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Ralf Corsepius
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@c
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@c COPYRIGHT (c) 1988-2002.
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@c On-Line Applications Research Corporation (OAR).
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@c All rights reserved.
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@c
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@c $Id$
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@c
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@node Date/Time Issues in Systems Using RTEMS, Hardware Issues, , Top
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@chapter Date/Time Issues in Systems Using RTEMS
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@ifinfo
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@menu
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* Hardware Issues::
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* RTEMS Specific Issues::
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* Language Specific Issues::
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* Date/Time Conclusion::
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@end menu
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@end ifinfo
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This section provides technical information regarding
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date/time representation issues and RTEMS. The Y2K problem has
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lead numerous people to ask these questions. The answer to
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these questions are actually more complicated than most
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people asking the question expect. RTEMS supports multiple
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standards and each of these standards has its own epoch and
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time representation. These standards include both programming
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API and programming language standards.
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In addition to the issues inside RTEMS
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itself, there is the complicating factor that the Board
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Support Package or application itself may interface with hardware
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or software that has its own set of date/time representation
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issues.
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In conclusion, viewing date/time representation as "the Y2K problem"
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is very short-sighted. Date/time representation should be viewed as
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a systems level issue for the system you are building. Each software
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and hardware component in the system as well as the systems being
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connected to is a factor in the equation.
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@node Hardware Issues, RTEMS Specific Issues, Date/Time Issues in Systems Using RTEMS, Date/Time Issues in Systems Using RTEMS
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@section Hardware Issues
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Numerous Real-Time Clock (RTC) controllers provide only a two-digit
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Binary Coded Decimal (BCD) representation for the current year. Without
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software correction, these chips are a classic example of the Y2K problem.
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When the RTC rolls the year register over from 99 to 00, the device
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has no idea whether the year is 1900 or 2000. It is the responsibility
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of the device driver to recognize this condition and correct for it.
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The most common technique used is to assume that all years prior
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to either the existence of the board or RTEMS are past 2000. The
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starting year (epoch) for RTEMS is 1988. Thus,
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@itemize @bullet
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@item Chip year values 88-99 are interpreted as years 1988-2002.
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@item Chip year values 00-87 are interpreted as years 2000-2087.
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@end itemize
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Using this technique, a RTC using a
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two-digit BCD representation of the current year will overflow on
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January 1, 2088.
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@node RTEMS Specific Issues, Language Specific Issues, Hardware Issues, Date/Time Issues in Systems Using RTEMS
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@section RTEMS Specific Issues
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Internally, RTEMS uses an unsigned thirty-two bit integer to represent the
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number of seconds since midnight January 1, 1988. This counter will
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overflow on February 5, 2124.
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The time/date services in the Classic API will overflow when the
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RTEMS internal date/time representation overflows.
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The POSIX API uses the type @i{time_t} to represent the number of
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seconds since January 1, 1970. Many traditional UNIX systems as
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well as RTEMS define @i{time_t} as a signed thirty-two bit integer.
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This representation overflows on January 18, 2038. The solution
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usually proposed is to define @i{time_t} as a sixty-four bit
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integer. This solution is appropriate for for UNIX workstations
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as many of them already support sixty-four bit integers natively.
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At this time, this imposes a burden on embedded systems which are
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still primarily using processors with native integers of thirty-two
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bits or less.
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@node Language Specific Issues, Date/Time Conclusion, RTEMS Specific Issues, Date/Time Issues in Systems Using RTEMS
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@section Language Specific Issues
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The Ada95 Language Reference Manual requires that the @i{Ada.Calendar}
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package support years through the year 2099. However, just as the
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hardware is layered on top of hardware and may inherit its limits,
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the Ada tasking and run-time support is layered on top of an operating
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system. Thus, if the operating system or underlying hardware fail
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to correctly report dates after 2099, then it is possible for the
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@i{Ada.Calendar} package to fail prior to 2099.
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@node Date/Time Conclusion, , Language Specific Issues, Date/Time Issues in Systems Using RTEMS
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@section Date/Time Conclusion
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Each embedded system could be impacted by a variety of date/time
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representation issues. Even whether a particular date/time
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representation issue impacts a system is questionable. A system
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using only the RTEMS Classic API is not impacted by the
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date/time representation issues in POSIX. A system not using
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date/time at all is not impacted by any of these issues. Also
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the planned end of life for a system may make these issues
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moot.
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The following is a timeline of the date/time representation
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issues presented in this section:
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@itemize @bullet
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@item 2000 - Two BCD Digit Real-Time Clock Rollover
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@item 2038 - POSIX @i{time_t} Rollover
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@item 2088 - Correction for Two BCD Digit Real-Time Clock Rollover
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@item 2099 - Ada95 @i{Ada.Calendar} Rollover
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@item 2124 - RTEMS Internal Seconds Counter Rollover
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@end itemize
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