Your question could be better written. You should try to narrow it down to a very specify example. You don't even specify the milliseconds value under discussion.
Servers should almost always be set to a UTC/GMT time zone without Daylight Saving Time. On some systems such as Mac OS X, that is difficult. In that case, set time zone of machine to "Atlantic/Reykjavik" because Iceland stays on UTC/GMT year-round without any Daylight Saving Time nonsense.
The java.util.Date & .Calendar classes bundled with Java are notoriously troublesome.
One of the pain points is that while a Date has no time zone assigned, its
toString method uses the default time zone in rendering the string. So to the naïve programmer it seems like Date has a time zone when it does not.
Use either the Joda-Time library or the new java.time.* classes bundled with Java 8. Search StackOverflow for many examples of both.
Think Globally, Present Locally
Most of your business logic and your database storage should all be done in UTC/GMT (no time zone offset). A competent database such as Postgres will do so by default.
Only switch to a time zone for presentation to a user, as a general rule.
Always specify a time zone. Do not rely on default time zones as that causes surprises in production or any time machines change their time zone.
Avoid the three letter codes, as they are neither standardized nor unique. Use proper time zone names.
Look up your time zone names in a list like this one (slightly outdated, read details). Your mention of "India/Kolkata" in your question is, I believe, incorrect. Should be "Asia/Kolkata".
If you must serialize, use only the ISO 8601 format. This format is human-readable, unambiguous, and clearly defined.
Example for India time zone: 2014-01-19T12:38:31+05:30
Example for UTC/GMT "Zulu": 2013-11-22T18:28.023Z
Use the java.sql.* classes for communicating to your database via JDBC.
You construct a java.sql.Timestamp object by passing the milliseconds since 1970 began. In Joda-Time, call
getMillis to obtain a value to pass.
Generally, I prefer to avoid dealing with milliseconds for tracking time. People tend to get into trouble since some systems track time from an epoch in seconds, milliseconds, or nanoseconds. Furthermore, there are many epochs in use, not always the Unix-style of first day of 1970.
I try to pass around either:
But if you are sure your milliseconds value represents the true number of milliseconds since the first day of 1970 in UTC/GMT, then use this kind of code with Joda-Time. Note the 'L' flagging the number as a long integer.
DateTime dateTime = new DateTime( 1390276603054L );
DateTime dateTimeSpain = dateTime.toDateTime( DateTimeZone.forID( "Europe/Madrid" ) );
DateTime dateTimeIndia = dateTime.toDateTime( DateTimeZone.forID( "Asia/Kolkata" ) );
DateTime dateTimeUtcGmt = dateTime.toDateTime( DateTimeZone.UTC );
// For database.
java.sql.Timestamp timestamp = new java.sql.Timestamp( dateTimeSpain.getMillis() );
Dump to console…
System.out.println( "dateTime (default time zone): " + dateTime );
System.out.println( "dateTimeSpain: " + dateTimeSpain );
System.out.println( "dateTimeIndia: " + dateTimeIndia );
System.out.println( "dateTimeUtcGmt: " + dateTimeUtcGmt );
System.out.println( "timestamp: " + timestamp ); // "toString" uses default time zone.
dateTime (default time zone): 2014-01-20T19:56:43.054-08:00
timestamp: 2014-01-20 19:56:43.054