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---
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title: "TempleOS: Date/Time Code"
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date: 2019-06-22
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---
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# TempleOS: Date/Time Code
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## Introduction
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In the [last post](https://christine.website/blog/templeos-2-god-the-rng-2019-05-30)
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we discussed `god`, the random number generator of TempleOS. This post is going to
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cover the time handling subsystem of the TempleOS kernel. As mentioned [before](https://christine.website/blog/sorting-time-2018-08-26),
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time is an unfortunately complicated thing, and legacy systems stapled onto
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legacy systems complicate this a lot. It also doesn't help that we consider
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one day 24 hours, even though it's more accurately slightly less than that.
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Most people consider a year to be 365 days, but the actual movement of the ball
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Earth around the Sun is closer to 365 days and about [six hours](https://www.scienceabc.com/eyeopeners/why-do-we-have-a-leap-day-leap-year-after-every-4-years.html).
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To compensate for this, every 4 years we add a day to the calendar called a
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Leap Day. This complicates time calculations. And this isn't even going to
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cover time zones because I want you readers to have some shred of sanity left.
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## Problem space description
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Time is an unfortunately complicated thing to handle. The goal of this part of
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the TempleOS kernel is to allow users to programmatically get the current "real
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time", or the time of the day. This is sometimes called "wall clock time",
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referring to the offices where Unix was developed having literal clocks on the
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wall to tell you the time. When you read a clock off the wall, you get the
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current time in hours, minutes and sometimes seconds. See this example below:
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![an analog clock](/static/img/analog_clock.jpg)
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This clock either says it is 2:51:59 or 14:51:59, as clocks only show a 12 hour
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view of 24 hour days for historical reasons.
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## How x86 hardware handles time
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The x86 real-time clock keeps track of time with a similar kind of API. The OS
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can query the real-time clock and get the following fields individually:
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* Seconds
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* Minutes
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* Hours
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* Weekday
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* Day of month
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* Month
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* Last two digits of the year
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* Sometimes the current century (19 or 20)
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Note the last two digits of the year. This is returned because computers
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historically did not keep track of the current century in order to save memory.
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This famously caused the Y2K bug that [almost caused chaos globally](https://en.wikipedia.org/wiki/Year_2000_problem). Thankfully this problem was averted.
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## How Linux handles time
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Linux handles time by keeping track of [the number of seconds since January 1, 1970](https://en.wikipedia.org/wiki/Unix_time).
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Traditionally programs use a signed 32 bit integer value for this. You might
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notice that this is a drastically different time format than what the real-time
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clock provides. When Linux reads from the real time clock, it does some math to
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convert these real time values to a unix timestamp.
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### The Rockchip calendar hack
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Of course, this assumes that the hardware is behaving correctly. There have been
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cases in the past where [buggy hardware required patches](https://lore.kernel.org/patchwork/patch/628142/).
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If the hardware calendar and the software understanding of that calendar get out
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of sync, things get really confused.
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## How TempleOS handles time
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TempleOS has two main time types, [CDateStruct](https://github.com/Xe/TempleOS/blob/master/Kernel/KernelA.HH#L193-L198)
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and [CDate](https://github.com/Xe/TempleOS/blob/master/Kernel/KernelA.HH#L186-L190).
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Let's look at each of these in more detail:
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```c++
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public class CDateStruct
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{
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U8 sec10000,sec100,sec,min,hour,
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day_of_week,day_of_mon,mon;
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I32 year;
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};
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public I64 class CDate
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{
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U32 time;
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I32 date;
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};
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```
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The `I64 class CDate` part of the definition makes the HolyC compiler align
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instances of it across the size of a int64 value, or 8 bytes. This also makes
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the compiler treat instances of it like an integer value.
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Here are approximate Zig equivalents:
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```zig
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pub const CDateStruct = packed struct {
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sec10000: u8,
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sec100: u8,
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sec: u8,
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min: u8,
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hour: u8,
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day_of_week: u8,
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day_of_mon: u8,
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mon: u8,
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year: i32,
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};
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pub const CDate = packed struct {
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time: u32,
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date: i32,
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}
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```
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The [TempleOS documentation](https://templeos.holyc.xyz/Wb/Doc/TimeDate.html)
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describes `CDate` like this:
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```
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TempleOS uses a 64-bit value, CDate, for date/time. The upper 32-bits are the
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days since Christ. The lower 32-bits store time of day divided by 4 billion
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which works out to 49710ths of a second. You can subtract two CDate's to get a
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time span.
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Use CDATE_FREQ to convert.
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```
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And it [describes the `date` field](https://templeos.holyc.xyz/Wb/Doc/Date.html)
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of `CDate` like this:
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```
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Dates are 32-bit signed ints representing the number of days since the birth of
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Christ. Negative values represent B.C.E. dates.
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```
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B.C.E. usually means "Before Common Era", which is a way to say "the time before
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Jesus Christ was born". Christianity ended up being such a core part of global
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culture that the calendar was reset because of it.
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* CMOS real time clock API
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* NowDateTimeStruct();
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* How to read from the CMOS clock
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* The bug in the time code
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* Live Demo (Zig/wasm+JS)
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