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os-k/kaleid/kernel/ke/pit.c

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//----------------------------------------------------------------------------//
// GNU GPL OS/K //
// //
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// Desc: PIT Time related functions //
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// //
// //
// Copyright © 2018-2020 The OS/K Team //
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// //
// This file is part of OS/K. //
// //
// OS/K is free software: you can redistribute it and/or modify //
// it under the terms of the GNU General Public License as published by //
// the Free Software Foundation, either version 3 of the License, or //
// any later version. //
// //
// OS/K is distributed in the hope that it will be useful, //
// but WITHOUT ANY WARRANTY//without even the implied warranty of //
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
// GNU General Public License for more details. //
// //
// You should have received a copy of the GNU General Public License //
// along with OS/K. If not, see <https://www.gnu.org/licenses/>. //
//----------------------------------------------------------------------------//
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#include <libbuf.h>
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#include <ke/time.h>
#include <ke/idt.h>
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#include <ke/sched.h>
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#define COUNTDONE 1
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#define PIT_FREQUENCY 1000 // Hz = 1ms
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static Timer_t Timer[20]; //20 concurrent sleep max
static ulong Ticks = 0;
static Time_t CurTime;
static char TimeFmtBuf[22] = { 0 };
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extern bool PsInitialized;
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//
// ISR handler for the Programmable Interval Timer
//
#pragma GCC push_options
#pragma GCC optimize ("O0")
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static void HandlePIT(ISRFrame_t *regs)
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{
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Ticks++;
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for (uchar i = 0; i < 20; i++) {
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if (Timer[i].countDown > 0) {
Timer[i].countDown--;
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if (Timer[i].countDown == 0)
Timer[i].sema = 1;
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}
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KeSendEOItoPIC(0x28);
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if (PsInitialized && !(Ticks % 100)) {
PsSchedOnTick();
}
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}
}
#pragma GCC pop_options
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static Timer_t* KeFindTimerBlock(void)
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{
for(uchar i = 0; i < 20; i++) {
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if (Timer[i].countDown == 0)
return &Timer[i];
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}
return NULL;
}
#pragma GCC push_options
#pragma GCC optimize ("O0")
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void KeSleep(uint delay)
{
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Timer_t *timerBlock;
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if ((timerBlock = (Timer_t*)KeFindTimerBlock()) == NULL)
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return;
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timerBlock->countDown = delay * PIT_FREQUENCY / 1000;
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while (!timerBlock->sema) {
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KeRelaxCPU();
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}
timerBlock->sema = 0;
}
#pragma GCC pop_options
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#pragma GCC push_options
#pragma GCC optimize ("O0")
Timer_t *KeSetTimer(uint delay)
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{
Timer_t *timerBlock;
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if ((timerBlock = (Timer_t*)KeFindTimerBlock()) == NULL)
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return NULL;
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timerBlock->countDown = delay * PIT_FREQUENCY / 1000;
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return timerBlock;
}
#pragma GCC pop_options
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int KeGetTimer(Timer_t *timerBlock)
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{
if (!(timerBlock->sema)) {
return 0;
} else {
timerBlock->sema = 0;
return 1;
}
}
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void KeEnablePIT(void)
{
ulong flags = KePauseIRQs();
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uint divisor = 1193180 / PIT_FREQUENCY; // PIT base frequency / Needed frequency
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KeRegisterISR(HandlePIT, 0x20);
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IoWriteByteOnPort(0x43, 0x36); // 0x36 for rate gen
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IoWriteByteOnPort(0x40, (char)(divisor & 0xFF )); // low byte of freq
IoWriteByteOnPort(0x40, (char)((divisor >> 8)& 0xFF)); // high byte of freq
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// Setting up the IRQ line
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KeUnmaskIRQ(0);
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DebugLog("PIT activated with period %d ms\n", 1000/PIT_FREQUENCY);
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KeRestoreIRQs(flags);
KeEnableNMI();
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}
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char *KeFormatCurTime(void)
{
Time_t *RtcTime = KeGetCurTime();
snprintf(TimeFmtBuf, sizeof(TimeFmtBuf),
"%02d/%02d/%04d - %02d:%02d:%02d",
RtcTime->day,
RtcTime->month,
RtcTime->year + RtcTime->century*100,
RtcTime->hour,
RtcTime->min,
RtcTime->sec
);
return TimeFmtBuf;
}
static void UpdateCurTime(void)
{
ulong frequency = PIT_FREQUENCY;
uchar minRemain, hourRemain, dayRemain;
CurTime.sec =
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(uchar)(((ulong)KeGetOriginTime()->sec * frequency + Ticks) / frequency % 60);
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minRemain =
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(uchar)(((ulong)KeGetOriginTime()->sec * frequency + Ticks) / (60 * frequency));
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CurTime.min =
(uchar)(((ulong)KeGetOriginTime()->min + minRemain) % 60);
hourRemain =
(uchar)(((ulong)KeGetOriginTime()->min + minRemain) / 60);
CurTime.hour =
(uchar)(((ulong)KeGetOriginTime()->hour + hourRemain) % 24);
dayRemain =
(uchar)(((ulong)KeGetOriginTime()->hour + hourRemain) / 24);
CurTime.day =
(uchar)(((ulong)KeGetOriginTime()->day + dayRemain) % 30);
}
Time_t* KeGetCurTime(void)
{
UpdateCurTime();
return &CurTime;
}
void KeSetCurTime(Time_t time)
{
CurTime = time;
}
static uint IsLeapYear(uint year)
{
if (!(year % 4)) {
return 0;
}
return year % 100 == 0
? (year % 400 == 0)
: 1;
}
static uint DaysInMonth(uint month, uint year)
{
return (month == 2)
? (28 + IsLeapYear(year))
: 31 - (month - 1) % 7 % 2;
}
ulong KeGetTimeStamp(void)
{
Time_t *time = KeGetCurTime();
uint dpy = 365 + IsLeapYear(time->year);
uint dim = DaysInMonth(time->month, time->year + time->century * 100);
return time->sec
+ time->min * 60
+ time->hour * 60 * 60
+ time->day * 24 * 60 * 60
+ time->month * dim * 24 * 60 * 60
+ (time->year + time->century * 100)
* dpy * 24 * 60 * 60;
}
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ulong KeGetTicks(void)
{
return Ticks;
}