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AbstractActivationComputerTest.java
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AbstractActivationComputerTest.java
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/*
* Copyright (c) 2010-2018 Evolveum and contributors
*
* This work is dual-licensed under the Apache License 2.0
* and European Union Public License. See LICENSE file for details.
*/
package com.evolveum.midpoint.common;
import static org.testng.AssertJUnit.assertEquals;
import java.io.IOException;
import javax.xml.datatype.XMLGregorianCalendar;
import org.testng.annotations.BeforeSuite;
import org.testng.annotations.Test;
import org.xml.sax.SAXException;
import com.evolveum.midpoint.prism.util.PrismTestUtil;
import com.evolveum.midpoint.prism.xml.XmlTypeConverter;
import com.evolveum.midpoint.schema.MidPointPrismContextFactory;
import com.evolveum.midpoint.schema.constants.MidPointConstants;
import com.evolveum.midpoint.schema.constants.SchemaConstants;
import com.evolveum.midpoint.tools.testng.AbstractUnitTest;
import com.evolveum.midpoint.util.PrettyPrinter;
import com.evolveum.midpoint.util.exception.SchemaException;
import com.evolveum.midpoint.xml.ns._public.common.common_3.ActivationStatusType;
import com.evolveum.midpoint.xml.ns._public.common.common_3.ActivationType;
import com.evolveum.midpoint.xml.ns._public.common.common_3.LifecycleStateModelType;
import com.evolveum.midpoint.xml.ns._public.common.common_3.TimeIntervalStatusType;
public abstract class AbstractActivationComputerTest extends AbstractUnitTest {
protected static final XMLGregorianCalendar YEAR_START = XmlTypeConverter.createXMLGregorianCalendar(2013, 1, 1, 0, 0, 0);
protected static final XMLGregorianCalendar SPRING_EQUINOX = XmlTypeConverter.createXMLGregorianCalendar(2013, 3, 20, 11, 2, 0);
protected static final XMLGregorianCalendar SUMMER_SOLSTICE = XmlTypeConverter.createXMLGregorianCalendar(2013, 6, 21, 5, 4, 0);
protected static final XMLGregorianCalendar AUTUMN_EQUINOX = XmlTypeConverter.createXMLGregorianCalendar(2013, 9, 22, 20, 4, 0);
protected static final XMLGregorianCalendar WINTER_SOLSTICE = XmlTypeConverter.createXMLGregorianCalendar(2013, 12, 21, 17, 11, 0);
// Undefined state
protected static final String LIFECYCLE_STATE_LIMBO = "limbo";
protected static final String LIFECYCLE_STATE_CHARMED = "charmed";
protected static final String LIFECYCLE_STATE_INHUMED = "inhumed";
@BeforeSuite
public void setup() throws SchemaException, SAXException, IOException {
PrettyPrinter.setDefaultNamespacePrefix(MidPointConstants.NS_MIDPOINT_PUBLIC_PREFIX);
PrismTestUtil.resetPrismContext(MidPointPrismContextFactory.FACTORY);
}
protected abstract LifecycleStateModelType createLifecycleModel()
throws SchemaException, IOException;
@Test
public void testGetAdministrativeEnabled() throws Exception {
// GIVEN
Clock clock = createClock(YEAR_START);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(
ActivationStatusType.ENABLED, SPRING_EQUINOX, AUTUMN_EQUINOX);
// WHEN
ActivationStatusType effectiveStatus =
activationComputer.getEffectiveStatus(null, activationType, createLifecycleModel());
// THEN
assertEquals("Unexpected effective status", ActivationStatusType.ENABLED, effectiveStatus);
}
@Test
public void testGetAdministrativeDisabled() throws Exception {
// GIVEN
Clock clock = createClock(SUMMER_SOLSTICE);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(
ActivationStatusType.DISABLED, SPRING_EQUINOX, AUTUMN_EQUINOX);
// WHEN
ActivationStatusType effectiveStatus =
activationComputer.getEffectiveStatus(null, activationType, createLifecycleModel());
// THEN
assertEquals("Unexpected effective status", ActivationStatusType.DISABLED, effectiveStatus);
}
@Test
public void testGetAdministrativeArchived() throws Exception {
// GIVEN
Clock clock = createClock(SUMMER_SOLSTICE);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(
ActivationStatusType.ARCHIVED, SPRING_EQUINOX, AUTUMN_EQUINOX);
// WHEN
ActivationStatusType effectiveStatus =
activationComputer.getEffectiveStatus(null, activationType, createLifecycleModel());
// THEN
assertEquals("Unexpected effective status", ActivationStatusType.ARCHIVED, effectiveStatus);
}
@Test
public void testGetLimboAdministrativeEnabled() {
// GIVEN
Clock clock = createClock(YEAR_START);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(
ActivationStatusType.ENABLED, SPRING_EQUINOX, AUTUMN_EQUINOX);
// WHEN
ActivationStatusType effectiveStatus =
activationComputer.getEffectiveStatus(LIFECYCLE_STATE_LIMBO, activationType, null);
// THEN
assertEquals("Unexpected effective status", ActivationStatusType.DISABLED, effectiveStatus);
}
@Test
public void testGetActiveAdministrativeEnabled() throws Exception {
// GIVEN
Clock clock = createClock(YEAR_START);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(
ActivationStatusType.ENABLED, SPRING_EQUINOX, AUTUMN_EQUINOX);
// WHEN
ActivationStatusType effectiveStatus = activationComputer.getEffectiveStatus(
SchemaConstants.LIFECYCLE_ACTIVE, activationType, createLifecycleModel());
// THEN
assertEquals("Unexpected effective status", ActivationStatusType.ENABLED, effectiveStatus);
}
@Test
public void testGetActiveAdministrativeDisabled() throws Exception {
// GIVEN
Clock clock = createClock(YEAR_START);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(
ActivationStatusType.DISABLED, SPRING_EQUINOX, AUTUMN_EQUINOX);
// WHEN
ActivationStatusType effectiveStatus = activationComputer.getEffectiveStatus(
SchemaConstants.LIFECYCLE_ACTIVE, activationType, createLifecycleModel());
// THEN
assertEquals("Unexpected effective status", ActivationStatusType.DISABLED, effectiveStatus);
}
@Test
public void testGetDeprecatedAdministrativeDisabled() throws Exception {
// GIVEN
Clock clock = createClock(SUMMER_SOLSTICE);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(
ActivationStatusType.DISABLED, SPRING_EQUINOX, AUTUMN_EQUINOX);
// WHEN
ActivationStatusType effectiveStatus = activationComputer.getEffectiveStatus(
SchemaConstants.LIFECYCLE_DEPRECATED, activationType, createLifecycleModel());
// THEN
assertEquals("Unexpected effective status", ActivationStatusType.DISABLED, effectiveStatus);
}
@Test
public void testGetDeprecatedAdministrativeEnabled() throws Exception {
// GIVEN
Clock clock = createClock(SUMMER_SOLSTICE);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(
ActivationStatusType.ENABLED, SPRING_EQUINOX, AUTUMN_EQUINOX);
// WHEN
ActivationStatusType effectiveStatus = activationComputer.getEffectiveStatus(
SchemaConstants.LIFECYCLE_DEPRECATED, activationType, createLifecycleModel());
// THEN
assertEquals("Unexpected effective status", ActivationStatusType.ENABLED, effectiveStatus);
}
@Test
public void testGetActiveAdministrativeArchived() throws Exception {
// GIVEN
Clock clock = createClock(SUMMER_SOLSTICE);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(
ActivationStatusType.ARCHIVED, SPRING_EQUINOX, AUTUMN_EQUINOX);
// WHEN
ActivationStatusType effectiveStatus = activationComputer.getEffectiveStatus(
SchemaConstants.LIFECYCLE_ACTIVE, activationType, createLifecycleModel());
// THEN
assertEquals("Unexpected effective status", ActivationStatusType.ARCHIVED, effectiveStatus);
}
@Test
public void testGetArchivedAdministrativeEnabled() throws Exception {
// GIVEN
Clock clock = createClock(SUMMER_SOLSTICE);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(
ActivationStatusType.ENABLED, SPRING_EQUINOX, AUTUMN_EQUINOX);
// WHEN
ActivationStatusType effectiveStatus = activationComputer.getEffectiveStatus(
SchemaConstants.LIFECYCLE_ARCHIVED, activationType, createLifecycleModel());
// THEN
assertEquals("Unexpected effective status", ActivationStatusType.ARCHIVED, effectiveStatus);
}
@Test
public void testGetBeforeValidity() throws Exception {
// GIVEN
Clock clock = createClock(YEAR_START);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(null, SPRING_EQUINOX, AUTUMN_EQUINOX);
// WHEN
ActivationStatusType effectiveStatus = activationComputer.getEffectiveStatus(
null, activationType, createLifecycleModel());
// THEN
assertEquals("Unexpected effective status", ActivationStatusType.DISABLED, effectiveStatus);
}
@Test
public void testGetInValidity() throws Exception {
// GIVEN
Clock clock = createClock(SUMMER_SOLSTICE);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(null, SPRING_EQUINOX, AUTUMN_EQUINOX);
// WHEN
ActivationStatusType effectiveStatus = activationComputer.getEffectiveStatus(
null, activationType, createLifecycleModel());
// THEN
assertEquals("Unexpected effective status", ActivationStatusType.ENABLED, effectiveStatus);
}
@Test
public void testGetAfterValidity() throws Exception {
// GIVEN
Clock clock = createClock(WINTER_SOLSTICE);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(null, SPRING_EQUINOX, AUTUMN_EQUINOX);
// WHEN
ActivationStatusType effectiveStatus = activationComputer.getEffectiveStatus(
null, activationType, createLifecycleModel());
// THEN
assertEquals("Unexpected effective status", ActivationStatusType.DISABLED, effectiveStatus);
}
@Test
public void testComputeAdministrativeEnabledBefore() throws Exception {
testCompute(YEAR_START,
ActivationStatusType.ENABLED, SPRING_EQUINOX, AUTUMN_EQUINOX,
ActivationStatusType.ENABLED, TimeIntervalStatusType.BEFORE);
}
@Test
public void testComputeAdministrativeEnabledIn() throws Exception {
testCompute(SUMMER_SOLSTICE,
ActivationStatusType.ENABLED, SPRING_EQUINOX, AUTUMN_EQUINOX,
ActivationStatusType.ENABLED, TimeIntervalStatusType.IN);
}
@Test
public void testComputeAdministrativeEnabledAfter() throws Exception {
testCompute(WINTER_SOLSTICE,
ActivationStatusType.ENABLED, SPRING_EQUINOX, AUTUMN_EQUINOX,
ActivationStatusType.ENABLED, TimeIntervalStatusType.AFTER);
}
@Test
public void testComputeAdministrativeArchivedBefore() throws Exception {
testCompute(YEAR_START,
ActivationStatusType.ARCHIVED, SPRING_EQUINOX, AUTUMN_EQUINOX,
ActivationStatusType.ARCHIVED, TimeIntervalStatusType.BEFORE);
}
@Test
public void testComputeAdministrativeDisabledIn() throws Exception {
testCompute(SUMMER_SOLSTICE,
ActivationStatusType.DISABLED, SPRING_EQUINOX, AUTUMN_EQUINOX,
ActivationStatusType.DISABLED, TimeIntervalStatusType.IN);
}
@Test
public void testComputeAdministrativeDisabledAfter() throws Exception {
testCompute(WINTER_SOLSTICE,
ActivationStatusType.DISABLED, SPRING_EQUINOX, AUTUMN_EQUINOX,
ActivationStatusType.DISABLED, TimeIntervalStatusType.AFTER);
}
@Test
public void testComputeBefore() throws Exception {
testCompute(YEAR_START,
null, SPRING_EQUINOX, AUTUMN_EQUINOX,
ActivationStatusType.DISABLED, TimeIntervalStatusType.BEFORE);
}
@Test
public void testComputeIn() throws Exception {
testCompute(SUMMER_SOLSTICE,
null, SPRING_EQUINOX, AUTUMN_EQUINOX,
ActivationStatusType.ENABLED, TimeIntervalStatusType.IN);
}
@Test
public void testComputeAfter() throws Exception {
testCompute(WINTER_SOLSTICE,
null, SPRING_EQUINOX, AUTUMN_EQUINOX,
ActivationStatusType.DISABLED, TimeIntervalStatusType.AFTER);
}
protected void testCompute(
XMLGregorianCalendar now, ActivationStatusType administrativeStatus,
XMLGregorianCalendar validFrom, XMLGregorianCalendar validTo,
ActivationStatusType expectedEffective, TimeIntervalStatusType expectedValidity)
throws SchemaException, IOException {
testCompute(null, now, administrativeStatus, validFrom, validTo, expectedEffective, expectedValidity);
testComputeDraft(now, administrativeStatus, validFrom, validTo, expectedEffective, expectedValidity);
testComputeProposed(now, administrativeStatus, validFrom, validTo, expectedEffective, expectedValidity);
testCompute(SchemaConstants.LIFECYCLE_ACTIVE, now, administrativeStatus,
validFrom, validTo, expectedEffective, expectedValidity);
testCompute(SchemaConstants.LIFECYCLE_DEPRECATED, now, administrativeStatus,
validFrom, validTo, expectedEffective, expectedValidity);
testCompute(SchemaConstants.LIFECYCLE_FAILED, now, administrativeStatus,
validFrom, validTo, ActivationStatusType.DISABLED, expectedValidity);
testCompute(SchemaConstants.LIFECYCLE_ARCHIVED, now, administrativeStatus,
validFrom, validTo, ActivationStatusType.ARCHIVED, expectedValidity);
testComputeLimbo(now, administrativeStatus, validFrom, validTo, expectedValidity);
testComputeCharmed(now, administrativeStatus, validFrom, validTo, expectedEffective, expectedValidity);
testComputeInhumed(now, administrativeStatus, validFrom, validTo, expectedEffective, expectedValidity);
}
protected void testComputeDraft(
XMLGregorianCalendar now, ActivationStatusType administrativeStatus,
XMLGregorianCalendar validFrom, XMLGregorianCalendar validTo,
ActivationStatusType expectedEffective, TimeIntervalStatusType expectedValidity)
throws SchemaException, IOException {
testCompute(SchemaConstants.LIFECYCLE_DRAFT, now, administrativeStatus,
validFrom, validTo, ActivationStatusType.DISABLED, expectedValidity);
}
protected void testComputeProposed(
XMLGregorianCalendar now, ActivationStatusType administrativeStatus,
XMLGregorianCalendar validFrom, XMLGregorianCalendar validTo,
ActivationStatusType expectedEffective, TimeIntervalStatusType expectedValidity)
throws SchemaException, IOException {
testCompute(SchemaConstants.LIFECYCLE_PROPOSED, now, administrativeStatus,
validFrom, validTo, ActivationStatusType.DISABLED, expectedValidity);
}
protected void testComputeLimbo(
XMLGregorianCalendar now, ActivationStatusType administrativeStatus,
XMLGregorianCalendar validFrom, XMLGregorianCalendar validTo,
TimeIntervalStatusType expectedValidity) throws SchemaException, IOException {
testCompute(LIFECYCLE_STATE_LIMBO, now, administrativeStatus,
validFrom, validTo, ActivationStatusType.DISABLED, expectedValidity);
}
protected void testComputeCharmed(
XMLGregorianCalendar now, ActivationStatusType administrativeStatus,
XMLGregorianCalendar validFrom, XMLGregorianCalendar validTo,
ActivationStatusType expectedEffective, TimeIntervalStatusType expectedValidity)
throws SchemaException, IOException {
testCompute(LIFECYCLE_STATE_CHARMED, now, administrativeStatus,
validFrom, validTo, ActivationStatusType.DISABLED, expectedValidity);
}
protected void testComputeInhumed(
XMLGregorianCalendar now, ActivationStatusType administrativeStatus,
XMLGregorianCalendar validFrom, XMLGregorianCalendar validTo,
ActivationStatusType expectedEffective, TimeIntervalStatusType expectedValidity)
throws SchemaException, IOException {
testCompute(LIFECYCLE_STATE_INHUMED, now, administrativeStatus,
validFrom, validTo, ActivationStatusType.DISABLED, expectedValidity);
}
protected void testCompute(String lifecycleState,
XMLGregorianCalendar now, ActivationStatusType administrativeStatus,
XMLGregorianCalendar validFrom, XMLGregorianCalendar validTo,
ActivationStatusType expectedEffective, TimeIntervalStatusType expectedValidity)
throws SchemaException, IOException {
// GIVEN
Clock clock = createClock(now);
ActivationComputer activationComputer = createActivationComputer(clock);
ActivationType activationType = createActivationType(administrativeStatus, validFrom, validTo);
// WHEN
activationComputer.computeEffective(lifecycleState, activationType, createLifecycleModel());
// THEN
assertEquals("Unexpected effective status", expectedEffective, activationType.getEffectiveStatus());
assertEquals("Unexpected validity status", expectedValidity, activationType.getValidityStatus());
}
protected ActivationComputer createActivationComputer(Clock clock) {
return new ActivationComputer(clock);
}
protected Clock createClock(XMLGregorianCalendar date) {
Clock clock = new Clock();
clock.override(date);
return clock;
}
protected ActivationType createActivationType(ActivationStatusType administrativeStatus,
XMLGregorianCalendar validFrom, XMLGregorianCalendar validTo) {
ActivationType activationType = new ActivationType();
activationType.setAdministrativeStatus(administrativeStatus);
activationType.setValidFrom(validFrom);
activationType.setValidTo(validTo);
return activationType;
}
}