinaryResourceParser::parseArray(const ResourceNameRef& name, 762 const ConfigDescription& config, 763 const ResTable_map_entry* map) { 764 std::unique_ptr<Array> array = util::make_unique<Array>(); 765 for (const ResTable_map& mapEntry : map) { 766 array->items.push_back(parseValue(name, config, &mapEntry.value, 0)); 767 } 768 return array; 769} 770 771std::unique_ptr<Styleable> BinaryResourceParser::parseStyleable(const ResourceNameRef& name, 772 const ConfigDescription& config, 773 const ResTable_map_entry* map) { 774 std::unique_ptr<Styleable> styleable = util::make_unique<Styleable>(); 775 for (const ResTable_map& mapEntry : map) { 776 if (util::deviceToHost32(mapEntry.name.ident) == 0) { 777 // The map entry's key (attribute) is not set. This must be 778 // a symbol reference, so resolve it. 779 ResourceNameRef symbol; 780 bool result = getSymbol(&mapEntry.name.ident, &symbol); 781 assert(result); 782 styleable->entries.emplace_back(symbol); 783 } else { 784 // The map entry's key (attribute) is a regular reference. 785 styleable->entries.emplace_back(util::deviceToHost32(mapEntry.name.ident)); 786 } 787 } 788 return styleable; 789} 790 791std::unique_ptr<Plural> BinaryResourceParser::parsePlural(const ResourceNameRef& name, 792 const ConfigDescription& config, 793 const ResTable_map_entry* map) { 794 std::unique_ptr<Plural> plural = util::make_unique<Plural>(); 795 for (const ResTable_map& mapEntry : map) { 796 std::unique_ptr<Item> item = parseValue(name, config, &mapEntry.value, 0); 797 798 switch (util::deviceToHost32(mapEntry.name.ident)) { 799 case android::ResTable_map::ATTR_ZERO: 800 plural->values[Plural::Zero] = std::move(item); 801 break; 802 case android::ResTable_map::ATTR_ONE: 803 plural->values[Plural::One] = std::move(item); 804 break; 805 case android::ResTable_map::ATTR_TWO: 806 plural->values[Plural::Two] = std::move(item); 807 break; 808 case android::ResTable_map::ATTR_FEW: 809 plural->values[Plural::Few] = std::move(item); 810 break; 811 case android::ResTable_map::ATTR_MANY: 812 plural->values[Plural::Many] = std::move(item); 813 break; 814 case android::ResTable_map::ATTR_OTHER: 815 plural->values[Plural::Other] = std::move(item); 816 break; 817 } 818 } 819 return plural; 820} 821 822} // namespace aapt 823