blob: f354bb6102241425906e01c510105ad94b882012 [file] [log] [blame]
/*
* 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 "Link.h"
#include <sys/stat.h>
#include <cinttypes>
#include <algorithm>
#include <queue>
#include <unordered_map>
#include <vector>
#include "android-base/errors.h"
#include "android-base/file.h"
#include "android-base/stringprintf.h"
#include "androidfw/Locale.h"
#include "androidfw/StringPiece.h"
#include "AppInfo.h"
#include "Debug.h"
#include "LoadedApk.h"
#include "NameMangler.h"
#include "ResourceUtils.h"
#include "ResourceValues.h"
#include "ValueVisitor.h"
#include "cmd/Util.h"
#include "compile/IdAssigner.h"
#include "compile/XmlIdCollector.h"
#include "filter/ConfigFilter.h"
#include "format/Archive.h"
#include "format/Container.h"
#include "format/binary/TableFlattener.h"
#include "format/binary/XmlFlattener.h"
#include "format/proto/ProtoDeserialize.h"
#include "format/proto/ProtoSerialize.h"
#include "io/BigBufferStream.h"
#include "io/FileStream.h"
#include "io/FileSystem.h"
#include "io/Util.h"
#include "io/ZipArchive.h"
#include "java/JavaClassGenerator.h"
#include "java/ManifestClassGenerator.h"
#include "java/ProguardRules.h"
#include "link/Linkers.h"
#include "link/ManifestFixer.h"
#include "link/NoDefaultResourceRemover.h"
#include "link/ReferenceLinker.h"
#include "link/ResourceExcluder.h"
#include "link/TableMerger.h"
#include "link/XmlCompatVersioner.h"
#include "optimize/ResourceDeduper.h"
#include "optimize/VersionCollapser.h"
#include "process/IResourceTableConsumer.h"
#include "process/SymbolTable.h"
#include "split/TableSplitter.h"
#include "trace/TraceBuffer.h"
#include "util/Files.h"
#include "xml/XmlDom.h"
using ::aapt::io::FileInputStream;
using ::android::ConfigDescription;
using ::android::StringPiece;
using ::android::base::StringPrintf;
namespace aapt {
class LinkContext : public IAaptContext {
public:
explicit LinkContext(IDiagnostics* diagnostics)
: diagnostics_(diagnostics), name_mangler_({}), symbols_(&name_mangler_) {
}
PackageType GetPackageType() override {
return package_type_;
}
void SetPackageType(PackageType type) {
package_type_ = type;
}
IDiagnostics* GetDiagnostics() override {
return diagnostics_;
}
NameMangler* GetNameMangler() override {
return &name_mangler_;
}
void SetNameManglerPolicy(const NameManglerPolicy& policy) {
name_mangler_ = NameMangler(policy);
}
const std::string& GetCompilationPackage() override {
return compilation_package_;
}
void SetCompilationPackage(const StringPiece& package_name) {
compilation_package_ = package_name.to_string();
}
uint8_t GetPackageId() override {
return package_id_;
}
void SetPackageId(uint8_t id) {
package_id_ = id;
}
SymbolTable* GetExternalSymbols() override {
return &symbols_;
}
bool IsVerbose() override {
return verbose_;
}
void SetVerbose(bool val) {
verbose_ = val;
}
int GetMinSdkVersion() override {
return min_sdk_version_;
}
void SetMinSdkVersion(int minSdk) {
min_sdk_version_ = minSdk;
}
private:
DISALLOW_COPY_AND_ASSIGN(LinkContext);
PackageType package_type_ = PackageType::kApp;
IDiagnostics* diagnostics_;
NameMangler name_mangler_;
std::string compilation_package_;
uint8_t package_id_ = 0x0;
SymbolTable symbols_;
bool verbose_ = false;
int min_sdk_version_ = 0;
};
// A custom delegate that generates compatible pre-O IDs for use with feature splits.
// Feature splits use package IDs > 7f, which in Java (since Java doesn't have unsigned ints)
// is interpreted as a negative number. Some verification was wrongly assuming negative values
// were invalid.
//
// This delegate will attempt to masquerade any '@id/' references with ID 0xPPTTEEEE,
// where PP > 7f, as 0x7fPPEEEE. Any potential overlapping is verified and an error occurs if such
// an overlap exists.
//
// See b/37498913.
class FeatureSplitSymbolTableDelegate : public DefaultSymbolTableDelegate {
public:
explicit FeatureSplitSymbolTableDelegate(IAaptContext* context) : context_(context) {
}
virtual ~FeatureSplitSymbolTableDelegate() = default;
virtual std::unique_ptr<SymbolTable::Symbol> FindByName(
const ResourceName& name,
const std::vector<std::unique_ptr<ISymbolSource>>& sources) override {
std::unique_ptr<SymbolTable::Symbol> symbol =
DefaultSymbolTableDelegate::FindByName(name, sources);
if (symbol == nullptr) {
return {};
}
// Check to see if this is an 'id' with the target package.
if (name.type == ResourceType::kId && symbol->id) {
ResourceId* id = &symbol->id.value();
if (id->package_id() > kAppPackageId) {
// Rewrite the resource ID to be compatible pre-O.
ResourceId rewritten_id(kAppPackageId, id->package_id(), id->entry_id());
// Check that this doesn't overlap another resource.
if (DefaultSymbolTableDelegate::FindById(rewritten_id, sources) != nullptr) {
// The ID overlaps, so log a message (since this is a weird failure) and fail.
context_->GetDiagnostics()->Error(DiagMessage() << "Failed to rewrite " << name
<< " for pre-O feature split support");
return {};
}
if (context_->IsVerbose()) {
context_->GetDiagnostics()->Note(DiagMessage() << "rewriting " << name << " (" << *id
<< ") -> (" << rewritten_id << ")");
}
*id = rewritten_id;
}
}
return symbol;
}
private:
DISALLOW_COPY_AND_ASSIGN(FeatureSplitSymbolTableDelegate);
IAaptContext* context_;
};
static bool FlattenXml(IAaptContext* context, const xml::XmlResource& xml_res,
const StringPiece& path, bool keep_raw_values, bool utf16,
OutputFormat format, IArchiveWriter* writer) {
TRACE_CALL();
if (context->IsVerbose()) {
context->GetDiagnostics()->Note(DiagMessage(path) << "writing to archive (keep_raw_values="
<< (keep_raw_values ? "true" : "false")
<< ")");
}
switch (format) {
case OutputFormat::kApk: {
BigBuffer buffer(1024);
XmlFlattenerOptions options = {};
options.keep_raw_values = keep_raw_values;
options.use_utf16 = utf16;
XmlFlattener flattener(&buffer, options);
if (!flattener.Consume(context, &xml_res)) {
return false;
}
io::BigBufferInputStream input_stream(&buffer);
return io::CopyInputStreamToArchive(context, &input_stream, path.to_string(),
ArchiveEntry::kCompress, writer);
} break;
case OutputFormat::kProto: {
pb::XmlNode pb_node;
// Strip whitespace text nodes from tha AndroidManifest.xml
SerializeXmlOptions options;
options.remove_empty_text_nodes = (path == kAndroidManifestPath);
SerializeXmlResourceToPb(xml_res, &pb_node);
return io::CopyProtoToArchive(context, &pb_node, path.to_string(), ArchiveEntry::kCompress,
writer);
} break;
}
return false;
}
// Inflates an XML file from the source path.
static std::unique_ptr<xml::XmlResource> LoadXml(const std::string& path, IDiagnostics* diag) {
TRACE_CALL();
FileInputStream fin(path);
if (fin.HadError()) {
diag->Error(DiagMessage(path) << "failed to load XML file: " << fin.GetError());
return {};
}
return xml::Inflate(&fin, diag, Source(path));
}
struct ResourceFileFlattenerOptions {
bool no_auto_version = false;
bool no_version_vectors = false;
bool no_version_transitions = false;
bool no_xml_namespaces = false;
bool keep_raw_values = false;
bool do_not_compress_anything = false;
bool update_proguard_spec = false;
OutputFormat output_format = OutputFormat::kApk;
std::unordered_set<std::string> extensions_to_not_compress;
Maybe<std::regex> regex_to_not_compress;
};
// A sampling of public framework resource IDs.
struct R {
struct attr {
enum : uint32_t {
paddingLeft = 0x010100d6u,
paddingRight = 0x010100d8u,
paddingHorizontal = 0x0101053du,
paddingTop = 0x010100d7u,
paddingBottom = 0x010100d9u,
paddingVertical = 0x0101053eu,
layout_marginLeft = 0x010100f7u,
layout_marginRight = 0x010100f9u,
layout_marginHorizontal = 0x0101053bu,
layout_marginTop = 0x010100f8u,
layout_marginBottom = 0x010100fau,
layout_marginVertical = 0x0101053cu,
};
};
};
class ResourceFileFlattener {
public:
ResourceFileFlattener(const ResourceFileFlattenerOptions& options, IAaptContext* context,
proguard::KeepSet* keep_set);
bool Flatten(ResourceTable* table, IArchiveWriter* archive_writer);
private:
struct FileOperation {
ConfigDescription config;
// The entry this file came from.
ResourceEntry* entry;
// The file to copy as-is.
io::IFile* file_to_copy;
// The XML to process and flatten.
std::unique_ptr<xml::XmlResource> xml_to_flatten;
// The destination to write this file to.
std::string dst_path;
};
uint32_t GetCompressionFlags(const StringPiece& str);
std::vector<std::unique_ptr<xml::XmlResource>> LinkAndVersionXmlFile(ResourceTable* table,
FileOperation* file_op);
ResourceFileFlattenerOptions options_;
IAaptContext* context_;
proguard::KeepSet* keep_set_;
XmlCompatVersioner::Rules rules_;
};
ResourceFileFlattener::ResourceFileFlattener(const ResourceFileFlattenerOptions& options,
IAaptContext* context, proguard::KeepSet* keep_set)
: options_(options), context_(context), keep_set_(keep_set) {
SymbolTable* symm = context_->GetExternalSymbols();
// Build up the rules for degrading newer attributes to older ones.
// NOTE(adamlesinski): These rules are hardcoded right now, but they should be
// generated from the attribute definitions themselves (b/62028956).
if (const SymbolTable::Symbol* s = symm->FindById(R::attr::paddingHorizontal)) {
std::vector<ReplacementAttr> replacements{
{"paddingLeft", R::attr::paddingLeft, Attribute(android::ResTable_map::TYPE_DIMENSION)},
{"paddingRight", R::attr::paddingRight, Attribute(android::ResTable_map::TYPE_DIMENSION)},
};
rules_[R::attr::paddingHorizontal] =
util::make_unique<DegradeToManyRule>(std::move(replacements));
}
if (const SymbolTable::Symbol* s = symm->FindById(R::attr::paddingVertical)) {
std::vector<ReplacementAttr> replacements{
{"paddingTop", R::attr::paddingTop, Attribute(android::ResTable_map::TYPE_DIMENSION)},
{"paddingBottom", R::attr::paddingBottom, Attribute(android::ResTable_map::TYPE_DIMENSION)},
};
rules_[R::attr::paddingVertical] =
util::make_unique<DegradeToManyRule>(std::move(replacements));
}
if (const SymbolTable::Symbol* s = symm->FindById(R::attr::layout_marginHorizontal)) {
std::vector<ReplacementAttr> replacements{
{"layout_marginLeft", R::attr::layout_marginLeft,
Attribute(android::ResTable_map::TYPE_DIMENSION)},
{"layout_marginRight", R::attr::layout_marginRight,
Attribute(android::ResTable_map::TYPE_DIMENSION)},
};
rules_[R::attr::layout_marginHorizontal] =
util::make_unique<DegradeToManyRule>(std::move(replacements));
}
if (const SymbolTable::Symbol* s = symm->FindById(R::attr::layout_marginVertical)) {
std::vector<ReplacementAttr> replacements{
{"layout_marginTop", R::attr::layout_marginTop,
Attribute(android::ResTable_map::TYPE_DIMENSION)},
{"layout_marginBottom", R::attr::layout_marginBottom,
Attribute(android::ResTable_map::TYPE_DIMENSION)},
};
rules_[R::attr::layout_marginVertical] =
util::make_unique<DegradeToManyRule>(std::move(replacements));
}
}
// TODO(rtmitchell): turn this function into a variable that points to a method that retrieves the
// compression flag
uint32_t ResourceFileFlattener::GetCompressionFlags(const StringPiece& str) {
if (options_.do_not_compress_anything) {
return 0;
}
if (options_.regex_to_not_compress
&& std::regex_search(str.to_string(), options_.regex_to_not_compress.value())) {
return 0;
}
for (const std::string& extension : options_.extensions_to_not_compress) {
if (util::EndsWith(str, extension)) {
return 0;
}
}
return ArchiveEntry::kCompress;
}
static bool IsTransitionElement(const std::string& name) {
return name == "fade" || name == "changeBounds" || name == "slide" || name == "explode" ||
name == "changeImageTransform" || name == "changeTransform" ||
name == "changeClipBounds" || name == "autoTransition" || name == "recolor" ||
name == "changeScroll" || name == "transitionSet" || name == "transition" ||
name == "transitionManager";
}
static bool IsVectorElement(const std::string& name) {
return name == "vector" || name == "animated-vector" || name == "pathInterpolator" ||
name == "objectAnimator" || name == "gradient" || name == "animated-selector" ||
name == "set";
}
template <typename T>
std::vector<T> make_singleton_vec(T&& val) {
std::vector<T> vec;
vec.emplace_back(std::forward<T>(val));
return vec;
}
std::vector<std::unique_ptr<xml::XmlResource>> ResourceFileFlattener::LinkAndVersionXmlFile(
ResourceTable* table, FileOperation* file_op) {
TRACE_CALL();
xml::XmlResource* doc = file_op->xml_to_flatten.get();
const Source& src = doc->file.source;
if (context_->IsVerbose()) {
context_->GetDiagnostics()->Note(DiagMessage()
<< "linking " << src.path << " (" << doc->file.name << ")");
}
// First, strip out any tools namespace attributes. AAPT stripped them out early, which means
// that existing projects have out-of-date references which pass compilation.
xml::StripAndroidStudioAttributes(doc->root.get());
XmlReferenceLinker xml_linker;
if (!xml_linker.Consume(context_, doc)) {
return {};
}
if (options_.update_proguard_spec && !proguard::CollectProguardRules(context_, doc, keep_set_)) {
return {};
}
if (options_.no_xml_namespaces) {
XmlNamespaceRemover namespace_remover;
if (!namespace_remover.Consume(context_, doc)) {
return {};
}
}
if (options_.no_auto_version) {
return make_singleton_vec(std::move(file_op->xml_to_flatten));
}
if (options_.no_version_vectors || options_.no_version_transitions) {
// Skip this if it is a vector or animated-vector.
xml::Element* el = doc->root.get();
if (el && el->namespace_uri.empty()) {
if ((options_.no_version_vectors && IsVectorElement(el->name)) ||
(options_.no_version_transitions && IsTransitionElement(el->name))) {
return make_singleton_vec(std::move(file_op->xml_to_flatten));
}
}
}
const ConfigDescription& config = file_op->config;
ResourceEntry* entry = file_op->entry;
XmlCompatVersioner xml_compat_versioner(&rules_);
const util::Range<ApiVersion> api_range{config.sdkVersion,
FindNextApiVersionForConfig(entry, config)};
return xml_compat_versioner.Process(context_, doc, api_range);
}
ResourceFile::Type XmlFileTypeForOutputFormat(OutputFormat format) {
switch (format) {
case OutputFormat::kApk:
return ResourceFile::Type::kBinaryXml;
case OutputFormat::kProto:
return ResourceFile::Type::kProtoXml;
}
LOG_ALWAYS_FATAL("unreachable");
return ResourceFile::Type::kUnknown;
}
static auto kDrawableVersions = std::map<std::string, ApiVersion>{
{ "adaptive-icon" , SDK_O },
};
bool ResourceFileFlattener::Flatten(ResourceTable* table, IArchiveWriter* archive_writer) {
TRACE_CALL();
bool error = false;
std::map<std::pair<ConfigDescription, StringPiece>, FileOperation> config_sorted_files;
proguard::CollectResourceReferences(context_, table, keep_set_);
for (auto& pkg : table->packages) {
CHECK(!pkg->name.empty()) << "Packages must have names when being linked";
for (auto& type : pkg->types) {
// Sort by config and name, so that we get better locality in the zip file.
config_sorted_files.clear();
std::queue<FileOperation> file_operations;
// Populate the queue with all files in the ResourceTable.
for (auto& entry : type->entries) {
for (auto& config_value : entry->values) {
// WARNING! Do not insert or remove any resources while executing in this scope. It will
// corrupt the iteration order.
FileReference* file_ref = ValueCast<FileReference>(config_value->value.get());
if (!file_ref) {
continue;
}
io::IFile* file = file_ref->file;
if (!file) {
context_->GetDiagnostics()->Error(DiagMessage(file_ref->GetSource())
<< "file not found");
return false;
}
FileOperation file_op;
file_op.entry = entry.get();
file_op.dst_path = *file_ref->path;
file_op.config = config_value->config;
file_op.file_to_copy = file;
if (type->type != ResourceType::kRaw &&
(file_ref->type == ResourceFile::Type::kBinaryXml ||
file_ref->type == ResourceFile::Type::kProtoXml)) {
std::unique_ptr<io::IData> data = file->OpenAsData();
if (!data) {
context_->GetDiagnostics()->Error(DiagMessage(file->GetSource())
<< "failed to open file");
return false;
}
if (file_ref->type == ResourceFile::Type::kProtoXml) {
pb::XmlNode pb_xml_node;
if (!pb_xml_node.ParseFromArray(data->data(), static_cast<int>(data->size()))) {
context_->GetDiagnostics()->Error(DiagMessage(file->GetSource())
<< "failed to parse proto XML");
return false;
}
std::string error;
file_op.xml_to_flatten = DeserializeXmlResourceFromPb(pb_xml_node, &error);
if (file_op.xml_to_flatten == nullptr) {
context_->GetDiagnostics()->Error(DiagMessage(file->GetSource())
<< "failed to deserialize proto XML: " << error);
return false;
}
} else {
std::string error_str;
file_op.xml_to_flatten = xml::Inflate(data->data(), data->size(), &error_str);
if (file_op.xml_to_flatten == nullptr) {
context_->GetDiagnostics()->Error(DiagMessage(file->GetSource())
<< "failed to parse binary XML: " << error_str);
return false;
}
}
// Update the type that this file will be written as.
file_ref->type = XmlFileTypeForOutputFormat(options_.output_format);
file_op.xml_to_flatten->file.config = config_value->config;
file_op.xml_to_flatten->file.source = file_ref->GetSource();
file_op.xml_to_flatten->file.name = ResourceName(pkg->name, type->type, entry->name);
}
// NOTE(adamlesinski): Explicitly construct a StringPiece here, or
// else we end up copying the string in the std::make_pair() method,
// then creating a StringPiece from the copy, which would cause us
// to end up referencing garbage in the map.
const StringPiece entry_name(entry->name);
config_sorted_files[std::make_pair(config_value->config, entry_name)] =
std::move(file_op);
}
}
// Now flatten the sorted values.
for (auto& map_entry : config_sorted_files) {
const ConfigDescription& config = map_entry.first.first;
FileOperation& file_op = map_entry.second;
if (file_op.xml_to_flatten) {
// Check minimum sdk versions supported for drawables
auto drawable_entry = kDrawableVersions.find(file_op.xml_to_flatten->root->name);
if (drawable_entry != kDrawableVersions.end()) {
if (drawable_entry->second > context_->GetMinSdkVersion()
&& drawable_entry->second > config.sdkVersion) {
context_->GetDiagnostics()->Error(DiagMessage(file_op.xml_to_flatten->file.source)
<< "<" << drawable_entry->first << "> elements "
<< "require a sdk version of at least "
<< (int16_t) drawable_entry->second);
error = true;
continue;
}
}
std::vector<std::unique_ptr<xml::XmlResource>> versioned_docs =
LinkAndVersionXmlFile(table, &file_op);
if (versioned_docs.empty()) {
error = true;
continue;
}
for (std::unique_ptr<xml::XmlResource>& doc : versioned_docs) {
std::string dst_path = file_op.dst_path;
if (doc->file.config != file_op.config) {
// Only add the new versioned configurations.
if (context_->IsVerbose()) {
context_->GetDiagnostics()->Note(DiagMessage(doc->file.source)
<< "auto-versioning resource from config '"
<< config << "' -> '" << doc->file.config << "'");
}
const ResourceFile& file = doc->file;
dst_path = ResourceUtils::BuildResourceFileName(file, context_->GetNameMangler());
std::unique_ptr<FileReference> file_ref =
util::make_unique<FileReference>(table->string_pool.MakeRef(dst_path));
file_ref->SetSource(doc->file.source);
// Update the output format of this XML file.
file_ref->type = XmlFileTypeForOutputFormat(options_.output_format);
if (!table->AddResourceMangled(file.name, file.config, {}, std::move(file_ref),
context_->GetDiagnostics())) {
return false;
}
}
error |= !FlattenXml(context_, *doc, dst_path, options_.keep_raw_values,
false /*utf16*/, options_.output_format, archive_writer);
}
} else {
error |= !io::CopyFileToArchive(context_, file_op.file_to_copy, file_op.dst_path,
GetCompressionFlags(file_op.dst_path), archive_writer);
}
}
}
}
return !error;
}
static bool WriteStableIdMapToPath(IDiagnostics* diag,
const std::unordered_map<ResourceName, ResourceId>& id_map,
const std::string& id_map_path) {
io::FileOutputStream fout(id_map_path);
if (fout.HadError()) {
diag->Error(DiagMessage(id_map_path) << "failed to open: " << fout.GetError());
return false;
}
text::Printer printer(&fout);
for (const auto& entry : id_map) {
const ResourceName& name = entry.first;
const ResourceId& id = entry.second;
printer.Print(name.to_string());
printer.Print(" = ");
printer.Println(id.to_string());
}
fout.Flush();
if (fout.HadError()) {
diag->Error(DiagMessage(id_map_path) << "failed writing to file: " << fout.GetError());
return false;
}
return true;
}
static bool LoadStableIdMap(IDiagnostics* diag, const std::string& path,
std::unordered_map<ResourceName, ResourceId>* out_id_map) {
std::string content;
if (!android::base::ReadFileToString(path, &content, true /*follow_symlinks*/)) {
diag->Error(DiagMessage(path) << "failed reading stable ID file");
return false;
}
out_id_map->clear();
size_t line_no = 0;
for (StringPiece line : util::Tokenize(content, '\n')) {
line_no++;
line = util::TrimWhitespace(line);
if (line.empty()) {
continue;
}
auto iter = std::find(line.begin(), line.end(), '=');
if (iter == line.end()) {
diag->Error(DiagMessage(Source(path, line_no)) << "missing '='");
return false;
}
ResourceNameRef name;
StringPiece res_name_str =
util::TrimWhitespace(line.substr(0, std::distance(line.begin(), iter)));
if (!ResourceUtils::ParseResourceName(res_name_str, &name)) {
diag->Error(DiagMessage(Source(path, line_no)) << "invalid resource name '" << res_name_str
<< "'");
return false;
}
const size_t res_id_start_idx = std::distance(line.begin(), iter) + 1;
const size_t res_id_str_len = line.size() - res_id_start_idx;
StringPiece res_id_str = util::TrimWhitespace(line.substr(res_id_start_idx, res_id_str_len));
Maybe<ResourceId> maybe_id = ResourceUtils::ParseResourceId(res_id_str);
if (!maybe_id) {
diag->Error(DiagMessage(Source(path, line_no)) << "invalid resource ID '" << res_id_str
<< "'");
return false;
}
(*out_id_map)[name.ToResourceName()] = maybe_id.value();
}
return true;
}
static android::ApkAssetsCookie FindFrameworkAssetManagerCookie(
const android::AssetManager2& assets) {
using namespace android;
// Find the system package (0x01). AAPT always generates attributes with the type 0x01, so
// we're looking for the first attribute resource in the system package.
Res_value val{};
ResTable_config config{};
uint32_t type_spec_flags;
ApkAssetsCookie idx = assets.GetResource(0x01010000, true /** may_be_bag */,
0 /** density_override */, &val, &config,
&type_spec_flags);
return idx;
}
class Linker {
public:
Linker(LinkContext* context, const LinkOptions& options)
: options_(options),
context_(context),
final_table_(),
file_collection_(util::make_unique<io::FileCollection>()) {
}
void ExtractCompileSdkVersions(android::AssetManager2* assets) {
using namespace android;
android::ApkAssetsCookie cookie = FindFrameworkAssetManagerCookie(*assets);
if (cookie == android::kInvalidCookie) {
// No Framework assets loaded. Not a failure.
return;
}
std::unique_ptr<Asset> manifest(
assets->OpenNonAsset(kAndroidManifestPath, cookie, Asset::AccessMode::ACCESS_BUFFER));
if (manifest == nullptr) {
// No errors.
return;
}
std::string error;
std::unique_ptr<xml::XmlResource> manifest_xml =
xml::Inflate(manifest->getBuffer(true /*wordAligned*/), manifest->getLength(), &error);
if (manifest_xml == nullptr) {
// No errors.
return;
}
if (!options_.manifest_fixer_options.compile_sdk_version) {
xml::Attribute* attr = manifest_xml->root->FindAttribute(xml::kSchemaAndroid, "versionCode");
if (attr != nullptr) {
Maybe<std::string>& compile_sdk_version = options_.manifest_fixer_options.compile_sdk_version;
if (BinaryPrimitive* prim = ValueCast<BinaryPrimitive>(attr->compiled_value.get())) {
switch (prim->value.dataType) {
case Res_value::TYPE_INT_DEC:
compile_sdk_version = StringPrintf("%" PRId32, static_cast<int32_t>(prim->value.data));
break;
case Res_value::TYPE_INT_HEX:
compile_sdk_version = StringPrintf("%" PRIx32, prim->value.data);
break;
default:
break;
}
} else if (String* str = ValueCast<String>(attr->compiled_value.get())) {
compile_sdk_version = *str->value;
} else {
compile_sdk_version = attr->value;
}
}
}
if (!options_.manifest_fixer_options.compile_sdk_version_codename) {
xml::Attribute* attr = manifest_xml->root->FindAttribute(xml::kSchemaAndroid, "versionName");
if (attr != nullptr) {
Maybe<std::string>& compile_sdk_version_codename =
options_.manifest_fixer_options.compile_sdk_version_codename;
if (String* str = ValueCast<String>(attr->compiled_value.get())) {
compile_sdk_version_codename = *str->value;
} else {
compile_sdk_version_codename = attr->value;
}
}
}
}
// Creates a SymbolTable that loads symbols from the various APKs.
// Pre-condition: context_->GetCompilationPackage() needs to be set.
bool LoadSymbolsFromIncludePaths() {
TRACE_NAME("LoadSymbolsFromIncludePaths: #" + std::to_string(options_.include_paths.size()));
auto asset_source = util::make_unique<AssetManagerSymbolSource>();
for (const std::string& path : options_.include_paths) {
if (context_->IsVerbose()) {
context_->GetDiagnostics()->Note(DiagMessage() << "including " << path);
}
std::string error;
auto zip_collection = io::ZipFileCollection::Create(path, &error);
if (zip_collection == nullptr) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed to open APK: " << error);
return false;
}
if (zip_collection->FindFile(kProtoResourceTablePath) != nullptr) {
// Load this as a static library include.
std::unique_ptr<LoadedApk> static_apk = LoadedApk::LoadProtoApkFromFileCollection(
Source(path), std::move(zip_collection), context_->GetDiagnostics());
if (static_apk == nullptr) {
return false;
}
if (context_->GetPackageType() != PackageType::kStaticLib) {
// Can't include static libraries when not building a static library (they have no IDs
// assigned).
context_->GetDiagnostics()->Error(
DiagMessage(path) << "can't include static library when not building a static lib");
return false;
}
ResourceTable* table = static_apk->GetResourceTable();
// If we are using --no-static-lib-packages, we need to rename the package of this table to
// our compilation package.
if (options_.no_static_lib_packages) {
// Since package names can differ, and multiple packages can exist in a ResourceTable,
// we place the requirement that all static libraries are built with the package
// ID 0x7f. So if one is not found, this is an error.
if (ResourceTablePackage* pkg = table->FindPackageById(kAppPackageId)) {
pkg->name = context_->GetCompilationPackage();
} else {
context_->GetDiagnostics()->Error(DiagMessage(path)
<< "no package with ID 0x7f found in static library");
return false;
}
}
context_->GetExternalSymbols()->AppendSource(
util::make_unique<ResourceTableSymbolSource>(table));
static_library_includes_.push_back(std::move(static_apk));
} else {
if (!asset_source->AddAssetPath(path)) {
context_->GetDiagnostics()->Error(DiagMessage()
<< "failed to load include path " << path);
return false;
}
}
}
// Capture the shared libraries so that the final resource table can be properly flattened
// with support for shared libraries.
for (auto& entry : asset_source->GetAssignedPackageIds()) {
if (entry.first == kAppPackageId) {
// Capture the included base feature package.
included_feature_base_ = entry.second;
} else if (entry.first == kFrameworkPackageId) {
// Try to embed which version of the framework we're compiling against.
// First check if we should use compileSdkVersion at all. Otherwise compilation may fail
// when linking our synthesized 'android:compileSdkVersion' attribute.
std::unique_ptr<SymbolTable::Symbol> symbol = asset_source->FindByName(
ResourceName("android", ResourceType::kAttr, "compileSdkVersion"));
if (symbol != nullptr && symbol->is_public) {
// The symbol is present and public, extract the android:versionName and
// android:versionCode from the framework AndroidManifest.xml.
ExtractCompileSdkVersions(asset_source->GetAssetManager());
}
} else if (asset_source->IsPackageDynamic(entry.first)) {
final_table_.included_packages_[entry.first] = entry.second;
}
}
context_->GetExternalSymbols()->AppendSource(std::move(asset_source));
return true;
}
Maybe<AppInfo> ExtractAppInfoFromManifest(xml::XmlResource* xml_res, IDiagnostics* diag) {
TRACE_CALL();
// Make sure the first element is <manifest> with package attribute.
xml::Element* manifest_el = xml::FindRootElement(xml_res->root.get());
if (manifest_el == nullptr) {
return {};
}
AppInfo app_info;
if (!manifest_el->namespace_uri.empty() || manifest_el->name != "manifest") {
diag->Error(DiagMessage(xml_res->file.source) << "root tag must be <manifest>");
return {};
}
xml::Attribute* package_attr = manifest_el->FindAttribute({}, "package");
if (!package_attr) {
diag->Error(DiagMessage(xml_res->file.source)
<< "<manifest> must have a 'package' attribute");
return {};
}
app_info.package = package_attr->value;
if (xml::Attribute* version_code_attr =
manifest_el->FindAttribute(xml::kSchemaAndroid, "versionCode")) {
Maybe<uint32_t> maybe_code = ResourceUtils::ParseInt(version_code_attr->value);
if (!maybe_code) {
diag->Error(DiagMessage(xml_res->file.source.WithLine(manifest_el->line_number))
<< "invalid android:versionCode '" << version_code_attr->value << "'");
return {};
}
app_info.version_code = maybe_code.value();
}
if (xml::Attribute* version_code_major_attr =
manifest_el->FindAttribute(xml::kSchemaAndroid, "versionCodeMajor")) {
Maybe<uint32_t> maybe_code = ResourceUtils::ParseInt(version_code_major_attr->value);
if (!maybe_code) {
diag->Error(DiagMessage(xml_res->file.source.WithLine(manifest_el->line_number))
<< "invalid android:versionCodeMajor '"
<< version_code_major_attr->value << "'");
return {};
}
app_info.version_code_major = maybe_code.value();
}
if (xml::Attribute* revision_code_attr =
manifest_el->FindAttribute(xml::kSchemaAndroid, "revisionCode")) {
Maybe<uint32_t> maybe_code = ResourceUtils::ParseInt(revision_code_attr->value);
if (!maybe_code) {
diag->Error(DiagMessage(xml_res->file.source.WithLine(manifest_el->line_number))
<< "invalid android:revisionCode '" << revision_code_attr->value << "'");
return {};
}
app_info.revision_code = maybe_code.value();
}
if (xml::Attribute* split_name_attr = manifest_el->FindAttribute({}, "split")) {
if (!split_name_attr->value.empty()) {
app_info.split_name = split_name_attr->value;
}
}
if (xml::Element* uses_sdk_el = manifest_el->FindChild({}, "uses-sdk")) {
if (xml::Attribute* min_sdk =
uses_sdk_el->FindAttribute(xml::kSchemaAndroid, "minSdkVersion")) {
app_info.min_sdk_version = ResourceUtils::ParseSdkVersion(min_sdk->value);
}
}
return app_info;
}
// Precondition: ResourceTable doesn't have any IDs assigned yet, nor is it linked.
// Postcondition: ResourceTable has only one package left. All others are
// stripped, or there is an error and false is returned.
bool VerifyNoExternalPackages() {
auto is_ext_package_func = [&](const std::unique_ptr<ResourceTablePackage>& pkg) -> bool {
return context_->GetCompilationPackage() != pkg->name || !pkg->id ||
pkg->id.value() != context_->GetPackageId();
};
bool error = false;
for (const auto& package : final_table_.packages) {
if (is_ext_package_func(package)) {
// We have a package that is not related to the one we're building!
for (const auto& type : package->types) {
for (const auto& entry : type->entries) {
ResourceNameRef res_name(package->name, type->type, entry->name);
for (const auto& config_value : entry->values) {
// Special case the occurrence of an ID that is being generated
// for the 'android' package. This is due to legacy reasons.
if (ValueCast<Id>(config_value->value.get()) && package->name == "android") {
context_->GetDiagnostics()->Warn(DiagMessage(config_value->value->GetSource())
<< "generated id '" << res_name
<< "' for external package '" << package->name
<< "'");
} else {
context_->GetDiagnostics()->Error(DiagMessage(config_value->value->GetSource())
<< "defined resource '" << res_name
<< "' for external package '" << package->name
<< "'");
error = true;
}
}
}
}
}
}
auto new_end_iter = std::remove_if(final_table_.packages.begin(), final_table_.packages.end(),
is_ext_package_func);
final_table_.packages.erase(new_end_iter, final_table_.packages.end());
return !error;
}
/**
* Returns true if no IDs have been set, false otherwise.
*/
bool VerifyNoIdsSet() {
for (const auto& package : final_table_.packages) {
for (const auto& type : package->types) {
if (type->id) {
context_->GetDiagnostics()->Error(DiagMessage() << "type " << type->type << " has ID "
<< StringPrintf("%02x", type->id.value())
<< " assigned");
return false;
}
for (const auto& entry : type->entries) {
if (entry->id) {
ResourceNameRef res_name(package->name, type->type, entry->name);
context_->GetDiagnostics()->Error(
DiagMessage() << "entry " << res_name << " has ID "
<< StringPrintf("%02x", entry->id.value()) << " assigned");
return false;
}
}
}
}
return true;
}
std::unique_ptr<IArchiveWriter> MakeArchiveWriter(const StringPiece& out) {
if (options_.output_to_directory) {
return CreateDirectoryArchiveWriter(context_->GetDiagnostics(), out);
} else {
return CreateZipFileArchiveWriter(context_->GetDiagnostics(), out);
}
}
bool FlattenTable(ResourceTable* table, OutputFormat format, IArchiveWriter* writer) {
TRACE_CALL();
switch (format) {
case OutputFormat::kApk: {
BigBuffer buffer(1024);
TableFlattener flattener(options_.table_flattener_options, &buffer);
if (!flattener.Consume(context_, table)) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed to flatten resource table");
return false;
}
io::BigBufferInputStream input_stream(&buffer);
return io::CopyInputStreamToArchive(context_, &input_stream, kApkResourceTablePath,
ArchiveEntry::kAlign, writer);
} break;
case OutputFormat::kProto: {
pb::ResourceTable pb_table;
SerializeTableToPb(*table, &pb_table, context_->GetDiagnostics());
return io::CopyProtoToArchive(context_, &pb_table, kProtoResourceTablePath,
ArchiveEntry::kCompress, writer);
} break;
}
return false;
}
bool WriteJavaFile(ResourceTable* table, const StringPiece& package_name_to_generate,
const StringPiece& out_package, const JavaClassGeneratorOptions& java_options,
const Maybe<std::string>& out_text_symbols_path = {}) {
if (!options_.generate_java_class_path && !out_text_symbols_path) {
return true;
}
std::string out_path;
std::unique_ptr<io::FileOutputStream> fout;
if (options_.generate_java_class_path) {
out_path = options_.generate_java_class_path.value();
file::AppendPath(&out_path, file::PackageToPath(out_package));
if (!file::mkdirs(out_path)) {
context_->GetDiagnostics()->Error(DiagMessage()
<< "failed to create directory '" << out_path << "'");
return false;
}
file::AppendPath(&out_path, "R.java");
fout = util::make_unique<io::FileOutputStream>(out_path);
if (fout->HadError()) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed writing to '" << out_path
<< "': " << fout->GetError());
return false;
}
}
std::unique_ptr<io::FileOutputStream> fout_text;
if (out_text_symbols_path) {
fout_text = util::make_unique<io::FileOutputStream>(out_text_symbols_path.value());
if (fout_text->HadError()) {
context_->GetDiagnostics()->Error(DiagMessage()
<< "failed writing to '" << out_text_symbols_path.value()
<< "': " << fout_text->GetError());
return false;
}
}
JavaClassGenerator generator(context_, table, java_options);
if (!generator.Generate(package_name_to_generate, out_package, fout.get(), fout_text.get())) {
context_->GetDiagnostics()->Error(DiagMessage(out_path) << generator.GetError());
return false;
}
return true;
}
bool GenerateJavaClasses() {
TRACE_CALL();
// The set of packages whose R class to call in the main classes onResourcesLoaded callback.
std::vector<std::string> packages_to_callback;
JavaClassGeneratorOptions template_options;
template_options.types = JavaClassGeneratorOptions::SymbolTypes::kAll;
template_options.javadoc_annotations = options_.javadoc_annotations;
if (context_->GetPackageType() == PackageType::kStaticLib || options_.generate_non_final_ids) {
template_options.use_final = false;
}
if (context_->GetPackageType() == PackageType::kSharedLib) {
template_options.use_final = false;
template_options.rewrite_callback_options = OnResourcesLoadedCallbackOptions{};
}
const StringPiece actual_package = context_->GetCompilationPackage();
StringPiece output_package = context_->GetCompilationPackage();
if (options_.custom_java_package) {
// Override the output java package to the custom one.
output_package = options_.custom_java_package.value();
}
// Generate the private symbols if required.
if (options_.private_symbols) {
packages_to_callback.push_back(options_.private_symbols.value());
// If we defined a private symbols package, we only emit Public symbols
// to the original package, and private and public symbols to the private package.
JavaClassGeneratorOptions options = template_options;
options.types = JavaClassGeneratorOptions::SymbolTypes::kPublicPrivate;
if (!WriteJavaFile(&final_table_, actual_package, options_.private_symbols.value(),
options)) {
return false;
}
}
// Generate copies of the original package R class but with different package names.
// This is to support non-namespaced builds.
for (const std::string& extra_package : options_.extra_java_packages) {
packages_to_callback.push_back(extra_package);
JavaClassGeneratorOptions options = template_options;
options.types = JavaClassGeneratorOptions::SymbolTypes::kAll;
if (!WriteJavaFile(&final_table_, actual_package, extra_package, options)) {
return false;
}
}
// Generate R classes for each package that was merged (static library).
// Use the actual package's resources only.
for (const std::string& package : table_merger_->merged_packages()) {
packages_to_callback.push_back(package);
JavaClassGeneratorOptions options = template_options;
options.types = JavaClassGeneratorOptions::SymbolTypes::kAll;
if (!WriteJavaFile(&final_table_, package, package, options)) {
return false;
}
}
// Generate the main public R class.
JavaClassGeneratorOptions options = template_options;
// Only generate public symbols if we have a private package.
if (options_.private_symbols) {
options.types = JavaClassGeneratorOptions::SymbolTypes::kPublic;
}
if (options.rewrite_callback_options) {
options.rewrite_callback_options.value().packages_to_callback =
std::move(packages_to_callback);
}
if (!WriteJavaFile(&final_table_, actual_package, output_package, options,
options_.generate_text_symbols_path)) {
return false;
}
return true;
}
bool WriteManifestJavaFile(xml::XmlResource* manifest_xml) {
TRACE_CALL();
if (!options_.generate_java_class_path) {
return true;
}
std::unique_ptr<ClassDefinition> manifest_class =
GenerateManifestClass(context_->GetDiagnostics(), manifest_xml);
if (!manifest_class) {
// Something bad happened, but we already logged it, so exit.
return false;
}
if (manifest_class->empty()) {
// Empty Manifest class, no need to generate it.
return true;
}
// Add any JavaDoc annotations to the generated class.
for (const std::string& annotation : options_.javadoc_annotations) {
std::string proper_annotation = "@";
proper_annotation += annotation;
manifest_class->GetCommentBuilder()->AppendComment(proper_annotation);
}
const std::string package_utf8 =
options_.custom_java_package.value_or_default(context_->GetCompilationPackage());
std::string out_path = options_.generate_java_class_path.value();
file::AppendPath(&out_path, file::PackageToPath(package_utf8));
if (!file::mkdirs(out_path)) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed to create directory '" << out_path
<< "'");
return false;
}
file::AppendPath(&out_path, "Manifest.java");
io::FileOutputStream fout(out_path);
if (fout.HadError()) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed to open '" << out_path
<< "': " << fout.GetError());
return false;
}
ClassDefinition::WriteJavaFile(manifest_class.get(), package_utf8, true, &fout);
fout.Flush();
if (fout.HadError()) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed writing to '" << out_path
<< "': " << fout.GetError());
return false;
}
return true;
}
bool WriteProguardFile(const Maybe<std::string>& out, const proguard::KeepSet& keep_set) {
TRACE_CALL();
if (!out) {
return true;
}
const std::string& out_path = out.value();
io::FileOutputStream fout(out_path);
if (fout.HadError()) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed to open '" << out_path
<< "': " << fout.GetError());
return false;
}
proguard::WriteKeepSet(keep_set, &fout, options_.generate_minimal_proguard_rules);
fout.Flush();
if (fout.HadError()) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed writing to '" << out_path
<< "': " << fout.GetError());
return false;
}
return true;
}
bool MergeStaticLibrary(const std::string& input, bool override) {
TRACE_CALL();
if (context_->IsVerbose()) {
context_->GetDiagnostics()->Note(DiagMessage() << "merging static library " << input);
}
std::unique_ptr<LoadedApk> apk = LoadedApk::LoadApkFromPath(input, context_->GetDiagnostics());
if (apk == nullptr) {
context_->GetDiagnostics()->Error(DiagMessage(input) << "invalid static library");
return false;
}
ResourceTable* table = apk->GetResourceTable();
ResourceTablePackage* pkg = table->FindPackageById(kAppPackageId);
if (!pkg) {
context_->GetDiagnostics()->Error(DiagMessage(input) << "static library has no package");
return false;
}
bool result;
if (options_.no_static_lib_packages) {
// Merge all resources as if they were in the compilation package. This is the old behavior
// of aapt.
// Add the package to the set of --extra-packages so we emit an R.java for each library
// package.
if (!pkg->name.empty()) {
options_.extra_java_packages.insert(pkg->name);
}
// Clear the package name, so as to make the resources look like they are coming from the
// local package.
pkg->name = "";
result = table_merger_->Merge(Source(input), table, override);
} else {
// This is the proper way to merge libraries, where the package name is
// preserved and resource names are mangled.
result = table_merger_->MergeAndMangle(Source(input), pkg->name, table);
}
if (!result) {
return false;
}
// Make sure to move the collection into the set of IFileCollections.
merged_apks_.push_back(std::move(apk));
return true;
}
bool MergeExportedSymbols(const Source& source,
const std::vector<SourcedResourceName>& exported_symbols) {
TRACE_CALL();
// Add the exports of this file to the table.
for (const SourcedResourceName& exported_symbol : exported_symbols) {
ResourceName res_name = exported_symbol.name;
if (res_name.package.empty()) {
res_name.package = context_->GetCompilationPackage();
}
Maybe<ResourceName> mangled_name = context_->GetNameMangler()->MangleName(res_name);
if (mangled_name) {
res_name = mangled_name.value();
}
std::unique_ptr<Id> id = util::make_unique<Id>();
id->SetSource(source.WithLine(exported_symbol.line));
bool result =
final_table_.AddResourceMangled(res_name, ConfigDescription::DefaultConfig(),
std::string(), std::move(id), context_->GetDiagnostics());
if (!result) {
return false;
}
}
return true;
}
bool MergeCompiledFile(const ResourceFile& compiled_file, io::IFile* file, bool override) {
TRACE_CALL();
if (context_->IsVerbose()) {
context_->GetDiagnostics()->Note(DiagMessage()
<< "merging '" << compiled_file.name
<< "' from compiled file " << compiled_file.source);
}
if (!table_merger_->MergeFile(compiled_file, override, file)) {
return false;
}
return MergeExportedSymbols(compiled_file.source, compiled_file.exported_symbols);
}
// Takes a path to load as a ZIP file and merges the files within into the master ResourceTable.
// If override is true, conflicting resources are allowed to override each other, in order of last
// seen.
// An io::IFileCollection is created from the ZIP file and added to the set of
// io::IFileCollections that are open.
bool MergeArchive(const std::string& input, bool override) {
TRACE_CALL();
if (context_->IsVerbose()) {
context_->GetDiagnostics()->Note(DiagMessage() << "merging archive " << input);
}
std::string error_str;
std::unique_ptr<io::ZipFileCollection> collection =
io::ZipFileCollection::Create(input, &error_str);
if (!collection) {
context_->GetDiagnostics()->Error(DiagMessage(input) << error_str);
return false;
}
bool error = false;
for (auto iter = collection->Iterator(); iter->HasNext();) {
if (!MergeFile(iter->Next(), override)) {
error = true;
}
}
// Make sure to move the collection into the set of IFileCollections.
collections_.push_back(std::move(collection));
return !error;
}
// Takes a path to load and merge into the master ResourceTable. If override is true,
// conflicting resources are allowed to override each other, in order of last seen.
// If the file path ends with .flata, .jar, .jack, or .zip the file is treated
// as ZIP archive and the files within are merged individually.
// Otherwise the file is processed on its own.
bool MergePath(const std::string& path, bool override) {
if (util::EndsWith(path, ".flata") || util::EndsWith(path, ".jar") ||
util::EndsWith(path, ".jack") || util::EndsWith(path, ".zip")) {
return MergeArchive(path, override);
} else if (util::EndsWith(path, ".apk")) {
return MergeStaticLibrary(path, override);
}
io::IFile* file = file_collection_->InsertFile(path);
return MergeFile(file, override);
}
// Takes an AAPT Container file (.apc/.flat) to load and merge into the master ResourceTable.
// If override is true, conflicting resources are allowed to override each other, in order of last
// seen.
// All other file types are ignored. This is because these files could be coming from a zip,
// where we could have other files like classes.dex.
bool MergeFile(io::IFile* file, bool override) {
TRACE_CALL();
const Source& src = file->GetSource();
if (util::EndsWith(src.path, ".xml") || util::EndsWith(src.path, ".png")) {
// Since AAPT compiles these file types and appends .flat to them, seeing
// their raw extensions is a sign that they weren't compiled.
const StringPiece file_type = util::EndsWith(src.path, ".xml") ? "XML" : "PNG";
context_->GetDiagnostics()->Error(DiagMessage(src) << "uncompiled " << file_type
<< " file passed as argument. Must be "
"compiled first into .flat file.");
return false;
} else if (!util::EndsWith(src.path, ".apc") && !util::EndsWith(src.path, ".flat")) {
if (context_->IsVerbose()) {
context_->GetDiagnostics()->Warn(DiagMessage(src) << "ignoring unrecognized file");
return true;
}
}
std::unique_ptr<io::InputStream> input_stream = file->OpenInputStream();
if (input_stream == nullptr) {
context_->GetDiagnostics()->Error(DiagMessage(src) << "failed to open file");
return false;
}
if (input_stream->HadError()) {
context_->GetDiagnostics()->Error(DiagMessage(src)
<< "failed to open file: " << input_stream->GetError());
return false;
}
ContainerReaderEntry* entry;
ContainerReader reader(input_stream.get());
if (reader.HadError()) {
context_->GetDiagnostics()->Error(DiagMessage(src)
<< "failed to read file: " << reader.GetError());
return false;
}
while ((entry = reader.Next()) != nullptr) {
if (entry->Type() == ContainerEntryType::kResTable) {
TRACE_NAME(std::string("Process ResTable:") + file->GetSource().path);
pb::ResourceTable pb_table;
if (!entry->GetResTable(&pb_table)) {
context_->GetDiagnostics()->Error(DiagMessage(src) << "failed to read resource table: "
<< entry->GetError());
return false;
}
ResourceTable table;
std::string error;
if (!DeserializeTableFromPb(pb_table, nullptr /*files*/, &table, &error)) {
context_->GetDiagnostics()->Error(DiagMessage(src)
<< "failed to deserialize resource table: " << error);
return false;
}
if (!table_merger_->Merge(src, &table, override)) {
context_->GetDiagnostics()->Error(DiagMessage(src) << "failed to merge resource table");
return false;
}
} else if (entry->Type() == ContainerEntryType::kResFile) {
TRACE_NAME(std::string("Process ResFile") + file->GetSource().path);
pb::internal::CompiledFile pb_compiled_file;
off64_t offset;
size_t len;
if (!entry->GetResFileOffsets(&pb_compiled_file, &offset, &len)) {
context_->GetDiagnostics()->Error(DiagMessage(src) << "failed to get resource file: "
<< entry->GetError());
return false;
}
ResourceFile resource_file;
std::string error;
if (!DeserializeCompiledFileFromPb(pb_compiled_file, &resource_file, &error)) {
context_->GetDiagnostics()->Error(DiagMessage(src)
<< "failed to read compiled header: " << error);
return false;
}
if (!MergeCompiledFile(resource_file, file->CreateFileSegment(offset, len), override)) {
return false;
}
}
}
return true;
}
bool CopyAssetsDirsToApk(IArchiveWriter* writer) {
std::map<std::string, std::unique_ptr<io::RegularFile>> merged_assets;
for (const std::string& assets_dir : options_.assets_dirs) {
Maybe<std::vector<std::string>> files =
file::FindFiles(assets_dir, context_->GetDiagnostics(), nullptr);
if (!files) {
return false;
}
for (const std::string& file : files.value()) {
std::string full_key = "assets/" + file;
std::string full_path = assets_dir;
file::AppendPath(&full_path, file);
auto iter = merged_assets.find(full_key);
if (iter == merged_assets.end()) {
merged_assets.emplace(std::move(full_key),
util::make_unique<io::RegularFile>(Source(std::move(full_path))));
} else if (context_->IsVerbose()) {
context_->GetDiagnostics()->Warn(DiagMessage(iter->second->GetSource())
<< "asset file overrides '" << full_path << "'");
}
}
}
for (auto& entry : merged_assets) {
uint32_t compression_flags = ArchiveEntry::kCompress;
std::string extension = file::GetExtension(entry.first).to_string();
if (options_.do_not_compress_anything
|| options_.extensions_to_not_compress.count(extension) > 0
|| (options_.regex_to_not_compress
&& std::regex_search(extension, options_.regex_to_not_compress.value()))) {
compression_flags = 0u;
}
if (!io::CopyFileToArchive(context_, entry.second.get(), entry.first, compression_flags,
writer)) {
return false;
}
}
return true;
}
// Writes the AndroidManifest, ResourceTable, and all XML files referenced by the ResourceTable
// to the IArchiveWriter.
bool WriteApk(IArchiveWriter* writer, proguard::KeepSet* keep_set, xml::XmlResource* manifest,
ResourceTable* table) {
TRACE_CALL();
const bool keep_raw_values = (context_->GetPackageType() == PackageType::kStaticLib)
|| options_.keep_raw_values;
bool result = FlattenXml(context_, *manifest, kAndroidManifestPath, keep_raw_values,
true /*utf16*/, options_.output_format, writer);
if (!result) {
return false;
}
ResourceFileFlattenerOptions file_flattener_options;
file_flattener_options.keep_raw_values = keep_raw_values;
file_flattener_options.do_not_compress_anything = options_.do_not_compress_anything;
file_flattener_options.extensions_to_not_compress = options_.extensions_to_not_compress;
file_flattener_options.regex_to_not_compress = options_.regex_to_not_compress;
file_flattener_options.no_auto_version = options_.no_auto_version;
file_flattener_options.no_version_vectors = options_.no_version_vectors;
file_flattener_options.no_version_transitions = options_.no_version_transitions;
file_flattener_options.no_xml_namespaces = options_.no_xml_namespaces;
file_flattener_options.update_proguard_spec =
static_cast<bool>(options_.generate_proguard_rules_path);
file_flattener_options.output_format = options_.output_format;
ResourceFileFlattener file_flattener(file_flattener_options, context_, keep_set);
if (!file_flattener.Flatten(table, writer)) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed linking file resources");
return false;
}
// Hack to fix b/68820737.
// We need to modify the ResourceTable's package name, but that should NOT affect
// anything else being generated, which includes the Java classes.
// If required, the package name is modifed before flattening, and then modified back
// to its original name.
ResourceTablePackage* package_to_rewrite = nullptr;
// Pre-O, the platform treats negative resource IDs [those with a package ID of 0x80
// or higher] as invalid. In order to work around this limitation, we allow the use
// of traditionally reserved resource IDs [those between 0x02 and 0x7E]. Allow the
// definition of what a valid "split" package ID is to account for this.
const bool isSplitPackage = (options_.allow_reserved_package_id &&
context_->GetPackageId() != kAppPackageId &&
context_->GetPackageId() != kFrameworkPackageId)
|| (!options_.allow_reserved_package_id && context_->GetPackageId() > kAppPackageId);
if (isSplitPackage &&
included_feature_base_ == make_value(context_->GetCompilationPackage())) {
// The base APK is included, and this is a feature split. If the base package is
// the same as this package, then we are building an old style Android Instant Apps feature
// split and must apply this workaround to avoid requiring namespaces support.
package_to_rewrite = table->FindPackage(context_->GetCompilationPackage());
if (package_to_rewrite != nullptr) {
CHECK_EQ(1u, table->packages.size()) << "can't change name of package when > 1 package";
std::string new_package_name =
StringPrintf("%s.%s", package_to_rewrite->name.c_str(),
app_info_.split_name.value_or_default("feature").c_str());
if (context_->IsVerbose()) {
context_->GetDiagnostics()->Note(
DiagMessage() << "rewriting resource package name for feature split to '"
<< new_package_name << "'");
}
package_to_rewrite->name = new_package_name;
}
}
bool success = FlattenTable(table, options_.output_format, writer);
if (package_to_rewrite != nullptr) {
// Change the name back.
package_to_rewrite->name = context_->GetCompilationPackage();
if (package_to_rewrite->id) {
table->included_packages_.erase(package_to_rewrite->id.value());
}
}
if (!success) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed to write resource table");
}
return success;
}
int Run(const std::vector<std::string>& input_files) {
TRACE_CALL();
// Load the AndroidManifest.xml
std::unique_ptr<xml::XmlResource> manifest_xml =
LoadXml(options_.manifest_path, context_->GetDiagnostics());
if (!manifest_xml) {
return 1;
}
// First extract the Package name without modifying it (via --rename-manifest-package).
if (Maybe<AppInfo> maybe_app_info =
ExtractAppInfoFromManifest(manifest_xml.get(), context_->GetDiagnostics())) {
const AppInfo& app_info = maybe_app_info.value();
context_->SetCompilationPackage(app_info.package);
}
// Now that the compilation package is set, load the dependencies. This will also extract
// the Android framework's versionCode and versionName, if they exist.
if (!LoadSymbolsFromIncludePaths()) {
return 1;
}
ManifestFixer manifest_fixer(options_.manifest_fixer_options);
if (!manifest_fixer.Consume(context_, manifest_xml.get())) {
return 1;
}
Maybe<AppInfo> maybe_app_info =
ExtractAppInfoFromManifest(manifest_xml.get(), context_->GetDiagnostics());
if (!maybe_app_info) {
return 1;
}
app_info_ = maybe_app_info.value();
context_->SetMinSdkVersion(app_info_.min_sdk_version.value_or_default(0));
context_->SetNameManglerPolicy(NameManglerPolicy{context_->GetCompilationPackage()});
// Override the package ID when it is "android".
if (context_->GetCompilationPackage() == "android") {
context_->SetPackageId(0x01);
// Verify we're building a regular app.
if (context_->GetPackageType() != PackageType::kApp) {
context_->GetDiagnostics()->Error(
DiagMessage() << "package 'android' can only be built as a regular app");
return 1;
}
}
TableMergerOptions table_merger_options;
table_merger_options.auto_add_overlay = options_.auto_add_overlay;
table_merger_options.strict_visibility = options_.strict_visibility;
table_merger_ = util::make_unique<TableMerger>(context_, &final_table_, table_merger_options);
if (context_->IsVerbose()) {
context_->GetDiagnostics()->Note(DiagMessage()
<< StringPrintf("linking package '%s' using package ID %02x",
context_->GetCompilationPackage().data(),
context_->GetPackageId()));
}
// Extract symbols from AndroidManifest.xml, since this isn't merged like the other XML files
// in res/**/*.
{
XmlIdCollector collector;
if (!collector.Consume(context_, manifest_xml.get())) {
return false;
}
if (!MergeExportedSymbols(manifest_xml->file.source, manifest_xml->file.exported_symbols)) {
return false;
}
}
for (const std::string& input : input_files) {
if (!MergePath(input, false)) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed parsing input");
return 1;
}
}
for (const std::string& input : options_.overlay_files) {
if (!MergePath(input, true)) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed parsing overlays");
return 1;
}
}
if (!VerifyNoExternalPackages()) {
return 1;
}
if (context_->GetPackageType() != PackageType::kStaticLib) {
PrivateAttributeMover mover;
if (!mover.Consume(context_, &final_table_)) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed moving private attributes");
return 1;
}
// Assign IDs if we are building a regular app.
IdAssigner id_assigner(&options_.stable_id_map);
if (!id_assigner.Consume(context_, &final_table_)) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed assigning IDs");
return 1;
}
// Now grab each ID and emit it as a file.
if (options_.resource_id_map_path) {
for (auto& package : final_table_.packages) {
for (auto& type : package->types) {
for (auto& entry : type->entries) {
ResourceName name(package->name, type->type, entry->name);
// The IDs are guaranteed to exist.
options_.stable_id_map[std::move(name)] =
ResourceId(package->id.value(), type->id.value(), entry->id.value());
}
}
}
if (!WriteStableIdMapToPath(context_->GetDiagnostics(), options_.stable_id_map,
options_.resource_id_map_path.value())) {
return 1;
}
}
} else {
// Static libs are merged with other apps, and ID collisions are bad, so
// verify that
// no IDs have been set.
if (!VerifyNoIdsSet()) {
return 1;
}
}
// Add the names to mangle based on our source merge earlier.
context_->SetNameManglerPolicy(
NameManglerPolicy{context_->GetCompilationPackage(), table_merger_->merged_packages()});
// Add our table to the symbol table.
context_->GetExternalSymbols()->PrependSource(
util::make_unique<ResourceTableSymbolSource>(&final_table_));
// Workaround for pre-O runtime that would treat negative resource IDs
// (any ID with a package ID > 7f) as invalid. Intercept any ID (PPTTEEEE) with PP > 0x7f
// and type == 'id', and return the ID 0x7fPPEEEE. IDs don't need to be real resources, they
// are just identifiers.
if (context_->GetMinSdkVersion() < SDK_O && context_->GetPackageType() == PackageType::kApp) {
if (context_->IsVerbose()) {
context_->GetDiagnostics()->Note(DiagMessage()
<< "enabling pre-O feature split ID rewriting");
}
context_->GetExternalSymbols()->SetDelegate(
util::make_unique<FeatureSplitSymbolTableDelegate>(context_));
}
// Before we process anything, remove the resources whose default values don't exist.
// We want to force any references to these to fail the build.
if (!options_.no_resource_removal) {
if (!NoDefaultResourceRemover{}.Consume(context_, &final_table_)) {
context_->GetDiagnostics()->Error(DiagMessage()
<< "failed removing resources with no defaults");
return 1;
}
}
ReferenceLinker linker;
if (!linker.Consume(context_, &final_table_)) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed linking references");
return 1;
}
if (context_->GetPackageType() == PackageType::kStaticLib) {
if (!options_.products.empty()) {
context_->GetDiagnostics()->Warn(DiagMessage()
<< "can't select products when building static library");
}
} else {
ProductFilter product_filter(options_.products);
if (!product_filter.Consume(context_, &final_table_)) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed stripping products");
return 1;
}
}
if (!options_.no_auto_version) {
AutoVersioner versioner;
if (!versioner.Consume(context_, &final_table_)) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed versioning styles");
return 1;
}
}
if (context_->GetPackageType() != PackageType::kStaticLib && context_->GetMinSdkVersion() > 0) {
if (context_->IsVerbose()) {
context_->GetDiagnostics()->Note(DiagMessage()
<< "collapsing resource versions for minimum SDK "
<< context_->GetMinSdkVersion());
}
VersionCollapser collapser;
if (!collapser.Consume(context_, &final_table_)) {
return 1;
}
}
if (!options_.exclude_configs_.empty()) {
std::vector<ConfigDescription> excluded_configs;
for (auto& config_string : options_.exclude_configs_) {
TRACE_NAME("ConfigDescription::Parse");
ConfigDescription config_description;
if (!ConfigDescription::Parse(config_string, &config_description)) {
context_->GetDiagnostics()->Error(DiagMessage()
<< "failed to parse --excluded-configs "
<< config_string);
return 1;
}
excluded_configs.push_back(config_description);
}
ResourceExcluder excluder(excluded_configs);
if (!excluder.Consume(context_, &final_table_)) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed excluding configurations");
return 1;
}
}
if (!options_.no_resource_deduping) {
ResourceDeduper deduper;
if (!deduper.Consume(context_, &final_table_)) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed deduping resources");
return 1;
}
}
proguard::KeepSet proguard_keep_set =
proguard::KeepSet(options_.generate_conditional_proguard_rules);
proguard::KeepSet proguard_main_dex_keep_set;
if (context_->GetPackageType() == PackageType::kStaticLib) {
if (options_.table_splitter_options.config_filter != nullptr ||
!options_.table_splitter_options.preferred_densities.empty()) {
context_->GetDiagnostics()->Warn(DiagMessage()
<< "can't strip resources when building static library");
}
} else {
// Adjust the SplitConstraints so that their SDK version is stripped if it is less than or
// equal to the minSdk.
const size_t origConstraintSize = options_.split_constraints.size();
options_.split_constraints =
AdjustSplitConstraintsForMinSdk(context_->GetMinSdkVersion(), options_.split_constraints);
if (origConstraintSize != options_.split_constraints.size()) {
context_->GetDiagnostics()->Warn(DiagMessage()
<< "requested to split resources prior to min sdk of "
<< context_->GetMinSdkVersion());
}
TableSplitter table_splitter(options_.split_constraints, options_.table_splitter_options);
if (!table_splitter.VerifySplitConstraints(context_)) {
return 1;
}
table_splitter.SplitTable(&final_table_);
// Now we need to write out the Split APKs.
auto path_iter = options_.split_paths.begin();
auto split_constraints_iter = options_.split_constraints.begin();
for (std::unique_ptr<ResourceTable>& split_table : table_splitter.splits()) {
if (context_->IsVerbose()) {
context_->GetDiagnostics()->Note(DiagMessage(*path_iter)
<< "generating split with configurations '"
<< util::Joiner(split_constraints_iter->configs, ", ")
<< "'");
}
std::unique_ptr<IArchiveWriter> archive_writer = MakeArchiveWriter(*path_iter);
if (!archive_writer) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed to create archive");
return 1;
}
// Generate an AndroidManifest.xml for each split.
std::unique_ptr<xml::XmlResource> split_manifest =
GenerateSplitManifest(app_info_, *split_constraints_iter);
XmlReferenceLinker linker;
if (!linker.Consume(context_, split_manifest.get())) {
context_->GetDiagnostics()->Error(DiagMessage()
<< "failed to create Split AndroidManifest.xml");
return 1;
}
if (!WriteApk(archive_writer.get(), &proguard_keep_set, split_manifest.get(),
split_table.get())) {
return 1;
}
++path_iter;
++split_constraints_iter;
}
}
// Start writing the base APK.
std::unique_ptr<IArchiveWriter> archive_writer = MakeArchiveWriter(options_.output_path);
if (!archive_writer) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed to create archive");
return 1;
}
bool error = false;
{
// AndroidManifest.xml has no resource name, but the CallSite is built from the name
// (aka, which package the AndroidManifest.xml is coming from).
// So we give it a package name so it can see local resources.
manifest_xml->file.name.package = context_->GetCompilationPackage();
XmlReferenceLinker manifest_linker;
if (manifest_linker.Consume(context_, manifest_xml.get())) {
if (options_.generate_proguard_rules_path &&
!proguard::CollectProguardRulesForManifest(manifest_xml.get(), &proguard_keep_set)) {
error = true;
}
if (options_.generate_main_dex_proguard_rules_path &&
!proguard::CollectProguardRulesForManifest(manifest_xml.get(),
&proguard_main_dex_keep_set, true)) {
error = true;
}
if (options_.generate_java_class_path) {
if (!WriteManifestJavaFile(manifest_xml.get())) {
error = true;
}
}
if (options_.no_xml_namespaces) {
// PackageParser will fail if URIs are removed from
// AndroidManifest.xml.
XmlNamespaceRemover namespace_remover(true /* keepUris */);
if (!namespace_remover.Consume(context_, manifest_xml.get())) {
error = true;
}
}
} else {
error = true;
}
}
if (error) {
context_->GetDiagnostics()->Error(DiagMessage() << "failed processing manifest");
return 1;
}
if (!WriteApk(archive_writer.get(), &proguard_keep_set, manifest_xml.get(), &final_table_)) {
return 1;
}
if (!CopyAssetsDirsToApk(archive_writer.get())) {
return 1;
}
if (options_.generate_java_class_path || options_.generate_text_symbols_path) {
if (!GenerateJavaClasses()) {
return 1;
}
}
if (!WriteProguardFile(options_.generate_proguard_rules_path, proguard_keep_set)) {
return 1;
}
if (!WriteProguardFile(options_.generate_main_dex_proguard_rules_path,
proguard_main_dex_keep_set)) {
return 1;
}
return 0;
}
private:
LinkOptions options_;
LinkContext* context_;
ResourceTable final_table_;
AppInfo app_info_;
std::unique_ptr<TableMerger> table_merger_;
// A pointer to the FileCollection representing the filesystem (not archives).
std::unique_ptr<io::FileCollection> file_collection_;
// A vector of IFileCollections. This is mainly here to retain ownership of the
// collections.
std::vector<std::unique_ptr<io::IFileCollection>> collections_;
// The set of merged APKs. This is mainly here to retain ownership of the APKs.
std::vector<std::unique_ptr<LoadedApk>> merged_apks_;
// The set of included APKs (not merged). This is mainly here to retain ownership of the APKs.
std::vector<std::unique_ptr<LoadedApk>> static_library_includes_;
// The set of shared libraries being used, mapping their assigned package ID to package name.
std::map<size_t, std::string> shared_libs_;
// The package name of the base application, if it is included.
Maybe<std::string> included_feature_base_;
};
int LinkCommand::Action(const std::vector<std::string>& args) {
TRACE_FLUSH(trace_folder_ ? trace_folder_.value() : "", "LinkCommand::Action");
LinkContext context(diag_);
// Expand all argument-files passed into the command line. These start with '@'.
std::vector<std::string> arg_list;
for (const std::string& arg : args) {
if (util::StartsWith(arg, "@")) {
const std::string path = arg.substr(1, arg.size() - 1);
std::string error;
if (!file::AppendArgsFromFile(path, &arg_list, &error)) {
context.GetDiagnostics()->Error(DiagMessage(path) << error);
return 1;
}
} else {
arg_list.push_back(arg);
}
}
// Expand all argument-files passed to -R.
for (const std::string& arg : overlay_arg_list_) {
if (util::StartsWith(arg, "@")) {
const std::string path = arg.substr(1, arg.size() - 1);
std::string error;
if (!file::AppendArgsFromFile(path, &options_.overlay_files, &error)) {
context.GetDiagnostics()->Error(DiagMessage(path) << error);
return 1;
}
} else {
options_.overlay_files.push_back(arg);
}
}
if (verbose_) {
context.SetVerbose(verbose_);
}
if (int{shared_lib_} + int{static_lib_} + int{proto_format_} > 1) {
context.GetDiagnostics()->Error(
DiagMessage()
<< "only one of --shared-lib, --static-lib, or --proto_format can be defined");
return 1;
}
// The default build type.
context.SetPackageType(PackageType::kApp);
context.SetPackageId(kAppPackageId);
if (shared_lib_) {
context.SetPackageType(PackageType::kSharedLib);
context.SetPackageId(0x00);
} else if (static_lib_) {
context.SetPackageType(PackageType::kStaticLib);
options_.output_format = OutputFormat::kProto;
} else if (proto_format_) {
options_.output_format = OutputFormat::kProto;
}
if (package_id_) {
if (context.GetPackageType() != PackageType::kApp) {
context.GetDiagnostics()->Error(
DiagMessage() << "can't specify --package-id when not building a regular app");
return 1;
}
const Maybe<uint32_t> maybe_package_id_int = ResourceUtils::ParseInt(package_id_.value());
if (!maybe_package_id_int) {
context.GetDiagnostics()->Error(DiagMessage() << "package ID '" << package_id_.value()
<< "' is not a valid integer");
return 1;
}
const uint32_t package_id_int = maybe_package_id_int.value();
if (package_id_int > std::numeric_limits<uint8_t>::max()
|| package_id_int == kFrameworkPackageId
|| (!options_.allow_reserved_package_id && package_id_int < kAppPackageId)) {
context.GetDiagnostics()->Error(
DiagMessage() << StringPrintf(
"invalid package ID 0x%02x. Must be in the range 0x7f-0xff.", package_id_int));
return 1;
}
context.SetPackageId(static_cast<uint8_t>(package_id_int));
}
// Populate the set of extra packages for which to generate R.java.
for (std::string& extra_package : extra_java_packages_) {
// A given package can actually be a colon separated list of packages.
for (StringPiece package : util::Split(extra_package, ':')) {
options_.extra_java_packages.insert(package.to_string());
}
}
if (product_list_) {
for (StringPiece product : util::Tokenize(product_list_.value(), ',')) {
if (product != "" && product != "default") {
options_.products.insert(product.to_string());
}
}
}
std::unique_ptr<IConfigFilter> filter;
if (!configs_.empty()) {
filter = ParseConfigFilterParameters(configs_, context.GetDiagnostics());
if (filter == nullptr) {
return 1;
}
options_.table_splitter_options.config_filter = filter.get();
}
if (preferred_density_) {
Maybe<uint16_t> density =
ParseTargetDensityParameter(preferred_density_.value(), context.GetDiagnostics());
if (!density) {
return 1;
}
options_.table_splitter_options.preferred_densities.push_back(density.value());
}
// Parse the split parameters.
for (const std::string& split_arg : split_args_) {
options_.split_paths.push_back({});
options_.split_constraints.push_back({});
if (!ParseSplitParameter(split_arg, context.GetDiagnostics(), &options_.split_paths.back(),
&options_.split_constraints.back())) {
return 1;
}
}
if (context.GetPackageType() != PackageType::kStaticLib && stable_id_file_path_) {
if (!LoadStableIdMap(context.GetDiagnostics(), stable_id_file_path_.value(),
&options_.stable_id_map)) {
return 1;
}
}
if (no_compress_regex) {
std::string regex = no_compress_regex.value();
if (util::StartsWith(regex, "@")) {
const std::string path = regex.substr(1, regex.size() -1);
std::string error;
if (!file::AppendSetArgsFromFile(path, &options_.extensions_to_not_compress, &error)) {
context.GetDiagnostics()->Error(DiagMessage(path) << error);
return 1;
}
} else {
options_.regex_to_not_compress = GetRegularExpression(no_compress_regex.value());
}
}
// Populate some default no-compress extensions that are already compressed.
options_.extensions_to_not_compress.insert(
{".jpg", ".jpeg", ".png", ".gif", ".wav", ".mp2", ".mp3", ".ogg",
".aac", ".mpg", ".mpeg", ".mid", ".midi", ".smf", ".jet", ".rtttl",
".imy", ".xmf", ".mp4", ".m4a", ".m4v", ".3gp", ".3gpp", ".3g2",
".3gpp2", ".amr", ".awb", ".wma", ".wmv", ".webm", ".mkv"});
// Turn off auto versioning for static-libs.
if (context.GetPackageType() == PackageType::kStaticLib) {
options_.no_auto_version = true;
options_.no_version_vectors = true;
options_.no_version_transitions = true;
}
Linker cmd(&context, options_);
return cmd.Run(arg_list);
}
} // namespace aapt