src/com/android/tradefed/config/ConfigurationDescriptor.java - platform/tools/tradefederation - Git at Google

 /*
  * Copyright (C) 2016 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.
  */
 package com.android.tradefed.config;

 import com.android.tradefed.build.BuildSerializedVersion;
 import com.android.tradefed.config.ConfigurationDef.OptionDef;
 import com.android.tradefed.config.proto.ConfigurationDescription;
 import com.android.tradefed.config.proto.ConfigurationDescription.Descriptor;
 import com.android.tradefed.config.proto.ConfigurationDescription.Metadata;
 import com.android.tradefed.testtype.Abi;
 import com.android.tradefed.testtype.IAbi;
 import com.android.tradefed.util.MultiMap;

 import com.google.common.annotations.VisibleForTesting;

 import java.io.Serializable;
 import java.util.ArrayList;
 import java.util.List;

 /**
  * Configuration Object that describes some aspect of the configuration itself. Like a membership
  * test-suite-tag. This class cannot receive option values via command line. Only directly in the
  * xml.
  */
 @OptionClass(alias = "config-descriptor")
 public class ConfigurationDescriptor implements Serializable {

     /** Enum used to indicate local test runner. */
     public enum LocalTestRunner {
         NONE,
         ATEST;
     }

     private static final long serialVersionUID = BuildSerializedVersion.VERSION;

     @Option(name = "test-suite-tag", description = "A membership tag to suite. Can be repeated.")
     private List<String> mSuiteTags = new ArrayList<>();

     @Option(name = "metadata", description = "Metadata associated with this configuration, can be "
             + "free formed key value pairs, and a key may be associated with multiple values.")
     private MultiMap<String, String> mMetaData = new MultiMap<>();

     @Option(
         name = "not-shardable",
         description =
                 "A metadata that allows a suite configuration to specify that it cannot be "
                         + "sharded. Not because it doesn't support it but because it doesn't make "
                         + "sense."
     )
     private boolean mNotShardable = false;

     @Option(
         name = "not-strict-shardable",
         description =
                 "A metadata to allows a suite configuration to specify that it cannot be "
                         + "sharded in a strict context (independent shards). If a config is already "
                         + "not-shardable, it will be not-strict-shardable."
     )
     private boolean mNotStrictShardable = false;

     @Option(
         name = "use-sandboxing",
         description = "Option used to notify an invocation that it is running in a sandbox."
     )
     private boolean mUseSandboxing = false;

     /** Optional Abi information the configuration will be run against. */
     private IAbi mAbi = null;
     /** Optional for a module configuration, the original name of the module. */
     private String mModuleName = null;

     /** a list of options applicable to rerun the test */
     private final List<OptionDef> mRerunOptions = new ArrayList<>();

     /** Returns the list of suite tags the test is part of. */
     public List<String> getSuiteTags() {
         return mSuiteTags;
     }

     /** Sets the list of suite tags the test is part of. */
     public void setSuiteTags(List<String> suiteTags) {
         mSuiteTags = suiteTags;
     }

     /** Retrieves all configured metadata and return a copy of the map. */
     public MultiMap<String, String> getAllMetaData() {
         MultiMap<String, String> copy = new MultiMap<>();
         copy.putAll(mMetaData);
         return copy;
     }

     /** Get the named metadata entries */
     public List<String> getMetaData(String name) {
         return mMetaData.get(name);
     }

     @VisibleForTesting
     public void setMetaData(MultiMap<String, String> metadata) {
         mMetaData = metadata;
     }

     /**
      * Add more values of a given key to the metadata entries.
      *
      * @param key {@link String} of the key to add values to.
      * @param values a list of {@link String} of the additional values.
      */
     public void addMetaData(String key, List<String> values) {
         for (String source : values) {
             mMetaData.put(key, source);
         }
     }

     /** Returns if the configuration is shardable or not as part of a suite */
     public boolean isNotShardable() {
         return mNotShardable;
     }

     /** Returns if the configuration is strict shardable or not as part of a suite */
     public boolean isNotStrictShardable() {
         return mNotStrictShardable;
     }

     /** Sets the abi the configuration is going to run against. */
     public void setAbi(IAbi abi) {
         mAbi = abi;
     }

     /** Returns the abi the configuration is running against if known, null otherwise. */
     public IAbi getAbi() {
         return mAbi;
     }

     /** If this configuration represents a module, we can set the module name associated with it. */
     public void setModuleName(String name) {
         mModuleName = name;
     }

     /** Returns the module name of the module configuration. */
     public String getModuleName() {
         return mModuleName;
     }

     /** Returns true if the invocation should run in sandboxed mode. False otherwise. */
     public boolean shouldUseSandbox() {
         return mUseSandboxing;
     }

     /** Sets whether or not a config will run in sandboxed mode or not. */
     public void setSandboxed(boolean useSandboxed) {
         mUseSandboxing = useSandboxed;
     }

     /**
      * Add the option to a list of options that can be used to rerun the test.
      *
      * @param optionDef a {@link OptionDef} object of the test option.
      */
     public void addRerunOption(OptionDef optionDef) {
         mRerunOptions.add(optionDef);
     }

     /** Get the list of {@link OptionDef} that can be used for rerun. */
     public List<OptionDef> getRerunOptions() {
         return mRerunOptions;
     }

     /** Convert the current instance of the descriptor into its proto format. */
     public ConfigurationDescription.Descriptor toProto() {
         Descriptor.Builder descriptorBuilder = Descriptor.newBuilder();
         // Test Suite Tags
         descriptorBuilder.addAllTestSuiteTag(mSuiteTags);
         // Metadata
         List<Metadata> metadatas = new ArrayList<>();
         for (String key : mMetaData.keySet()) {
             Metadata value =
                     Metadata.newBuilder().setKey(key).addAllValue(mMetaData.get(key)).build();
             metadatas.add(value);
         }
         descriptorBuilder.addAllMetadata(metadatas);
         // Shardable
         descriptorBuilder.setShardable(!mNotShardable);
         // Strict Shardable
         descriptorBuilder.setStrictShardable(!mNotStrictShardable);
         // Use sandboxing
         descriptorBuilder.setUseSandboxing(mUseSandboxing);
         // Module name
         if (mModuleName != null) {
             descriptorBuilder.setModuleName(mModuleName);
         }
         // Abi
         if (mAbi != null) {
             descriptorBuilder.setAbi(mAbi.toProto());
         }
         return descriptorBuilder.build();
     }

     /** Inverse operation from {@link #toProto()} to get the object back. */
     public static ConfigurationDescriptor fromProto(
             ConfigurationDescription.Descriptor protoDescriptor) {
         ConfigurationDescriptor configDescriptor = new ConfigurationDescriptor();
         // Test Suite Tags
         configDescriptor.mSuiteTags.addAll(protoDescriptor.getTestSuiteTagList());
         // Metadata
         for (Metadata meta : protoDescriptor.getMetadataList()) {
             for (String value : meta.getValueList()) {
                 configDescriptor.mMetaData.put(meta.getKey(), value);
             }
         }
         // Shardable
         configDescriptor.mNotShardable = !protoDescriptor.getShardable();
         // Strict Shardable
         configDescriptor.mNotStrictShardable = !protoDescriptor.getStrictShardable();
         // Use sandboxing
         configDescriptor.mUseSandboxing = protoDescriptor.getUseSandboxing();
         // Module Name
         if (!protoDescriptor.getModuleName().isEmpty()) {
             configDescriptor.mModuleName = protoDescriptor.getModuleName();
         }
         // Abi
         if (protoDescriptor.hasAbi()) {
             configDescriptor.mAbi = Abi.fromProto(protoDescriptor.getAbi());
         }
         return configDescriptor;
     }
 }
	/*
	* Copyright (C) 2016 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.
	*/
	package com.android.tradefed.config;

	import com.android.tradefed.build.BuildSerializedVersion;
	import com.android.tradefed.config.ConfigurationDef.OptionDef;
	import com.android.tradefed.config.proto.ConfigurationDescription;
	import com.android.tradefed.config.proto.ConfigurationDescription.Descriptor;
	import com.android.tradefed.config.proto.ConfigurationDescription.Metadata;
	import com.android.tradefed.testtype.Abi;
	import com.android.tradefed.testtype.IAbi;
	import com.android.tradefed.util.MultiMap;

	import com.google.common.annotations.VisibleForTesting;

	import java.io.Serializable;
	import java.util.ArrayList;
	import java.util.List;

	/**
	* Configuration Object that describes some aspect of the configuration itself. Like a membership
	* test-suite-tag. This class cannot receive option values via command line. Only directly in the
	* xml.
	*/
	@OptionClass(alias = "config-descriptor")
	public class ConfigurationDescriptor implements Serializable {

	/** Enum used to indicate local test runner. */
	public enum LocalTestRunner {
	NONE,
	ATEST;
	}

	private static final long serialVersionUID = BuildSerializedVersion.VERSION;

	@Option(name = "test-suite-tag", description = "A membership tag to suite. Can be repeated.")
	private List<String> mSuiteTags = new ArrayList<>();

	@Option(name = "metadata", description = "Metadata associated with this configuration, can be "
	+ "free formed key value pairs, and a key may be associated with multiple values.")
	private MultiMap<String, String> mMetaData = new MultiMap<>();

	@Option(
	name = "not-shardable",
	description =
	"A metadata that allows a suite configuration to specify that it cannot be "
	+ "sharded. Not because it doesn't support it but because it doesn't make "
	+ "sense."
	)
	private boolean mNotShardable = false;

	@Option(
	name = "not-strict-shardable",
	description =
	"A metadata to allows a suite configuration to specify that it cannot be "
	+ "sharded in a strict context (independent shards). If a config is already "
	+ "not-shardable, it will be not-strict-shardable."
	)
	private boolean mNotStrictShardable = false;

	@Option(
	name = "use-sandboxing",
	description = "Option used to notify an invocation that it is running in a sandbox."
	)
	private boolean mUseSandboxing = false;

	/** Optional Abi information the configuration will be run against. */
	private IAbi mAbi = null;
	/** Optional for a module configuration, the original name of the module. */
	private String mModuleName = null;

	/** a list of options applicable to rerun the test */
	private final List<OptionDef> mRerunOptions = new ArrayList<>();

	/** Returns the list of suite tags the test is part of. */
	public List<String> getSuiteTags() {
	return mSuiteTags;
	}

	/** Sets the list of suite tags the test is part of. */
	public void setSuiteTags(List<String> suiteTags) {
	mSuiteTags = suiteTags;
	}

	/** Retrieves all configured metadata and return a copy of the map. */
	public MultiMap<String, String> getAllMetaData() {
	MultiMap<String, String> copy = new MultiMap<>();
	copy.putAll(mMetaData);
	return copy;
	}

	/** Get the named metadata entries */
	public List<String> getMetaData(String name) {
	return mMetaData.get(name);
	}

	@VisibleForTesting
	public void setMetaData(MultiMap<String, String> metadata) {
	mMetaData = metadata;
	}

	/**
	* Add more values of a given key to the metadata entries.
	*
	* @param key {@link String} of the key to add values to.
	* @param values a list of {@link String} of the additional values.
	*/
	public void addMetaData(String key, List<String> values) {
	for (String source : values) {
	mMetaData.put(key, source);
	}
	}

	/** Returns if the configuration is shardable or not as part of a suite */
	public boolean isNotShardable() {
	return mNotShardable;
	}

	/** Returns if the configuration is strict shardable or not as part of a suite */
	public boolean isNotStrictShardable() {
	return mNotStrictShardable;
	}

	/** Sets the abi the configuration is going to run against. */
	public void setAbi(IAbi abi) {
	mAbi = abi;
	}

	/** Returns the abi the configuration is running against if known, null otherwise. */
	public IAbi getAbi() {
	return mAbi;
	}

	/** If this configuration represents a module, we can set the module name associated with it. */
	public void setModuleName(String name) {
	mModuleName = name;
	}

	/** Returns the module name of the module configuration. */
	public String getModuleName() {
	return mModuleName;
	}

	/** Returns true if the invocation should run in sandboxed mode. False otherwise. */
	public boolean shouldUseSandbox() {
	return mUseSandboxing;
	}

	/** Sets whether or not a config will run in sandboxed mode or not. */
	public void setSandboxed(boolean useSandboxed) {
	mUseSandboxing = useSandboxed;
	}

	/**
	* Add the option to a list of options that can be used to rerun the test.
	*
	* @param optionDef a {@link OptionDef} object of the test option.
	*/
	public void addRerunOption(OptionDef optionDef) {
	mRerunOptions.add(optionDef);
	}

	/** Get the list of {@link OptionDef} that can be used for rerun. */
	public List<OptionDef> getRerunOptions() {
	return mRerunOptions;
	}

	/** Convert the current instance of the descriptor into its proto format. */
	public ConfigurationDescription.Descriptor toProto() {
	Descriptor.Builder descriptorBuilder = Descriptor.newBuilder();
	// Test Suite Tags
	descriptorBuilder.addAllTestSuiteTag(mSuiteTags);
	// Metadata
	List<Metadata> metadatas = new ArrayList<>();
	for (String key : mMetaData.keySet()) {
	Metadata value =
	Metadata.newBuilder().setKey(key).addAllValue(mMetaData.get(key)).build();
	metadatas.add(value);
	}
	descriptorBuilder.addAllMetadata(metadatas);
	// Shardable
	descriptorBuilder.setShardable(!mNotShardable);
	// Strict Shardable
	descriptorBuilder.setStrictShardable(!mNotStrictShardable);
	// Use sandboxing
	descriptorBuilder.setUseSandboxing(mUseSandboxing);
	// Module name
	if (mModuleName != null) {
	descriptorBuilder.setModuleName(mModuleName);
	}
	// Abi
	if (mAbi != null) {
	descriptorBuilder.setAbi(mAbi.toProto());
	}
	return descriptorBuilder.build();
	}

	/** Inverse operation from {@link #toProto()} to get the object back. */
	public static ConfigurationDescriptor fromProto(
	ConfigurationDescription.Descriptor protoDescriptor) {
	ConfigurationDescriptor configDescriptor = new ConfigurationDescriptor();
	// Test Suite Tags
	configDescriptor.mSuiteTags.addAll(protoDescriptor.getTestSuiteTagList());
	// Metadata
	for (Metadata meta : protoDescriptor.getMetadataList()) {
	for (String value : meta.getValueList()) {
	configDescriptor.mMetaData.put(meta.getKey(), value);
	}
	}
	// Shardable
	configDescriptor.mNotShardable = !protoDescriptor.getShardable();
	// Strict Shardable
	configDescriptor.mNotStrictShardable = !protoDescriptor.getStrictShardable();
	// Use sandboxing
	configDescriptor.mUseSandboxing = protoDescriptor.getUseSandboxing();
	// Module Name
	if (!protoDescriptor.getModuleName().isEmpty()) {
	configDescriptor.mModuleName = protoDescriptor.getModuleName();
	}
	// Abi
	if (protoDescriptor.hasAbi()) {
	configDescriptor.mAbi = Abi.fromProto(protoDescriptor.getAbi());
	}
	return configDescriptor;
	}
	}