/* * Copyright (C) 2015 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 "format/binary/XmlFlattener.h" #include #include #include #include "android-base/logging.h" #include "android-base/macros.h" #include "androidfw/ResourceTypes.h" #include "utils/misc.h" #include "ResourceUtils.h" #include "SdkConstants.h" #include "ValueVisitor.h" #include "format/binary/ChunkWriter.h" #include "format/binary/ResourceTypeExtensions.h" #include "xml/XmlDom.h" using namespace android; using ::aapt::ResourceUtils::StringBuilder; namespace aapt { namespace { constexpr uint32_t kLowPriority = 0xffffffffu; static bool cmp_xml_attribute_by_id(const xml::Attribute* a, const xml::Attribute* b) { if (a->compiled_attribute && a->compiled_attribute.value().id) { if (b->compiled_attribute && b->compiled_attribute.value().id) { return a->compiled_attribute.value().id.value() < b->compiled_attribute.value().id.value(); } return true; } else if (!b->compiled_attribute) { int diff = a->namespace_uri.compare(b->namespace_uri); if (diff < 0) { return true; } else if (diff > 0) { return false; } return a->name < b->name; } return false; } class XmlFlattenerVisitor : public xml::ConstVisitor { public: using xml::ConstVisitor::Visit; StringPool pool; std::map package_pools; struct StringFlattenDest { StringPool::Ref ref; ResStringPool_ref* dest; }; std::vector string_refs; XmlFlattenerVisitor(BigBuffer* buffer, XmlFlattenerOptions options) : buffer_(buffer), options_(options) { } void Visit(const xml::Text* node) override { std::string text = util::TrimWhitespace(node->text).to_string(); // Skip whitespace only text nodes. if (text.empty()) { return; } // Compact leading and trailing whitespace into a single space if (isspace(node->text[0])) { text = ' ' + text; } if (isspace(node->text[node->text.length() - 1])) { text = text + ' '; } ChunkWriter writer(buffer_); ResXMLTree_node* flat_node = writer.StartChunk(RES_XML_CDATA_TYPE); flat_node->lineNumber = util::HostToDevice32(node->line_number); flat_node->comment.index = util::HostToDevice32(-1); ResXMLTree_cdataExt* flat_text = writer.NextBlock(); AddString(text, kLowPriority, &flat_text->data); writer.Finish(); } void Visit(const xml::Element* node) override { for (const xml::NamespaceDecl& decl : node->namespace_decls) { // Skip dedicated tools namespace. if (decl.uri != xml::kSchemaTools) { WriteNamespace(decl, android::RES_XML_START_NAMESPACE_TYPE); } } { ChunkWriter start_writer(buffer_); ResXMLTree_node* flat_node = start_writer.StartChunk(RES_XML_START_ELEMENT_TYPE); flat_node->lineNumber = util::HostToDevice32(node->line_number); flat_node->comment.index = util::HostToDevice32(-1); ResXMLTree_attrExt* flat_elem = start_writer.NextBlock(); // A missing namespace must be null, not an empty string. Otherwise the runtime complains. AddString(node->namespace_uri, kLowPriority, &flat_elem->ns, true /* treat_empty_string_as_null */); AddString(node->name, kLowPriority, &flat_elem->name, true /* treat_empty_string_as_null */); flat_elem->attributeStart = util::HostToDevice16(sizeof(*flat_elem)); flat_elem->attributeSize = util::HostToDevice16(sizeof(ResXMLTree_attribute)); WriteAttributes(node, flat_elem, &start_writer); start_writer.Finish(); } xml::ConstVisitor::Visit(node); { ChunkWriter end_writer(buffer_); ResXMLTree_node* flat_end_node = end_writer.StartChunk(RES_XML_END_ELEMENT_TYPE); flat_end_node->lineNumber = util::HostToDevice32(node->line_number); flat_end_node->comment.index = util::HostToDevice32(-1); ResXMLTree_endElementExt* flat_end_elem = end_writer.NextBlock(); AddString(node->namespace_uri, kLowPriority, &flat_end_elem->ns, true /* treat_empty_string_as_null */); AddString(node->name, kLowPriority, &flat_end_elem->name); end_writer.Finish(); } for (auto iter = node->namespace_decls.rbegin(); iter != node->namespace_decls.rend(); ++iter) { // Skip dedicated tools namespace. if (iter->uri != xml::kSchemaTools) { WriteNamespace(*iter, android::RES_XML_END_NAMESPACE_TYPE); } } } private: DISALLOW_COPY_AND_ASSIGN(XmlFlattenerVisitor); // We are adding strings to a StringPool whose strings will be sorted and merged with other // string pools. That means we can't encode the ID of a string directly. Instead, we defer the // writing of the ID here, until after the StringPool is merged and sorted. void AddString(const StringPiece& str, uint32_t priority, android::ResStringPool_ref* dest, bool treat_empty_string_as_null = false) { if (str.empty() && treat_empty_string_as_null) { // Some parts of the runtime treat null differently than empty string. dest->index = util::DeviceToHost32(-1); } else { string_refs.push_back( StringFlattenDest{pool.MakeRef(str, StringPool::Context(priority)), dest}); } } // We are adding strings to a StringPool whose strings will be sorted and merged with other // string pools. That means we can't encode the ID of a string directly. Instead, we defer the // writing of the ID here, until after the StringPool is merged and sorted. void AddString(const StringPool::Ref& ref, android::ResStringPool_ref* dest) { string_refs.push_back(StringFlattenDest{ref, dest}); } void WriteNamespace(const xml::NamespaceDecl& decl, uint16_t type) { ChunkWriter writer(buffer_); ResXMLTree_node* flatNode = writer.StartChunk(type); flatNode->lineNumber = util::HostToDevice32(decl.line_number); flatNode->comment.index = util::HostToDevice32(-1); ResXMLTree_namespaceExt* flat_ns = writer.NextBlock(); AddString(decl.prefix, kLowPriority, &flat_ns->prefix); AddString(decl.uri, kLowPriority, &flat_ns->uri); writer.Finish(); } void WriteAttributes(const xml::Element* node, ResXMLTree_attrExt* flat_elem, ChunkWriter* writer) { filtered_attrs_.clear(); filtered_attrs_.reserve(node->attributes.size()); // Filter the attributes. for (const xml::Attribute& attr : node->attributes) { if (attr.namespace_uri != xml::kSchemaTools) { filtered_attrs_.push_back(&attr); } } if (filtered_attrs_.empty()) { return; } const ResourceId kIdAttr(0x010100d0); std::sort(filtered_attrs_.begin(), filtered_attrs_.end(), cmp_xml_attribute_by_id); flat_elem->attributeCount = util::HostToDevice16(filtered_attrs_.size()); ResXMLTree_attribute* flat_attr = writer->NextBlock(filtered_attrs_.size()); uint16_t attribute_index = 1; for (const xml::Attribute* xml_attr : filtered_attrs_) { // Assign the indices for specific attributes. if (xml_attr->compiled_attribute && xml_attr->compiled_attribute.value().id && xml_attr->compiled_attribute.value().id.value() == kIdAttr) { flat_elem->idIndex = util::HostToDevice16(attribute_index); } else if (xml_attr->namespace_uri.empty()) { if (xml_attr->name == "class") { flat_elem->classIndex = util::HostToDevice16(attribute_index); } else if (xml_attr->name == "style") { flat_elem->styleIndex = util::HostToDevice16(attribute_index); } } attribute_index++; // Add the namespaceUri to the list of StringRefs to encode. Use null if the namespace // is empty (doesn't exist). AddString(xml_attr->namespace_uri, kLowPriority, &flat_attr->ns, true /* treat_empty_string_as_null */); flat_attr->rawValue.index = util::HostToDevice32(-1); if (!xml_attr->compiled_attribute || !xml_attr->compiled_attribute.value().id) { // The attribute has no associated ResourceID, so the string order doesn't matter. AddString(xml_attr->name, kLowPriority, &flat_attr->name); } else { // Attribute names are stored without packages, but we use // their StringPool index to lookup their resource IDs. // This will cause collisions, so we can't dedupe // attribute names from different packages. We use separate // pools that we later combine. // // Lookup the StringPool for this package and make the reference there. const xml::AaptAttribute& aapt_attr = xml_attr->compiled_attribute.value(); StringPool::Ref name_ref = package_pools[aapt_attr.id.value().package_id()].MakeRef( xml_attr->name, StringPool::Context(aapt_attr.id.value().id)); // Add it to the list of strings to flatten. AddString(name_ref, &flat_attr->name); } std::string processed_str; Maybe compiled_text; if (xml_attr->compiled_value != nullptr) { // Make sure we're not flattening a String. A String can be referencing a string from // a different StringPool than we're using here to build the binary XML. String* string_value = ValueCast(xml_attr->compiled_value.get()); if (string_value != nullptr) { // Mark the String's text as needing to be serialized. compiled_text = StringPiece(*string_value->value); } else { // Serialize this compiled value safely. CHECK(xml_attr->compiled_value->Flatten(&flat_attr->typedValue)); } } else { // There is no compiled value, so treat the raw string as compiled, once it is processed to // make sure escape sequences are properly interpreted. processed_str = StringBuilder(true /*preserve_spaces*/).AppendText(xml_attr->value).to_string(); compiled_text = StringPiece(processed_str); } if (compiled_text) { // Write out the compiled text and raw_text. flat_attr->typedValue.dataType = android::Res_value::TYPE_STRING; AddString(compiled_text.value(), kLowPriority, reinterpret_cast(&flat_attr->typedValue.data)); if (options_.keep_raw_values) { AddString(xml_attr->value, kLowPriority, &flat_attr->rawValue); } else { AddString(compiled_text.value(), kLowPriority, &flat_attr->rawValue); } } else if (options_.keep_raw_values && !xml_attr->value.empty()) { AddString(xml_attr->value, kLowPriority, &flat_attr->rawValue); } flat_attr->typedValue.size = util::HostToDevice16(sizeof(flat_attr->typedValue)); flat_attr++; } } BigBuffer* buffer_; XmlFlattenerOptions options_; // Scratch vector to filter attributes. We avoid allocations making this a member. std::vector filtered_attrs_; }; } // namespace bool XmlFlattener::Flatten(IAaptContext* context, const xml::Node* node) { BigBuffer node_buffer(1024); XmlFlattenerVisitor visitor(&node_buffer, options_); node->Accept(&visitor); // Merge the package pools into the main pool. for (auto& package_pool_entry : visitor.package_pools) { visitor.pool.Merge(std::move(package_pool_entry.second)); } // Sort the string pool so that attribute resource IDs show up first. visitor.pool.Sort([](const StringPool::Context& a, const StringPool::Context& b) -> int { return util::compare(a.priority, b.priority); }); // Now we flatten the string pool references into the correct places. for (const auto& ref_entry : visitor.string_refs) { ref_entry.dest->index = util::HostToDevice32(ref_entry.ref.index()); } // Write the XML header. ChunkWriter xml_header_writer(buffer_); xml_header_writer.StartChunk(RES_XML_TYPE); // Flatten the StringPool. if (options_.use_utf16) { StringPool::FlattenUtf16(buffer_, visitor.pool, context->GetDiagnostics()); } else { StringPool::FlattenUtf8(buffer_, visitor.pool, context->GetDiagnostics()); } { // Write the array of resource IDs, indexed by StringPool order. ChunkWriter res_id_map_writer(buffer_); res_id_map_writer.StartChunk(RES_XML_RESOURCE_MAP_TYPE); for (const auto& str : visitor.pool.strings()) { ResourceId id(str->context.priority); if (str->context.priority == kLowPriority || !id.is_valid()) { // When we see the first non-resource ID, we're done. break; } *res_id_map_writer.NextBlock() = util::HostToDevice32(id.id); } res_id_map_writer.Finish(); } // Move the nodeBuffer and append it to the out buffer. buffer_->AppendBuffer(std::move(node_buffer)); // Finish the xml header. xml_header_writer.Finish(); return true; } bool XmlFlattener::Consume(IAaptContext* context, const xml::XmlResource* resource) { if (!resource->root) { return false; } return Flatten(context, resource->root.get()); } } // namespace aapt