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

 /*
  * 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 "Linker.h"
 #include "Logger.h"
 #include "NameMangler.h"
 #include "Resolver.h"
 #include "ResourceParser.h"
 #include "ResourceTable.h"
 #include "ResourceValues.h"
 #include "StringPiece.h"
 #include "Util.h"

 #include <androidfw/AssetManager.h>
 #include <array>
 #include <bitset>
 #include <iostream>
 #include <map>
 #include <ostream>
 #include <set>
 #include <sstream>
 #include <tuple>
 #include <vector>

 namespace aapt {

 Linker::Args::Args(const ResourceNameRef& r, const SourceLine& s) : referrer(r), source(s) {
 }

 Linker::Linker(const std::shared_ptr<ResourceTable>& table,
                const std::shared_ptr<IResolver>& resolver, const Options& options) :
         mResolver(resolver), mTable(table), mOptions(options), mError(false) {
 }

 bool Linker::linkAndValidate() {
     std::bitset<256> usedTypeIds;
     std::array<std::set<uint16_t>, 256> usedIds;
     usedTypeIds.set(0);

     // Collect which resource IDs are already taken.
     for (auto& type : *mTable) {
         if (type->typeId != ResourceTableType::kUnsetTypeId) {
             // The ID for this type has already been set. We
             // mark this ID as taken so we don't re-assign it
             // later.
             usedTypeIds.set(type->typeId);
         }

         for (auto& entry : type->entries) {
             if (type->typeId != ResourceTableType::kUnsetTypeId &&
                     entry->entryId != ResourceEntry::kUnsetEntryId) {
                 // The ID for this entry has already been set. We
                 // mark this ID as taken so we don't re-assign it
                 // later.
                 usedIds[type->typeId].insert(entry->entryId);
             }
         }
     }

     // Assign resource IDs that are available.
     size_t nextTypeIndex = 0;
     for (auto& type : *mTable) {
         if (type->typeId == ResourceTableType::kUnsetTypeId) {
             while (nextTypeIndex < usedTypeIds.size() && usedTypeIds[nextTypeIndex]) {
                 nextTypeIndex++;
             }
             type->typeId = nextTypeIndex++;
         }

         const auto endEntryIter = std::end(usedIds[type->typeId]);
         auto nextEntryIter = std::begin(usedIds[type->typeId]);
         size_t nextIndex = 0;
         for (auto& entry : type->entries) {
             if (entry->entryId == ResourceTableType::kUnsetTypeId) {
                 while (nextEntryIter != endEntryIter &&
                         nextIndex == *nextEntryIter) {
                     nextIndex++;
                     ++nextEntryIter;
                 }
                 entry->entryId = nextIndex++;
             }
         }
     }

     // Now do reference linking.
     for (auto& type : *mTable) {
         for (auto& entry : type->entries) {
             if (entry->publicStatus.isPublic && entry->values.empty()) {
                 // A public resource has no values. It will not be encoded
                 // properly without a symbol table. This is a unresolved symbol.
                 addUnresolvedSymbol(ResourceNameRef{
                         mTable->getPackage(), type->type, entry->name },
                         entry->publicStatus.source);
                 continue;
             }

             for (auto& valueConfig : entry->values) {
                 // Dispatch to the right method of this linker
                 // based on the value's type.
                 valueConfig.value->accept(*this, Args{
                         ResourceNameRef{ mTable->getPackage(), type->type, entry->name },
                         valueConfig.source
                 });
             }
         }
     }
     return !mError;
 }

 const Linker::ResourceNameToSourceMap& Linker::getUnresolvedReferences() const {
     return mUnresolvedSymbols;
 }

 void Linker::doResolveReference(Reference& reference, const SourceLine& source) {
     Maybe<ResourceId> result = mResolver->findId(reference.name);
     if (!result) {
         addUnresolvedSymbol(reference.name, source);
         return;
     }
     assert(result.value().isValid());

     if (mOptions.linkResourceIds) {
         reference.id = result.value();
     } else {
         reference.id = 0;
     }
 }

 const Attribute* Linker::doResolveAttribute(Reference& attribute, const SourceLine& source) {
     Maybe<IResolver::Entry> result = mResolver->findAttribute(attribute.name);
     if (!result || !result.value().attr) {
         addUnresolvedSymbol(attribute.name, source);
         return nullptr;
     }

     const IResolver::Entry& entry = result.value();
     assert(entry.id.isValid());

     if (mOptions.linkResourceIds) {
         attribute.id = entry.id;
     } else {
         attribute.id = 0;
     }
     return entry.attr;
 }

 void Linker::visit(Reference& reference, ValueVisitorArgs& a) {
     Args& args = static_cast<Args&>(a);

     if (reference.name.entry.empty()) {
         // We can't have a completely bad reference.
         if (!reference.id.isValid()) {
             Logger::error() << "srsly? " << args.referrer << std::endl;
             assert(reference.id.isValid());
         }

         // This reference has no name but has an ID.
         // It is a really bad error to have no name and have the same
         // package ID.
         assert(reference.id.packageId() != mTable->getPackageId());

         // The reference goes outside this package, let it stay as a
         // resource ID because it will not change.
         return;
     }

     doResolveReference(reference, args.source);

     // TODO(adamlesinski): Verify the referencedType is another reference
     // or a compatible primitive.
 }

 void Linker::processAttributeValue(const ResourceNameRef& name, const SourceLine& source,
         const Attribute& attr, std::unique_ptr<Item>& value) {
     std::unique_ptr<Item> convertedValue;
     visitFunc<RawString>(*value, [&](RawString& str) {
         // This is a raw string, so check if it can be converted to anything.
         // We can NOT swap value with the converted value in here, since
         // we called through the original value.

         auto onCreateReference = [&](const ResourceName& name) {
             // We should never get here. All references would have been
             // parsed in the parser phase.
             assert(false);
         };

         convertedValue = ResourceParser::parseItemForAttribute(*str.value, attr,
                                                                onCreateReference);
         if (!convertedValue && attr.typeMask & android::ResTable_map::TYPE_STRING) {
             // Last effort is to parse as a string.
             util::StringBuilder builder;
             builder.append(*str.value);
             if (builder) {
                 convertedValue = util::make_unique<String>(
                         mTable->getValueStringPool().makeRef(builder.str()));
             }
         }
     });

     if (convertedValue) {
         value = std::move(convertedValue);
     }

     // Process this new or old value (it can be a reference!).
     value->accept(*this, Args{ name, source });

     // Flatten the value to see what resource type it is.
     android::Res_value resValue;
     value->flatten(resValue);

     // Always allow references.
     const uint32_t typeMask = attr.typeMask | android::ResTable_map::TYPE_REFERENCE;
     if (!(typeMask & ResourceParser::androidTypeToAttributeTypeMask(resValue.dataType))) {
         Logger::error(source)
                 << *value
                 << " is not compatible with attribute "
                 << attr
                 << "."
                 << std::endl;
         mError = true;
     }
 }

 void Linker::visit(Style& style, ValueVisitorArgs& a) {
     Args& args = static_cast<Args&>(a);

     if (style.parent.name.isValid() || style.parent.id.isValid()) {
         visit(style.parent, a);
     }

     for (Style::Entry& styleEntry : style.entries) {
         const Attribute* attr = doResolveAttribute(styleEntry.key, args.source);
         if (attr) {
             processAttributeValue(args.referrer, args.source, *attr, styleEntry.value);
         }
     }
 }

 void Linker::visit(Attribute& attr, ValueVisitorArgs& a) {
     static constexpr uint32_t kMask = android::ResTable_map::TYPE_ENUM |
             android::ResTable_map::TYPE_FLAGS;
     if (attr.typeMask & kMask) {
         for (auto& symbol : attr.symbols) {
             visit(symbol.symbol, a);
         }
     }
 }

 void Linker::visit(Styleable& styleable, ValueVisitorArgs& a) {
     for (auto& attrRef : styleable.entries) {
         visit(attrRef, a);
     }
 }

 void Linker::visit(Array& array, ValueVisitorArgs& a) {
     Args& args = static_cast<Args&>(a);

     for (auto& item : array.items) {
         item->accept(*this, Args{ args.referrer, args.source });
     }
 }

 void Linker::visit(Plural& plural, ValueVisitorArgs& a) {
     Args& args = static_cast<Args&>(a);

     for (auto& item : plural.values) {
         if (item) {
             item->accept(*this, Args{ args.referrer, args.source });
         }
     }
 }

 void Linker::addUnresolvedSymbol(const ResourceNameRef& name, const SourceLine& source) {
     mUnresolvedSymbols[name.toResourceName()].push_back(source);
 }

 } // namespace aapt
	/*
	* 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 "Linker.h"
	#include "Logger.h"
	#include "NameMangler.h"
	#include "Resolver.h"
	#include "ResourceParser.h"
	#include "ResourceTable.h"
	#include "ResourceValues.h"
	#include "StringPiece.h"
	#include "Util.h"

	#include <androidfw/AssetManager.h>
	#include <array>
	#include <bitset>
	#include <iostream>
	#include <map>
	#include <ostream>
	#include <set>
	#include <sstream>
	#include <tuple>
	#include <vector>

	namespace aapt {

	Linker::Args::Args(const ResourceNameRef& r, const SourceLine& s) : referrer(r), source(s) {
	}

	Linker::Linker(const std::shared_ptr<ResourceTable>& table,
	const std::shared_ptr<IResolver>& resolver, const Options& options) :
	mResolver(resolver), mTable(table), mOptions(options), mError(false) {
	}

	bool Linker::linkAndValidate() {
	std::bitset<256> usedTypeIds;
	std::array<std::set<uint16_t>, 256> usedIds;
	usedTypeIds.set(0);

	// Collect which resource IDs are already taken.
	for (auto& type : *mTable) {
	if (type->typeId != ResourceTableType::kUnsetTypeId) {
	// The ID for this type has already been set. We
	// mark this ID as taken so we don't re-assign it
	// later.
	usedTypeIds.set(type->typeId);
	}

	for (auto& entry : type->entries) {
	if (type->typeId != ResourceTableType::kUnsetTypeId &&
	entry->entryId != ResourceEntry::kUnsetEntryId) {
	// The ID for this entry has already been set. We
	// mark this ID as taken so we don't re-assign it
	// later.
	usedIds[type->typeId].insert(entry->entryId);
	}
	}
	}

	// Assign resource IDs that are available.
	size_t nextTypeIndex = 0;
	for (auto& type : *mTable) {
	if (type->typeId == ResourceTableType::kUnsetTypeId) {
	while (nextTypeIndex < usedTypeIds.size() && usedTypeIds[nextTypeIndex]) {
	nextTypeIndex++;
	}
	type->typeId = nextTypeIndex++;
	}

	const auto endEntryIter = std::end(usedIds[type->typeId]);
	auto nextEntryIter = std::begin(usedIds[type->typeId]);
	size_t nextIndex = 0;
	for (auto& entry : type->entries) {
	if (entry->entryId == ResourceTableType::kUnsetTypeId) {
	while (nextEntryIter != endEntryIter &&
	nextIndex == *nextEntryIter) {
	nextIndex++;
	++nextEntryIter;
	}
	entry->entryId = nextIndex++;
	}
	}
	}

	// Now do reference linking.
	for (auto& type : *mTable) {
	for (auto& entry : type->entries) {
	if (entry->publicStatus.isPublic && entry->values.empty()) {
	// A public resource has no values. It will not be encoded
	// properly without a symbol table. This is a unresolved symbol.
	addUnresolvedSymbol(ResourceNameRef{
	mTable->getPackage(), type->type, entry->name },
	entry->publicStatus.source);
	continue;
	}

	for (auto& valueConfig : entry->values) {
	// Dispatch to the right method of this linker
	// based on the value's type.
	valueConfig.value->accept(*this, Args{
	ResourceNameRef{ mTable->getPackage(), type->type, entry->name },
	valueConfig.source
	});
	}
	}
	}
	return !mError;
	}

	const Linker::ResourceNameToSourceMap& Linker::getUnresolvedReferences() const {
	return mUnresolvedSymbols;
	}

	void Linker::doResolveReference(Reference& reference, const SourceLine& source) {
	Maybe<ResourceId> result = mResolver->findId(reference.name);
	if (!result) {
	addUnresolvedSymbol(reference.name, source);
	return;
	}
	assert(result.value().isValid());

	if (mOptions.linkResourceIds) {
	reference.id = result.value();
	} else {
	reference.id = 0;
	}
	}

	const Attribute* Linker::doResolveAttribute(Reference& attribute, const SourceLine& source) {
	Maybe<IResolver::Entry> result = mResolver->findAttribute(attribute.name);
	if (!result \|\| !result.value().attr) {
	addUnresolvedSymbol(attribute.name, source);
	return nullptr;
	}

	const IResolver::Entry& entry = result.value();
	assert(entry.id.isValid());

	if (mOptions.linkResourceIds) {
	attribute.id = entry.id;
	} else {
	attribute.id = 0;
	}
	return entry.attr;
	}

	void Linker::visit(Reference& reference, ValueVisitorArgs& a) {
	Args& args = static_cast<Args&>(a);

	if (reference.name.entry.empty()) {
	// We can't have a completely bad reference.
	if (!reference.id.isValid()) {
	Logger::error() << "srsly? " << args.referrer << std::endl;
	assert(reference.id.isValid());
	}

	// This reference has no name but has an ID.
	// It is a really bad error to have no name and have the same
	// package ID.
	assert(reference.id.packageId() != mTable->getPackageId());

	// The reference goes outside this package, let it stay as a
	// resource ID because it will not change.
	return;
	}

	doResolveReference(reference, args.source);

	// TODO(adamlesinski): Verify the referencedType is another reference
	// or a compatible primitive.
	}

	void Linker::processAttributeValue(const ResourceNameRef& name, const SourceLine& source,
	const Attribute& attr, std::unique_ptr<Item>& value) {
	std::unique_ptr<Item> convertedValue;
	visitFunc<RawString>(*value, [&](RawString& str) {
	// This is a raw string, so check if it can be converted to anything.
	// We can NOT swap value with the converted value in here, since
	// we called through the original value.

	auto onCreateReference = [&](const ResourceName& name) {
	// We should never get here. All references would have been
	// parsed in the parser phase.
	assert(false);
	};

	convertedValue = ResourceParser::parseItemForAttribute(*str.value, attr,
	onCreateReference);
	if (!convertedValue && attr.typeMask & android::ResTable_map::TYPE_STRING) {
	// Last effort is to parse as a string.
	util::StringBuilder builder;
	builder.append(*str.value);
	if (builder) {
	convertedValue = util::make_unique<String>(
	mTable->getValueStringPool().makeRef(builder.str()));
	}
	}
	});

	if (convertedValue) {
	value = std::move(convertedValue);
	}

	// Process this new or old value (it can be a reference!).
	value->accept(*this, Args{ name, source });

	// Flatten the value to see what resource type it is.
	android::Res_value resValue;
	value->flatten(resValue);

	// Always allow references.
	const uint32_t typeMask = attr.typeMask \| android::ResTable_map::TYPE_REFERENCE;
	if (!(typeMask & ResourceParser::androidTypeToAttributeTypeMask(resValue.dataType))) {
	Logger::error(source)
	<< *value
	<< " is not compatible with attribute "
	<< attr
	<< "."
	<< std::endl;
	mError = true;
	}
	}

	void Linker::visit(Style& style, ValueVisitorArgs& a) {
	Args& args = static_cast<Args&>(a);

	if (style.parent.name.isValid() \|\| style.parent.id.isValid()) {
	visit(style.parent, a);
	}

	for (Style::Entry& styleEntry : style.entries) {
	const Attribute* attr = doResolveAttribute(styleEntry.key, args.source);
	if (attr) {
	processAttributeValue(args.referrer, args.source, *attr, styleEntry.value);
	}
	}
	}

	void Linker::visit(Attribute& attr, ValueVisitorArgs& a) {
	static constexpr uint32_t kMask = android::ResTable_map::TYPE_ENUM \|
	android::ResTable_map::TYPE_FLAGS;
	if (attr.typeMask & kMask) {
	for (auto& symbol : attr.symbols) {
	visit(symbol.symbol, a);
	}
	}
	}

	void Linker::visit(Styleable& styleable, ValueVisitorArgs& a) {
	for (auto& attrRef : styleable.entries) {
	visit(attrRef, a);
	}
	}

	void Linker::visit(Array& array, ValueVisitorArgs& a) {
	Args& args = static_cast<Args&>(a);

	for (auto& item : array.items) {
	item->accept(*this, Args{ args.referrer, args.source });
	}
	}

	void Linker::visit(Plural& plural, ValueVisitorArgs& a) {
	Args& args = static_cast<Args&>(a);

	for (auto& item : plural.values) {
	if (item) {
	item->accept(*this, Args{ args.referrer, args.source });
	}
	}
	}

	void Linker::addUnresolvedSymbol(const ResourceNameRef& name, const SourceLine& source) {
	mUnresolvedSymbols[name.toResourceName()].push_back(source);
	}

	} // namespace aapt