src/test/java/com/google/devtools/common/options/InvocationPolicyUseDefaultTest.java - bazel - Git at Google

 // Copyright 2017 The Bazel Authors. All rights reserved.
 //
 // 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.google.devtools.common.options;

 import static com.google.common.truth.Truth.assertThat;

 import com.google.devtools.build.lib.runtime.proto.InvocationPolicyOuterClass.InvocationPolicy;
 import org.junit.Test;
 import org.junit.runner.RunWith;
 import org.junit.runners.JUnit4;

 /** Test InvocationPolicies with the UseDefault operation. */
 @RunWith(JUnit4.class)
 public class InvocationPolicyUseDefaultTest extends InvocationPolicyEnforcerTestBase {

   // Useful constants
   public static final String BUILD_COMMAND = "build";
   public static final String TEST_STRING_USER_VALUE = "user value";

   @Test
   public void testUseDefault() throws Exception {
     InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
     invocationPolicyBuilder.addFlagPoliciesBuilder()
         .setFlagName("test_string")
         .getUseDefaultBuilder();

     InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
     parser.parse("--test_string=" + TEST_STRING_USER_VALUE);

     // Options should be the user specified value before enforcing policy.
     TestOptions testOptions = getTestOptions();
     assertThat(testOptions.testString).isEqualTo(TEST_STRING_USER_VALUE);

     enforcer.enforce(parser, BUILD_COMMAND);

     // Get the options again after policy enforcement: The flag should now be back to its default
     // value
     testOptions = getTestOptions();
     assertThat(testOptions.testString).isEqualTo(TestOptions.TEST_STRING_DEFAULT);
   }

   /**
    * Tests UseDefault when the user never actually specified the flag.
    */
   @Test
   public void testUseDefaultWhenFlagWasntSet() throws Exception {
     InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
     invocationPolicyBuilder.addFlagPoliciesBuilder()
         .setFlagName("test_string")
         .getUseDefaultBuilder();

     InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);

     // Options should be the default since the user never specified it.
     TestOptions testOptions = getTestOptions();
     assertThat(testOptions.testString).isEqualTo(TestOptions.TEST_STRING_DEFAULT);

     enforcer.enforce(parser, BUILD_COMMAND);

     // Still the default.
     testOptions = getTestOptions();
     assertThat(testOptions.testString).isEqualTo(TestOptions.TEST_STRING_DEFAULT);
   }

   @Test
   public void testUseDefaultWithExpansionFlags() throws Exception {
     InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
     invocationPolicyBuilder.addFlagPoliciesBuilder()
         .setFlagName("test_expansion")
         .getUseDefaultBuilder();

     InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
     parser.parse("--test_expansion");

     TestOptions testOptions = getTestOptions();
     assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_TEST_EXPANSION);
     assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_TEST_EXPANSION);
     assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_TEST_EXPANSION);
     assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_TEST_EXPANSION);

     enforcer.enforce(parser, BUILD_COMMAND);

     // After policy enforcement, all the flags that --test_expansion expanded into should be back
     // to their default values.
     testOptions = getTestOptions();
     assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_DEFAULT);
     assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_DEFAULT);
     assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_DEFAULT);
     assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_DEFAULT);
   }

   @Test
   public void testUseDefaultWithVoidExpansionFunction() throws Exception {
     InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
     invocationPolicyBuilder
         .addFlagPoliciesBuilder()
         .setFlagName("test_void_expansion_function")
         .getUseDefaultBuilder();

     InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
     parser.parse("--expanded_d=value to override");

     TestOptions testOptions = getTestOptions();
     assertThat(testOptions.expandedD).isEqualTo("value to override");

     enforcer.enforce(parser, BUILD_COMMAND);

     // After policy enforcement, all the flags that --test_void_expansion_function expanded into
     // should be back to their default values.
     testOptions = getTestOptions();
     assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_DEFAULT);
   }

   @Test
   public void testUseDefaultWithExpansionFlagAndLaterOverride() throws Exception {
     InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
     invocationPolicyBuilder
         .addFlagPoliciesBuilder()
         .setFlagName("test_expansion")
         .getUseDefaultBuilder();
     invocationPolicyBuilder
         .addFlagPoliciesBuilder()
         .setFlagName("expanded_b")
         .getAllowValuesBuilder()
         .addAllowedValues("false");

     InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
     parser.parse("--test_expansion");

     TestOptions testOptions = getTestOptions();
     assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_TEST_EXPANSION);
     assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_TEST_EXPANSION);
     assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_TEST_EXPANSION);
     assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_TEST_EXPANSION);

     // If the UseDefault is run, then the value of --expanded_b is back to it's default true, which
     // isn't allowed. However, the allowValues in the later policy should wipe the expansion's
     // policy on --expanded_b, so that the enforcement does not fail.
     enforcer.enforce(parser, BUILD_COMMAND);

     testOptions = getTestOptions();
     assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_DEFAULT);
     assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_TEST_EXPANSION);
     assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_DEFAULT);
     assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_DEFAULT);
   }

   @Test
   public void testUseDefaultWithRecursiveExpansionFlags() throws Exception {
     InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
     invocationPolicyBuilder.addFlagPoliciesBuilder()
         .setFlagName("test_expansion")
         .getUseDefaultBuilder();

     InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
     parser.parse("--test_recursive_expansion_top_level");

     TestOptions testOptions = getTestOptions();
     assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_TEST_RECURSIVE_EXPANSION);
     assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_TEST_RECURSIVE_EXPANSION);
     assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_TEST_RECURSIVE_EXPANSION);
     assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_TEST_RECURSIVE_EXPANSION);

     enforcer.enforce(parser, BUILD_COMMAND);

     // After policy enforcement, all the flags that --test_recursive_expansion_top_level and its
     // recursive expansions set should be back to their default values.
     testOptions = getTestOptions();
     assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_DEFAULT);
     assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_DEFAULT);
     assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_DEFAULT);
     assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_DEFAULT);
   }

   @Test
   public void testUseDefaultWithExpandedFlags() throws Exception {
     InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
     invocationPolicyBuilder
         .addFlagPoliciesBuilder()
         .setFlagName("expanded_b")
         .getUseDefaultBuilder();

     InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
     parser.parse("--test_expansion");

     // --test_expansion should turn set the values from its expansion
     TestOptions testOptions = getTestOptions();
     assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_TEST_EXPANSION);
     assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_TEST_EXPANSION);
     assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_TEST_EXPANSION);
     assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_TEST_EXPANSION);

     enforcer.enforce(parser, BUILD_COMMAND);

     // After policy enforcement, expanded_b should be back to its default (true), but the
     // rest should remain the same.
     testOptions = getTestOptions();
     assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_TEST_EXPANSION);
     assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_DEFAULT);
     assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_TEST_EXPANSION);
     assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_TEST_EXPANSION);
   }

   @Test
   public void testUseDefaultWithFlagWithImplicitRequirements() throws Exception {
     InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
     invocationPolicyBuilder.addFlagPoliciesBuilder()
         .setFlagName("test_implicit_requirement")
         .getUseDefaultBuilder();

     InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
     parser.parse("--test_implicit_requirement=" + TEST_STRING_USER_VALUE);

     // test_implicit_requirement sets implicit_requirement_a to "foo", which ignores the user's
     // value because the parser processes implicit values last.
     TestOptions testOptions = getTestOptions();
     assertThat(testOptions.testImplicitRequirement).isEqualTo(TEST_STRING_USER_VALUE);
     assertThat(testOptions.implicitRequirementA)
         .isEqualTo(TestOptions.IMPLICIT_REQUIREMENT_A_REQUIRED);

     // Then policy puts test_implicit_requirement and its implicit requirements back to its default.
     enforcer.enforce(parser, BUILD_COMMAND);

     testOptions = getTestOptions();
     assertThat(testOptions.testImplicitRequirement)
         .isEqualTo(TestOptions.TEST_IMPLICIT_REQUIREMENT_DEFAULT);
     assertThat(testOptions.implicitRequirementA)
         .isEqualTo(TestOptions.IMPLICIT_REQUIREMENT_A_DEFAULT);
   }

   @Test
   public void testUseDefaultWithImplicitlyRequiredFlag() throws Exception {
     InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
     invocationPolicyBuilder
         .addFlagPoliciesBuilder()
         .setFlagName("implicit_requirement_a")
         .getUseDefaultBuilder();

     InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
     parser.parse(
         "--test_implicit_requirement=" + TEST_STRING_USER_VALUE,
         "--implicit_requirement_a=" + TEST_STRING_USER_VALUE);

     // test_implicit_requirement sets implicit_requirement_a to "foo", but it gets overwritten
     // by the user value.
     TestOptions testOptions = getTestOptions();
     assertThat(testOptions.testImplicitRequirement).isEqualTo(TEST_STRING_USER_VALUE);
     assertThat(testOptions.implicitRequirementA).isEqualTo(TEST_STRING_USER_VALUE);

     // Then policy puts implicit_requirement_a back to its default. This is "broken" since it wipes
     // the user value, but this is the behavior that was agreed on and is documented for expansion
     // flags as well.
     enforcer.enforce(parser, BUILD_COMMAND);

     testOptions = getTestOptions();
     assertThat(testOptions.testImplicitRequirement).isEqualTo(TEST_STRING_USER_VALUE);
     assertThat(testOptions.implicitRequirementA)
         .isEqualTo(TestOptions.IMPLICIT_REQUIREMENT_A_DEFAULT);
   }

   @Test
   public void testUseDefaultWithFlagWithRecursiveImplicitRequirements() throws Exception {
     InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
     invocationPolicyBuilder.addFlagPoliciesBuilder()
         .setFlagName("test_recursive_implicit_requirement")
         .getUseDefaultBuilder();

     InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
     parser.parse("--test_recursive_implicit_requirement=" + TEST_STRING_USER_VALUE);

     // test_recursive_implicit_requirement gets its value from the command line,
     // test_implicit_requirement gets its value from test_recursive_implicit_requirement, and
     // implicit_requirement_a gets its value from test_implicit_requirement.
     TestOptions testOptions = getTestOptions();
     assertThat(testOptions.testRecursiveImplicitRequirement).isEqualTo(TEST_STRING_USER_VALUE);
     assertThat(testOptions.testImplicitRequirement)
         .isEqualTo(TestOptions.TEST_IMPLICIT_REQUIREMENT_REQUIRED);
     assertThat(testOptions.implicitRequirementA)
         .isEqualTo(TestOptions.IMPLICIT_REQUIREMENT_A_REQUIRED);

     enforcer.enforce(parser, BUILD_COMMAND);

     // Policy enforcement should set everything back to its default value.
     testOptions = getTestOptions();
     assertThat(testOptions.testRecursiveImplicitRequirement)
         .isEqualTo(TestOptions.TEST_RECURSIVE_IMPLICIT_REQUIREMENT_DEFAULT);
     assertThat(testOptions.testImplicitRequirement)
         .isEqualTo(TestOptions.TEST_IMPLICIT_REQUIREMENT_DEFAULT);
     assertThat(testOptions.implicitRequirementA)
         .isEqualTo(TestOptions.IMPLICIT_REQUIREMENT_A_DEFAULT);
   }
 }
	// Copyright 2017 The Bazel Authors. All rights reserved.
	//
	// 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.google.devtools.common.options;

	import static com.google.common.truth.Truth.assertThat;

	import com.google.devtools.build.lib.runtime.proto.InvocationPolicyOuterClass.InvocationPolicy;
	import org.junit.Test;
	import org.junit.runner.RunWith;
	import org.junit.runners.JUnit4;

	/** Test InvocationPolicies with the UseDefault operation. */
	@RunWith(JUnit4.class)
	public class InvocationPolicyUseDefaultTest extends InvocationPolicyEnforcerTestBase {

	// Useful constants
	public static final String BUILD_COMMAND = "build";
	public static final String TEST_STRING_USER_VALUE = "user value";

	@Test
	public void testUseDefault() throws Exception {
	InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
	invocationPolicyBuilder.addFlagPoliciesBuilder()
	.setFlagName("test_string")
	.getUseDefaultBuilder();

	InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
	parser.parse("--test_string=" + TEST_STRING_USER_VALUE);

	// Options should be the user specified value before enforcing policy.
	TestOptions testOptions = getTestOptions();
	assertThat(testOptions.testString).isEqualTo(TEST_STRING_USER_VALUE);

	enforcer.enforce(parser, BUILD_COMMAND);

	// Get the options again after policy enforcement: The flag should now be back to its default
	// value
	testOptions = getTestOptions();
	assertThat(testOptions.testString).isEqualTo(TestOptions.TEST_STRING_DEFAULT);
	}

	/**
	* Tests UseDefault when the user never actually specified the flag.
	*/
	@Test
	public void testUseDefaultWhenFlagWasntSet() throws Exception {
	InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
	invocationPolicyBuilder.addFlagPoliciesBuilder()
	.setFlagName("test_string")
	.getUseDefaultBuilder();

	InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);

	// Options should be the default since the user never specified it.
	TestOptions testOptions = getTestOptions();
	assertThat(testOptions.testString).isEqualTo(TestOptions.TEST_STRING_DEFAULT);

	enforcer.enforce(parser, BUILD_COMMAND);

	// Still the default.
	testOptions = getTestOptions();
	assertThat(testOptions.testString).isEqualTo(TestOptions.TEST_STRING_DEFAULT);
	}

	@Test
	public void testUseDefaultWithExpansionFlags() throws Exception {
	InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
	invocationPolicyBuilder.addFlagPoliciesBuilder()
	.setFlagName("test_expansion")
	.getUseDefaultBuilder();

	InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
	parser.parse("--test_expansion");

	TestOptions testOptions = getTestOptions();
	assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_TEST_EXPANSION);
	assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_TEST_EXPANSION);
	assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_TEST_EXPANSION);
	assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_TEST_EXPANSION);

	enforcer.enforce(parser, BUILD_COMMAND);

	// After policy enforcement, all the flags that --test_expansion expanded into should be back
	// to their default values.
	testOptions = getTestOptions();
	assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_DEFAULT);
	assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_DEFAULT);
	assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_DEFAULT);
	assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_DEFAULT);
	}

	@Test
	public void testUseDefaultWithVoidExpansionFunction() throws Exception {
	InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
	invocationPolicyBuilder
	.addFlagPoliciesBuilder()
	.setFlagName("test_void_expansion_function")
	.getUseDefaultBuilder();

	InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
	parser.parse("--expanded_d=value to override");

	TestOptions testOptions = getTestOptions();
	assertThat(testOptions.expandedD).isEqualTo("value to override");

	enforcer.enforce(parser, BUILD_COMMAND);

	// After policy enforcement, all the flags that --test_void_expansion_function expanded into
	// should be back to their default values.
	testOptions = getTestOptions();
	assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_DEFAULT);
	}

	@Test
	public void testUseDefaultWithExpansionFlagAndLaterOverride() throws Exception {
	InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
	invocationPolicyBuilder
	.addFlagPoliciesBuilder()
	.setFlagName("test_expansion")
	.getUseDefaultBuilder();
	invocationPolicyBuilder
	.addFlagPoliciesBuilder()
	.setFlagName("expanded_b")
	.getAllowValuesBuilder()
	.addAllowedValues("false");

	InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
	parser.parse("--test_expansion");

	TestOptions testOptions = getTestOptions();
	assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_TEST_EXPANSION);
	assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_TEST_EXPANSION);
	assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_TEST_EXPANSION);
	assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_TEST_EXPANSION);

	// If the UseDefault is run, then the value of --expanded_b is back to it's default true, which
	// isn't allowed. However, the allowValues in the later policy should wipe the expansion's
	// policy on --expanded_b, so that the enforcement does not fail.
	enforcer.enforce(parser, BUILD_COMMAND);

	testOptions = getTestOptions();
	assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_DEFAULT);
	assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_TEST_EXPANSION);
	assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_DEFAULT);
	assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_DEFAULT);
	}

	@Test
	public void testUseDefaultWithRecursiveExpansionFlags() throws Exception {
	InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
	invocationPolicyBuilder.addFlagPoliciesBuilder()
	.setFlagName("test_expansion")
	.getUseDefaultBuilder();

	InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
	parser.parse("--test_recursive_expansion_top_level");

	TestOptions testOptions = getTestOptions();
	assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_TEST_RECURSIVE_EXPANSION);
	assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_TEST_RECURSIVE_EXPANSION);
	assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_TEST_RECURSIVE_EXPANSION);
	assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_TEST_RECURSIVE_EXPANSION);

	enforcer.enforce(parser, BUILD_COMMAND);

	// After policy enforcement, all the flags that --test_recursive_expansion_top_level and its
	// recursive expansions set should be back to their default values.
	testOptions = getTestOptions();
	assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_DEFAULT);
	assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_DEFAULT);
	assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_DEFAULT);
	assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_DEFAULT);
	}

	@Test
	public void testUseDefaultWithExpandedFlags() throws Exception {
	InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
	invocationPolicyBuilder
	.addFlagPoliciesBuilder()
	.setFlagName("expanded_b")
	.getUseDefaultBuilder();

	InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
	parser.parse("--test_expansion");

	// --test_expansion should turn set the values from its expansion
	TestOptions testOptions = getTestOptions();
	assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_TEST_EXPANSION);
	assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_TEST_EXPANSION);
	assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_TEST_EXPANSION);
	assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_TEST_EXPANSION);

	enforcer.enforce(parser, BUILD_COMMAND);

	// After policy enforcement, expanded_b should be back to its default (true), but the
	// rest should remain the same.
	testOptions = getTestOptions();
	assertThat(testOptions.expandedA).isEqualTo(TestOptions.EXPANDED_A_TEST_EXPANSION);
	assertThat(testOptions.expandedB).isEqualTo(TestOptions.EXPANDED_B_DEFAULT);
	assertThat(testOptions.expandedC).isEqualTo(TestOptions.EXPANDED_C_TEST_EXPANSION);
	assertThat(testOptions.expandedD).isEqualTo(TestOptions.EXPANDED_D_TEST_EXPANSION);
	}

	@Test
	public void testUseDefaultWithFlagWithImplicitRequirements() throws Exception {
	InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
	invocationPolicyBuilder.addFlagPoliciesBuilder()
	.setFlagName("test_implicit_requirement")
	.getUseDefaultBuilder();

	InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
	parser.parse("--test_implicit_requirement=" + TEST_STRING_USER_VALUE);

	// test_implicit_requirement sets implicit_requirement_a to "foo", which ignores the user's
	// value because the parser processes implicit values last.
	TestOptions testOptions = getTestOptions();
	assertThat(testOptions.testImplicitRequirement).isEqualTo(TEST_STRING_USER_VALUE);
	assertThat(testOptions.implicitRequirementA)
	.isEqualTo(TestOptions.IMPLICIT_REQUIREMENT_A_REQUIRED);

	// Then policy puts test_implicit_requirement and its implicit requirements back to its default.
	enforcer.enforce(parser, BUILD_COMMAND);

	testOptions = getTestOptions();
	assertThat(testOptions.testImplicitRequirement)
	.isEqualTo(TestOptions.TEST_IMPLICIT_REQUIREMENT_DEFAULT);
	assertThat(testOptions.implicitRequirementA)
	.isEqualTo(TestOptions.IMPLICIT_REQUIREMENT_A_DEFAULT);
	}

	@Test
	public void testUseDefaultWithImplicitlyRequiredFlag() throws Exception {
	InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
	invocationPolicyBuilder
	.addFlagPoliciesBuilder()
	.setFlagName("implicit_requirement_a")
	.getUseDefaultBuilder();

	InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
	parser.parse(
	"--test_implicit_requirement=" + TEST_STRING_USER_VALUE,
	"--implicit_requirement_a=" + TEST_STRING_USER_VALUE);

	// test_implicit_requirement sets implicit_requirement_a to "foo", but it gets overwritten
	// by the user value.
	TestOptions testOptions = getTestOptions();
	assertThat(testOptions.testImplicitRequirement).isEqualTo(TEST_STRING_USER_VALUE);
	assertThat(testOptions.implicitRequirementA).isEqualTo(TEST_STRING_USER_VALUE);

	// Then policy puts implicit_requirement_a back to its default. This is "broken" since it wipes
	// the user value, but this is the behavior that was agreed on and is documented for expansion
	// flags as well.
	enforcer.enforce(parser, BUILD_COMMAND);

	testOptions = getTestOptions();
	assertThat(testOptions.testImplicitRequirement).isEqualTo(TEST_STRING_USER_VALUE);
	assertThat(testOptions.implicitRequirementA)
	.isEqualTo(TestOptions.IMPLICIT_REQUIREMENT_A_DEFAULT);
	}

	@Test
	public void testUseDefaultWithFlagWithRecursiveImplicitRequirements() throws Exception {
	InvocationPolicy.Builder invocationPolicyBuilder = InvocationPolicy.newBuilder();
	invocationPolicyBuilder.addFlagPoliciesBuilder()
	.setFlagName("test_recursive_implicit_requirement")
	.getUseDefaultBuilder();

	InvocationPolicyEnforcer enforcer = createOptionsPolicyEnforcer(invocationPolicyBuilder);
	parser.parse("--test_recursive_implicit_requirement=" + TEST_STRING_USER_VALUE);

	// test_recursive_implicit_requirement gets its value from the command line,
	// test_implicit_requirement gets its value from test_recursive_implicit_requirement, and
	// implicit_requirement_a gets its value from test_implicit_requirement.
	TestOptions testOptions = getTestOptions();
	assertThat(testOptions.testRecursiveImplicitRequirement).isEqualTo(TEST_STRING_USER_VALUE);
	assertThat(testOptions.testImplicitRequirement)
	.isEqualTo(TestOptions.TEST_IMPLICIT_REQUIREMENT_REQUIRED);
	assertThat(testOptions.implicitRequirementA)
	.isEqualTo(TestOptions.IMPLICIT_REQUIREMENT_A_REQUIRED);

	enforcer.enforce(parser, BUILD_COMMAND);

	// Policy enforcement should set everything back to its default value.
	testOptions = getTestOptions();
	assertThat(testOptions.testRecursiveImplicitRequirement)
	.isEqualTo(TestOptions.TEST_RECURSIVE_IMPLICIT_REQUIREMENT_DEFAULT);
	assertThat(testOptions.testImplicitRequirement)
	.isEqualTo(TestOptions.TEST_IMPLICIT_REQUIREMENT_DEFAULT);
	assertThat(testOptions.implicitRequirementA)
	.isEqualTo(TestOptions.IMPLICIT_REQUIREMENT_A_DEFAULT);
	}
	}