tools/aapt2/proto/TableProtoDeserializer.cpp - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2016 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "ResourceTable.h"
 #include "ResourceUtils.h"
 #include "ValueVisitor.h"
 #include "proto/ProtoHelpers.h"
 #include "proto/ProtoSerialize.h"

 #include <androidfw/ResourceTypes.h>

 namespace aapt {

 namespace {

 class ReferenceIdToNameVisitor : public ValueVisitor {
 public:
     using ValueVisitor::visit;

     ReferenceIdToNameVisitor(const std::map<ResourceId, ResourceNameRef>* mapping) :
             mMapping(mapping) {
         assert(mMapping);
     }

     void visit(Reference* reference) override {
         if (!reference->id || !reference->id.value().isValid()) {
             return;
         }

         ResourceId id = reference->id.value();
         auto cacheIter = mMapping->find(id);
         if (cacheIter != mMapping->end()) {
             reference->name = cacheIter->second.toResourceName();
         }
     }

 private:
     const std::map<ResourceId, ResourceNameRef>* mMapping;
 };

 class PackagePbDeserializer {
 public:
     PackagePbDeserializer(const android::ResStringPool* valuePool,
                           const android::ResStringPool* sourcePool,
                           const android::ResStringPool* symbolPool,
                           const Source& source, IDiagnostics* diag) :
             mValuePool(valuePool), mSourcePool(sourcePool), mSymbolPool(symbolPool),
             mSource(source), mDiag(diag) {
     }

 public:
     bool deserializeFromPb(const pb::Package& pbPackage, ResourceTable* table) {
         Maybe<uint8_t> id;
         if (pbPackage.has_package_id()) {
             id = static_cast<uint8_t>(pbPackage.package_id());
         }

         std::map<ResourceId, ResourceNameRef> idIndex;

         ResourceTablePackage* pkg = table->createPackage(
                 util::utf8ToUtf16(pbPackage.package_name()), id);
         for (const pb::Type& pbType : pbPackage.types()) {
             const ResourceType* resType = parseResourceType(util::utf8ToUtf16(pbType.name()));
             if (!resType) {
                 mDiag->error(DiagMessage(mSource) << "unknown type '" << pbType.name() << "'");
                 return {};
             }

             ResourceTableType* type = pkg->findOrCreateType(*resType);

             for (const pb::Entry& pbEntry : pbType.entries()) {
                 ResourceEntry* entry = type->findOrCreateEntry(util::utf8ToUtf16(pbEntry.name()));

                 // Deserialize the symbol status (public/private with source and comments).
                 if (pbEntry.has_symbol_status()) {
                     const pb::SymbolStatus& pbStatus = pbEntry.symbol_status();
                     if (pbStatus.has_source()) {
                         deserializeSourceFromPb(pbStatus.source(), *mSourcePool,
                                                 &entry->symbolStatus.source);
                     }

                     if (pbStatus.has_comment()) {
                         entry->symbolStatus.comment = util::utf8ToUtf16(pbStatus.comment());
                     }

                     SymbolState visibility = deserializeVisibilityFromPb(pbStatus.visibility());
                     entry->symbolStatus.state = visibility;

                     if (visibility == SymbolState::kPublic) {
                         // This is a public symbol, we must encode the ID now if there is one.
                         if (pbEntry.has_id()) {
                             entry->id = static_cast<uint16_t>(pbEntry.id());
                         }

                         if (type->symbolStatus.state != SymbolState::kPublic) {
                             // If the type has not been made public, do so now.
                             type->symbolStatus.state = SymbolState::kPublic;
                             if (pbType.has_id()) {
                                 type->id = static_cast<uint8_t>(pbType.id());
                             }
                         }
                     } else if (visibility == SymbolState::kPrivate) {
                         if (type->symbolStatus.state == SymbolState::kUndefined) {
                             type->symbolStatus.state = SymbolState::kPrivate;
                         }
                     }
                 }

                 ResourceId resId(pbPackage.package_id(), pbType.id(), pbEntry.id());
                 if (resId.isValid()) {
                     idIndex[resId] = ResourceNameRef(pkg->name, type->type, entry->name);
                 }

                 for (const pb::ConfigValue& pbConfigValue : pbEntry.config_values()) {
                     const pb::ConfigDescription& pbConfig = pbConfigValue.config();

                     ConfigDescription config;
                     if (!deserializeConfigDescriptionFromPb(pbConfig, &config)) {
                         mDiag->error(DiagMessage(mSource) << "invalid configuration");
                         return {};
                     }

                     ResourceConfigValue* configValue = entry->findOrCreateValue(config,
                                                                                 pbConfig.product());
                     if (configValue->value) {
                         // Duplicate config.
                         mDiag->error(DiagMessage(mSource) << "duplicate configuration");
                         return {};
                     }

                     configValue->value = deserializeValueFromPb(pbConfigValue.value(),
                                                                 config, &table->stringPool);
                     if (!configValue->value) {
                         return {};
                     }
                 }
             }
         }

         ReferenceIdToNameVisitor visitor(&idIndex);
         visitAllValuesInPackage(pkg, &visitor);
         return true;
     }

 private:
     std::unique_ptr<Item> deserializeItemFromPb(const pb::Item& pbItem,
                                                 const ConfigDescription& config,
                                                 StringPool* pool) {
         if (pbItem.has_ref()) {
             const pb::Reference& pbRef = pbItem.ref();
             std::unique_ptr<Reference> ref = util::make_unique<Reference>();
             if (!deserializeReferenceFromPb(pbRef, ref.get())) {
                 return {};
             }
             return std::move(ref);

         } else if (pbItem.has_prim()) {
             const pb::Primitive& pbPrim = pbItem.prim();
             android::Res_value prim = {};
             prim.dataType = static_cast<uint8_t>(pbPrim.type());
             prim.data = pbPrim.data();
             return util::make_unique<BinaryPrimitive>(prim);

         } else if (pbItem.has_id()) {
             return util::make_unique<Id>();

         } else if (pbItem.has_str()) {
             const uint32_t idx = pbItem.str().idx();
             StringPiece16 str = util::getString(*mValuePool, idx);

             const android::ResStringPool_span* spans = mValuePool->styleAt(idx);
             if (spans && spans->name.index != android::ResStringPool_span::END) {
                 StyleString styleStr = { str.toString() };
                 while (spans->name.index != android::ResStringPool_span::END) {
                     styleStr.spans.push_back(Span{
                             util::getString(*mValuePool, spans->name.index).toString(),
                             spans->firstChar,
                             spans->lastChar
                     });
                     spans++;
                 }
                 return util::make_unique<StyledString>(
                         pool->makeRef(styleStr, StringPool::Context{ 1, config }));
             }
             return util::make_unique<String>(
                     pool->makeRef(str, StringPool::Context{ 1, config }));

         } else if (pbItem.has_raw_str()) {
             const uint32_t idx = pbItem.raw_str().idx();
             StringPiece16 str = util::getString(*mValuePool, idx);
             return util::make_unique<RawString>(
                     pool->makeRef(str, StringPool::Context{ 1, config }));

         } else if (pbItem.has_file()) {
             const uint32_t idx = pbItem.file().path_idx();
             StringPiece16 str = util::getString(*mValuePool, idx);
             return util::make_unique<FileReference>(
                     pool->makeRef(str, StringPool::Context{ 0, config }));

         } else {
             mDiag->error(DiagMessage(mSource) << "unknown item");
         }
         return {};
     }

     std::unique_ptr<Value> deserializeValueFromPb(const pb::Value& pbValue,
                                                   const ConfigDescription& config,
                                                   StringPool* pool) {
         const bool isWeak = pbValue.has_weak() ? pbValue.weak() : false;

         std::unique_ptr<Value> value;
         if (pbValue.has_item()) {
             value = deserializeItemFromPb(pbValue.item(), config, pool);
             if (!value) {
                 return {};
             }

         } else if (pbValue.has_compound_value()) {
             const pb::CompoundValue pbCompoundValue = pbValue.compound_value();
             if (pbCompoundValue.has_attr()) {
                 const pb::Attribute& pbAttr = pbCompoundValue.attr();
                 std::unique_ptr<Attribute> attr = util::make_unique<Attribute>(isWeak);
                 attr->typeMask = pbAttr.format_flags();
                 for (const pb::Attribute_Symbol& pbSymbol : pbAttr.symbols()) {
                     Attribute::Symbol symbol;
                     deserializeItemCommon(pbSymbol, &symbol.symbol);
                     if (!deserializeReferenceFromPb(pbSymbol.name(), &symbol.symbol)) {
                         return {};
                     }
                     symbol.value = pbSymbol.value();
                     attr->symbols.push_back(std::move(symbol));
                 }
                 value = std::move(attr);

             } else if (pbCompoundValue.has_style()) {
                 const pb::Style& pbStyle = pbCompoundValue.style();
                 std::unique_ptr<Style> style = util::make_unique<Style>();
                 if (pbStyle.has_parent()) {
                     style->parent = Reference();
                     if (!deserializeReferenceFromPb(pbStyle.parent(), &style->parent.value())) {
                         return {};
                     }

                     if (pbStyle.has_parent_source()) {
                         Source parentSource;
                         deserializeSourceFromPb(pbStyle.parent_source(), *mSourcePool,
                                                 &parentSource);
                         style->parent.value().setSource(std::move(parentSource));
                     }
                 }

                 for (const pb::Style_Entry& pbEntry : pbStyle.entries()) {
                     Style::Entry entry;
                     deserializeItemCommon(pbEntry, &entry.key);
                     if (!deserializeReferenceFromPb(pbEntry.key(), &entry.key)) {
                         return {};
                     }

                     entry.value = deserializeItemFromPb(pbEntry.item(), config, pool);
                     if (!entry.value) {
                         return {};
                     }

                     deserializeItemCommon(pbEntry, entry.value.get());
                     style->entries.push_back(std::move(entry));
                 }
                 value = std::move(style);

             } else if (pbCompoundValue.has_styleable()) {
                 const pb::Styleable& pbStyleable = pbCompoundValue.styleable();
                 std::unique_ptr<Styleable> styleable = util::make_unique<Styleable>();
                 for (const pb::Styleable_Entry& pbEntry : pbStyleable.entries()) {
                     Reference attrRef;
                     deserializeItemCommon(pbEntry, &attrRef);
                     deserializeReferenceFromPb(pbEntry.attr(), &attrRef);
                     styleable->entries.push_back(std::move(attrRef));
                 }
                 value = std::move(styleable);

             } else if (pbCompoundValue.has_array()) {
                 const pb::Array& pbArray = pbCompoundValue.array();
                 std::unique_ptr<Array> array = util::make_unique<Array>();
                 for (const pb::Array_Entry& pbEntry : pbArray.entries()) {
                     std::unique_ptr<Item> item = deserializeItemFromPb(pbEntry.item(), config,
                                                                        pool);
                     if (!item) {
                         return {};
                     }

                     deserializeItemCommon(pbEntry, item.get());
                     array->items.push_back(std::move(item));
                 }
                 value = std::move(array);

             } else if (pbCompoundValue.has_plural()) {
                 const pb::Plural& pbPlural = pbCompoundValue.plural();
                 std::unique_ptr<Plural> plural = util::make_unique<Plural>();
                 for (const pb::Plural_Entry& pbEntry : pbPlural.entries()) {
                     size_t pluralIdx = deserializePluralEnumFromPb(pbEntry.arity());
                     plural->values[pluralIdx] = deserializeItemFromPb(pbEntry.item(), config,
                                                                       pool);
                     if (!plural->values[pluralIdx]) {
                         return {};
                     }

                     deserializeItemCommon(pbEntry, plural->values[pluralIdx].get());
                 }
                 value = std::move(plural);

             } else {
                 mDiag->error(DiagMessage(mSource) << "unknown compound value");
                 return {};
             }
         } else {
             mDiag->error(DiagMessage(mSource) << "unknown value");
             return {};
         }

         assert(value && "forgot to set value");

         value->setWeak(isWeak);
         deserializeItemCommon(pbValue, value.get());
         return value;
     }

     bool deserializeReferenceFromPb(const pb::Reference& pbRef, Reference* outRef) {
         outRef->referenceType = deserializeReferenceTypeFromPb(pbRef.type());
         outRef->privateReference = pbRef.private_();

         if (!pbRef.has_id() && !pbRef.has_symbol_idx()) {
             return false;
         }

         if (pbRef.has_id()) {
             outRef->id = ResourceId(pbRef.id());
         }

         if (pbRef.has_symbol_idx()) {
             StringPiece16 strSymbol = util::getString(*mSymbolPool, pbRef.symbol_idx());
             ResourceNameRef nameRef;
             if (!ResourceUtils::parseResourceName(strSymbol, &nameRef, nullptr)) {
                 mDiag->error(DiagMessage(mSource) << "invalid reference name '"
                              << strSymbol << "'");
                 return false;
             }

             outRef->name = nameRef.toResourceName();
         }
         return true;
     }

     template <typename T>
     void deserializeItemCommon(const T& pbItem, Value* outValue) {
         if (pbItem.has_source()) {
             Source source;
             deserializeSourceFromPb(pbItem.source(), *mSourcePool, &source);
             outValue->setSource(std::move(source));
         }

         if (pbItem.has_comment()) {
             outValue->setComment(util::utf8ToUtf16(pbItem.comment()));
         }
     }

 private:
     const android::ResStringPool* mValuePool;
     const android::ResStringPool* mSourcePool;
     const android::ResStringPool* mSymbolPool;
     const Source mSource;
     IDiagnostics* mDiag;
 };

 } // namespace

 std::unique_ptr<ResourceTable> deserializeTableFromPb(const pb::ResourceTable& pbTable,
                                                       const Source& source,
                                                       IDiagnostics* diag) {
     // We import the android namespace because on Windows NO_ERROR is a macro, not an enum, which
     // causes errors when qualifying it with android::
     using namespace android;

     std::unique_ptr<ResourceTable> table = util::make_unique<ResourceTable>();

     if (!pbTable.has_string_pool()) {
         diag->error(DiagMessage(source) << "no string pool found");
         return {};
     }

     ResStringPool valuePool;
     status_t result = valuePool.setTo(pbTable.string_pool().data().data(),
                                       pbTable.string_pool().data().size());
     if (result != NO_ERROR) {
         diag->error(DiagMessage(source) << "invalid string pool");
         return {};
     }

     ResStringPool sourcePool;
     if (pbTable.has_source_pool()) {
         result = sourcePool.setTo(pbTable.source_pool().data().data(),
                                   pbTable.source_pool().data().size());
         if (result != NO_ERROR) {
             diag->error(DiagMessage(source) << "invalid source pool");
             return {};
         }
     }

     ResStringPool symbolPool;
     if (pbTable.has_symbol_pool()) {
         result = symbolPool.setTo(pbTable.symbol_pool().data().data(),
                                   pbTable.symbol_pool().data().size());
         if (result != NO_ERROR) {
             diag->error(DiagMessage(source) << "invalid symbol pool");
             return {};
         }
     }

     PackagePbDeserializer packagePbDeserializer(&valuePool, &sourcePool, &symbolPool, source, diag);
     for (const pb::Package& pbPackage : pbTable.packages()) {
         if (!packagePbDeserializer.deserializeFromPb(pbPackage, table.get())) {
             return {};
         }
     }
     return table;
 }

 std::unique_ptr<ResourceFile> deserializeCompiledFileFromPb(const pb::CompiledFile& pbFile,
                                                             const Source& source,
                                                             IDiagnostics* diag) {
     std::unique_ptr<ResourceFile> file = util::make_unique<ResourceFile>();

     ResourceNameRef nameRef;

     // Need to create an lvalue here so that nameRef can point to something real.
     std::u16string utf16Name = util::utf8ToUtf16(pbFile.resource_name());
     if (!ResourceUtils::parseResourceName(utf16Name, &nameRef)) {
         diag->error(DiagMessage(source) << "invalid resource name in compiled file header: "
                     << pbFile.resource_name());
         return {};
     }
     file->name = nameRef.toResourceName();
     file->source.path = pbFile.source_path();
     deserializeConfigDescriptionFromPb(pbFile.config(), &file->config);

     for (const pb::CompiledFile_Symbol& pbSymbol : pbFile.exported_symbols()) {
         // Need to create an lvalue here so that nameRef can point to something real.
         utf16Name = util::utf8ToUtf16(pbSymbol.resource_name());
         if (!ResourceUtils::parseResourceName(utf16Name, &nameRef)) {
             diag->error(DiagMessage(source) << "invalid resource name for exported symbol in "
                                                "compiled file header: "
                                             << pbFile.resource_name());
             return {};
         }
         file->exportedSymbols.push_back(
                 SourcedResourceName{ nameRef.toResourceName(), pbSymbol.line_no() });
     }
     return file;
 }

 CompiledFileInputStream::CompiledFileInputStream(const void* data, size_t size) :
         mIn(static_cast<const uint8_t*>(data), size), mPbFile(),
         mData(static_cast<const uint8_t*>(data)), mSize(size) {
 }

 const pb::CompiledFile* CompiledFileInputStream::CompiledFile() {
     if (!mPbFile) {
         std::unique_ptr<pb::CompiledFile> pbFile = util::make_unique<pb::CompiledFile>();
         uint64_t pbSize = 0u;
         if (!mIn.ReadLittleEndian64(&pbSize)) {
             return nullptr;
         }
         mIn.PushLimit(static_cast<int>(pbSize));
         if (!pbFile->ParsePartialFromCodedStream(&mIn)) {
             return nullptr;
         }

         const size_t padding = 4 - (pbSize & 0x03);
         const size_t offset = sizeof(uint64_t) + pbSize + padding;
         if (offset > mSize) {
             return nullptr;
         }

         mData += offset;
         mSize -= offset;
         mPbFile = std::move(pbFile);
     }
     return mPbFile.get();
 }

 const void* CompiledFileInputStream::data() {
     if (!mPbFile) {
         if (!CompiledFile()) {
             return nullptr;
         }
     }
     return mData;
 }

 size_t CompiledFileInputStream::size() {
     if (!mPbFile) {
         if (!CompiledFile()) {
             return 0;
         }
     }
     return mSize;
 }

 } // namespace aapt
	/*
	* Copyright (C) 2016 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "ResourceTable.h"
	#include "ResourceUtils.h"
	#include "ValueVisitor.h"
	#include "proto/ProtoHelpers.h"
	#include "proto/ProtoSerialize.h"

	#include <androidfw/ResourceTypes.h>

	namespace aapt {

	namespace {

	class ReferenceIdToNameVisitor : public ValueVisitor {
	public:
	using ValueVisitor::visit;

	ReferenceIdToNameVisitor(const std::map<ResourceId, ResourceNameRef>* mapping) :
	mMapping(mapping) {
	assert(mMapping);
	}

	void visit(Reference* reference) override {
	if (!reference->id \|\| !reference->id.value().isValid()) {
	return;
	}

	ResourceId id = reference->id.value();
	auto cacheIter = mMapping->find(id);
	if (cacheIter != mMapping->end()) {
	reference->name = cacheIter->second.toResourceName();
	}
	}

	private:
	const std::map<ResourceId, ResourceNameRef>* mMapping;
	};

	class PackagePbDeserializer {
	public:
	PackagePbDeserializer(const android::ResStringPool* valuePool,
	const android::ResStringPool* sourcePool,
	const android::ResStringPool* symbolPool,
	const Source& source, IDiagnostics* diag) :
	mValuePool(valuePool), mSourcePool(sourcePool), mSymbolPool(symbolPool),
	mSource(source), mDiag(diag) {
	}

	public:
	bool deserializeFromPb(const pb::Package& pbPackage, ResourceTable* table) {
	Maybe<uint8_t> id;
	if (pbPackage.has_package_id()) {
	id = static_cast<uint8_t>(pbPackage.package_id());
	}

	std::map<ResourceId, ResourceNameRef> idIndex;

	ResourceTablePackage* pkg = table->createPackage(
	util::utf8ToUtf16(pbPackage.package_name()), id);
	for (const pb::Type& pbType : pbPackage.types()) {
	const ResourceType* resType = parseResourceType(util::utf8ToUtf16(pbType.name()));
	if (!resType) {
	mDiag->error(DiagMessage(mSource) << "unknown type '" << pbType.name() << "'");
	return {};
	}

	ResourceTableType* type = pkg->findOrCreateType(*resType);

	for (const pb::Entry& pbEntry : pbType.entries()) {
	ResourceEntry* entry = type->findOrCreateEntry(util::utf8ToUtf16(pbEntry.name()));

	// Deserialize the symbol status (public/private with source and comments).
	if (pbEntry.has_symbol_status()) {
	const pb::SymbolStatus& pbStatus = pbEntry.symbol_status();
	if (pbStatus.has_source()) {
	deserializeSourceFromPb(pbStatus.source(), *mSourcePool,
	&entry->symbolStatus.source);
	}

	if (pbStatus.has_comment()) {
	entry->symbolStatus.comment = util::utf8ToUtf16(pbStatus.comment());
	}

	SymbolState visibility = deserializeVisibilityFromPb(pbStatus.visibility());
	entry->symbolStatus.state = visibility;

	if (visibility == SymbolState::kPublic) {
	// This is a public symbol, we must encode the ID now if there is one.
	if (pbEntry.has_id()) {
	entry->id = static_cast<uint16_t>(pbEntry.id());
	}

	if (type->symbolStatus.state != SymbolState::kPublic) {
	// If the type has not been made public, do so now.
	type->symbolStatus.state = SymbolState::kPublic;
	if (pbType.has_id()) {
	type->id = static_cast<uint8_t>(pbType.id());
	}
	}
	} else if (visibility == SymbolState::kPrivate) {
	if (type->symbolStatus.state == SymbolState::kUndefined) {
	type->symbolStatus.state = SymbolState::kPrivate;
	}
	}
	}

	ResourceId resId(pbPackage.package_id(), pbType.id(), pbEntry.id());
	if (resId.isValid()) {
	idIndex[resId] = ResourceNameRef(pkg->name, type->type, entry->name);
	}

	for (const pb::ConfigValue& pbConfigValue : pbEntry.config_values()) {
	const pb::ConfigDescription& pbConfig = pbConfigValue.config();

	ConfigDescription config;
	if (!deserializeConfigDescriptionFromPb(pbConfig, &config)) {
	mDiag->error(DiagMessage(mSource) << "invalid configuration");
	return {};
	}

	ResourceConfigValue* configValue = entry->findOrCreateValue(config,
	pbConfig.product());
	if (configValue->value) {
	// Duplicate config.
	mDiag->error(DiagMessage(mSource) << "duplicate configuration");
	return {};
	}

	configValue->value = deserializeValueFromPb(pbConfigValue.value(),
	config, &table->stringPool);
	if (!configValue->value) {
	return {};
	}
	}
	}
	}

	ReferenceIdToNameVisitor visitor(&idIndex);
	visitAllValuesInPackage(pkg, &visitor);
	return true;
	}

	private:
	std::unique_ptr<Item> deserializeItemFromPb(const pb::Item& pbItem,
	const ConfigDescription& config,
	StringPool* pool) {
	if (pbItem.has_ref()) {
	const pb::Reference& pbRef = pbItem.ref();
	std::unique_ptr<Reference> ref = util::make_unique<Reference>();
	if (!deserializeReferenceFromPb(pbRef, ref.get())) {
	return {};
	}
	return std::move(ref);

	} else if (pbItem.has_prim()) {
	const pb::Primitive& pbPrim = pbItem.prim();
	android::Res_value prim = {};
	prim.dataType = static_cast<uint8_t>(pbPrim.type());
	prim.data = pbPrim.data();
	return util::make_unique<BinaryPrimitive>(prim);

	} else if (pbItem.has_id()) {
	return util::make_unique<Id>();

	} else if (pbItem.has_str()) {
	const uint32_t idx = pbItem.str().idx();
	StringPiece16 str = util::getString(*mValuePool, idx);

	const android::ResStringPool_span* spans = mValuePool->styleAt(idx);
	if (spans && spans->name.index != android::ResStringPool_span::END) {
	StyleString styleStr = { str.toString() };
	while (spans->name.index != android::ResStringPool_span::END) {
	styleStr.spans.push_back(Span{
	util::getString(*mValuePool, spans->name.index).toString(),
	spans->firstChar,
	spans->lastChar
	});
	spans++;
	}
	return util::make_unique<StyledString>(
	pool->makeRef(styleStr, StringPool::Context{ 1, config }));
	}
	return util::make_unique<String>(
	pool->makeRef(str, StringPool::Context{ 1, config }));

	} else if (pbItem.has_raw_str()) {
	const uint32_t idx = pbItem.raw_str().idx();
	StringPiece16 str = util::getString(*mValuePool, idx);
	return util::make_unique<RawString>(
	pool->makeRef(str, StringPool::Context{ 1, config }));

	} else if (pbItem.has_file()) {
	const uint32_t idx = pbItem.file().path_idx();
	StringPiece16 str = util::getString(*mValuePool, idx);
	return util::make_unique<FileReference>(
	pool->makeRef(str, StringPool::Context{ 0, config }));

	} else {
	mDiag->error(DiagMessage(mSource) << "unknown item");
	}
	return {};
	}

	std::unique_ptr<Value> deserializeValueFromPb(const pb::Value& pbValue,
	const ConfigDescription& config,
	StringPool* pool) {
	const bool isWeak = pbValue.has_weak() ? pbValue.weak() : false;

	std::unique_ptr<Value> value;
	if (pbValue.has_item()) {
	value = deserializeItemFromPb(pbValue.item(), config, pool);
	if (!value) {
	return {};
	}

	} else if (pbValue.has_compound_value()) {
	const pb::CompoundValue pbCompoundValue = pbValue.compound_value();
	if (pbCompoundValue.has_attr()) {
	const pb::Attribute& pbAttr = pbCompoundValue.attr();
	std::unique_ptr<Attribute> attr = util::make_unique<Attribute>(isWeak);
	attr->typeMask = pbAttr.format_flags();
	for (const pb::Attribute_Symbol& pbSymbol : pbAttr.symbols()) {
	Attribute::Symbol symbol;
	deserializeItemCommon(pbSymbol, &symbol.symbol);
	if (!deserializeReferenceFromPb(pbSymbol.name(), &symbol.symbol)) {
	return {};
	}
	symbol.value = pbSymbol.value();
	attr->symbols.push_back(std::move(symbol));
	}
	value = std::move(attr);

	} else if (pbCompoundValue.has_style()) {
	const pb::Style& pbStyle = pbCompoundValue.style();
	std::unique_ptr<Style> style = util::make_unique<Style>();
	if (pbStyle.has_parent()) {
	style->parent = Reference();
	if (!deserializeReferenceFromPb(pbStyle.parent(), &style->parent.value())) {
	return {};
	}

	if (pbStyle.has_parent_source()) {
	Source parentSource;
	deserializeSourceFromPb(pbStyle.parent_source(), *mSourcePool,
	&parentSource);
	style->parent.value().setSource(std::move(parentSource));
	}
	}

	for (const pb::Style_Entry& pbEntry : pbStyle.entries()) {
	Style::Entry entry;
	deserializeItemCommon(pbEntry, &entry.key);
	if (!deserializeReferenceFromPb(pbEntry.key(), &entry.key)) {
	return {};
	}

	entry.value = deserializeItemFromPb(pbEntry.item(), config, pool);
	if (!entry.value) {
	return {};
	}

	deserializeItemCommon(pbEntry, entry.value.get());
	style->entries.push_back(std::move(entry));
	}
	value = std::move(style);

	} else if (pbCompoundValue.has_styleable()) {
	const pb::Styleable& pbStyleable = pbCompoundValue.styleable();
	std::unique_ptr<Styleable> styleable = util::make_unique<Styleable>();
	for (const pb::Styleable_Entry& pbEntry : pbStyleable.entries()) {
	Reference attrRef;
	deserializeItemCommon(pbEntry, &attrRef);
	deserializeReferenceFromPb(pbEntry.attr(), &attrRef);
	styleable->entries.push_back(std::move(attrRef));
	}
	value = std::move(styleable);

	} else if (pbCompoundValue.has_array()) {
	const pb::Array& pbArray = pbCompoundValue.array();
	std::unique_ptr<Array> array = util::make_unique<Array>();
	for (const pb::Array_Entry& pbEntry : pbArray.entries()) {
	std::unique_ptr<Item> item = deserializeItemFromPb(pbEntry.item(), config,
	pool);
	if (!item) {
	return {};
	}

	deserializeItemCommon(pbEntry, item.get());
	array->items.push_back(std::move(item));
	}
	value = std::move(array);

	} else if (pbCompoundValue.has_plural()) {
	const pb::Plural& pbPlural = pbCompoundValue.plural();
	std::unique_ptr<Plural> plural = util::make_unique<Plural>();
	for (const pb::Plural_Entry& pbEntry : pbPlural.entries()) {
	size_t pluralIdx = deserializePluralEnumFromPb(pbEntry.arity());
	plural->values[pluralIdx] = deserializeItemFromPb(pbEntry.item(), config,
	pool);
	if (!plural->values[pluralIdx]) {
	return {};
	}

	deserializeItemCommon(pbEntry, plural->values[pluralIdx].get());
	}
	value = std::move(plural);

	} else {
	mDiag->error(DiagMessage(mSource) << "unknown compound value");
	return {};
	}
	} else {
	mDiag->error(DiagMessage(mSource) << "unknown value");
	return {};
	}

	assert(value && "forgot to set value");

	value->setWeak(isWeak);
	deserializeItemCommon(pbValue, value.get());
	return value;
	}

	bool deserializeReferenceFromPb(const pb::Reference& pbRef, Reference* outRef) {
	outRef->referenceType = deserializeReferenceTypeFromPb(pbRef.type());
	outRef->privateReference = pbRef.private_();

	if (!pbRef.has_id() && !pbRef.has_symbol_idx()) {
	return false;
	}

	if (pbRef.has_id()) {
	outRef->id = ResourceId(pbRef.id());
	}

	if (pbRef.has_symbol_idx()) {
	StringPiece16 strSymbol = util::getString(*mSymbolPool, pbRef.symbol_idx());
	ResourceNameRef nameRef;
	if (!ResourceUtils::parseResourceName(strSymbol, &nameRef, nullptr)) {
	mDiag->error(DiagMessage(mSource) << "invalid reference name '"
	<< strSymbol << "'");
	return false;
	}

	outRef->name = nameRef.toResourceName();
	}
	return true;
	}

	template <typename T>
	void deserializeItemCommon(const T& pbItem, Value* outValue) {
	if (pbItem.has_source()) {
	Source source;
	deserializeSourceFromPb(pbItem.source(), *mSourcePool, &source);
	outValue->setSource(std::move(source));
	}

	if (pbItem.has_comment()) {
	outValue->setComment(util::utf8ToUtf16(pbItem.comment()));
	}
	}

	private:
	const android::ResStringPool* mValuePool;
	const android::ResStringPool* mSourcePool;
	const android::ResStringPool* mSymbolPool;
	const Source mSource;
	IDiagnostics* mDiag;
	};

	} // namespace

	std::unique_ptr<ResourceTable> deserializeTableFromPb(const pb::ResourceTable& pbTable,
	const Source& source,
	IDiagnostics* diag) {
	// We import the android namespace because on Windows NO_ERROR is a macro, not an enum, which
	// causes errors when qualifying it with android::
	using namespace android;

	std::unique_ptr<ResourceTable> table = util::make_unique<ResourceTable>();

	if (!pbTable.has_string_pool()) {
	diag->error(DiagMessage(source) << "no string pool found");
	return {};
	}

	ResStringPool valuePool;
	status_t result = valuePool.setTo(pbTable.string_pool().data().data(),
	pbTable.string_pool().data().size());
	if (result != NO_ERROR) {
	diag->error(DiagMessage(source) << "invalid string pool");
	return {};
	}

	ResStringPool sourcePool;
	if (pbTable.has_source_pool()) {
	result = sourcePool.setTo(pbTable.source_pool().data().data(),
	pbTable.source_pool().data().size());
	if (result != NO_ERROR) {
	diag->error(DiagMessage(source) << "invalid source pool");
	return {};
	}
	}

	ResStringPool symbolPool;
	if (pbTable.has_symbol_pool()) {
	result = symbolPool.setTo(pbTable.symbol_pool().data().data(),
	pbTable.symbol_pool().data().size());
	if (result != NO_ERROR) {
	diag->error(DiagMessage(source) << "invalid symbol pool");
	return {};
	}
	}

	PackagePbDeserializer packagePbDeserializer(&valuePool, &sourcePool, &symbolPool, source, diag);
	for (const pb::Package& pbPackage : pbTable.packages()) {
	if (!packagePbDeserializer.deserializeFromPb(pbPackage, table.get())) {
	return {};
	}
	}
	return table;
	}

	std::unique_ptr<ResourceFile> deserializeCompiledFileFromPb(const pb::CompiledFile& pbFile,
	const Source& source,
	IDiagnostics* diag) {
	std::unique_ptr<ResourceFile> file = util::make_unique<ResourceFile>();

	ResourceNameRef nameRef;

	// Need to create an lvalue here so that nameRef can point to something real.
	std::u16string utf16Name = util::utf8ToUtf16(pbFile.resource_name());
	if (!ResourceUtils::parseResourceName(utf16Name, &nameRef)) {
	diag->error(DiagMessage(source) << "invalid resource name in compiled file header: "
	<< pbFile.resource_name());
	return {};
	}
	file->name = nameRef.toResourceName();
	file->source.path = pbFile.source_path();
	deserializeConfigDescriptionFromPb(pbFile.config(), &file->config);

	for (const pb::CompiledFile_Symbol& pbSymbol : pbFile.exported_symbols()) {
	// Need to create an lvalue here so that nameRef can point to something real.
	utf16Name = util::utf8ToUtf16(pbSymbol.resource_name());
	if (!ResourceUtils::parseResourceName(utf16Name, &nameRef)) {
	diag->error(DiagMessage(source) << "invalid resource name for exported symbol in "
	"compiled file header: "
	<< pbFile.resource_name());
	return {};
	}
	file->exportedSymbols.push_back(
	SourcedResourceName{ nameRef.toResourceName(), pbSymbol.line_no() });
	}
	return file;
	}

	CompiledFileInputStream::CompiledFileInputStream(const void* data, size_t size) :
	mIn(static_cast<const uint8_t*>(data), size), mPbFile(),
	mData(static_cast<const uint8_t*>(data)), mSize(size) {
	}

	const pb::CompiledFile* CompiledFileInputStream::CompiledFile() {
	if (!mPbFile) {
	std::unique_ptr<pb::CompiledFile> pbFile = util::make_unique<pb::CompiledFile>();
	uint64_t pbSize = 0u;
	if (!mIn.ReadLittleEndian64(&pbSize)) {
	return nullptr;
	}
	mIn.PushLimit(static_cast<int>(pbSize));
	if (!pbFile->ParsePartialFromCodedStream(&mIn)) {
	return nullptr;
	}

	const size_t padding = 4 - (pbSize & 0x03);
	const size_t offset = sizeof(uint64_t) + pbSize + padding;
	if (offset > mSize) {
	return nullptr;
	}

	mData += offset;
	mSize -= offset;
	mPbFile = std::move(pbFile);
	}
	return mPbFile.get();
	}

	const void* CompiledFileInputStream::data() {
	if (!mPbFile) {
	if (!CompiledFile()) {
	return nullptr;
	}
	}
	return mData;
	}

	size_t CompiledFileInputStream::size() {
	if (!mPbFile) {
	if (!CompiledFile()) {
	return 0;
	}
	}
	return mSize;
	}

	} // namespace aapt