tools/aapt2/proto/TableProtoSerializer.cpp - platform/frameworks/base - Gitiles

 /*
  * 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 "Resource.h"
 #include "ResourceTable.h"
 #include "StringPool.h"
 #include "ValueVisitor.h"
 #include "proto/ProtoHelpers.h"
 #include "proto/ProtoSerialize.h"
 #include "util/BigBuffer.h"

 #include "android-base/logging.h"

 using ::google::protobuf::io::CodedInputStream;
 using ::google::protobuf::io::CodedOutputStream;
 using ::google::protobuf::io::ZeroCopyOutputStream;

 namespace aapt {

 namespace {

 class PbSerializerVisitor : public RawValueVisitor {
  public:
   using RawValueVisitor::Visit;

   // Constructor to use when expecting to serialize any value.
   PbSerializerVisitor(StringPool* source_pool, pb::Value* out_pb_value)
       : source_pool_(source_pool), out_pb_value_(out_pb_value), out_pb_item_(nullptr) {
   }

   // Constructor to use when expecting to serialize an Item.
   PbSerializerVisitor(StringPool* sourcePool, pb::Item* outPbItem)
       : source_pool_(sourcePool), out_pb_value_(nullptr), out_pb_item_(outPbItem) {
   }

   void Visit(Reference* ref) override {
     SerializeReferenceToPb(*ref, pb_item()->mutable_ref());
   }

   void Visit(String* str) override {
     pb_item()->mutable_str()->set_value(*str->value);
   }

   void Visit(RawString* str) override {
     pb_item()->mutable_raw_str()->set_value(*str->value);
   }

   void Visit(StyledString* str) override {
     pb::StyledString* pb_str = pb_item()->mutable_styled_str();
     pb_str->set_value(str->value->value);

     for (const StringPool::Span& span : str->value->spans) {
       pb::StyledString::Span* pb_span = pb_str->add_span();
       pb_span->set_tag(*span.name);
       pb_span->set_first_char(span.first_char);
       pb_span->set_last_char(span.last_char);
     }
   }

   void Visit(FileReference* file) override {
     pb_item()->mutable_file()->set_path(*file->path);
   }

   void Visit(Id* /*id*/) override {
     pb_item()->mutable_id();
   }

   void Visit(BinaryPrimitive* prim) override {
     android::Res_value val = {};
     prim->Flatten(&val);

     pb::Primitive* pb_prim = pb_item()->mutable_prim();
     pb_prim->set_type(val.dataType);
     pb_prim->set_data(val.data);
   }

   void VisitItem(Item* item) override {
     LOG(FATAL) << "unimplemented item";
   }

   void Visit(Attribute* attr) override {
     pb::Attribute* pb_attr = pb_compound_value()->mutable_attr();
     pb_attr->set_format_flags(attr->type_mask);
     pb_attr->set_min_int(attr->min_int);
     pb_attr->set_max_int(attr->max_int);

     for (auto& symbol : attr->symbols) {
       pb::Attribute_Symbol* pb_symbol = pb_attr->add_symbol();
       SerializeItemCommonToPb(symbol.symbol, pb_symbol);
       SerializeReferenceToPb(symbol.symbol, pb_symbol->mutable_name());
       pb_symbol->set_value(symbol.value);
     }
   }

   void Visit(Style* style) override {
     pb::Style* pb_style = pb_compound_value()->mutable_style();
     if (style->parent) {
       SerializeReferenceToPb(style->parent.value(), pb_style->mutable_parent());
       SerializeSourceToPb(style->parent.value().GetSource(), source_pool_,
                           pb_style->mutable_parent_source());
     }

     for (Style::Entry& entry : style->entries) {
       pb::Style_Entry* pb_entry = pb_style->add_entry();
       SerializeReferenceToPb(entry.key, pb_entry->mutable_key());

       pb::Item* pb_item = pb_entry->mutable_item();
       SerializeItemCommonToPb(entry.key, pb_entry);
       PbSerializerVisitor sub_visitor(source_pool_, pb_item);
       entry.value->Accept(&sub_visitor);
     }
   }

   void Visit(Styleable* styleable) override {
     pb::Styleable* pb_styleable = pb_compound_value()->mutable_styleable();
     for (Reference& entry : styleable->entries) {
       pb::Styleable_Entry* pb_entry = pb_styleable->add_entry();
       SerializeItemCommonToPb(entry, pb_entry);
       SerializeReferenceToPb(entry, pb_entry->mutable_attr());
     }
   }

   void Visit(Array* array) override {
     pb::Array* pb_array = pb_compound_value()->mutable_array();
     for (auto& value : array->elements) {
       pb::Array_Element* pb_element = pb_array->add_element();
       SerializeItemCommonToPb(*value, pb_element);
       PbSerializerVisitor sub_visitor(source_pool_, pb_element->mutable_item());
       value->Accept(&sub_visitor);
     }
   }

   void Visit(Plural* plural) override {
     pb::Plural* pb_plural = pb_compound_value()->mutable_plural();
     const size_t count = plural->values.size();
     for (size_t i = 0; i < count; i++) {
       if (!plural->values[i]) {
         // No plural value set here.
         continue;
       }

       pb::Plural_Entry* pb_entry = pb_plural->add_entry();
       pb_entry->set_arity(SerializePluralEnumToPb(i));
       pb::Item* pb_element = pb_entry->mutable_item();
       SerializeItemCommonToPb(*plural->values[i], pb_entry);
       PbSerializerVisitor sub_visitor(source_pool_, pb_element);
       plural->values[i]->Accept(&sub_visitor);
     }
   }

  private:
   DISALLOW_COPY_AND_ASSIGN(PbSerializerVisitor);

   pb::Item* pb_item() {
     if (out_pb_value_) {
       return out_pb_value_->mutable_item();
     }
     return out_pb_item_;
   }

   pb::CompoundValue* pb_compound_value() {
     CHECK(out_pb_value_ != nullptr);
     return out_pb_value_->mutable_compound_value();
   }

   template <typename T>
   void SerializeItemCommonToPb(const Item& item, T* pb_item) {
     SerializeSourceToPb(item.GetSource(), source_pool_, pb_item->mutable_source());
     if (!item.GetComment().empty()) {
       pb_item->set_comment(item.GetComment());
     }
   }

   void SerializeReferenceToPb(const Reference& ref, pb::Reference* pb_ref) {
     if (ref.id) {
       pb_ref->set_id(ref.id.value().id);
     }

     if (ref.name) {
       pb_ref->set_name(ref.name.value().ToString());
     }

     pb_ref->set_private_(ref.private_reference);
     pb_ref->set_type(SerializeReferenceTypeToPb(ref.reference_type));
   }

   StringPool* source_pool_;
   pb::Value* out_pb_value_;
   pb::Item* out_pb_item_;
 };

 }  // namespace

 std::unique_ptr<pb::ResourceTable> SerializeTableToPb(ResourceTable* table) {
   // We must do this before writing the resources, since the string pool IDs may change.
   table->string_pool.Prune();
   table->string_pool.Sort([](const StringPool::Context& a, const StringPool::Context& b) -> int {
     int diff = util::compare(a.priority, b.priority);
     if (diff == 0) {
       diff = a.config.compare(b.config);
     }
     return diff;
   });

   auto pb_table = util::make_unique<pb::ResourceTable>();
   StringPool source_pool;

   for (auto& package : table->packages) {
     pb::Package* pb_package = pb_table->add_package();
     if (package->id) {
       pb_package->set_package_id(package->id.value());
     }
     pb_package->set_package_name(package->name);

     for (auto& type : package->types) {
       pb::Type* pb_type = pb_package->add_type();
       if (type->id) {
         pb_type->set_id(type->id.value());
       }
       pb_type->set_name(ToString(type->type).to_string());

       for (auto& entry : type->entries) {
         pb::Entry* pb_entry = pb_type->add_entry();
         if (entry->id) {
           pb_entry->set_id(entry->id.value());
         }
         pb_entry->set_name(entry->name);

         // Write the SymbolStatus struct.
         pb::SymbolStatus* pb_status = pb_entry->mutable_symbol_status();
         pb_status->set_visibility(SerializeVisibilityToPb(entry->symbol_status.state));
         SerializeSourceToPb(entry->symbol_status.source, &source_pool, pb_status->mutable_source());
         pb_status->set_comment(entry->symbol_status.comment);
         pb_status->set_allow_new(entry->symbol_status.allow_new);

         for (auto& config_value : entry->values) {
           pb::ConfigValue* pb_config_value = pb_entry->add_config_value();
           SerializeConfig(config_value->config, pb_config_value->mutable_config());
           if (!config_value->product.empty()) {
             pb_config_value->mutable_config()->set_product(config_value->product);
           }

           pb::Value* pb_value = pb_config_value->mutable_value();
           SerializeSourceToPb(config_value->value->GetSource(), &source_pool,
                               pb_value->mutable_source());
           if (!config_value->value->GetComment().empty()) {
             pb_value->set_comment(config_value->value->GetComment());
           }

           if (config_value->value->IsWeak()) {
             pb_value->set_weak(true);
           }

           PbSerializerVisitor visitor(&source_pool, pb_value);
           config_value->value->Accept(&visitor);
         }
       }
     }
   }

   SerializeStringPoolToPb(source_pool, pb_table->mutable_source_pool());
   return pb_table;
 }

 std::unique_ptr<pb::internal::CompiledFile> SerializeCompiledFileToPb(const ResourceFile& file) {
   auto pb_file = util::make_unique<pb::internal::CompiledFile>();
   pb_file->set_resource_name(file.name.ToString());
   pb_file->set_source_path(file.source.path);
   SerializeConfig(file.config, pb_file->mutable_config());

   for (const SourcedResourceName& exported : file.exported_symbols) {
     pb::internal::CompiledFile_Symbol* pb_symbol = pb_file->add_exported_symbol();
     pb_symbol->set_resource_name(exported.name.ToString());
     pb_symbol->mutable_source()->set_line_number(exported.line);
   }
   return pb_file;
 }

 CompiledFileOutputStream::CompiledFileOutputStream(ZeroCopyOutputStream* out) : out_(out) {
 }

 void CompiledFileOutputStream::EnsureAlignedWrite() {
   const int padding = out_.ByteCount() % 4;
   if (padding > 0) {
     uint32_t zero = 0u;
     out_.WriteRaw(&zero, padding);
   }
 }

 void CompiledFileOutputStream::WriteLittleEndian32(uint32_t val) {
   EnsureAlignedWrite();
   out_.WriteLittleEndian32(val);
 }

 void CompiledFileOutputStream::WriteCompiledFile(const pb::internal::CompiledFile* compiled_file) {
   EnsureAlignedWrite();
   out_.WriteLittleEndian64(static_cast<uint64_t>(compiled_file->ByteSize()));
   compiled_file->SerializeWithCachedSizes(&out_);
 }

 void CompiledFileOutputStream::WriteData(const BigBuffer* buffer) {
   EnsureAlignedWrite();
   out_.WriteLittleEndian64(static_cast<uint64_t>(buffer->size()));
   for (const BigBuffer::Block& block : *buffer) {
     out_.WriteRaw(block.buffer.get(), block.size);
   }
 }

 void CompiledFileOutputStream::WriteData(const void* data, size_t len) {
   EnsureAlignedWrite();
   out_.WriteLittleEndian64(static_cast<uint64_t>(len));
   out_.WriteRaw(data, len);
 }

 bool CompiledFileOutputStream::HadError() {
   return out_.HadError();
 }

 CompiledFileInputStream::CompiledFileInputStream(const void* data, size_t size)
     : in_(static_cast<const uint8_t*>(data), size) {}

 void CompiledFileInputStream::EnsureAlignedRead() {
   const int padding = in_.CurrentPosition() % 4;
   if (padding > 0) {
     // Reads are always 4 byte aligned.
     in_.Skip(padding);
   }
 }

 bool CompiledFileInputStream::ReadLittleEndian32(uint32_t* out_val) {
   EnsureAlignedRead();
   return in_.ReadLittleEndian32(out_val);
 }

 bool CompiledFileInputStream::ReadCompiledFile(pb::internal::CompiledFile* out_val) {
   EnsureAlignedRead();

   google::protobuf::uint64 pb_size = 0u;
   if (!in_.ReadLittleEndian64(&pb_size)) {
     return false;
   }

   CodedInputStream::Limit l = in_.PushLimit(static_cast<int>(pb_size));

   // Check that we haven't tried to read past the end.
   if (static_cast<uint64_t>(in_.BytesUntilLimit()) != pb_size) {
     in_.PopLimit(l);
     in_.PushLimit(0);
     return false;
   }

   if (!out_val->ParsePartialFromCodedStream(&in_)) {
     in_.PopLimit(l);
     in_.PushLimit(0);
     return false;
   }

   in_.PopLimit(l);
   return true;
 }

 bool CompiledFileInputStream::ReadDataMetaData(uint64_t* out_offset, uint64_t* out_len) {
   EnsureAlignedRead();

   google::protobuf::uint64 pb_size = 0u;
   if (!in_.ReadLittleEndian64(&pb_size)) {
     return false;
   }

   // Check that we aren't trying to read past the end.
   if (pb_size > static_cast<uint64_t>(in_.BytesUntilLimit())) {
     in_.PushLimit(0);
     return false;
   }

   uint64_t offset = static_cast<uint64_t>(in_.CurrentPosition());
   if (!in_.Skip(pb_size)) {
     return false;
   }

   *out_offset = offset;
   *out_len = pb_size;
   return true;
 }

 }  // 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 "Resource.h"
	#include "ResourceTable.h"
	#include "StringPool.h"
	#include "ValueVisitor.h"
	#include "proto/ProtoHelpers.h"
	#include "proto/ProtoSerialize.h"
	#include "util/BigBuffer.h"

	#include "android-base/logging.h"

	using ::google::protobuf::io::CodedInputStream;
	using ::google::protobuf::io::CodedOutputStream;
	using ::google::protobuf::io::ZeroCopyOutputStream;

	namespace aapt {

	namespace {

	class PbSerializerVisitor : public RawValueVisitor {
	public:
	using RawValueVisitor::Visit;

	// Constructor to use when expecting to serialize any value.
	PbSerializerVisitor(StringPool* source_pool, pb::Value* out_pb_value)
	: source_pool_(source_pool), out_pb_value_(out_pb_value), out_pb_item_(nullptr) {
	}

	// Constructor to use when expecting to serialize an Item.
	PbSerializerVisitor(StringPool* sourcePool, pb::Item* outPbItem)
	: source_pool_(sourcePool), out_pb_value_(nullptr), out_pb_item_(outPbItem) {
	}

	void Visit(Reference* ref) override {
	SerializeReferenceToPb(*ref, pb_item()->mutable_ref());
	}

	void Visit(String* str) override {
	pb_item()->mutable_str()->set_value(*str->value);
	}

	void Visit(RawString* str) override {
	pb_item()->mutable_raw_str()->set_value(*str->value);
	}

	void Visit(StyledString* str) override {
	pb::StyledString* pb_str = pb_item()->mutable_styled_str();
	pb_str->set_value(str->value->value);

	for (const StringPool::Span& span : str->value->spans) {
	pb::StyledString::Span* pb_span = pb_str->add_span();
	pb_span->set_tag(*span.name);
	pb_span->set_first_char(span.first_char);
	pb_span->set_last_char(span.last_char);
	}
	}

	void Visit(FileReference* file) override {
	pb_item()->mutable_file()->set_path(*file->path);
	}

	void Visit(Id* /id/) override {
	pb_item()->mutable_id();
	}

	void Visit(BinaryPrimitive* prim) override {
	android::Res_value val = {};
	prim->Flatten(&val);

	pb::Primitive* pb_prim = pb_item()->mutable_prim();
	pb_prim->set_type(val.dataType);
	pb_prim->set_data(val.data);
	}

	void VisitItem(Item* item) override {
	LOG(FATAL) << "unimplemented item";
	}

	void Visit(Attribute* attr) override {
	pb::Attribute* pb_attr = pb_compound_value()->mutable_attr();
	pb_attr->set_format_flags(attr->type_mask);
	pb_attr->set_min_int(attr->min_int);
	pb_attr->set_max_int(attr->max_int);

	for (auto& symbol : attr->symbols) {
	pb::Attribute_Symbol* pb_symbol = pb_attr->add_symbol();
	SerializeItemCommonToPb(symbol.symbol, pb_symbol);
	SerializeReferenceToPb(symbol.symbol, pb_symbol->mutable_name());
	pb_symbol->set_value(symbol.value);
	}
	}

	void Visit(Style* style) override {
	pb::Style* pb_style = pb_compound_value()->mutable_style();
	if (style->parent) {
	SerializeReferenceToPb(style->parent.value(), pb_style->mutable_parent());
	SerializeSourceToPb(style->parent.value().GetSource(), source_pool_,
	pb_style->mutable_parent_source());
	}

	for (Style::Entry& entry : style->entries) {
	pb::Style_Entry* pb_entry = pb_style->add_entry();
	SerializeReferenceToPb(entry.key, pb_entry->mutable_key());

	pb::Item* pb_item = pb_entry->mutable_item();
	SerializeItemCommonToPb(entry.key, pb_entry);
	PbSerializerVisitor sub_visitor(source_pool_, pb_item);
	entry.value->Accept(&sub_visitor);
	}
	}

	void Visit(Styleable* styleable) override {
	pb::Styleable* pb_styleable = pb_compound_value()->mutable_styleable();
	for (Reference& entry : styleable->entries) {
	pb::Styleable_Entry* pb_entry = pb_styleable->add_entry();
	SerializeItemCommonToPb(entry, pb_entry);
	SerializeReferenceToPb(entry, pb_entry->mutable_attr());
	}
	}

	void Visit(Array* array) override {
	pb::Array* pb_array = pb_compound_value()->mutable_array();
	for (auto& value : array->elements) {
	pb::Array_Element* pb_element = pb_array->add_element();
	SerializeItemCommonToPb(*value, pb_element);
	PbSerializerVisitor sub_visitor(source_pool_, pb_element->mutable_item());
	value->Accept(&sub_visitor);
	}
	}

	void Visit(Plural* plural) override {
	pb::Plural* pb_plural = pb_compound_value()->mutable_plural();
	const size_t count = plural->values.size();
	for (size_t i = 0; i < count; i++) {
	if (!plural->values[i]) {
	// No plural value set here.
	continue;
	}

	pb::Plural_Entry* pb_entry = pb_plural->add_entry();
	pb_entry->set_arity(SerializePluralEnumToPb(i));
	pb::Item* pb_element = pb_entry->mutable_item();
	SerializeItemCommonToPb(*plural->values[i], pb_entry);
	PbSerializerVisitor sub_visitor(source_pool_, pb_element);
	plural->values[i]->Accept(&sub_visitor);
	}
	}

	private:
	DISALLOW_COPY_AND_ASSIGN(PbSerializerVisitor);

	pb::Item* pb_item() {
	if (out_pb_value_) {
	return out_pb_value_->mutable_item();
	}
	return out_pb_item_;
	}

	pb::CompoundValue* pb_compound_value() {
	CHECK(out_pb_value_ != nullptr);
	return out_pb_value_->mutable_compound_value();
	}

	template <typename T>
	void SerializeItemCommonToPb(const Item& item, T* pb_item) {
	SerializeSourceToPb(item.GetSource(), source_pool_, pb_item->mutable_source());
	if (!item.GetComment().empty()) {
	pb_item->set_comment(item.GetComment());
	}
	}

	void SerializeReferenceToPb(const Reference& ref, pb::Reference* pb_ref) {
	if (ref.id) {
	pb_ref->set_id(ref.id.value().id);
	}

	if (ref.name) {
	pb_ref->set_name(ref.name.value().ToString());
	}

	pb_ref->set_private_(ref.private_reference);
	pb_ref->set_type(SerializeReferenceTypeToPb(ref.reference_type));
	}

	StringPool* source_pool_;
	pb::Value* out_pb_value_;
	pb::Item* out_pb_item_;
	};

	} // namespace

	std::unique_ptr<pb::ResourceTable> SerializeTableToPb(ResourceTable* table) {
	// We must do this before writing the resources, since the string pool IDs may change.
	table->string_pool.Prune();
	table->string_pool.Sort([](const StringPool::Context& a, const StringPool::Context& b) -> int {
	int diff = util::compare(a.priority, b.priority);
	if (diff == 0) {
	diff = a.config.compare(b.config);
	}
	return diff;
	});

	auto pb_table = util::make_unique<pb::ResourceTable>();
	StringPool source_pool;

	for (auto& package : table->packages) {
	pb::Package* pb_package = pb_table->add_package();
	if (package->id) {
	pb_package->set_package_id(package->id.value());
	}
	pb_package->set_package_name(package->name);

	for (auto& type : package->types) {
	pb::Type* pb_type = pb_package->add_type();
	if (type->id) {
	pb_type->set_id(type->id.value());
	}
	pb_type->set_name(ToString(type->type).to_string());

	for (auto& entry : type->entries) {
	pb::Entry* pb_entry = pb_type->add_entry();
	if (entry->id) {
	pb_entry->set_id(entry->id.value());
	}
	pb_entry->set_name(entry->name);

	// Write the SymbolStatus struct.
	pb::SymbolStatus* pb_status = pb_entry->mutable_symbol_status();
	pb_status->set_visibility(SerializeVisibilityToPb(entry->symbol_status.state));
	SerializeSourceToPb(entry->symbol_status.source, &source_pool, pb_status->mutable_source());
	pb_status->set_comment(entry->symbol_status.comment);
	pb_status->set_allow_new(entry->symbol_status.allow_new);

	for (auto& config_value : entry->values) {
	pb::ConfigValue* pb_config_value = pb_entry->add_config_value();
	SerializeConfig(config_value->config, pb_config_value->mutable_config());
	if (!config_value->product.empty()) {
	pb_config_value->mutable_config()->set_product(config_value->product);
	}

	pb::Value* pb_value = pb_config_value->mutable_value();
	SerializeSourceToPb(config_value->value->GetSource(), &source_pool,
	pb_value->mutable_source());
	if (!config_value->value->GetComment().empty()) {
	pb_value->set_comment(config_value->value->GetComment());
	}

	if (config_value->value->IsWeak()) {
	pb_value->set_weak(true);
	}

	PbSerializerVisitor visitor(&source_pool, pb_value);
	config_value->value->Accept(&visitor);
	}
	}
	}
	}

	SerializeStringPoolToPb(source_pool, pb_table->mutable_source_pool());
	return pb_table;
	}

	std::unique_ptr<pb::internal::CompiledFile> SerializeCompiledFileToPb(const ResourceFile& file) {
	auto pb_file = util::make_unique<pb::internal::CompiledFile>();
	pb_file->set_resource_name(file.name.ToString());
	pb_file->set_source_path(file.source.path);
	SerializeConfig(file.config, pb_file->mutable_config());

	for (const SourcedResourceName& exported : file.exported_symbols) {
	pb::internal::CompiledFile_Symbol* pb_symbol = pb_file->add_exported_symbol();
	pb_symbol->set_resource_name(exported.name.ToString());
	pb_symbol->mutable_source()->set_line_number(exported.line);
	}
	return pb_file;
	}

	CompiledFileOutputStream::CompiledFileOutputStream(ZeroCopyOutputStream* out) : out_(out) {
	}

	void CompiledFileOutputStream::EnsureAlignedWrite() {
	const int padding = out_.ByteCount() % 4;
	if (padding > 0) {
	uint32_t zero = 0u;
	out_.WriteRaw(&zero, padding);
	}
	}

	void CompiledFileOutputStream::WriteLittleEndian32(uint32_t val) {
	EnsureAlignedWrite();
	out_.WriteLittleEndian32(val);
	}

	void CompiledFileOutputStream::WriteCompiledFile(const pb::internal::CompiledFile* compiled_file) {
	EnsureAlignedWrite();
	out_.WriteLittleEndian64(static_cast<uint64_t>(compiled_file->ByteSize()));
	compiled_file->SerializeWithCachedSizes(&out_);
	}

	void CompiledFileOutputStream::WriteData(const BigBuffer* buffer) {
	EnsureAlignedWrite();
	out_.WriteLittleEndian64(static_cast<uint64_t>(buffer->size()));
	for (const BigBuffer::Block& block : *buffer) {
	out_.WriteRaw(block.buffer.get(), block.size);
	}
	}

	void CompiledFileOutputStream::WriteData(const void* data, size_t len) {
	EnsureAlignedWrite();
	out_.WriteLittleEndian64(static_cast<uint64_t>(len));
	out_.WriteRaw(data, len);
	}

	bool CompiledFileOutputStream::HadError() {
	return out_.HadError();
	}

	CompiledFileInputStream::CompiledFileInputStream(const void* data, size_t size)
	: in_(static_cast<const uint8_t*>(data), size) {}

	void CompiledFileInputStream::EnsureAlignedRead() {
	const int padding = in_.CurrentPosition() % 4;
	if (padding > 0) {
	// Reads are always 4 byte aligned.
	in_.Skip(padding);
	}
	}

	bool CompiledFileInputStream::ReadLittleEndian32(uint32_t* out_val) {
	EnsureAlignedRead();
	return in_.ReadLittleEndian32(out_val);
	}

	bool CompiledFileInputStream::ReadCompiledFile(pb::internal::CompiledFile* out_val) {
	EnsureAlignedRead();

	google::protobuf::uint64 pb_size = 0u;
	if (!in_.ReadLittleEndian64(&pb_size)) {
	return false;
	}

	CodedInputStream::Limit l = in_.PushLimit(static_cast<int>(pb_size));

	// Check that we haven't tried to read past the end.
	if (static_cast<uint64_t>(in_.BytesUntilLimit()) != pb_size) {
	in_.PopLimit(l);
	in_.PushLimit(0);
	return false;
	}

	if (!out_val->ParsePartialFromCodedStream(&in_)) {
	in_.PopLimit(l);
	in_.PushLimit(0);
	return false;
	}

	in_.PopLimit(l);
	return true;
	}

	bool CompiledFileInputStream::ReadDataMetaData(uint64_t* out_offset, uint64_t* out_len) {
	EnsureAlignedRead();

	google::protobuf::uint64 pb_size = 0u;
	if (!in_.ReadLittleEndian64(&pb_size)) {
	return false;
	}

	// Check that we aren't trying to read past the end.
	if (pb_size > static_cast<uint64_t>(in_.BytesUntilLimit())) {
	in_.PushLimit(0);
	return false;
	}

	uint64_t offset = static_cast<uint64_t>(in_.CurrentPosition());
	if (!in_.Skip(pb_size)) {
	return false;
	}

	*out_offset = offset;
	*out_len = pb_size;
	return true;
	}

	} // namespace aapt