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/*
* 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 "ResourceParser.h"
#include <functional>
#include <limits>
#include <sstream>
#include "android-base/logging.h"
#include "ResourceTable.h"
#include "ResourceUtils.h"
#include "ResourceValues.h"
#include "ValueVisitor.h"
#include "text/Utf8Iterator.h"
#include "util/ImmutableMap.h"
#include "util/Maybe.h"
#include "util/Util.h"
#include "xml/XmlPullParser.h"
#include "idmap2/Policies.h"
using ::aapt::ResourceUtils::StringBuilder;
using ::aapt::text::Utf8Iterator;
using ::android::ConfigDescription;
using ::android::StringPiece;
using android::idmap2::policy::kPolicyStringToFlag;
namespace aapt {
constexpr const char* sXliffNamespaceUri = "urn:oasis:names:tc:xliff:document:1.2";
// Returns true if the element is <skip> or <eat-comment> and can be safely ignored.
static bool ShouldIgnoreElement(const StringPiece& ns, const StringPiece& name) {
return ns.empty() && (name == "skip" || name == "eat-comment");
}
static uint32_t ParseFormatTypeNoEnumsOrFlags(const StringPiece& piece) {
if (piece == "reference") {
return android::ResTable_map::TYPE_REFERENCE;
} else if (piece == "string") {
return android::ResTable_map::TYPE_STRING;
} else if (piece == "integer") {
return android::ResTable_map::TYPE_INTEGER;
} else if (piece == "boolean") {
return android::ResTable_map::TYPE_BOOLEAN;
} else if (piece == "color") {
return android::ResTable_map::TYPE_COLOR;
} else if (piece == "float") {
return android::ResTable_map::TYPE_FLOAT;
} else if (piece == "dimension") {
return android::ResTable_map::TYPE_DIMENSION;
} else if (piece == "fraction") {
return android::ResTable_map::TYPE_FRACTION;
}
return 0;
}
static uint32_t ParseFormatType(const StringPiece& piece) {
if (piece == "enum") {
return android::ResTable_map::TYPE_ENUM;
} else if (piece == "flags") {
return android::ResTable_map::TYPE_FLAGS;
}
return ParseFormatTypeNoEnumsOrFlags(piece);
}
static uint32_t ParseFormatAttribute(const StringPiece& str) {
uint32_t mask = 0;
for (const StringPiece& part : util::Tokenize(str, '|')) {
StringPiece trimmed_part = util::TrimWhitespace(part);
uint32_t type = ParseFormatType(trimmed_part);
if (type == 0) {
return 0;
}
mask |= type;
}
return mask;
}
// A parsed resource ready to be added to the ResourceTable.
struct ParsedResource {
ResourceName name;
ConfigDescription config;
std::string product;
Source source;
ResourceId id;
Visibility::Level visibility_level = Visibility::Level::kUndefined;
bool allow_new = false;
Maybe<OverlayableItem> overlayable_item;
std::string comment;
std::unique_ptr<Value> value;
std::list<ParsedResource> child_resources;
};
// Recursively adds resources to the ResourceTable.
static bool AddResourcesToTable(ResourceTable* table, IDiagnostics* diag, ParsedResource* res) {
StringPiece trimmed_comment = util::TrimWhitespace(res->comment);
if (trimmed_comment.size() != res->comment.size()) {
// Only if there was a change do we re-assign.
res->comment = trimmed_comment.to_string();
}
if (res->visibility_level != Visibility::Level::kUndefined) {
Visibility visibility;
visibility.level = res->visibility_level;
visibility.source = res->source;
visibility.comment = res->comment;
if (!table->SetVisibilityWithId(res->name, visibility, res->id, diag)) {
return false;
}
}
if (res->allow_new) {
AllowNew allow_new;
allow_new.source = res->source;
allow_new.comment = res->comment;
if (!table->SetAllowNew(res->name, allow_new, diag)) {
return false;
}
}
if (res->overlayable_item) {
if (!table->SetOverlayable(res->name, res->overlayable_item.value(), diag)) {
return false;
}
}
if (res->value != nullptr) {
// Attach the comment, source and config to the value.
res->value->SetComment(std::move(res->comment));
res->value->SetSource(std::move(res->source));
if (!table->AddResourceWithId(res->name, res->id, res->config, res->product,
std::move(res->value), diag)) {
return false;
}
}
bool error = false;
for (ParsedResource& child : res->child_resources) {
error |= !AddResourcesToTable(table, diag, &child);
}
return !error;
}
// Convenient aliases for more readable function calls.
enum { kAllowRawString = true, kNoRawString = false };
ResourceParser::ResourceParser(IDiagnostics* diag, ResourceTable* table,
const Source& source,
const ConfigDescription& config,
const ResourceParserOptions& options)
: diag_(diag),
table_(table),
source_(source),
config_(config),
options_(options) {}
// Base class Node for representing the various Spans and UntranslatableSections of an XML string.
// This will be used to traverse and flatten the XML string into a single std::string, with all
// Span and Untranslatable data maintained in parallel, as indices into the string.
class Node {
public:
virtual ~Node() = default;
// Adds the given child node to this parent node's set of child nodes, moving ownership to the
// parent node as well.
// Returns a pointer to the child node that was added as a convenience.
template <typename T>
T* AddChild(std::unique_ptr<T> node) {
T* raw_ptr = node.get();
children.push_back(std::move(node));
return raw_ptr;
}
virtual void Build(StringBuilder* builder) const {
for (const auto& child : children) {
child->Build(builder);
}
}
std::vector<std::unique_ptr<Node>> children;
};
// A chunk of text in the XML string. This lives between other tags, such as XLIFF tags and Spans.
class SegmentNode : public Node {
public:
std::string data;
void Build(StringBuilder* builder) const override {
builder->AppendText(data);
}
};
// A tag that will be encoded into the final flattened string. Tags like <b> or <i>.
class SpanNode : public Node {
public:
std::string name;
void Build(StringBuilder* builder) const override {
StringBuilder::SpanHandle span_handle = builder->StartSpan(name);
Node::Build(builder);
builder->EndSpan(span_handle);
}
};
// An XLIFF 'g' tag, which marks a section of the string as untranslatable.
class UntranslatableNode : public Node {
public:
void Build(StringBuilder* builder) const override {
StringBuilder::UntranslatableHandle handle = builder->StartUntranslatable();
Node::Build(builder);
builder->EndUntranslatable(handle);
}
};
// Build a string from XML that converts nested elements into Span objects.
bool ResourceParser::FlattenXmlSubtree(
xml::XmlPullParser* parser, std::string* out_raw_string, StyleString* out_style_string,
std::vector<UntranslatableSection>* out_untranslatable_sections) {
std::string raw_string;
std::string current_text;
// The first occurrence of a <xliff:g> tag. Nested <xliff:g> tags are illegal.
Maybe<size_t> untranslatable_start_depth;
Node root;
std::vector<Node*> node_stack;
node_stack.push_back(&root);
bool saw_span_node = false;
SegmentNode* first_segment = nullptr;
SegmentNode* last_segment = nullptr;
size_t depth = 1;
while (depth > 0 && xml::XmlPullParser::IsGoodEvent(parser->Next())) {
const xml::XmlPullParser::Event event = parser->event();
// First take care of any SegmentNodes that should be created.
if (event == xml::XmlPullParser::Event::kStartElement
|| event == xml::XmlPullParser::Event::kEndElement) {
if (!current_text.empty()) {
auto segment_node = util::make_unique<SegmentNode>();
segment_node->data = std::move(current_text);
last_segment = node_stack.back()->AddChild(std::move(segment_node));
if (first_segment == nullptr) {
first_segment = last_segment;
}
current_text = {};
}
}
switch (event) {
case xml::XmlPullParser::Event::kText: {
current_text += parser->text();
raw_string += parser->text();
} break;
case xml::XmlPullParser::Event::kStartElement: {
if (parser->element_namespace().empty()) {
// This is an HTML tag which we encode as a span. Add it to the span stack.
std::unique_ptr<SpanNode> span_node = util::make_unique<SpanNode>();
span_node->name = parser->element_name();
const auto end_attr_iter = parser->end_attributes();
for (auto attr_iter = parser->begin_attributes(); attr_iter != end_attr_iter;
++attr_iter) {
span_node->name += ";";
span_node->name += attr_iter->name;
span_node->name += "=";
span_node->name += attr_iter->value;
}
node_stack.push_back(node_stack.back()->AddChild(std::move(span_node)));
saw_span_node = true;
} else if (parser->element_namespace() == sXliffNamespaceUri) {
// This is an XLIFF tag, which is not encoded as a span.
if (parser->element_name() == "g") {
// Check that an 'untranslatable' tag is not already being processed. Nested
// <xliff:g> tags are illegal.
if (untranslatable_start_depth) {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number()))
<< "illegal nested XLIFF 'g' tag");
return false;
} else {
// Mark the beginning of an 'untranslatable' section.
untranslatable_start_depth = depth;
node_stack.push_back(
node_stack.back()->AddChild(util::make_unique<UntranslatableNode>()));
}
} else {
// Ignore unknown XLIFF tags, but don't warn.
node_stack.push_back(node_stack.back()->AddChild(util::make_unique<Node>()));
}
} else {
// Besides XLIFF, any other namespaced tag is unsupported and ignored.
diag_->Warn(DiagMessage(source_.WithLine(parser->line_number()))
<< "ignoring element '" << parser->element_name()
<< "' with unknown namespace '" << parser->element_namespace() << "'");
node_stack.push_back(node_stack.back()->AddChild(util::make_unique<Node>()));
}
// Enter one level inside the element.
depth++;
} break;
case xml::XmlPullParser::Event::kEndElement: {
// Return one level from within the element.
depth--;
if (depth == 0) {
break;
}
node_stack.pop_back();
if (untranslatable_start_depth == make_value(depth)) {
// This is the end of an untranslatable section.
untranslatable_start_depth = {};
}
} break;
default:
// ignore.
break;
}
}
// Sanity check to make sure we processed all the nodes.
CHECK(node_stack.size() == 1u);
CHECK(node_stack.back() == &root);
if (!saw_span_node) {
// If there were no spans, we must treat this string a little differently (according to AAPT).
// Find and strip the leading whitespace from the first segment, and the trailing whitespace
// from the last segment.
if (first_segment != nullptr) {
// Trim leading whitespace.
StringPiece trimmed = util::TrimLeadingWhitespace(first_segment->data);
if (trimmed.size() != first_segment->data.size()) {
first_segment->data = trimmed.to_string();
}
}
if (last_segment != nullptr) {
// Trim trailing whitespace.
StringPiece trimmed = util::TrimTrailingWhitespace(last_segment->data);
if (trimmed.size() != last_segment->data.size()) {
last_segment->data = trimmed.to_string();
}
}
}
// Have the XML structure flatten itself into the StringBuilder. The StringBuilder will take
// care of recording the correctly adjusted Spans and UntranslatableSections.
StringBuilder builder;
root.Build(&builder);
if (!builder) {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number())) << builder.GetError());
return false;
}
ResourceUtils::FlattenedXmlString flattened_string = builder.GetFlattenedString();
*out_raw_string = std::move(raw_string);
*out_untranslatable_sections = std::move(flattened_string.untranslatable_sections);
out_style_string->str = std::move(flattened_string.text);
out_style_string->spans = std::move(flattened_string.spans);
return true;
}
bool ResourceParser::Parse(xml::XmlPullParser* parser) {
bool error = false;
const size_t depth = parser->depth();
while (xml::XmlPullParser::NextChildNode(parser, depth)) {
if (parser->event() != xml::XmlPullParser::Event::kStartElement) {
// Skip comments and text.
continue;
}
if (!parser->element_namespace().empty() || parser->element_name() != "resources") {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number()))
<< "root element must be <resources>");
return false;
}
error |= !ParseResources(parser);
break;
};
if (parser->event() == xml::XmlPullParser::Event::kBadDocument) {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number()))
<< "xml parser error: " << parser->error());
return false;
}
return !error;
}
bool ResourceParser::ParseResources(xml::XmlPullParser* parser) {
std::set<ResourceName> stripped_resources;
bool error = false;
std::string comment;
const size_t depth = parser->depth();
while (xml::XmlPullParser::NextChildNode(parser, depth)) {
const xml::XmlPullParser::Event event = parser->event();
if (event == xml::XmlPullParser::Event::kComment) {
comment = parser->comment();
continue;
}
if (event == xml::XmlPullParser::Event::kText) {
if (!util::TrimWhitespace(parser->text()).empty()) {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number()))
<< "plain text not allowed here");
error = true;
}
continue;
}
CHECK(event == xml::XmlPullParser::Event::kStartElement);
if (!parser->element_namespace().empty()) {
// Skip unknown namespace.
continue;
}
std::string element_name = parser->element_name();
if (element_name == "skip" || element_name == "eat-comment") {
comment = "";
continue;
}
ParsedResource parsed_resource;
parsed_resource.config = config_;
parsed_resource.source = source_.WithLine(parser->line_number());
parsed_resource.comment = std::move(comment);
if (options_.visibility) {
parsed_resource.visibility_level = options_.visibility.value();
}
// Extract the product name if it exists.
if (Maybe<StringPiece> maybe_product = xml::FindNonEmptyAttribute(parser, "product")) {
parsed_resource.product = maybe_product.value().to_string();
}
// Parse the resource regardless of product.
if (!ParseResource(parser, &parsed_resource)) {
error = true;
continue;
}
if (!AddResourcesToTable(table_, diag_, &parsed_resource)) {
error = true;
}
}
// Check that we included at least one variant of each stripped resource.
for (const ResourceName& stripped_resource : stripped_resources) {
if (!table_->FindResource(stripped_resource)) {
// Failed to find the resource.
diag_->Error(DiagMessage(source_) << "resource '" << stripped_resource
<< "' was filtered out but no product variant remains");
error = true;
}
}
return !error;
}
bool ResourceParser::ParseResource(xml::XmlPullParser* parser,
ParsedResource* out_resource) {
struct ItemTypeFormat {
ResourceType type;
uint32_t format;
};
using BagParseFunc = std::function<bool(ResourceParser*, xml::XmlPullParser*,
ParsedResource*)>;
static const auto elToItemMap = ImmutableMap<std::string, ItemTypeFormat>::CreatePreSorted({
{"bool", {ResourceType::kBool, android::ResTable_map::TYPE_BOOLEAN}},
{"color", {ResourceType::kColor, android::ResTable_map::TYPE_COLOR}},
{"configVarying", {ResourceType::kConfigVarying, android::ResTable_map::TYPE_ANY}},
{"dimen",
{ResourceType::kDimen,
android::ResTable_map::TYPE_FLOAT | android::ResTable_map::TYPE_FRACTION |
android::ResTable_map::TYPE_DIMENSION}},
{"drawable", {ResourceType::kDrawable, android::ResTable_map::TYPE_COLOR}},
{"fraction",
{ResourceType::kFraction,
android::ResTable_map::TYPE_FLOAT | android::ResTable_map::TYPE_FRACTION |
android::ResTable_map::TYPE_DIMENSION}},
{"integer", {ResourceType::kInteger, android::ResTable_map::TYPE_INTEGER}},
{"string", {ResourceType::kString, android::ResTable_map::TYPE_STRING}},
});
static const auto elToBagMap = ImmutableMap<std::string, BagParseFunc>::CreatePreSorted({
{"add-resource", std::mem_fn(&ResourceParser::ParseAddResource)},
{"array", std::mem_fn(&ResourceParser::ParseArray)},
{"attr", std::mem_fn(&ResourceParser::ParseAttr)},
{"configVarying",
std::bind(&ResourceParser::ParseStyle, std::placeholders::_1, ResourceType::kConfigVarying,
std::placeholders::_2, std::placeholders::_3)},
{"declare-styleable", std::mem_fn(&ResourceParser::ParseDeclareStyleable)},
{"integer-array", std::mem_fn(&ResourceParser::ParseIntegerArray)},
{"java-symbol", std::mem_fn(&ResourceParser::ParseSymbol)},
{"overlayable", std::mem_fn(&ResourceParser::ParseOverlayable)},
{"plurals", std::mem_fn(&ResourceParser::ParsePlural)},
{"public", std::mem_fn(&ResourceParser::ParsePublic)},
{"public-group", std::mem_fn(&ResourceParser::ParsePublicGroup)},
{"string-array", std::mem_fn(&ResourceParser::ParseStringArray)},
{"style", std::bind(&ResourceParser::ParseStyle, std::placeholders::_1, ResourceType::kStyle,
std::placeholders::_2, std::placeholders::_3)},
{"symbol", std::mem_fn(&ResourceParser::ParseSymbol)},
});
std::string resource_type = parser->element_name();
// The value format accepted for this resource.
uint32_t resource_format = 0u;
bool can_be_item = true;
bool can_be_bag = true;
if (resource_type == "item") {
can_be_bag = false;
// The default format for <item> is any. If a format attribute is present, that one will
// override the default.
resource_format = android::ResTable_map::TYPE_ANY;
// Items have their type encoded in the type attribute.
if (Maybe<StringPiece> maybe_type = xml::FindNonEmptyAttribute(parser, "type")) {
resource_type = maybe_type.value().to_string();
} else {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number()))
<< "<item> must have a 'type' attribute");
return false;
}
if (Maybe<StringPiece> maybe_format = xml::FindNonEmptyAttribute(parser, "format")) {
// An explicit format for this resource was specified. The resource will
// retain its type in its name, but the accepted value for this type is
// overridden.
resource_format = ParseFormatTypeNoEnumsOrFlags(maybe_format.value());
if (!resource_format) {
diag_->Error(DiagMessage(out_resource->source)
<< "'" << maybe_format.value()
<< "' is an invalid format");
return false;
}
}
} else if (resource_type == "bag") {
can_be_item = false;
// Bags have their type encoded in the type attribute.
if (Maybe<StringPiece> maybe_type = xml::FindNonEmptyAttribute(parser, "type")) {
resource_type = maybe_type.value().to_string();
} else {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number()))
<< "<bag> must have a 'type' attribute");
return false;
}
}
// Get the name of the resource. This will be checked later, because not all
// XML elements require a name.
Maybe<StringPiece> maybe_name = xml::FindNonEmptyAttribute(parser, "name");
if (resource_type == "id") {
if (!maybe_name) {
diag_->Error(DiagMessage(out_resource->source)
<< "<" << parser->element_name()
<< "> missing 'name' attribute");
return false;
}
out_resource->name.type = ResourceType::kId;
out_resource->name.entry = maybe_name.value().to_string();
// Ids either represent a unique resource id or reference another resource id
auto item = ParseItem(parser, out_resource, resource_format);
if (!item) {
return false;
}
String* empty = ValueCast<String>(out_resource->value.get());
if (empty && *empty->value == "") {
// If no inner element exists, represent a unique identifier
out_resource->value = util::make_unique<Id>();
} else {
Reference* ref = ValueCast<Reference>(out_resource->value.get());
if (ref && !ref->name && !ref->id) {
// A null reference also means there is no inner element when ids are in the form:
// <id name="name"/>
out_resource->value = util::make_unique<Id>();
} else if (!ref || ref->name.value().type != ResourceType::kId) {
// If an inner element exists, the inner element must be a reference to another resource id
diag_->Error(DiagMessage(out_resource->source)
<< "<" << parser->element_name()
<< "> inner element must either be a resource reference or empty");
return false;
}
}
return true;
}
if (can_be_item) {
const auto item_iter = elToItemMap.find(resource_type);
if (item_iter != elToItemMap.end()) {
// This is an item, record its type and format and start parsing.
if (!maybe_name) {
diag_->Error(DiagMessage(out_resource->source)
<< "<" << parser->element_name() << "> missing 'name' attribute");
return false;
}
out_resource->name.type = item_iter->second.type;
out_resource->name.entry = maybe_name.value().to_string();
// Only use the implied format of the type when there is no explicit format.
if (resource_format == 0u) {
resource_format = item_iter->second.format;
}
if (!ParseItem(parser, out_resource, resource_format)) {
return false;
}
return true;
}
}
// This might be a bag or something.
if (can_be_bag) {
const auto bag_iter = elToBagMap.find(resource_type);
if (bag_iter != elToBagMap.end()) {
// Ensure we have a name (unless this is a <public-group> or <overlayable>).
if (resource_type != "public-group" && resource_type != "overlayable") {
if (!maybe_name) {
diag_->Error(DiagMessage(out_resource->source)
<< "<" << parser->element_name() << "> missing 'name' attribute");
return false;
}
out_resource->name.entry = maybe_name.value().to_string();
}
// Call the associated parse method. The type will be filled in by the
// parse func.
if (!bag_iter->second(this, parser, out_resource)) {
return false;
}
return true;
}
}
if (can_be_item) {
// Try parsing the elementName (or type) as a resource. These shall only be
// resources like 'layout' or 'xml' and they can only be references.
const ResourceType* parsed_type = ParseResourceType(resource_type);
if (parsed_type) {
if (!maybe_name) {
diag_->Error(DiagMessage(out_resource->source)
<< "<" << parser->element_name()
<< "> missing 'name' attribute");
return false;
}
out_resource->name.type = *parsed_type;
out_resource->name.entry = maybe_name.value().to_string();
out_resource->value = ParseXml(parser, android::ResTable_map::TYPE_REFERENCE, kNoRawString);
if (!out_resource->value) {
diag_->Error(DiagMessage(out_resource->source)
<< "invalid value for type '" << *parsed_type << "'. Expected a reference");
return false;
}
return true;
}
}
// If the resource type was not recognized, write the error and return false.
diag_->Error(DiagMessage(out_resource->source)
<< "unknown resource type '" << resource_type << "'");
return false;
}
bool ResourceParser::ParseItem(xml::XmlPullParser* parser,
ParsedResource* out_resource,
const uint32_t format) {
if (format == android::ResTable_map::TYPE_STRING) {
return ParseString(parser, out_resource);
}
out_resource->value = ParseXml(parser, format, kNoRawString);
if (!out_resource->value) {
diag_->Error(DiagMessage(out_resource->source) << "invalid "
<< out_resource->name.type);
return false;
}
return true;
}
/**
* Reads the entire XML subtree and attempts to parse it as some Item,
* with typeMask denoting which items it can be. If allowRawValue is
* true, a RawString is returned if the XML couldn't be parsed as
* an Item. If allowRawValue is false, nullptr is returned in this
* case.
*/
std::unique_ptr<Item> ResourceParser::ParseXml(xml::XmlPullParser* parser,
const uint32_t type_mask,
const bool allow_raw_value) {
const size_t begin_xml_line = parser->line_number();
std::string raw_value;
StyleString style_string;
std::vector<UntranslatableSection> untranslatable_sections;
if (!FlattenXmlSubtree(parser, &raw_value, &style_string, &untranslatable_sections)) {
return {};
}
if (!style_string.spans.empty()) {
// This can only be a StyledString.
std::unique_ptr<StyledString> styled_string =
util::make_unique<StyledString>(table_->string_pool.MakeRef(
style_string, StringPool::Context(StringPool::Context::kNormalPriority, config_)));
styled_string->untranslatable_sections = std::move(untranslatable_sections);
return std::move(styled_string);
}
auto on_create_reference = [&](const ResourceName& name) {
// name.package can be empty here, as it will assume the package name of the
// table.
std::unique_ptr<Id> id = util::make_unique<Id>();
id->SetSource(source_.WithLine(begin_xml_line));
table_->AddResource(name, {}, {}, std::move(id), diag_);
};
// Process the raw value.
std::unique_ptr<Item> processed_item =
ResourceUtils::TryParseItemForAttribute(raw_value, type_mask, on_create_reference);
if (processed_item) {
// Fix up the reference.
if (Reference* ref = ValueCast<Reference>(processed_item.get())) {
ResolvePackage(parser, ref);
}
return processed_item;
}
// Try making a regular string.
if (type_mask & android::ResTable_map::TYPE_STRING) {
// Use the trimmed, escaped string.
std::unique_ptr<String> string = util::make_unique<String>(
table_->string_pool.MakeRef(style_string.str, StringPool::Context(config_)));
string->untranslatable_sections = std::move(untranslatable_sections);
return std::move(string);
}
if (allow_raw_value) {
// We can't parse this so return a RawString if we are allowed.
return util::make_unique<RawString>(
table_->string_pool.MakeRef(util::TrimWhitespace(raw_value),
StringPool::Context(config_)));
} else if (util::TrimWhitespace(raw_value).empty()) {
// If the text is empty, and the value is not allowed to be a string, encode it as a @null.
return ResourceUtils::MakeNull();
}
return {};
}
bool ResourceParser::ParseString(xml::XmlPullParser* parser,
ParsedResource* out_resource) {
bool formatted = true;
if (Maybe<StringPiece> formatted_attr =
xml::FindAttribute(parser, "formatted")) {
Maybe<bool> maybe_formatted =
ResourceUtils::ParseBool(formatted_attr.value());
if (!maybe_formatted) {
diag_->Error(DiagMessage(out_resource->source)
<< "invalid value for 'formatted'. Must be a boolean");
return false;
}
formatted = maybe_formatted.value();
}
bool translatable = options_.translatable;
if (Maybe<StringPiece> translatable_attr = xml::FindAttribute(parser, "translatable")) {
Maybe<bool> maybe_translatable = ResourceUtils::ParseBool(translatable_attr.value());
if (!maybe_translatable) {
diag_->Error(DiagMessage(out_resource->source)
<< "invalid value for 'translatable'. Must be a boolean");
return false;
}
translatable = maybe_translatable.value();
}
out_resource->value =
ParseXml(parser, android::ResTable_map::TYPE_STRING, kNoRawString);
if (!out_resource->value) {
diag_->Error(DiagMessage(out_resource->source) << "not a valid string");
return false;
}
if (String* string_value = ValueCast<String>(out_resource->value.get())) {
string_value->SetTranslatable(translatable);
if (formatted && translatable) {
if (!util::VerifyJavaStringFormat(*string_value->value)) {
DiagMessage msg(out_resource->source);
msg << "multiple substitutions specified in non-positional format; "
"did you mean to add the formatted=\"false\" attribute?";
if (options_.error_on_positional_arguments) {
diag_->Error(msg);
return false;
}
diag_->Warn(msg);
}
}
} else if (StyledString* string_value = ValueCast<StyledString>(out_resource->value.get())) {
string_value->SetTranslatable(translatable);
}
return true;
}
bool ResourceParser::ParsePublic(xml::XmlPullParser* parser, ParsedResource* out_resource) {
if (options_.visibility) {
diag_->Error(DiagMessage(out_resource->source)
<< "<public> tag not allowed with --visibility flag");
return false;
}
if (out_resource->config != ConfigDescription::DefaultConfig()) {
diag_->Warn(DiagMessage(out_resource->source)
<< "ignoring configuration '" << out_resource->config << "' for <public> tag");
}
Maybe<StringPiece> maybe_type = xml::FindNonEmptyAttribute(parser, "type");
if (!maybe_type) {
diag_->Error(DiagMessage(out_resource->source)
<< "<public> must have a 'type' attribute");
return false;
}
const ResourceType* parsed_type = ParseResourceType(maybe_type.value());
if (!parsed_type) {
diag_->Error(DiagMessage(out_resource->source) << "invalid resource type '"
<< maybe_type.value()
<< "' in <public>");
return false;
}
out_resource->name.type = *parsed_type;
if (Maybe<StringPiece> maybe_id_str = xml::FindNonEmptyAttribute(parser, "id")) {
Maybe<ResourceId> maybe_id = ResourceUtils::ParseResourceId(maybe_id_str.value());
if (!maybe_id) {
diag_->Error(DiagMessage(out_resource->source)
<< "invalid resource ID '" << maybe_id_str.value() << "' in <public>");
return false;
}
out_resource->id = maybe_id.value();
}
if (*parsed_type == ResourceType::kId) {
// An ID marked as public is also the definition of an ID.
out_resource->value = util::make_unique<Id>();
}
out_resource->visibility_level = Visibility::Level::kPublic;
return true;
}
bool ResourceParser::ParsePublicGroup(xml::XmlPullParser* parser, ParsedResource* out_resource) {
if (options_.visibility) {
diag_->Error(DiagMessage(out_resource->source)
<< "<public-group> tag not allowed with --visibility flag");
return false;
}
if (out_resource->config != ConfigDescription::DefaultConfig()) {
diag_->Warn(DiagMessage(out_resource->source)
<< "ignoring configuration '" << out_resource->config
<< "' for <public-group> tag");
}
Maybe<StringPiece> maybe_type = xml::FindNonEmptyAttribute(parser, "type");
if (!maybe_type) {
diag_->Error(DiagMessage(out_resource->source)
<< "<public-group> must have a 'type' attribute");
return false;
}
const ResourceType* parsed_type = ParseResourceType(maybe_type.value());
if (!parsed_type) {
diag_->Error(DiagMessage(out_resource->source) << "invalid resource type '"
<< maybe_type.value()
<< "' in <public-group>");
return false;
}
Maybe<StringPiece> maybe_id_str =
xml::FindNonEmptyAttribute(parser, "first-id");
if (!maybe_id_str) {
diag_->Error(DiagMessage(out_resource->source)
<< "<public-group> must have a 'first-id' attribute");
return false;
}
Maybe<ResourceId> maybe_id =
ResourceUtils::ParseResourceId(maybe_id_str.value());
if (!maybe_id) {
diag_->Error(DiagMessage(out_resource->source) << "invalid resource ID '"
<< maybe_id_str.value()
<< "' in <public-group>");
return false;
}
ResourceId next_id = maybe_id.value();
std::string comment;
bool error = false;
const size_t depth = parser->depth();
while (xml::XmlPullParser::NextChildNode(parser, depth)) {
if (parser->event() == xml::XmlPullParser::Event::kComment) {
comment = util::TrimWhitespace(parser->comment()).to_string();
continue;
} else if (parser->event() != xml::XmlPullParser::Event::kStartElement) {
// Skip text.
continue;
}
const Source item_source = source_.WithLine(parser->line_number());
const std::string& element_namespace = parser->element_namespace();
const std::string& element_name = parser->element_name();
if (element_namespace.empty() && element_name == "public") {
Maybe<StringPiece> maybe_name =
xml::FindNonEmptyAttribute(parser, "name");
if (!maybe_name) {
diag_->Error(DiagMessage(item_source)
<< "<public> must have a 'name' attribute");
error = true;
continue;
}
if (xml::FindNonEmptyAttribute(parser, "id")) {
diag_->Error(DiagMessage(item_source)
<< "'id' is ignored within <public-group>");
error = true;
continue;
}
if (xml::FindNonEmptyAttribute(parser, "type")) {
diag_->Error(DiagMessage(item_source)
<< "'type' is ignored within <public-group>");
error = true;
continue;
}
ParsedResource child_resource;
child_resource.name.type = *parsed_type;
child_resource.name.entry = maybe_name.value().to_string();
child_resource.id = next_id;
child_resource.comment = std::move(comment);
child_resource.source = item_source;
child_resource.visibility_level = Visibility::Level::kPublic;
out_resource->child_resources.push_back(std::move(child_resource));
next_id.id += 1;
} else if (!ShouldIgnoreElement(element_namespace, element_name)) {
diag_->Error(DiagMessage(item_source) << ":" << element_name << ">");
error = true;
}
}
return !error;
}
bool ResourceParser::ParseSymbolImpl(xml::XmlPullParser* parser,
ParsedResource* out_resource) {
Maybe<StringPiece> maybe_type = xml::FindNonEmptyAttribute(parser, "type");
if (!maybe_type) {
diag_->Error(DiagMessage(out_resource->source)
<< "<" << parser->element_name()
<< "> must have a 'type' attribute");
return false;
}
const ResourceType* parsed_type = ParseResourceType(maybe_type.value());
if (!parsed_type) {
diag_->Error(DiagMessage(out_resource->source)
<< "invalid resource type '" << maybe_type.value() << "' in <"
<< parser->element_name() << ">");
return false;
}
out_resource->name.type = *parsed_type;
return true;
}
bool ResourceParser::ParseSymbol(xml::XmlPullParser* parser, ParsedResource* out_resource) {
if (options_.visibility) {
diag_->Error(DiagMessage(out_resource->source)
<< "<java-symbol> and <symbol> tags not allowed with --visibility flag");
return false;
}
if (out_resource->config != ConfigDescription::DefaultConfig()) {
diag_->Warn(DiagMessage(out_resource->source)
<< "ignoring configuration '" << out_resource->config << "' for <"
<< parser->element_name() << "> tag");
}
if (!ParseSymbolImpl(parser, out_resource)) {
return false;
}
out_resource->visibility_level = Visibility::Level::kPrivate;
return true;
}
bool ResourceParser::ParseOverlayable(xml::XmlPullParser* parser, ParsedResource* out_resource) {
if (out_resource->config != ConfigDescription::DefaultConfig()) {
diag_->Warn(DiagMessage(out_resource->source)
<< "ignoring configuration '" << out_resource->config
<< "' for <overlayable> tag");
}
Maybe<StringPiece> overlayable_name = xml::FindNonEmptyAttribute(parser, "name");
if (!overlayable_name) {
diag_->Error(DiagMessage(out_resource->source)
<< "<overlayable> tag must have a 'name' attribute");
return false;
}
const std::string kActorUriScheme =
android::base::StringPrintf("%s://", Overlayable::kActorScheme);
Maybe<StringPiece> overlayable_actor = xml::FindNonEmptyAttribute(parser, "actor");
if (overlayable_actor && !util::StartsWith(overlayable_actor.value(), kActorUriScheme)) {
diag_->Error(DiagMessage(out_resource->source)
<< "specified <overlayable> tag 'actor' attribute must use the scheme '"
<< Overlayable::kActorScheme << "'");
return false;
}
// Create a overlayable entry grouping that represents this <overlayable>
auto overlayable = std::make_shared<Overlayable>(
overlayable_name.value(), (overlayable_actor) ? overlayable_actor.value() : "",
source_);
bool error = false;
std::string comment;
PolicyFlags current_policies = PolicyFlags::NONE;
const size_t start_depth = parser->depth();
while (xml::XmlPullParser::IsGoodEvent(parser->Next())) {
xml::XmlPullParser::Event event = parser->event();
if (event == xml::XmlPullParser::Event::kEndElement && parser->depth() == start_depth) {
// Break the loop when exiting the <overlayable>
break;
} else if (event == xml::XmlPullParser::Event::kEndElement
&& parser->depth() == start_depth + 1) {
// Clear the current policies when exiting the <policy> tags
current_policies = PolicyFlags::NONE;
continue;
} else if (event == xml::XmlPullParser::Event::kComment) {
// Retrieve the comment of individual <item> tags
comment = parser->comment();
continue;
} else if (event != xml::XmlPullParser::Event::kStartElement) {
// Skip to the start of the next element
continue;
}
const Source element_source = source_.WithLine(parser->line_number());
const std::string& element_name = parser->element_name();
const std::string& element_namespace = parser->element_namespace();
if (element_namespace.empty() && element_name == "item") {
if (current_policies == PolicyFlags::NONE) {
diag_->Error(DiagMessage(element_source)
<< "<item> within an <overlayable> must be inside a <policy> block");
error = true;
continue;
}
// Items specify the name and type of resource that should be overlayable
Maybe<StringPiece> item_name = xml::FindNonEmptyAttribute(parser, "name");
if (!item_name) {
diag_->Error(DiagMessage(element_source)
<< "<item> within an <overlayable> must have a 'name' attribute");
error = true;
continue;
}
Maybe<StringPiece> item_type = xml::FindNonEmptyAttribute(parser, "type");
if (!item_type) {
diag_->Error(DiagMessage(element_source)
<< "<item> within an <overlayable> must have a 'type' attribute");
error = true;
continue;
}
const ResourceType* type = ParseResourceType(item_type.value());
if (type == nullptr) {
diag_->Error(DiagMessage(element_source)
<< "invalid resource type '" << item_type.value()
<< "' in <item> within an <overlayable>");
error = true;
continue;
}
OverlayableItem overlayable_item(overlayable);
overlayable_item.policies = current_policies;
overlayable_item.comment = comment;
overlayable_item.source = element_source;
ParsedResource child_resource{};
child_resource.name.type = *type;
child_resource.name.entry = item_name.value().to_string();
child_resource.overlayable_item = overlayable_item;
out_resource->child_resources.push_back(std::move(child_resource));
} else if (element_namespace.empty() && element_name == "policy") {
if (current_policies != PolicyFlags::NONE) {
// If the policy list is not empty, then we are currently inside a policy element
diag_->Error(DiagMessage(element_source) << "<policy> blocks cannot be recursively nested");
error = true;
break;
} else if (Maybe<StringPiece> maybe_type = xml::FindNonEmptyAttribute(parser, "type")) {
// Parse the polices separated by vertical bar characters to allow for specifying multiple
// policies. Items within the policy tag will have the specified policy.
for (const StringPiece& part : util::Tokenize(maybe_type.value(), '|')) {
StringPiece trimmed_part = util::TrimWhitespace(part);
const auto policy = std::find_if(kPolicyStringToFlag.begin(),
kPolicyStringToFlag.end(),
[trimmed_part](const auto& it) {
return trimmed_part == it.first;
});
if (policy == kPolicyStringToFlag.end()) {
diag_->Error(DiagMessage(element_source)
<< "<policy> has unsupported type '" << trimmed_part << "'");
error = true;
continue;
}
current_policies |= policy->second;
}
} else {
diag_->Error(DiagMessage(element_source)
<< "<policy> must have a 'type' attribute");
error = true;
continue;
}
} else if (!ShouldIgnoreElement(element_namespace, element_name)) {
diag_->Error(DiagMessage(element_source) << "invalid element <" << element_name << "> "
<< " in <overlayable>");
error = true;
break;
}
comment.clear();
}
return !error;
}
bool ResourceParser::ParseAddResource(xml::XmlPullParser* parser, ParsedResource* out_resource) {
if (ParseSymbolImpl(parser, out_resource)) {
out_resource->visibility_level = Visibility::Level::kUndefined;
out_resource->allow_new = true;
return true;
}
return false;
}
bool ResourceParser::ParseAttr(xml::XmlPullParser* parser,
ParsedResource* out_resource) {
return ParseAttrImpl(parser, out_resource, false);
}
bool ResourceParser::ParseAttrImpl(xml::XmlPullParser* parser,
ParsedResource* out_resource, bool weak) {
out_resource->name.type = ResourceType::kAttr;
// Attributes only end up in default configuration.
if (out_resource->config != ConfigDescription::DefaultConfig()) {
diag_->Warn(DiagMessage(out_resource->source)
<< "ignoring configuration '" << out_resource->config
<< "' for attribute " << out_resource->name);
out_resource->config = ConfigDescription::DefaultConfig();
}
uint32_t type_mask = 0;
Maybe<StringPiece> maybe_format = xml::FindAttribute(parser, "format");
if (maybe_format) {
type_mask = ParseFormatAttribute(maybe_format.value());
if (type_mask == 0) {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number()))
<< "invalid attribute format '" << maybe_format.value() << "'");
return false;
}
}
Maybe<int32_t> maybe_min, maybe_max;
if (Maybe<StringPiece> maybe_min_str = xml::FindAttribute(parser, "min")) {
StringPiece min_str = util::TrimWhitespace(maybe_min_str.value());
if (!min_str.empty()) {
std::u16string min_str16 = util::Utf8ToUtf16(min_str);
android::Res_value value;
if (android::ResTable::stringToInt(min_str16.data(), min_str16.size(), &value)) {
maybe_min = static_cast<int32_t>(value.data);
}
}
if (!maybe_min) {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number()))
<< "invalid 'min' value '" << min_str << "'");
return false;
}
}
if (Maybe<StringPiece> maybe_max_str = xml::FindAttribute(parser, "max")) {
StringPiece max_str = util::TrimWhitespace(maybe_max_str.value());
if (!max_str.empty()) {
std::u16string max_str16 = util::Utf8ToUtf16(max_str);
android::Res_value value;
if (android::ResTable::stringToInt(max_str16.data(), max_str16.size(), &value)) {
maybe_max = static_cast<int32_t>(value.data);
}
}
if (!maybe_max) {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number()))
<< "invalid 'max' value '" << max_str << "'");
return false;
}
}
if ((maybe_min || maybe_max) &&
(type_mask & android::ResTable_map::TYPE_INTEGER) == 0) {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number()))
<< "'min' and 'max' can only be used when format='integer'");
return false;
}
struct SymbolComparator {
bool operator()(const Attribute::Symbol& a, const Attribute::Symbol& b) const {
return a.symbol.name.value() < b.symbol.name.value();
}
};
std::set<Attribute::Symbol, SymbolComparator> items;
std::string comment;
bool error = false;
const size_t depth = parser->depth();
while (xml::XmlPullParser::NextChildNode(parser, depth)) {
if (parser->event() == xml::XmlPullParser::Event::kComment) {
comment = util::TrimWhitespace(parser->comment()).to_string();
continue;
} else if (parser->event() != xml::XmlPullParser::Event::kStartElement) {
// Skip text.
continue;
}
const Source item_source = source_.WithLine(parser->line_number());
const std::string& element_namespace = parser->element_namespace();
const std::string& element_name = parser->element_name();
if (element_namespace.empty() && (element_name == "flag" || element_name == "enum")) {
if (element_name == "enum") {
if (type_mask & android::ResTable_map::TYPE_FLAGS) {
diag_->Error(DiagMessage(item_source)
<< "can not define an <enum>; already defined a <flag>");
error = true;
continue;
}
type_mask |= android::ResTable_map::TYPE_ENUM;
} else if (element_name == "flag") {
if (type_mask & android::ResTable_map::TYPE_ENUM) {
diag_->Error(DiagMessage(item_source)
<< "can not define a <flag>; already defined an <enum>");
error = true;
continue;
}
type_mask |= android::ResTable_map::TYPE_FLAGS;
}
if (Maybe<Attribute::Symbol> s =
ParseEnumOrFlagItem(parser, element_name)) {
Attribute::Symbol& symbol = s.value();
ParsedResource child_resource;
child_resource.name = symbol.symbol.name.value();
child_resource.source = item_source;
child_resource.value = util::make_unique<Id>();
if (options_.visibility) {
child_resource.visibility_level = options_.visibility.value();
}
out_resource->child_resources.push_back(std::move(child_resource));
symbol.symbol.SetComment(std::move(comment));
symbol.symbol.SetSource(item_source);
auto insert_result = items.insert(std::move(symbol));
if (!insert_result.second) {
const Attribute::Symbol& existing_symbol = *insert_result.first;
diag_->Error(DiagMessage(item_source)
<< "duplicate symbol '"
<< existing_symbol.symbol.name.value().entry << "'");
diag_->Note(DiagMessage(existing_symbol.symbol.GetSource())
<< "first defined here");
error = true;
}
} else {
error = true;
}
} else if (!ShouldIgnoreElement(element_namespace, element_name)) {
diag_->Error(DiagMessage(item_source) << ":" << element_name << ">");
error = true;
}
comment = {};
}
if (error) {
return false;
}
std::unique_ptr<Attribute> attr = util::make_unique<Attribute>(
type_mask ? type_mask : uint32_t{android::ResTable_map::TYPE_ANY});
attr->SetWeak(weak);
attr->symbols = std::vector<Attribute::Symbol>(items.begin(), items.end());
attr->min_int = maybe_min.value_or_default(std::numeric_limits<int32_t>::min());
attr->max_int = maybe_max.value_or_default(std::numeric_limits<int32_t>::max());
out_resource->value = std::move(attr);
return true;
}
Maybe<Attribute::Symbol> ResourceParser::ParseEnumOrFlagItem(
xml::XmlPullParser* parser, const StringPiece& tag) {
const Source source = source_.WithLine(parser->line_number());
Maybe<StringPiece> maybe_name = xml::FindNonEmptyAttribute(parser, "name");
if (!maybe_name) {
diag_->Error(DiagMessage(source) << "no attribute 'name' found for tag <"
<< tag << ">");
return {};
}
Maybe<StringPiece> maybe_value = xml::FindNonEmptyAttribute(parser, "value");
if (!maybe_value) {
diag_->Error(DiagMessage(source) << "no attribute 'value' found for tag <"
<< tag << ">");
return {};
}
std::u16string value16 = util::Utf8ToUtf16(maybe_value.value());
android::Res_value val;
if (!android::ResTable::stringToInt(value16.data(), value16.size(), &val)) {
diag_->Error(DiagMessage(source) << "invalid value '" << maybe_value.value()
<< "' for <" << tag
<< ">; must be an integer");
return {};
}
return Attribute::Symbol{
Reference(ResourceNameRef({}, ResourceType::kId, maybe_name.value())),
val.data, val.dataType};
}
bool ResourceParser::ParseStyleItem(xml::XmlPullParser* parser, Style* style) {
const Source source = source_.WithLine(parser->line_number());
Maybe<StringPiece> maybe_name = xml::FindNonEmptyAttribute(parser, "name");
if (!maybe_name) {
diag_->Error(DiagMessage(source) << "<item> must have a 'name' attribute");
return false;
}
Maybe<Reference> maybe_key = ResourceUtils::ParseXmlAttributeName(maybe_name.value());
if (!maybe_key) {
diag_->Error(DiagMessage(source) << "invalid attribute name '" << maybe_name.value() << "'");
return false;
}
ResolvePackage(parser, &maybe_key.value());
maybe_key.value().SetSource(source);
std::unique_ptr<Item> value = ParseXml(parser, 0, kAllowRawString);
if (!value) {
diag_->Error(DiagMessage(source) << "could not parse style item");
return false;
}
style->entries.push_back(Style::Entry{std::move(maybe_key.value()), std::move(value)});
return true;
}
bool ResourceParser::ParseStyle(const ResourceType type, xml::XmlPullParser* parser,
ParsedResource* out_resource) {
out_resource->name.type = type;
std::unique_ptr<Style> style = util::make_unique<Style>();
Maybe<StringPiece> maybe_parent = xml::FindAttribute(parser, "parent");
if (maybe_parent) {
// If the parent is empty, we don't have a parent, but we also don't infer either.
if (!maybe_parent.value().empty()) {
std::string err_str;
style->parent = ResourceUtils::ParseStyleParentReference(maybe_parent.value(), &err_str);
if (!style->parent) {
diag_->Error(DiagMessage(out_resource->source) << err_str);
return false;
}
// Transform the namespace prefix to the actual package name, and mark the reference as
// private if appropriate.
ResolvePackage(parser, &style->parent.value());
}
} else {
// No parent was specified, so try inferring it from the style name.
std::string style_name = out_resource->name.entry;
size_t pos = style_name.find_last_of(u'.');
if (pos != std::string::npos) {
style->parent_inferred = true;
style->parent = Reference(ResourceName({}, ResourceType::kStyle, style_name.substr(0, pos)));
}
}
bool error = false;
const size_t depth = parser->depth();
while (xml::XmlPullParser::NextChildNode(parser, depth)) {
if (parser->event() != xml::XmlPullParser::Event::kStartElement) {
// Skip text and comments.
continue;
}
const std::string& element_namespace = parser->element_namespace();
const std::string& element_name = parser->element_name();
if (element_namespace == "" && element_name == "item") {
error |= !ParseStyleItem(parser, style.get());
} else if (!ShouldIgnoreElement(element_namespace, element_name)) {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number()))
<< ":" << element_name << ">");
error = true;
}
}
if (error) {
return false;
}
out_resource->value = std::move(style);
return true;
}
bool ResourceParser::ParseArray(xml::XmlPullParser* parser, ParsedResource* out_resource) {
uint32_t resource_format = android::ResTable_map::TYPE_ANY;
if (Maybe<StringPiece> format_attr = xml::FindNonEmptyAttribute(parser, "format")) {
resource_format = ParseFormatTypeNoEnumsOrFlags(format_attr.value());
if (resource_format == 0u) {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number()))
<< "'" << format_attr.value() << "' is an invalid format");
return false;
}
}
return ParseArrayImpl(parser, out_resource, resource_format);
}
bool ResourceParser::ParseIntegerArray(xml::XmlPullParser* parser, ParsedResource* out_resource) {
return ParseArrayImpl(parser, out_resource, android::ResTable_map::TYPE_INTEGER);
}
bool ResourceParser::ParseStringArray(xml::XmlPullParser* parser, ParsedResource* out_resource) {
return ParseArrayImpl(parser, out_resource, android::ResTable_map::TYPE_STRING);
}
bool ResourceParser::ParseArrayImpl(xml::XmlPullParser* parser,
ParsedResource* out_resource,
const uint32_t typeMask) {
out_resource->name.type = ResourceType::kArray;
std::unique_ptr<Array> array = util::make_unique<Array>();
bool translatable = options_.translatable;
if (Maybe<StringPiece> translatable_attr = xml::FindAttribute(parser, "translatable")) {
Maybe<bool> maybe_translatable = ResourceUtils::ParseBool(translatable_attr.value());
if (!maybe_translatable) {
diag_->Error(DiagMessage(out_resource->source)
<< "invalid value for 'translatable'. Must be a boolean");
return false;
}
translatable = maybe_translatable.value();
}
array->SetTranslatable(translatable);
bool error = false;
const size_t depth = parser->depth();
while (xml::XmlPullParser::NextChildNode(parser, depth)) {
if (parser->event() != xml::XmlPullParser::Event::kStartElement) {
// Skip text and comments.
continue;
}
const Source item_source = source_.WithLine(parser->line_number());
const std::string& element_namespace = parser->element_namespace();
const std::string& element_name = parser->element_name();
if (element_namespace.empty() && element_name == "item") {
std::unique_ptr<Item> item = ParseXml(parser, typeMask, kNoRawString);
if (!item) {
diag_->Error(DiagMessage(item_source) << "could not parse array item");
error = true;
continue;
}
item->SetSource(item_source);
array->elements.emplace_back(std::move(item));
} else if (!ShouldIgnoreElement(element_namespace, element_name)) {
diag_->Error(DiagMessage(source_.WithLine(parser->line_number()))
<< "unknown tag <" << element_namespace << ":"
<< element_name << ">");
error = true;
}
}
if (error) {
return false;
}
out_resource->value = std::move(array);
return true;
}
bool ResourceParser::ParsePlural(xml::XmlPullParser* parser,
ParsedResource* out_resource) {
out_resource->name.type = ResourceType::kPlurals;
std::unique_ptr<Plural> plural = util::make_unique<Plural>();
bool error = false;
const size_t depth = parser->depth();
while (xml::XmlPullParser::NextChildNode(parser, depth)) {
if (parser->event() != xml::XmlPullParser::Event::kStartElement) {
// Skip text and comments.
continue;
}
const Source item_source = source_.WithLine(parser->line_number());
const std::string& element_namespace = parser->element_namespace();
const std::string& element_name = parser->element_name();
if (element_namespace.empty() && element_name == "item") {
Maybe<StringPiece> maybe_quantity =
xml::FindNonEmptyAttribute(parser, "quantity");
if (!maybe_quantity) {
diag_->Error(DiagMessage(item_source)
<< "<item> in <plurals> requires attribute "
<< "'quantity'");
error = true;
continue;
}
StringPiece trimmed_quantity =
util::TrimWhitespace(maybe_quantity.value());
size_t index = 0;
if (trimmed_quantity == "zero") {
index = Plural::Zero;
} else if (trimmed_quantity == "one") {
index = Plural::One;
} else if (trimmed_quantity == "two") {
index = Plural::Two;
} else if (trimmed_quantity == "few") {
index = Plural::Few;
} else if (trimmed_quantity == "many") {
index = Plural::Many;
} else if (trimmed_quantity == "other") {
index = Plural::Other;
} else {
diag_->Error(DiagMessage(item_source)
<< "<item> in <plural> has invalid value '"
<< trimmed_quantity << "' for attribute 'quantity'");
error = true;
continue;
}
if (plural->values[index]) {
diag_->Error(DiagMessage(item_source) << "duplicate quantity '"
<< trimmed_quantity << "'");
error = true;
continue;
}
if (!(plural->values[index] = ParseXml(
parser, android::ResTable_map::TYPE_STRING, kNoRawString))) {
error = true;
continue;
}
plural->values[index]->SetSource(item_source);
} else if (!ShouldIgnoreElement(element_namespace, element_name)) {
diag_->Error(DiagMessage(item_source) << "unknown tag <"
<< element_namespace << ":"
<< element_name << ">");
error = true;
}
}
if (error) {
return false;
}
out_resource->value = std::move(plural);
return true;
}
bool ResourceParser::ParseDeclareStyleable(xml::XmlPullParser* parser,
ParsedResource* out_resource) {
out_resource->name.type = ResourceType::kStyleable;
if (!options_.preserve_visibility_of_styleables) {
// This was added in change Idd21b5de4d20be06c6f8c8eb5a22ccd68afc4927 to mimic aapt1, but no one
// knows exactly what for.
//
// FWIW, styleables only appear in generated R classes. For custom views these should always be
// package-private (to be used only by the view class); themes are a different story.
out_resource->visibility_level = Visibility::Level::kPublic;
}
// Declare-styleable only ends up in default config;
if (out_resource->config != ConfigDescription::DefaultConfig()) {
diag_->Warn(DiagMessage(out_resource->source)
<< "ignoring configuration '" << out_resource->config
<< "' for styleable " << out_resource->name.entry);
out_resource->config = ConfigDescription::DefaultConfig();
}
std::unique_ptr<Styleable> styleable = util::make_unique<Styleable>();
std::string comment;
bool error = false;
const size_t depth = parser->depth();
while (xml::XmlPullParser::NextChildNode(parser, depth)) {
if (parser->event() == xml::XmlPullParser::Event::kComment) {
comment = util::TrimWhitespace(parser->comment()).to_string();
continue;
} else if (parser->event() != xml::XmlPullParser::Event::kStartElement) {
// Ignore text.
continue;
}
const Source item_source = source_.WithLine(parser->line_number());
const std::string& element_namespace = parser->element_namespace();
const std::string& element_name = parser->element_name();
if (element_namespace.empty() && element_name == "attr") {
Maybe<StringPiece> maybe_name = xml::FindNonEmptyAttribute(parser, "name");
if (!maybe_name) {
diag_->Error(DiagMessage(item_source) << "<attr> tag must have a 'name' attribute");
error = true;
continue;
}
// If this is a declaration, the package name may be in the name. Separate
// these out.
// Eg. <attr name="android:text" />
Maybe<Reference> maybe_ref = ResourceUtils::ParseXmlAttributeName(maybe_name.value());
if (!maybe_ref) {
diag_->Error(DiagMessage(item_source) << "<attr> tag has invalid name '"
<< maybe_name.value() << "'");
error = true;
continue;
}
Reference& child_ref = maybe_ref.value();
xml::ResolvePackage(parser, &child_ref);
// Create the ParsedResource that will add the attribute to the table.
ParsedResource child_resource;
child_resource.name = child_ref.name.value();
child_resource.source = item_source;
child_resource.comment = std::move(comment);
if (options_.visibility) {
child_resource.visibility_level = options_.visibility.value();
}
if (!ParseAttrImpl(parser, &child_resource, true)) {
error = true;
continue;
}
// Create the reference to this attribute.
child_ref.SetComment(child_resource.comment);
child_ref.SetSource(item_source);
styleable->entries.push_back(std::move(child_ref));
// Do not add referenced attributes that do not define a format to the table.
CHECK(child_resource.value != nullptr);
Attribute* attr = ValueCast<Attribute>(child_resource.value.get());
CHECK(attr != nullptr);
if (attr->type_mask != android::ResTable_map::TYPE_ANY) {
out_resource->child_resources.push_back(std::move(child_resource));
}
} else if (!ShouldIgnoreElement(element_namespace, element_name)) {
diag_->Error(DiagMessage(item_source) << "unknown tag <"
<< element_namespace << ":"
<< element_name << ">");
error = true;
}
comment = {};
}
if (error) {
return false;
}
out_resource->value = std::move(styleable);
return true;
}
} // namespace aapt