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google-nomulus/javatests/google/registry/model/billing/BillingEventTest.java
ctingue 51362722cd Add syntheticCreationTime to BillingEvent.OneTime 
In order to clean up potentially bad BillingEvent.Recurring expansions, we'll need to be able to trace synthetic billing events back to particular runs of the []. This field will be set to the cursor time at the start of the MR (all expansions in one MR job will have the same timestamp).
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Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=121999938
2016-05-13 23:20:38 -04:00

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// Copyright 2016 The Domain Registry 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 google.registry.model.billing;
import static com.google.common.truth.Truth.assertThat;
import static google.registry.model.ofy.ObjectifyService.ofy;
import static google.registry.testing.DatastoreHelper.createTld;
import static google.registry.testing.DatastoreHelper.persistActiveDomain;
import static google.registry.testing.DatastoreHelper.persistResource;
import static google.registry.util.DateTimeUtils.END_OF_TIME;
import static org.joda.money.CurrencyUnit.USD;
import static org.joda.time.DateTimeZone.UTC;
import com.google.common.collect.ImmutableSet;
import com.googlecode.objectify.Key;
import com.googlecode.objectify.Ref;
import google.registry.model.EntityTestCase;
import google.registry.model.billing.BillingEvent.Flag;
import google.registry.model.billing.BillingEvent.Reason;
import google.registry.model.domain.DomainResource;
import google.registry.model.domain.GracePeriod;
import google.registry.model.domain.rgp.GracePeriodStatus;
import google.registry.model.reporting.HistoryEntry;
import google.registry.testing.ExceptionRule;
import org.joda.money.Money;
import org.joda.time.DateTime;
import org.junit.Before;
import org.junit.Rule;
import org.junit.Test;
/** Unit tests for {@link BillingEvent}. */
public class BillingEventTest extends EntityTestCase {
@Rule
public final ExceptionRule thrown = new ExceptionRule();
private final DateTime now = DateTime.now(UTC);
HistoryEntry historyEntry;
HistoryEntry historyEntry2;
DomainResource domain;
BillingEvent.OneTime oneTime;
BillingEvent.OneTime oneTimeSynthetic;
BillingEvent.Recurring recurring;
BillingEvent.Cancellation cancellationOneTime;
BillingEvent.Cancellation cancellationRecurring;
BillingEvent.Modification modification;
@Before
public void setUp() throws Exception {
createTld("tld");
domain = persistActiveDomain("foo.tld");
historyEntry = persistResource(
new HistoryEntry.Builder()
.setParent(domain)
.setModificationTime(now)
.build());
historyEntry2 = persistResource(
new HistoryEntry.Builder()
.setParent(domain)
.setModificationTime(now.plusDays(1))
.build());
oneTime = persistResource(commonInit(
new BillingEvent.OneTime.Builder()
.setParent(historyEntry)
.setReason(Reason.CREATE)
.setFlags(ImmutableSet.of(BillingEvent.Flag.ANCHOR_TENANT))
.setPeriodYears(2)
.setCost(Money.of(USD, 1))
.setEventTime(now)
.setBillingTime(now.plusDays(5))));
oneTimeSynthetic = persistResource(commonInit(
new BillingEvent.OneTime.Builder()
.setParent(historyEntry)
.setReason(Reason.CREATE)
.setFlags(ImmutableSet.of(BillingEvent.Flag.ANCHOR_TENANT, BillingEvent.Flag.SYNTHETIC))
.setSyntheticCreationTime(now.plusDays(10))
.setPeriodYears(2)
.setCost(Money.of(USD, 1))
.setEventTime(now)
.setBillingTime(now.plusDays(5))));
recurring = persistResource(commonInit(
new BillingEvent.Recurring.Builder()
.setParent(historyEntry)
.setFlags(ImmutableSet.of(Flag.AUTO_RENEW))
.setReason(Reason.RENEW)
.setEventTime(now.plusYears(1))
.setRecurrenceEndTime(END_OF_TIME)));
cancellationOneTime = persistResource(commonInit(
new BillingEvent.Cancellation.Builder()
.setParent(historyEntry2)
.setReason(Reason.CREATE)
.setEventTime(now.plusDays(1))
.setBillingTime(now.plusDays(5))
.setOneTimeEventRef(Ref.create(oneTime))));
cancellationRecurring = persistResource(commonInit(
new BillingEvent.Cancellation.Builder()
.setParent(historyEntry2)
.setReason(Reason.RENEW)
.setEventTime(now.plusDays(1))
.setBillingTime(now.plusYears(1).plusDays(45))
.setRecurringEventRef(Ref.create(recurring))));
modification = persistResource(commonInit(
new BillingEvent.Modification.Builder()
.setParent(historyEntry2)
.setReason(Reason.CREATE)
.setCost(Money.of(USD, 1))
.setDescription("Something happened")
.setEventTime(now.plusDays(1))
.setEventRef(Ref.create(oneTime))));
}
private <E extends BillingEvent, B extends BillingEvent.Builder<E, B>> E commonInit(B builder) {
return builder
.setClientId("a registrar")
.setTargetId("foo.tld")
.build();
}
@Test
public void testPersistence() throws Exception {
assertThat(ofy().load().entity(oneTime).now()).isEqualTo(oneTime);
assertThat(ofy().load().entity(recurring).now()).isEqualTo(recurring);
assertThat(ofy().load().entity(cancellationOneTime).now()).isEqualTo(cancellationOneTime);
assertThat(ofy().load().entity(cancellationRecurring).now()).isEqualTo(cancellationRecurring);
assertThat(ofy().load().entity(modification).now()).isEqualTo(modification);
}
@Test
public void testParenting() throws Exception {
// Note that these are all tested separately because BillingEvent is an abstract base class that
// lacks the @Entity annotation, and thus we cannot call .type(BillingEvent.class)
assertThat(ofy().load().type(BillingEvent.OneTime.class).ancestor(domain).list())
.containsExactly(oneTime, oneTimeSynthetic);
assertThat(ofy().load().type(BillingEvent.Recurring.class).ancestor(domain).list())
.containsExactly(recurring);
assertThat(ofy().load().type(BillingEvent.Cancellation.class).ancestor(domain).list())
.containsExactly(cancellationOneTime, cancellationRecurring);
assertThat(ofy().load().type(BillingEvent.Modification.class).ancestor(domain).list())
.containsExactly(modification);
assertThat(ofy().load().type(BillingEvent.OneTime.class).ancestor(historyEntry).list())
.containsExactly(oneTime, oneTimeSynthetic);
assertThat(ofy().load().type(BillingEvent.Recurring.class).ancestor(historyEntry).list())
.containsExactly(recurring);
assertThat(ofy().load().type(BillingEvent.Cancellation.class).ancestor(historyEntry2).list())
.containsExactly(cancellationOneTime, cancellationRecurring);
assertThat(ofy().load().type(BillingEvent.Modification.class).ancestor(historyEntry2).list())
.containsExactly(modification);
}
@Test
public void testIndexing() throws Exception {
verifyIndexing(oneTime, "clientId", "eventTime", "billingTime", "syntheticCreationTime");
verifyIndexing(
oneTimeSynthetic, "clientId", "eventTime", "billingTime", "syntheticCreationTime");
verifyIndexing(
recurring, "clientId", "eventTime", "recurrenceEndTime", "recurrenceTimeOfYear.timeString");
verifyIndexing(cancellationOneTime, "clientId", "eventTime", "billingTime");
verifyIndexing(modification, "clientId", "eventTime");
}
@Test
public void testFailure_syntheticFlagWithoutCreationTime() {
thrown.expect(
IllegalStateException.class,
"Billing events with SYNTHETIC flag set must have a synthetic creation time");
oneTime.asBuilder()
.setFlags(ImmutableSet.of(BillingEvent.Flag.SYNTHETIC))
.build();
}
@Test
public void testFailure_syntheticCreationTimeWithoutFlag() {
thrown.expect(
IllegalStateException.class,
"Billing events with SYNTHETIC flag set must have a synthetic creation time");
oneTime.asBuilder()
.setSyntheticCreationTime(now.plusDays(10))
.build();
}
@Test
public void testSuccess_cancellation_forGracePeriod_withOneTime() {
BillingEvent.Cancellation newCancellation = BillingEvent.Cancellation.forGracePeriod(
GracePeriod.forBillingEvent(GracePeriodStatus.ADD, oneTime),
historyEntry2,
"foo.tld");
// Set ID to be the same to ignore for the purposes of comparison.
newCancellation = newCancellation.asBuilder().setId(cancellationOneTime.getId()).build();
assertThat(newCancellation).isEqualTo(cancellationOneTime);
}
@Test
public void testSuccess_cancellation_forGracePeriod_withRecurring() {
BillingEvent.Cancellation newCancellation = BillingEvent.Cancellation.forGracePeriod(
GracePeriod.createForRecurring(
GracePeriodStatus.AUTO_RENEW,
now.plusYears(1).plusDays(45),
"a registrar",
Ref.create(recurring)),
historyEntry2,
"foo.tld");
// Set ID to be the same to ignore for the purposes of comparison.
newCancellation = newCancellation.asBuilder().setId(cancellationRecurring.getId()).build();
assertThat(newCancellation).isEqualTo(cancellationRecurring);
}
@Test
public void testFailure_cancellation_forGracePeriodWithoutBillingEvent() {
thrown.expect(IllegalArgumentException.class, "grace period without billing event");
BillingEvent.Cancellation.forGracePeriod(
GracePeriod.createWithoutBillingEvent(
GracePeriodStatus.REDEMPTION,
now.plusDays(1),
"a registrar"),
historyEntry,
"foo.tld");
}
@Test
public void testFailure_cancellationWithNoBillingEvent() {
thrown.expect(IllegalStateException.class, "exactly one billing event");
cancellationOneTime.asBuilder().setOneTimeEventRef(null).setRecurringEventRef(null).build();
}
@Test
public void testFailure_cancellationWithBothBillingEvents() {
thrown.expect(IllegalStateException.class, "exactly one billing event");
cancellationOneTime.asBuilder()
.setOneTimeEventRef(Ref.create(oneTime))
.setRecurringEventRef(Ref.create(recurring))
.build();
}
@Test
public void testDeadCodeThatDeletedScrapCommandsReference() throws Exception {
assertThat(recurring.getParentKey()).isEqualTo(Key.create(historyEntry));
new BillingEvent.OneTime.Builder().setParent(Key.create(historyEntry));
}
}
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