tools/aapt2/configuration/ConfigurationParser.cpp - platform/frameworks/base - Gitiles

 /*
  * Copyright (C) 2017 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 "configuration/ConfigurationParser.h"

 #include <algorithm>
 #include <functional>
 #include <memory>
 #include <utility>

 #include <android-base/logging.h>

 #include "ConfigDescription.h"
 #include "Diagnostics.h"
 #include "util/Util.h"
 #include "xml/XmlActionExecutor.h"
 #include "xml/XmlDom.h"
 #include "xml/XmlUtil.h"

 namespace aapt {

 namespace {

 using ::aapt::configuration::Abi;
 using ::aapt::configuration::AndroidManifest;
 using ::aapt::configuration::AndroidSdk;
 using ::aapt::configuration::Artifact;
 using ::aapt::configuration::Configuration;
 using ::aapt::configuration::GlTexture;
 using ::aapt::configuration::Group;
 using ::aapt::configuration::Locale;
 using ::aapt::util::TrimWhitespace;
 using ::aapt::xml::Element;
 using ::aapt::xml::FindRootElement;
 using ::aapt::xml::NodeCast;
 using ::aapt::xml::XmlActionExecutor;
 using ::aapt::xml::XmlActionExecutorPolicy;
 using ::aapt::xml::XmlNodeAction;

 const std::unordered_map<std::string, Abi> kAbiMap = {
     {"armeabi", Abi::kArmeV6},
     {"armeabi-v7a", Abi::kArmV7a},
     {"arm64-v8a", Abi::kArm64V8a},
     {"x86", Abi::kX86},
     {"x86_64", Abi::kX86_64},
     {"mips", Abi::kMips},
     {"mips64", Abi::kMips64},
     {"universal", Abi::kUniversal},
 };

 constexpr const char* kAaptXmlNs = "http://schemas.android.com/tools/aapt";

 /** A default noop diagnostics context. */
 class NoopDiagnostics : public IDiagnostics {
  public:
   void Log(Level level, DiagMessageActual& actualMsg) override {}
 };
 NoopDiagnostics noop_;

 std::string GetLabel(const Element* element, IDiagnostics* diag) {
   std::string label;
   for (const auto& attr : element->attributes) {
     if (attr.name == "label") {
       label = attr.value;
       break;
     }
   }

   if (label.empty()) {
     diag->Error(DiagMessage() << "No label found for element " << element->name);
   }
   return label;
 }

 /** XML node visitor that removes all of the namespace URIs from the node and all children. */
 class NamespaceVisitor : public xml::Visitor {
  public:
   void Visit(xml::Element* node) override {
     node->namespace_uri.clear();
     VisitChildren(node);
   }
 };

 }  // namespace

 ConfigurationParser::ConfigurationParser(std::string contents)
     : contents_(std::move(contents)),
       diag_(&noop_) {
 }

 Maybe<Configuration> ConfigurationParser::Parse() {
   std::istringstream in(contents_);

   auto doc = xml::Inflate(&in, diag_, Source("config.xml"));
   if (!doc) {
     return {};
   }

   // Strip any namespaces from the XML as the XmlActionExecutor ignores anything with a namespace.
   auto* root = FindRootElement(doc.get());
   if (root == nullptr) {
     diag_->Error(DiagMessage() << "Could not find the root element in the XML document");
     return {};
   }

   std::string& xml_ns = root->namespace_uri;
   if (!xml_ns.empty()) {
     if (xml_ns != kAaptXmlNs) {
       diag_->Error(DiagMessage() << "Unknown namespace found on root element: " << xml_ns);
       return {};
     }

     xml_ns.clear();
     NamespaceVisitor visitor;
     root->Accept(&visitor);
   }

   XmlActionExecutor executor;
   XmlNodeAction& root_action = executor["post-process"];
   XmlNodeAction& artifacts_action = root_action["artifacts"];
   XmlNodeAction& groups_action = root_action["groups"];

   Configuration config;

   // Helper to bind a static method to an action handler in the DOM executor.
   auto bind_handler = [&config](std::function<bool(Configuration*, Element*, IDiagnostics*)> h)
       -> XmlNodeAction::ActionFuncWithDiag {
     return std::bind(h, &config, std::placeholders::_1, std::placeholders::_2);
   };

   // Parse the artifact elements.
   artifacts_action["artifact"].Action(bind_handler(artifact_handler_));
   artifacts_action["artifact-format"].Action(bind_handler(artifact_format_handler_));

   // Parse the different configuration groups.
   groups_action["abi-group"].Action(bind_handler(abi_group_handler_));
   groups_action["screen-density-group"].Action(bind_handler(screen_density_group_handler_));
   groups_action["locale-group"].Action(bind_handler(locale_group_handler_));
   groups_action["android-sdk-group"].Action(bind_handler(android_sdk_group_handler_));
   groups_action["gl-texture-group"].Action(bind_handler(gl_texture_group_handler_));
   groups_action["device-feature-group"].Action(bind_handler(device_feature_group_handler_));

   if (!executor.Execute(XmlActionExecutorPolicy::kNone, diag_, doc.get())) {
     diag_->Error(DiagMessage() << "Could not process XML document");
     return {};
   }

   return {config};
 }

 ConfigurationParser::ActionHandler ConfigurationParser::artifact_handler_ =
     [](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
       Artifact artifact{};
       for (const auto& attr : root_element->attributes) {
         if (attr.name == "name") {
           artifact.name = attr.value;
         } else if (attr.name == "abi-group") {
           artifact.abi_group = {attr.value};
         } else if (attr.name == "screen-density-group") {
           artifact.screen_density_group = {attr.value};
         } else if (attr.name == "locale-group") {
           artifact.locale_group = {attr.value};
         } else if (attr.name == "android-sdk-group") {
           artifact.android_sdk_group = {attr.value};
         } else if (attr.name == "gl-texture-group") {
           artifact.gl_texture_group = {attr.value};
         } else if (attr.name == "device-feature-group") {
           artifact.device_feature_group = {attr.value};
         } else {
           diag->Note(
               DiagMessage() << "Unknown artifact attribute: " << attr.name << " = " << attr.value);
         }
       }
       config->artifacts[artifact.name] = artifact;
       return true;
     };

 ConfigurationParser::ActionHandler ConfigurationParser::artifact_format_handler_ =
     [](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
       for (auto& node : root_element->children) {
         xml::Text* t;
         if ((t = NodeCast<xml::Text>(node.get())) != nullptr) {
           config->artifact_format = TrimWhitespace(t->text).to_string();
           break;
         }
       }
       return true;
     };

 ConfigurationParser::ActionHandler ConfigurationParser::abi_group_handler_ =
     [](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
       std::string label = GetLabel(root_element, diag);
       if (label.empty()) {
         return false;
       }

       auto& group = config->abi_groups[label];
       bool valid = true;

       for (auto* child : root_element->GetChildElements()) {
         if (child->name != "abi") {
           diag->Error(
               DiagMessage() << "Unexpected element in ABI group: " << child->name);
           valid = false;
         } else {
           for (auto& node : child->children) {
             xml::Text* t;
             if ((t = NodeCast<xml::Text>(node.get())) != nullptr) {
               group.push_back(kAbiMap.at(TrimWhitespace(t->text).to_string()));
               break;
             }
           }
         }
       }

       return valid;
     };

 ConfigurationParser::ActionHandler ConfigurationParser::screen_density_group_handler_ =
     [](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
       std::string label = GetLabel(root_element, diag);
       if (label.empty()) {
         return false;
       }

       auto& group = config->screen_density_groups[label];
       bool valid = true;

       for (auto* child : root_element->GetChildElements()) {
         if (child->name != "screen-density") {
           diag->Error(
               DiagMessage() << "Unexpected root_element in screen density group: "
                             << child->name);
           valid = false;
         } else {
           for (auto& node : child->children) {
             xml::Text* t;
             if ((t = NodeCast<xml::Text>(node.get())) != nullptr) {
               ConfigDescription config_descriptor;
               const android::StringPiece& text = TrimWhitespace(t->text);
               if (ConfigDescription::Parse(text, &config_descriptor)) {
                 // Copy the density with the minimum SDK version stripped out.
                 group.push_back(config_descriptor.CopyWithoutSdkVersion());
               } else {
                 diag->Error(
                     DiagMessage() << "Could not parse config descriptor for screen-density: "
                                   << text);
                 valid = false;
               }
               break;
             }
           }
         }
       }

       return valid;
     };

 ConfigurationParser::ActionHandler ConfigurationParser::locale_group_handler_ =
     [](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
       std::string label = GetLabel(root_element, diag);
       if (label.empty()) {
         return false;
       }

       auto& group = config->locale_groups[label];
       bool valid = true;

       for (auto* child : root_element->GetChildElements()) {
         if (child->name != "locale") {
           diag->Error(
               DiagMessage() << "Unexpected root_element in screen density group: "
                             << child->name);
           valid = false;
         } else {
           Locale entry;
           for (const auto& attr : child->attributes) {
             if (attr.name == "lang") {
               entry.lang = {attr.value};
             } else if (attr.name == "region") {
               entry.region = {attr.value};
             } else {
               diag->Warn(DiagMessage() << "Unknown attribute: " << attr.name
                                        << " = " << attr.value);
             }
           }
           group.push_back(entry);
         }
       }

       return valid;
     };

 ConfigurationParser::ActionHandler ConfigurationParser::android_sdk_group_handler_ =
     [](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
       std::string label = GetLabel(root_element, diag);
       if (label.empty()) {
         return false;
       }

       auto& group = config->android_sdk_groups[label];
       bool valid = true;

       for (auto* child : root_element->GetChildElements()) {
         if (child->name != "android-sdk") {
           diag->Error(
               DiagMessage() << "Unexpected root_element in ABI group: " << child->name);
           valid = false;
         } else {
           AndroidSdk entry;
           for (const auto& attr : child->attributes) {
             if (attr.name == "minSdkVersion") {
               entry.min_sdk_version = {attr.value};
             } else if (attr.name == "targetSdkVersion") {
               entry.target_sdk_version = {attr.value};
             } else if (attr.name == "maxSdkVersion") {
               entry.max_sdk_version = {attr.value};
             } else {
               diag->Warn(DiagMessage() << "Unknown attribute: " << attr.name
                                        << " = " << attr.value);
             }
           }

           // TODO: Fill in the manifest details when they are finalised.
           for (auto node : child->GetChildElements()) {
             if (node->name == "manifest") {
               if (entry.manifest) {
                 diag->Warn(DiagMessage() << "Found multiple manifest tags. Ignoring duplicates.");
                 continue;
               }
               entry.manifest = {AndroidManifest()};
             }
           }

           group.push_back(entry);
         }
       }

       return valid;
     };

 ConfigurationParser::ActionHandler ConfigurationParser::gl_texture_group_handler_ =
     [](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
       std::string label = GetLabel(root_element, diag);
       if (label.empty()) {
         return false;
       }

       auto& group = config->gl_texture_groups[label];
       bool valid = true;

       GlTexture result;
       for (auto* child : root_element->GetChildElements()) {
         if (child->name != "gl-texture") {
           diag->Error(
               DiagMessage() << "Unexpected element in GL texture group: "
                             << child->name);
           valid = false;
         } else {
           for (const auto& attr : child->attributes) {
             if (attr.name == "name") {
               result.name = attr.value;
               break;
             }
           }

           for (auto* element : child->GetChildElements()) {
             if (element->name != "texture-path") {
               diag->Error(
                   DiagMessage() << "Unexpected element in gl-texture element: "
                                 << child->name);
               valid = false;
               continue;
             }
             for (auto& node : element->children) {
               xml::Text* t;
               if ((t = NodeCast<xml::Text>(node.get())) != nullptr) {
                 result.texture_paths.push_back(TrimWhitespace(t->text).to_string());
               }
             }
           }
         }
         group.push_back(result);
       }

       return valid;
     };

 ConfigurationParser::ActionHandler ConfigurationParser::device_feature_group_handler_ =
     [](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
       std::string label = GetLabel(root_element, diag);
       if (label.empty()) {
         return false;
       }

       auto& group = config->device_feature_groups[label];
       bool valid = true;

       for (auto* child : root_element->GetChildElements()) {
         if (child->name != "supports-feature") {
           diag->Error(
               DiagMessage() << "Unexpected root_element in device feature group: "
                             << child->name);
           valid = false;
         } else {
           for (auto& node : child->children) {
             xml::Text* t;
             if ((t = NodeCast<xml::Text>(node.get())) != nullptr) {
               group.push_back(TrimWhitespace(t->text).to_string());
               break;
             }
           }
         }
       }

       return valid;
     };

 }  // namespace aapt
	/*
	* Copyright (C) 2017 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 "configuration/ConfigurationParser.h"

	#include <algorithm>
	#include <functional>
	#include <memory>
	#include <utility>

	#include <android-base/logging.h>

	#include "ConfigDescription.h"
	#include "Diagnostics.h"
	#include "util/Util.h"
	#include "xml/XmlActionExecutor.h"
	#include "xml/XmlDom.h"
	#include "xml/XmlUtil.h"

	namespace aapt {

	namespace {

	using ::aapt::configuration::Abi;
	using ::aapt::configuration::AndroidManifest;
	using ::aapt::configuration::AndroidSdk;
	using ::aapt::configuration::Artifact;
	using ::aapt::configuration::Configuration;
	using ::aapt::configuration::GlTexture;
	using ::aapt::configuration::Group;
	using ::aapt::configuration::Locale;
	using ::aapt::util::TrimWhitespace;
	using ::aapt::xml::Element;
	using ::aapt::xml::FindRootElement;
	using ::aapt::xml::NodeCast;
	using ::aapt::xml::XmlActionExecutor;
	using ::aapt::xml::XmlActionExecutorPolicy;
	using ::aapt::xml::XmlNodeAction;

	const std::unordered_map<std::string, Abi> kAbiMap = {
	{"armeabi", Abi::kArmeV6},
	{"armeabi-v7a", Abi::kArmV7a},
	{"arm64-v8a", Abi::kArm64V8a},
	{"x86", Abi::kX86},
	{"x86_64", Abi::kX86_64},
	{"mips", Abi::kMips},
	{"mips64", Abi::kMips64},
	{"universal", Abi::kUniversal},
	};

	constexpr const char* kAaptXmlNs = "http://schemas.android.com/tools/aapt";

	/** A default noop diagnostics context. */
	class NoopDiagnostics : public IDiagnostics {
	public:
	void Log(Level level, DiagMessageActual& actualMsg) override {}
	};
	NoopDiagnostics noop_;

	std::string GetLabel(const Element* element, IDiagnostics* diag) {
	std::string label;
	for (const auto& attr : element->attributes) {
	if (attr.name == "label") {
	label = attr.value;
	break;
	}
	}

	if (label.empty()) {
	diag->Error(DiagMessage() << "No label found for element " << element->name);
	}
	return label;
	}

	/** XML node visitor that removes all of the namespace URIs from the node and all children. */
	class NamespaceVisitor : public xml::Visitor {
	public:
	void Visit(xml::Element* node) override {
	node->namespace_uri.clear();
	VisitChildren(node);
	}
	};

	} // namespace

	ConfigurationParser::ConfigurationParser(std::string contents)
	: contents_(std::move(contents)),
	diag_(&noop_) {
	}

	Maybe<Configuration> ConfigurationParser::Parse() {
	std::istringstream in(contents_);

	auto doc = xml::Inflate(&in, diag_, Source("config.xml"));
	if (!doc) {
	return {};
	}

	// Strip any namespaces from the XML as the XmlActionExecutor ignores anything with a namespace.
	auto* root = FindRootElement(doc.get());
	if (root == nullptr) {
	diag_->Error(DiagMessage() << "Could not find the root element in the XML document");
	return {};
	}

	std::string& xml_ns = root->namespace_uri;
	if (!xml_ns.empty()) {
	if (xml_ns != kAaptXmlNs) {
	diag_->Error(DiagMessage() << "Unknown namespace found on root element: " << xml_ns);
	return {};
	}

	xml_ns.clear();
	NamespaceVisitor visitor;
	root->Accept(&visitor);
	}

	XmlActionExecutor executor;
	XmlNodeAction& root_action = executor["post-process"];
	XmlNodeAction& artifacts_action = root_action["artifacts"];
	XmlNodeAction& groups_action = root_action["groups"];

	Configuration config;

	// Helper to bind a static method to an action handler in the DOM executor.
	auto bind_handler = [&config](std::function<bool(Configuration, Element, IDiagnostics*)> h)
	-> XmlNodeAction::ActionFuncWithDiag {
	return std::bind(h, &config, std::placeholders::_1, std::placeholders::_2);
	};

	// Parse the artifact elements.
	artifacts_action["artifact"].Action(bind_handler(artifact_handler_));
	artifacts_action["artifact-format"].Action(bind_handler(artifact_format_handler_));

	// Parse the different configuration groups.
	groups_action["abi-group"].Action(bind_handler(abi_group_handler_));
	groups_action["screen-density-group"].Action(bind_handler(screen_density_group_handler_));
	groups_action["locale-group"].Action(bind_handler(locale_group_handler_));
	groups_action["android-sdk-group"].Action(bind_handler(android_sdk_group_handler_));
	groups_action["gl-texture-group"].Action(bind_handler(gl_texture_group_handler_));
	groups_action["device-feature-group"].Action(bind_handler(device_feature_group_handler_));

	if (!executor.Execute(XmlActionExecutorPolicy::kNone, diag_, doc.get())) {
	diag_->Error(DiagMessage() << "Could not process XML document");
	return {};
	}

	return {config};
	}

	ConfigurationParser::ActionHandler ConfigurationParser::artifact_handler_ =
	[](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
	Artifact artifact{};
	for (const auto& attr : root_element->attributes) {
	if (attr.name == "name") {
	artifact.name = attr.value;
	} else if (attr.name == "abi-group") {
	artifact.abi_group = {attr.value};
	} else if (attr.name == "screen-density-group") {
	artifact.screen_density_group = {attr.value};
	} else if (attr.name == "locale-group") {
	artifact.locale_group = {attr.value};
	} else if (attr.name == "android-sdk-group") {
	artifact.android_sdk_group = {attr.value};
	} else if (attr.name == "gl-texture-group") {
	artifact.gl_texture_group = {attr.value};
	} else if (attr.name == "device-feature-group") {
	artifact.device_feature_group = {attr.value};
	} else {
	diag->Note(
	DiagMessage() << "Unknown artifact attribute: " << attr.name << " = " << attr.value);
	}
	}
	config->artifacts[artifact.name] = artifact;
	return true;
	};

	ConfigurationParser::ActionHandler ConfigurationParser::artifact_format_handler_ =
	[](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
	for (auto& node : root_element->children) {
	xml::Text* t;
	if ((t = NodeCast<xml::Text>(node.get())) != nullptr) {
	config->artifact_format = TrimWhitespace(t->text).to_string();
	break;
	}
	}
	return true;
	};

	ConfigurationParser::ActionHandler ConfigurationParser::abi_group_handler_ =
	[](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
	std::string label = GetLabel(root_element, diag);
	if (label.empty()) {
	return false;
	}

	auto& group = config->abi_groups[label];
	bool valid = true;

	for (auto* child : root_element->GetChildElements()) {
	if (child->name != "abi") {
	diag->Error(
	DiagMessage() << "Unexpected element in ABI group: " << child->name);
	valid = false;
	} else {
	for (auto& node : child->children) {
	xml::Text* t;
	if ((t = NodeCast<xml::Text>(node.get())) != nullptr) {
	group.push_back(kAbiMap.at(TrimWhitespace(t->text).to_string()));
	break;
	}
	}
	}
	}

	return valid;
	};

	ConfigurationParser::ActionHandler ConfigurationParser::screen_density_group_handler_ =
	[](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
	std::string label = GetLabel(root_element, diag);
	if (label.empty()) {
	return false;
	}

	auto& group = config->screen_density_groups[label];
	bool valid = true;

	for (auto* child : root_element->GetChildElements()) {
	if (child->name != "screen-density") {
	diag->Error(
	DiagMessage() << "Unexpected root_element in screen density group: "
	<< child->name);
	valid = false;
	} else {
	for (auto& node : child->children) {
	xml::Text* t;
	if ((t = NodeCast<xml::Text>(node.get())) != nullptr) {
	ConfigDescription config_descriptor;
	const android::StringPiece& text = TrimWhitespace(t->text);
	if (ConfigDescription::Parse(text, &config_descriptor)) {
	// Copy the density with the minimum SDK version stripped out.
	group.push_back(config_descriptor.CopyWithoutSdkVersion());
	} else {
	diag->Error(
	DiagMessage() << "Could not parse config descriptor for screen-density: "
	<< text);
	valid = false;
	}
	break;
	}
	}
	}
	}

	return valid;
	};

	ConfigurationParser::ActionHandler ConfigurationParser::locale_group_handler_ =
	[](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
	std::string label = GetLabel(root_element, diag);
	if (label.empty()) {
	return false;
	}

	auto& group = config->locale_groups[label];
	bool valid = true;

	for (auto* child : root_element->GetChildElements()) {
	if (child->name != "locale") {
	diag->Error(
	DiagMessage() << "Unexpected root_element in screen density group: "
	<< child->name);
	valid = false;
	} else {
	Locale entry;
	for (const auto& attr : child->attributes) {
	if (attr.name == "lang") {
	entry.lang = {attr.value};
	} else if (attr.name == "region") {
	entry.region = {attr.value};
	} else {
	diag->Warn(DiagMessage() << "Unknown attribute: " << attr.name
	<< " = " << attr.value);
	}
	}
	group.push_back(entry);
	}
	}

	return valid;
	};

	ConfigurationParser::ActionHandler ConfigurationParser::android_sdk_group_handler_ =
	[](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
	std::string label = GetLabel(root_element, diag);
	if (label.empty()) {
	return false;
	}

	auto& group = config->android_sdk_groups[label];
	bool valid = true;

	for (auto* child : root_element->GetChildElements()) {
	if (child->name != "android-sdk") {
	diag->Error(
	DiagMessage() << "Unexpected root_element in ABI group: " << child->name);
	valid = false;
	} else {
	AndroidSdk entry;
	for (const auto& attr : child->attributes) {
	if (attr.name == "minSdkVersion") {
	entry.min_sdk_version = {attr.value};
	} else if (attr.name == "targetSdkVersion") {
	entry.target_sdk_version = {attr.value};
	} else if (attr.name == "maxSdkVersion") {
	entry.max_sdk_version = {attr.value};
	} else {
	diag->Warn(DiagMessage() << "Unknown attribute: " << attr.name
	<< " = " << attr.value);
	}
	}

	// TODO: Fill in the manifest details when they are finalised.
	for (auto node : child->GetChildElements()) {
	if (node->name == "manifest") {
	if (entry.manifest) {
	diag->Warn(DiagMessage() << "Found multiple manifest tags. Ignoring duplicates.");
	continue;
	}
	entry.manifest = {AndroidManifest()};
	}
	}

	group.push_back(entry);
	}
	}

	return valid;
	};

	ConfigurationParser::ActionHandler ConfigurationParser::gl_texture_group_handler_ =
	[](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
	std::string label = GetLabel(root_element, diag);
	if (label.empty()) {
	return false;
	}

	auto& group = config->gl_texture_groups[label];
	bool valid = true;

	GlTexture result;
	for (auto* child : root_element->GetChildElements()) {
	if (child->name != "gl-texture") {
	diag->Error(
	DiagMessage() << "Unexpected element in GL texture group: "
	<< child->name);
	valid = false;
	} else {
	for (const auto& attr : child->attributes) {
	if (attr.name == "name") {
	result.name = attr.value;
	break;
	}
	}

	for (auto* element : child->GetChildElements()) {
	if (element->name != "texture-path") {
	diag->Error(
	DiagMessage() << "Unexpected element in gl-texture element: "
	<< child->name);
	valid = false;
	continue;
	}
	for (auto& node : element->children) {
	xml::Text* t;
	if ((t = NodeCast<xml::Text>(node.get())) != nullptr) {
	result.texture_paths.push_back(TrimWhitespace(t->text).to_string());
	}
	}
	}
	}
	group.push_back(result);
	}

	return valid;
	};

	ConfigurationParser::ActionHandler ConfigurationParser::device_feature_group_handler_ =
	[](Configuration* config, Element* root_element, IDiagnostics* diag) -> bool {
	std::string label = GetLabel(root_element, diag);
	if (label.empty()) {
	return false;
	}

	auto& group = config->device_feature_groups[label];
	bool valid = true;

	for (auto* child : root_element->GetChildElements()) {
	if (child->name != "supports-feature") {
	diag->Error(
	DiagMessage() << "Unexpected root_element in device feature group: "
	<< child->name);
	valid = false;
	} else {
	for (auto& node : child->children) {
	xml::Text* t;
	if ((t = NodeCast<xml::Text>(node.get())) != nullptr) {
	group.push_back(TrimWhitespace(t->text).to_string());
	break;
	}
	}
	}
	}

	return valid;
	};

	} // namespace aapt