One problem may be that java.sql.Date are supposed to be…
'normalized' by setting the hours, minutes, seconds, and milliseconds to zero in the particular time zone with which the instance is associated.
…according to the documentation. That means, the time portion of the date-time is being cleared from your java.util.Date or Joda-Time DateTime objects.
No Time Zone
As the correct answer by Gilbert Le Blanc notes, both java.util.Date and java.sql.Date have no concept of time zone internally. They store the number of milliseconds since the Unix epoch.
Those classes pull a nasty trick: Their
toString methods apply your JVM's default time zone to the rendering of the string. Very confusing. The
Date object has no time zone, yet when displayed as a string you see a time zone.
If your java.util.Date object contains the number of 1344902399000L milliseconds since the epoch (1970 start), that means
2012-08-13T23:59:59.000Z in UTC/GMT. But if your JVM believes itself to be in France with Daylight Saving Time (DST) in effect, you'll see 2 hours ahead of UTC/GMT:
2012-08-14T01:59:59.000+02:00 described in that class' awful string format. The same moment of time has different day-of-month meaning (13 vs 14) in different time zones, with the clock-on-the-wall being past midnight.
Joda-Time To The Rescue
The Joda-Time 2.4 library can be helpful here. Pass either the java.sql.Date or java.util.Date object to a DateTime constructor along with the UTC time zone object to get a clear picture of the value with which you are struggling.
java.util.Date date = new java.util.Date( 1390276603054L );
DateTime dateTimeUtc = new DateTime( date, DateTimeZone.UTC );
System.out.println( "dateTimeUtc: " + dateTimeUtc );
To convert the other direction from Joda-Time to java.util.Date…
java.util.Date date = myDateTime.toDate();
To convert the other direction from Joda-Time to java.sql.Date…
java.sql.Date date = new java.sql.Date( myDateTime.getMillis() );