* Timekeeping
* arch/x86/time.c
*/
-#include <common.h>
+#include <acess.h>
// === MACROS ===
-#define TIMER_FREQ 1024 //Hz
+#define TIMER_QUANTUM 100
+// 2^(15-rate), 15: 1HZ, 5: 1024Hz, 2: 8192Hz
+#define TIMER_RATE 12 // (Max: 15, Min: 2) - 15 = 1Hz, 13 = 4Hz, 12 = 8Hz, 11 = 16Hz 10 = 32Hz, 2
+#define TIMER_FREQ (0x8000>>TIMER_RATE) //Hz
#define MS_PER_TICK_WHOLE (1000/(TIMER_FREQ))
#define MS_PER_TICK_FRACT ((Uint64)(1000*TIMER_FREQ-((Uint64)MS_PER_TICK_WHOLE)*0x80000000/TIMER_FREQ))
+// === IMPORTS ===
+extern Sint64 giTimestamp;
+extern Uint64 giTicks;
+extern Uint64 giPartMiliseconds;
+extern void Timer_CallTimers(void);
+
// === PROTOTYPES ===
void Time_Interrupt();
-// === GLOBALS ===
-Uint64 giTicks = 0;
-Sint64 giTimestamp = 0;
-Uint64 giPartMiliseconds = 0;
-
// === CODE ===
/**
* \fn int Time_Setup()
outb(0x70, inb(0x70)&0x7F); // Disable NMIs
__asm__ __volatile__ ("cli"); // Disable normal interrupts
+ // Set IRQ8 firing rate
+ outb(0x70, 0x0A); // Set the index to register A
+ val = inb(0x71); // Get the current value of register A
+ outb(0x70, 0x0A); // Reset index to A
+ val &= 0xF0;
+ val |= TIMER_RATE;
+ outb(0x71, val); // Update the timer rate
+
// Enable IRQ8
outb(0x70, 0x0B); // Set the index to register B
val = inb(0x71); // Read the current value of register B
giTimestamp ++;
giPartMiliseconds -= 0x80000000;
}
+
+ Timer_CallTimers();
+
+ // Make sure the RTC Fires again
+ outb(0x70, 0x0C); // Select register C
+ inb(0x71); // Just throw away contents.
}
+#if 0
/**
- * \fn Sint64 now()
- * \brief Return the current timestamp
+ * \fn void Time_TimerThread()
*/
-Sint64 now()
+void Time_TimerThread()
{
- return giTimestamp;
+ Sint64 next;
+ Threads_SetName("TIMER");
+
+ next = giTimestamp + TIMER_QUANTUM;
+ for(;;)
+ {
+ while(giTimestamp < next) Threads_Yield();
+ next = giTimestamp + TIMER_QUANTUM;
+ Timer_CallTimers();
+ }
}
+#endif