/// <summary>
/// A helper function to calculate black interval results or white interval
/// results.
/// </summary>
///
/// <param name="list"></param>
/// <param name="timeStamp">The time stamp as milliseconds since Jan 1, 1970 UTC.</param>
/// <param name="positiveResult">The positive result which is updated.</param>
/// <param name="negativeResult">The negative result which is updated.</param>
private static void calculateIntervalResult(SortedSet list, double timeStamp,
Interval positiveResult, Interval negativeResult)
{
for (IIterator i = new ILOG.J2CsMapping.Collections.IteratorAdapter(list.GetEnumerator()); i.HasNext();)
{
RepetitiveInterval element = (RepetitiveInterval)i.Next();
RepetitiveInterval.Result result = element.getInterval(timeStamp);
Interval tempInterval = result.interval;
if (result.isPositive == true)
{
try {
positiveResult.unionWith(tempInterval);
} catch (Interval.Error ex) {
// We don't expect to get this error.
throw new Exception("Error in Interval.unionWith: "
+ ex.Message);
}
}
else
{
if (!negativeResult.isValid())
{
negativeResult.set(tempInterval);
}
else
{
negativeResult.intersectWith(tempInterval);
}
}
}
}
/// <summary>
/// Encode this Schedule.
/// </summary>
///
/// <returns>The encoded buffer.</returns>
public Blob wireEncode()
{
// For now, don't use WireFormat and hardcode to use TLV since the encoding
// doesn't go out over the wire, only into the local SQL database.
TlvEncoder encoder = new TlvEncoder(256);
int saveLength = encoder.getLength();
// Encode backwards.
// Encode the blackIntervalList.
int saveLengthForList = encoder.getLength();
for (IIterator i = blackIntervalList_.descendingIterator(); i.HasNext();)
{
RepetitiveInterval element = (RepetitiveInterval)i.Next();
encodeRepetitiveInterval(element, encoder);
}
encoder.writeTypeAndLength(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_BlackIntervalList,
encoder.getLength() - saveLengthForList);
// Encode the whiteIntervalList.
saveLengthForList = encoder.getLength();
for (IIterator i_0 = whiteIntervalList_.descendingIterator(); i_0.HasNext();)
{
RepetitiveInterval element_1 = (RepetitiveInterval)i_0.Next();
encodeRepetitiveInterval(element_1, encoder);
}
encoder.writeTypeAndLength(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_WhiteIntervalList,
encoder.getLength() - saveLengthForList);
encoder.writeTypeAndLength(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_Schedule, encoder.getLength()
- saveLength);
return(new Blob(encoder.getOutput(), false));
}
/// <summary>
/// Create a RepetitiveInterval, copying values from the given repetitiveInterval.
/// </summary>
///
/// <param name="repetitiveInterval">The RepetitiveInterval to copy values from.</param>
public RepetitiveInterval(RepetitiveInterval repetitiveInterval)
{
startDate_ = repetitiveInterval.startDate_;
endDate_ = repetitiveInterval.endDate_;
intervalStartHour_ = repetitiveInterval.intervalStartHour_;
intervalEndHour_ = repetitiveInterval.intervalEndHour_;
nRepeats_ = repetitiveInterval.nRepeats_;
repeatUnit_ = repetitiveInterval.repeatUnit_;
}
/// <summary>
/// Create a RepetitiveInterval with the given values. startDate must be
/// earlier than or same as endDate. intervalStartHour must be less than
/// intervalEndHour.
/// </summary>
///
/// <param name="startDate">The start date as milliseconds since Jan 1, 1970 UTC.</param>
/// <param name="endDate">The end date as milliseconds since Jan 1, 1970 UTC.</param>
/// <param name="intervalStartHour">The start hour in the day, from 0 to 23.</param>
/// <param name="intervalEndHour">The end hour in the day from 1 to 24.</param>
/// <param name="nRepeats"></param>
/// <param name="repeatUnit"></param>
/// <exception cref="System.Exception">if the above conditions are not met.</exception>
public RepetitiveInterval(double startDate, double endDate,
int intervalStartHour, int intervalEndHour, int nRepeats,
RepetitiveInterval.RepeatUnit repeatUnit)
{
startDate_ = toDateOnlyMilliseconds(startDate);
endDate_ = toDateOnlyMilliseconds(endDate);
intervalStartHour_ = intervalStartHour;
intervalEndHour_ = intervalEndHour;
nRepeats_ = nRepeats;
repeatUnit_ = repeatUnit;
validate();
}
/// <summary>
/// Compare this to the other RepetitiveInterval.
/// </summary>
///
/// <param name="other">The other RepetitiveInterval to compare to.</param>
/// <returns>-1 if this is less than the other, 1 if greater and 0 if equal.</returns>
public int compare(RepetitiveInterval other)
{
if (startDate_ < other.startDate_)
{
return(-1);
}
if (startDate_ > other.startDate_)
{
return(1);
}
if (endDate_ < other.endDate_)
{
return(-1);
}
if (endDate_ > other.endDate_)
{
return(1);
}
if (intervalStartHour_ < other.intervalStartHour_)
{
return(-1);
}
if (intervalStartHour_ > other.intervalStartHour_)
{
return(1);
}
if (intervalEndHour_ < other.intervalEndHour_)
{
return(-1);
}
if (intervalEndHour_ > other.intervalEndHour_)
{
return(1);
}
if (nRepeats_ < other.nRepeats_)
{
return(-1);
}
if (nRepeats_ > other.nRepeats_)
{
return(1);
}
return(repeatUnit_.compare(other.repeatUnit_));
}
public void testConstruction()
{
RepetitiveInterval repetitiveInterval1 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"), 5, 10);
Assert.AssertEquals("20150825T000000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(repetitiveInterval1.getStartDate()));
Assert.AssertEquals("20150825T000000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(repetitiveInterval1.getEndDate()));
Assert.AssertEquals(5, repetitiveInterval1.getIntervalStartHour());
Assert.AssertEquals(10, repetitiveInterval1.getIntervalEndHour());
RepetitiveInterval repetitiveInterval2 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"), 5, 10, 1,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY);
Assert.AssertEquals(1, repetitiveInterval2.getNRepeats());
Assert.AssertEquals(net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY,
repetitiveInterval2.getRepeatUnit());
RepetitiveInterval repetitiveInterval3 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20151227T000000"), 5, 10, 2,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.MONTH);
Assert.AssertEquals(2, repetitiveInterval3.getNRepeats());
Assert.AssertEquals(net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.MONTH,
repetitiveInterval3.getRepeatUnit());
RepetitiveInterval repetitiveInterval4 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20301227T000000"), 5, 10, 5,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.YEAR);
Assert.AssertEquals(5, repetitiveInterval4.getNRepeats());
Assert.AssertEquals(net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.YEAR,
repetitiveInterval4.getRepeatUnit());
RepetitiveInterval repetitiveInterval5 = new RepetitiveInterval();
Assert.AssertEquals(0, repetitiveInterval5.getNRepeats());
Assert.AssertEquals(net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.NONE,
repetitiveInterval5.getRepeatUnit());
}
/// <summary>
/// Encode this Schedule.
/// </summary>
///
/// <returns>The encoded buffer.</returns>
public Blob wireEncode()
{
// For now, don't use WireFormat and hardcode to use TLV since the encoding
// doesn't go out over the wire, only into the local SQL database.
TlvEncoder encoder = new TlvEncoder(256);
int saveLength = encoder.getLength();
// Encode backwards.
// Encode the blackIntervalList.
int saveLengthForList = encoder.getLength();
Object[] array = ILOG.J2CsMapping.Collections.Collections.ToArray(blackIntervalList_);
System.Array.Sort(array);
for (int i = array.Length - 1; i >= 0; --i)
{
RepetitiveInterval element = (RepetitiveInterval)array[i];
encodeRepetitiveInterval(element, encoder);
}
encoder.writeTypeAndLength(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_BlackIntervalList,
encoder.getLength() - saveLengthForList);
// Encode the whiteIntervalList.
saveLengthForList = encoder.getLength();
array = ILOG.J2CsMapping.Collections.Collections.ToArray(whiteIntervalList_);
System.Array.Sort(array);
for (int i_0 = array.Length - 1; i_0 >= 0; --i_0)
{
RepetitiveInterval element_1 = (RepetitiveInterval)array[i_0];
encodeRepetitiveInterval(element_1, encoder);
}
encoder.writeTypeAndLength(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_WhiteIntervalList,
encoder.getLength() - saveLengthForList);
encoder.writeTypeAndLength(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_Schedule, encoder.getLength()
- saveLength);
return(new Blob(encoder.getOutput(), false));
}
/// <summary>
/// Encode the RepetitiveInterval as NDN-TLV to the encoder.
/// </summary>
///
/// <param name="repetitiveInterval">The RepetitiveInterval to encode.</param>
/// <param name="encoder">The TlvEncoder to receive the encoding.</param>
private static void encodeRepetitiveInterval(
RepetitiveInterval repetitiveInterval, TlvEncoder encoder)
{
int saveLength = encoder.getLength();
// Encode backwards.
encoder.writeNonNegativeIntegerTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_RepeatUnit,
repetitiveInterval.getRepeatUnit().getNumericType());
encoder.writeNonNegativeIntegerTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_NRepeats,
repetitiveInterval.getNRepeats());
encoder.writeNonNegativeIntegerTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_IntervalEndHour,
repetitiveInterval.getIntervalEndHour());
encoder.writeNonNegativeIntegerTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_IntervalStartHour,
repetitiveInterval.getIntervalStartHour());
// Use Blob to convert the string to UTF8 encoding.
encoder.writeBlobTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_EndDate, new Blob(
toIsoString(repetitiveInterval.getEndDate())).buf());
encoder.writeBlobTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_StartDate, new Blob(
toIsoString(repetitiveInterval.getStartDate())).buf());
encoder.writeTypeAndLength(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_RepetitiveInterval,
encoder.getLength() - saveLength);
}
/// <summary>
/// A helper function to calculate black interval results or white interval
/// results.
/// </summary>
///
/// <param name="list"></param>
/// <param name="timeStamp">The time stamp as milliseconds since Jan 1, 1970 UTC.</param>
/// <param name="positiveResult">The positive result which is updated.</param>
/// <param name="negativeResult">The negative result which is updated.</param>
private static void calculateIntervalResult(
HashedSet <RepetitiveInterval> list, double timeStamp,
Interval positiveResult, Interval negativeResult)
{
Object[] array = ILOG.J2CsMapping.Collections.Collections.ToArray(list);
System.Array.Sort(array);
/* foreach */
foreach (Object elementObj in array)
{
RepetitiveInterval element = (RepetitiveInterval)elementObj;
RepetitiveInterval.Result result = element.getInterval(timeStamp);
Interval tempInterval = result.interval;
if (result.isPositive == true)
{
try {
positiveResult.unionWith(tempInterval);
} catch (Interval.Error ex) {
// We don't expect to get this error.
throw new Exception("Error in Interval.unionWith: "
+ ex.Message);
}
}
else
{
if (!negativeResult.isValid())
{
negativeResult.set(tempInterval);
}
else
{
negativeResult.intersectWith(tempInterval);
}
}
}
}
public void testDatabaseFunctions()
{
Blob scheduleBlob = new Blob(SCHEDULE, false);
// Create a schedule.
Schedule schedule = new Schedule();
try {
schedule.wireDecode(scheduleBlob);
} catch (EncodingException ex) {
// We don't expect this to happen.
Fail("Error decoding Schedule: " + ex.Message);
}
// Create a member.
RsaKeyParams // Create a member.
paras = new RsaKeyParams();
DecryptKey decryptKey;
EncryptKey encryptKey;
try {
decryptKey = net.named_data.jndn.encrypt.algo.RsaAlgorithm.generateKey(paras);
encryptKey = net.named_data.jndn.encrypt.algo.RsaAlgorithm.deriveEncryptKey(decryptKey.getKeyBits());
} catch (Exception ex_0) {
// Don't expect this to happen.
Fail("Error creating test keys: " + ex_0.Message);
return;
}
Blob keyBlob = encryptKey.getKeyBits();
Name name1 = new Name("/ndn/BoyA/ksk-123");
Name name2 = new Name("/ndn/BoyB/ksk-1233");
Name name3 = new Name("/ndn/GirlC/ksk-123");
Name name4 = new Name("/ndn/GirlD/ksk-123");
Name name5 = new Name("/ndn/Hello/ksk-123");
// Add schedules into the database.
try {
database.addSchedule("work-time", schedule);
database.addSchedule("rest-time", schedule);
database.addSchedule("play-time", schedule);
database.addSchedule("boelter-time", schedule);
} catch (Exception ex_1) {
Fail("Unexpected error adding a schedule: " + ex_1.Message);
}
// Throw an exception when adding a schedule with an existing name.
bool gotError = true;
try {
database.addSchedule("boelter-time", schedule);
gotError = false;
} catch (GroupManagerDb.Error ex_2) {
}
if (!gotError)
Fail("Expected an error adding a duplicate schedule");
// Add members into the database.
try {
database.addMember("work-time", name1, keyBlob);
database.addMember("rest-time", name2, keyBlob);
database.addMember("play-time", name3, keyBlob);
database.addMember("play-time", name4, keyBlob);
} catch (Exception ex_3) {
Fail("Unexpected error adding a member: " + ex_3.Message);
}
// Throw an exception when adding a member with a non-existing schedule name.
gotError = true;
try {
database.addMember("false-time", name5, keyBlob);
gotError = false;
} catch (GroupManagerDb.Error ex_4) {
}
if (!gotError)
Fail("Expected an error adding a member with non-existing schedule");
try {
database.addMember("boelter-time", name5, keyBlob);
} catch (Exception ex_5) {
Fail("Unexpected error adding a member: " + ex_5.Message);
}
// Throw an exception when adding a member having an existing identity.
gotError = true;
try {
database.addMember("work-time", name5, keyBlob);
gotError = false;
} catch (GroupManagerDb.Error ex_6) {
}
if (!gotError)
Fail("Expected an error adding a member with an existing identity");
// Test has functions.
AssertEquals(true, database.hasSchedule("work-time"));
AssertEquals(true, database.hasSchedule("rest-time"));
AssertEquals(true, database.hasSchedule("play-time"));
AssertEquals(false, database.hasSchedule("sleep-time"));
AssertEquals(false, database.hasSchedule(""));
AssertEquals(true, database.hasMember(new Name("/ndn/BoyA")));
AssertEquals(true, database.hasMember(new Name("/ndn/BoyB")));
AssertEquals(false, database.hasMember(new Name("/ndn/BoyC")));
// Get a schedule.
Schedule scheduleResult = database.getSchedule("work-time");
AssertTrue(scheduleResult.wireEncode().equals(scheduleBlob));
scheduleResult = database.getSchedule("play-time");
AssertTrue(scheduleResult.wireEncode().equals(scheduleBlob));
// Throw an exception when when there is no such schedule in the database.
gotError = true;
try {
database.getSchedule("work-time-11");
gotError = false;
} catch (GroupManagerDb.Error ex_7) {
}
if (!gotError)
Fail("Expected an error getting a non-existing schedule");
// List all schedule names.
IList names = database.listAllScheduleNames();
AssertTrue(names.Contains("work-time"));
AssertTrue(names.Contains("play-time"));
AssertTrue(names.Contains("rest-time"));
AssertTrue(!names.Contains("sleep-time"));
// List members of a schedule.
IDictionary memberMap = database.getScheduleMembers("play-time");
AssertTrue(memberMap.Count != 0);
// When there's no such schedule, the return map's size should be 0.
AssertEquals(0, database.getScheduleMembers("sleep-time").Count);
// List all members.
IList members = database.listAllMembers();
AssertTrue(members.Contains(new Name("/ndn/GirlC")));
AssertTrue(members.Contains(new Name("/ndn/GirlD")));
AssertTrue(members.Contains(new Name("/ndn/BoyA")));
AssertTrue(members.Contains(new Name("/ndn/BoyB")));
// Rename a schedule.
AssertEquals(true, database.hasSchedule("boelter-time"));
database.renameSchedule("boelter-time", "rieber-time");
AssertEquals(false, database.hasSchedule("boelter-time"));
AssertEquals(true, database.hasSchedule("rieber-time"));
AssertEquals("rieber-time",
database.getMemberSchedule(new Name("/ndn/Hello")));
// Update a schedule.
Schedule newSchedule = new Schedule();
try {
newSchedule.wireDecode(scheduleBlob);
} catch (EncodingException ex_8) {
// We don't expect this to happen.
Fail("Error decoding Schedule: " + ex_8.Message);
}
RepetitiveInterval repetitiveInterval = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150921T000000"), 2, 10, 5,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY);
newSchedule.addWhiteInterval(repetitiveInterval);
database.updateSchedule("rieber-time", newSchedule);
scheduleResult = database.getSchedule("rieber-time");
AssertTrue(!scheduleResult.wireEncode().equals(scheduleBlob));
AssertTrue(scheduleResult.wireEncode().equals(newSchedule.wireEncode()));
// Add a new schedule when updating a non-existing schedule.
AssertEquals(false, database.hasSchedule("ralphs-time"));
database.updateSchedule("ralphs-time", newSchedule);
AssertEquals(true, database.hasSchedule("ralphs-time"));
// Update the schedule of a member.
database.updateMemberSchedule(new Name("/ndn/Hello"), "play-time");
AssertEquals("play-time",
database.getMemberSchedule(new Name("/ndn/Hello")));
// Delete a member.
AssertEquals(true, database.hasMember(new Name("/ndn/Hello")));
database.deleteMember(new Name("/ndn/Hello"));
AssertEquals(false, database.hasMember(new Name("/ndn/Hello")));
// Delete a non-existing member.
try {
database.deleteMember(new Name("/ndn/notExisting"));
} catch (Exception ex_9) {
Fail("Unexpected error deleting a non-existing member: "
+ ex_9.Message);
}
// Delete a schedule. All the members using this schedule should be deleted.
database.deleteSchedule("play-time");
AssertEquals(false, database.hasSchedule("play-time"));
AssertEquals(false, database.hasMember(new Name("/ndn/GirlC")));
AssertEquals(false, database.hasMember(new Name("/ndn/GirlD")));
// Delete a non-existing schedule.
try {
database.deleteSchedule("not-existing-time");
} catch (Exception ex_10) {
Fail("Unexpected error deleting a non-existing schedule: "
+ ex_10.Message);
}
}
/// <summary>
/// Add the repetitiveInterval to the blackIntervalList.
/// </summary>
///
/// <param name="repetitiveInterval"></param>
/// <returns>This Schedule so you can chain calls to add.</returns>
public Schedule addBlackInterval(RepetitiveInterval repetitiveInterval)
{
// RepetitiveInterval is immutable, so we don't need to make a copy.
ILOG.J2CsMapping.Collections.Collections.Add(blackIntervalList_,repetitiveInterval);
return this;
}
/// <summary>
/// Encode the RepetitiveInterval as NDN-TLV to the encoder.
/// </summary>
///
/// <param name="repetitiveInterval">The RepetitiveInterval to encode.</param>
/// <param name="encoder">The TlvEncoder to receive the encoding.</param>
private static void encodeRepetitiveInterval(
RepetitiveInterval repetitiveInterval, TlvEncoder encoder)
{
int saveLength = encoder.getLength();
// Encode backwards.
encoder.writeNonNegativeIntegerTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_RepeatUnit,
net.named_data.jndn.encrypt.RepetitiveInterval.getRepeatUnitNumericType(repetitiveInterval
.getRepeatUnit()));
encoder.writeNonNegativeIntegerTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_NRepeats,
repetitiveInterval.getNRepeats());
encoder.writeNonNegativeIntegerTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_IntervalEndHour,
repetitiveInterval.getIntervalEndHour());
encoder.writeNonNegativeIntegerTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_IntervalStartHour,
repetitiveInterval.getIntervalStartHour());
// Use Blob to convert the string to UTF8 encoding.
encoder.writeBlobTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_EndDate, new Blob(
toIsoString(repetitiveInterval.getEndDate())).buf());
encoder.writeBlobTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_StartDate, new Blob(
toIsoString(repetitiveInterval.getStartDate())).buf());
encoder.writeTypeAndLength(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_RepetitiveInterval,
encoder.getLength() - saveLength);
}
public void testEncodeAndDecode()
{
Schedule schedule = new Schedule();
RepetitiveInterval interval1 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150828T000000"), 5, 10, 2,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY);
RepetitiveInterval interval2 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150828T000000"), 6, 8, 1,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY);
RepetitiveInterval interval3 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"), 7, 8);
RepetitiveInterval interval4 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"), 4, 7);
schedule.addWhiteInterval(interval1);
schedule.addWhiteInterval(interval2);
schedule.addWhiteInterval(interval4);
schedule.addBlackInterval(interval3);
Blob encoding = schedule.wireEncode();
Blob encoding2 = new Blob(SCHEDULE, false);
Assert.AssertTrue(encoding.equals(encoding2));
Schedule schedule2 = new Schedule();
try {
schedule2.wireDecode(encoding);
} catch (EncodingException ex) {
Assert.Fail("Error decoding Schedule: " + ex.Message);
}
Schedule.Result result;
// timePoint1 --> positive 8.25 4-10
double timePoint1 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T063000");
result = schedule.getCoveringInterval(timePoint1);
Assert.AssertEquals(true, result.isPositive);
Assert.AssertEquals("20150825T040000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150825T100000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
// timePoint2 --> positive 8.26 6-8
double timePoint2 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150826T073000");
result = schedule.getCoveringInterval(timePoint2);
Assert.AssertEquals(true, result.isPositive);
Assert.AssertEquals("20150826T060000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150826T080000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
}
/// <summary>
/// Compare this to the other RepetitiveInterval.
/// </summary>
///
/// <param name="other">The other RepetitiveInterval to compare to.</param>
/// <returns>-1 if this is less than the other, 1 if greater and 0 if equal.</returns>
public int compare(RepetitiveInterval other)
{
if (startDate_ < other.startDate_)
return -1;
if (startDate_ > other.startDate_)
return 1;
if (endDate_ < other.endDate_)
return -1;
if (endDate_ > other.endDate_)
return 1;
if (intervalStartHour_ < other.intervalStartHour_)
return -1;
if (intervalStartHour_ > other.intervalStartHour_)
return 1;
if (intervalEndHour_ < other.intervalEndHour_)
return -1;
if (intervalEndHour_ > other.intervalEndHour_)
return 1;
if (nRepeats_ < other.nRepeats_)
return -1;
if (nRepeats_ > other.nRepeats_)
return 1;
// Lastly, compare the repeat units.
// Compare without using Integer.compare so it works in older Java compilers.
if (getRepeatUnitNumericType(repeatUnit_) < getRepeatUnitNumericType(other.repeatUnit_))
return -1;
else if (getRepeatUnitNumericType(repeatUnit_) == getRepeatUnitNumericType(other.repeatUnit_))
return 0;
else
return 1;
}
/// <summary>
/// Get the numeric value associated with the repeatUnit. This is a separate
/// method for portability.
/// </summary>
///
/// <param name="repeatUnit">The RepeatUnit.</param>
/// <returns>The numeric value for repeatUnit.</returns>
public static int getRepeatUnitNumericType(RepetitiveInterval.RepeatUnit repeatUnit)
{
if (repeatUnit == net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY)
return 1;
else if (repeatUnit == net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.MONTH)
return 2;
else if (repeatUnit == net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.YEAR)
return 3;
else
return 0;
}
/// <summary>
/// Create a RepetitiveInterval, copying values from the given repetitiveInterval.
/// </summary>
///
/// <param name="repetitiveInterval">The RepetitiveInterval to copy values from.</param>
public RepetitiveInterval(RepetitiveInterval repetitiveInterval)
{
startDate_ = repetitiveInterval.startDate_;
endDate_ = repetitiveInterval.endDate_;
intervalStartHour_ = repetitiveInterval.intervalStartHour_;
intervalEndHour_ = repetitiveInterval.intervalEndHour_;
nRepeats_ = repetitiveInterval.nRepeats_;
repeatUnit_ = repetitiveInterval.repeatUnit_;
}
internal void setManager(GroupManager manager)
{
// Set up the first schedule.
Schedule schedule1 = new Schedule();
RepetitiveInterval interval11 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"), 5, 10, 2,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY);
RepetitiveInterval interval12 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"), 6, 8, 1,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY);
RepetitiveInterval interval13 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"), 7, 8);
schedule1.addWhiteInterval(interval11);
schedule1.addWhiteInterval(interval12);
schedule1.addBlackInterval(interval13);
// Set up the second schedule.
Schedule schedule2 = new Schedule();
RepetitiveInterval interval21 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"), 9, 12, 1,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY);
RepetitiveInterval interval22 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"), 6, 8);
RepetitiveInterval interval23 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"), 2, 4);
schedule2.addWhiteInterval(interval21);
schedule2.addWhiteInterval(interval22);
schedule2.addBlackInterval(interval23);
// Add them to the group manager database.
manager.addSchedule("schedule1", schedule1);
manager.addSchedule("schedule2", schedule2);
// Make some adaptions to certificate.
Blob dataBlob = certificate.wireEncode();
Data memberA = new Data();
memberA.wireDecode(dataBlob, net.named_data.jndn.encoding.TlvWireFormat.get());
memberA.setName(new Name("/ndn/memberA/KEY/ksk-123/ID-CERT/123"));
Data memberB = new Data();
memberB.wireDecode(dataBlob, net.named_data.jndn.encoding.TlvWireFormat.get());
memberB.setName(new Name("/ndn/memberB/KEY/ksk-123/ID-CERT/123"));
Data memberC = new Data();
memberC.wireDecode(dataBlob, net.named_data.jndn.encoding.TlvWireFormat.get());
memberC.setName(new Name("/ndn/memberC/KEY/ksk-123/ID-CERT/123"));
// Add the members to the database.
manager.addMember("schedule1", memberA);
manager.addMember("schedule1", memberB);
manager.addMember("schedule2", memberC);
}
public void testCalculateIntervalWithoutWhite()
{
Schedule schedule = new Schedule();
RepetitiveInterval interval1 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"), 5, 10, 2,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY);
RepetitiveInterval interval2 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"), 6, 8, 1,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY);
schedule.addBlackInterval(interval1);
schedule.addBlackInterval(interval2);
Schedule.Result result;
// timePoint1 --> negative 8.25 4-10
double timePoint1 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T063000");
result = schedule.getCoveringInterval(timePoint1);
Assert.AssertEquals(false, result.isPositive);
Assert.AssertEquals(false, result.interval.isEmpty());
Assert.AssertEquals("20150825T050000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150825T100000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
// timePoint2 --> negative 8.25 0-4
double timePoint2 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T013000");
result = schedule.getCoveringInterval(timePoint2);
Assert.AssertEquals(false, result.isPositive);
Assert.AssertEquals(false, result.interval.isEmpty());
Assert.AssertEquals("20150825T000000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150826T000000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
}
private static bool check(RepetitiveInterval small,
RepetitiveInterval big)
{
return small.compare(big) < 0 && !(big.compare(small) < 0);
}
public void testCoverTimePoint()
{
///////////////////////////////////////////// With the repeat unit DAY.
RepetitiveInterval repetitiveInterval1 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150925T000000"), 5, 10, 2,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY);
RepetitiveInterval.Result result;
double timePoint1 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T050000");
result = repetitiveInterval1.getInterval(timePoint1);
Assert.AssertEquals(true, result.isPositive);
Assert.AssertEquals("20150825T050000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150825T100000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
double timePoint2 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150902T060000");
result = repetitiveInterval1.getInterval(timePoint2);
Assert.AssertEquals(true, result.isPositive);
Assert.AssertEquals("20150902T050000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150902T100000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
double timePoint3 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150929T040000");
result = repetitiveInterval1.getInterval(timePoint3);
Assert.AssertEquals(false, result.isPositive);
///////////////////////////////////////////// With the repeat unit MONTH.
RepetitiveInterval repetitiveInterval2 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20160825T000000"), 5, 10, 2,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.MONTH);
double timePoint4 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T050000");
result = repetitiveInterval2.getInterval(timePoint4);
Assert.AssertEquals(true, result.isPositive);
Assert.AssertEquals("20150825T050000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150825T100000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
double timePoint5 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20151025T060000");
result = repetitiveInterval2.getInterval(timePoint5);
Assert.AssertEquals(true, result.isPositive);
Assert.AssertEquals("20151025T050000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20151025T100000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
double timePoint6 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20151226T050000");
result = repetitiveInterval2.getInterval(timePoint6);
Assert.AssertEquals(false, result.isPositive);
double timePoint7 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20151225T040000");
result = repetitiveInterval2.getInterval(timePoint7);
Assert.AssertEquals(false, result.isPositive);
///////////////////////////////////////////// With the repeat unit YEAR.
RepetitiveInterval repetitiveInterval3 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20300825T000000"), 5, 10, 3,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.YEAR);
double timePoint8 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T050000");
result = repetitiveInterval3.getInterval(timePoint8);
Assert.AssertEquals(true, result.isPositive);
Assert.AssertEquals("20150825T050000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150825T100000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
double timePoint9 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20180825T060000");
result = repetitiveInterval3.getInterval(timePoint9);
Assert.AssertEquals(true, result.isPositive);
Assert.AssertEquals("20180825T050000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20180825T100000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
double timePoint10 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20180826T050000");
result = repetitiveInterval3.getInterval(timePoint10);
Assert.AssertEquals(false, result.isPositive);
double timePoint11 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20210825T040000");
result = repetitiveInterval3.getInterval(timePoint11);
Assert.AssertEquals(false, result.isPositive);
double timePoint12 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20300825T040000");
result = repetitiveInterval3.getInterval(timePoint12);
Assert.AssertEquals(false, result.isPositive);
}
/// <summary>
/// Compare this to the other RepetitiveInterval.
/// </summary>
///
/// <param name="other">The other RepetitiveInterval to compare to.</param>
/// <returns>-1 if this is less than the other, 1 if greater and 0 if equal.</returns>
public int compare(RepetitiveInterval other)
{
if (startDate_ < other.startDate_)
{
return(-1);
}
if (startDate_ > other.startDate_)
{
return(1);
}
if (endDate_ < other.endDate_)
{
return(-1);
}
if (endDate_ > other.endDate_)
{
return(1);
}
if (intervalStartHour_ < other.intervalStartHour_)
{
return(-1);
}
if (intervalStartHour_ > other.intervalStartHour_)
{
return(1);
}
if (intervalEndHour_ < other.intervalEndHour_)
{
return(-1);
}
if (intervalEndHour_ > other.intervalEndHour_)
{
return(1);
}
if (nRepeats_ < other.nRepeats_)
{
return(-1);
}
if (nRepeats_ > other.nRepeats_)
{
return(1);
}
// Lastly, compare the repeat units.
// Compare without using Integer.compare so it works in older Java compilers.
if (getRepeatUnitNumericType(repeatUnit_) < getRepeatUnitNumericType(other.repeatUnit_))
{
return(-1);
}
else if (getRepeatUnitNumericType(repeatUnit_) == getRepeatUnitNumericType(other.repeatUnit_))
{
return(0);
}
else
{
return(1);
}
}
/// <summary>
/// Add the repetitiveInterval to the blackIntervalList.
/// </summary>
///
/// <param name="repetitiveInterval"></param>
/// <returns>This Schedule so you can chain calls to add.</returns>
public Schedule addBlackInterval(RepetitiveInterval repetitiveInterval)
{
// RepetitiveInterval is immutable, so we don't need to make a copy.
ILOG.J2CsMapping.Collections.Collections.Add(blackIntervalList_, repetitiveInterval);
return(this);
}
public void testCalculateIntervalWithBlackAndWhite()
{
Schedule schedule = new Schedule();
RepetitiveInterval interval1 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"), 5, 10, 2,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY);
RepetitiveInterval interval2 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"), 6, 8, 1,
net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY);
RepetitiveInterval interval3 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T000000"), 7, 8);
RepetitiveInterval interval4 = new RepetitiveInterval(
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"),
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T000000"), 4, 7);
schedule.addWhiteInterval(interval1);
schedule.addWhiteInterval(interval2);
schedule.addWhiteInterval(interval4);
schedule.addBlackInterval(interval3);
Schedule.Result result;
// timePoint1 --> positive 8.25 4-10
double timePoint1 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T063000");
result = schedule.getCoveringInterval(timePoint1);
Assert.AssertEquals(true, result.isPositive);
Assert.AssertEquals("20150825T040000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150825T100000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
// timePoint2 --> positive 8.26 6-8
double timePoint2 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150826T073000");
result = schedule.getCoveringInterval(timePoint2);
Assert.AssertEquals(true, result.isPositive);
Assert.AssertEquals("20150826T060000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150826T080000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
// timePoint3 --> positive 8.27 5-7
double timePoint3 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T053000");
result = schedule.getCoveringInterval(timePoint3);
Assert.AssertEquals(true, result.isPositive);
Assert.AssertEquals("20150827T050000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150827T070000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
// timePoint4 --> positive 8.27 5-7
double timePoint4 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T063000");
result = schedule.getCoveringInterval(timePoint4);
Assert.AssertEquals(true, result.isPositive);
Assert.AssertEquals("20150827T050000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150827T070000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
// timePoint5 --> negative 8.27 7-8
double timePoint5 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T073000");
result = schedule.getCoveringInterval(timePoint5);
Assert.AssertEquals(false, result.isPositive);
Assert.AssertEquals(false, result.interval.isEmpty());
Assert.AssertEquals("20150827T070000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150827T080000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
// timePoint6 --> negative 8.25 10-24
double timePoint6 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T113000");
result = schedule.getCoveringInterval(timePoint6);
Assert.AssertEquals(false, result.isPositive);
Assert.AssertEquals(false, result.interval.isEmpty());
Assert.AssertEquals("20150825T100000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getStartTime()));
Assert.AssertEquals("20150826T000000",
net.named_data.jndn.tests.unit_tests.UnitTestsCommon.toIsoString(result.interval.getEndTime()));
}
