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lapic.c 5.96 KB
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Frans Kaashoek 提交于 2018-08-30 14:47 . x
// The local APIC manages internal (non-I/O) interrupts.
// See Chapter 8 & Appendix C of Intel processor manual volume 3.
#include "param.h"
#include "types.h"
#include "defs.h"
#include "date.h"
#include "memlayout.h"
#include "traps.h"
#include "mmu.h"
#include "x86.h"
// Local APIC registers, divided by 4 for use as uint[] indices.
#define ID (0x0020/4) // ID
#define VER (0x0030/4) // Version
#define TPR (0x0080/4) // Task Priority
#define EOI (0x00B0/4) // EOI
#define SVR (0x00F0/4) // Spurious Interrupt Vector
#define ENABLE 0x00000100 // Unit Enable
#define ESR (0x0280/4) // Error Status
#define ICRLO (0x0300/4) // Interrupt Command
#define INIT 0x00000500 // INIT/RESET
#define STARTUP 0x00000600 // Startup IPI
#define DELIVS 0x00001000 // Delivery status
#define ASSERT 0x00004000 // Assert interrupt (vs deassert)
#define DEASSERT 0x00000000
#define LEVEL 0x00008000 // Level triggered
#define BCAST 0x00080000 // Send to all APICs, including self.
#define BUSY 0x00001000
#define FIXED 0x00000000
#define ICRHI (0x0310/4) // Interrupt Command [63:32]
#define TIMER (0x0320/4) // Local Vector Table 0 (TIMER)
#define X1 0x0000000B // divide counts by 1
#define PERIODIC 0x00020000 // Periodic
#define PCINT (0x0340/4) // Performance Counter LVT
#define LINT0 (0x0350/4) // Local Vector Table 1 (LINT0)
#define LINT1 (0x0360/4) // Local Vector Table 2 (LINT1)
#define ERROR (0x0370/4) // Local Vector Table 3 (ERROR)
#define MASKED 0x00010000 // Interrupt masked
#define TICR (0x0380/4) // Timer Initial Count
#define TCCR (0x0390/4) // Timer Current Count
#define TDCR (0x03E0/4) // Timer Divide Configuration
volatile uint *lapic; // Initialized in mp.c
//PAGEBREAK!
static void
lapicw(int index, int value)
{
lapic[index] = value;
lapic[ID]; // wait for write to finish, by reading
}
void
lapicinit(void)
{
if(!lapic)
return;
// Enable local APIC; set spurious interrupt vector.
lapicw(SVR, ENABLE | (T_IRQ0 + IRQ_SPURIOUS));
// The timer repeatedly counts down at bus frequency
// from lapic[TICR] and then issues an interrupt.
// If xv6 cared more about precise timekeeping,
// TICR would be calibrated using an external time source.
lapicw(TDCR, X1);
lapicw(TIMER, PERIODIC | (T_IRQ0 + IRQ_TIMER));
lapicw(TICR, 10000000);
// Disable logical interrupt lines.
lapicw(LINT0, MASKED);
lapicw(LINT1, MASKED);
// Disable performance counter overflow interrupts
// on machines that provide that interrupt entry.
if(((lapic[VER]>>16) & 0xFF) >= 4)
lapicw(PCINT, MASKED);
// Map error interrupt to IRQ_ERROR.
lapicw(ERROR, T_IRQ0 + IRQ_ERROR);
// Clear error status register (requires back-to-back writes).
lapicw(ESR, 0);
lapicw(ESR, 0);
// Ack any outstanding interrupts.
lapicw(EOI, 0);
// Send an Init Level De-Assert to synchronise arbitration ID's.
lapicw(ICRHI, 0);
lapicw(ICRLO, BCAST | INIT | LEVEL);
while(lapic[ICRLO] & DELIVS)
;
// Enable interrupts on the APIC (but not on the processor).
lapicw(TPR, 0);
}
int
lapicid(void)
{
if (!lapic)
return 0;
return lapic[ID] >> 24;
}
// Acknowledge interrupt.
void
lapiceoi(void)
{
if(lapic)
lapicw(EOI, 0);
}
// Spin for a given number of microseconds.
// On real hardware would want to tune this dynamically.
void
microdelay(int us)
{
}
#define CMOS_PORT 0x70
#define CMOS_RETURN 0x71
// Start additional processor running entry code at addr.
// See Appendix B of MultiProcessor Specification.
void
lapicstartap(uchar apicid, uint addr)
{
int i;
ushort *wrv;
// "The BSP must initialize CMOS shutdown code to 0AH
// and the warm reset vector (DWORD based at 40:67) to point at
// the AP startup code prior to the [universal startup algorithm]."
outb(CMOS_PORT, 0xF); // offset 0xF is shutdown code
outb(CMOS_PORT+1, 0x0A);
wrv = (ushort*)P2V((0x40<<4 | 0x67)); // Warm reset vector
wrv[0] = 0;
wrv[1] = addr >> 4;
// "Universal startup algorithm."
// Send INIT (level-triggered) interrupt to reset other CPU.
lapicw(ICRHI, apicid<<24);
lapicw(ICRLO, INIT | LEVEL | ASSERT);
microdelay(200);
lapicw(ICRLO, INIT | LEVEL);
microdelay(100); // should be 10ms, but too slow in Bochs!
// Send startup IPI (twice!) to enter code.
// Regular hardware is supposed to only accept a STARTUP
// when it is in the halted state due to an INIT. So the second
// should be ignored, but it is part of the official Intel algorithm.
// Bochs complains about the second one. Too bad for Bochs.
for(i = 0; i < 2; i++){
lapicw(ICRHI, apicid<<24);
lapicw(ICRLO, STARTUP | (addr>>12));
microdelay(200);
}
}
#define CMOS_STATA 0x0a
#define CMOS_STATB 0x0b
#define CMOS_UIP (1 << 7) // RTC update in progress
#define SECS 0x00
#define MINS 0x02
#define HOURS 0x04
#define DAY 0x07
#define MONTH 0x08
#define YEAR 0x09
static uint
cmos_read(uint reg)
{
outb(CMOS_PORT, reg);
microdelay(200);
return inb(CMOS_RETURN);
}
static void
fill_rtcdate(struct rtcdate *r)
{
r->second = cmos_read(SECS);
r->minute = cmos_read(MINS);
r->hour = cmos_read(HOURS);
r->day = cmos_read(DAY);
r->month = cmos_read(MONTH);
r->year = cmos_read(YEAR);
}
// qemu seems to use 24-hour GWT and the values are BCD encoded
void
cmostime(struct rtcdate *r)
{
struct rtcdate t1, t2;
int sb, bcd;
sb = cmos_read(CMOS_STATB);
bcd = (sb & (1 << 2)) == 0;
// make sure CMOS doesn't modify time while we read it
for(;;) {
fill_rtcdate(&t1);
if(cmos_read(CMOS_STATA) & CMOS_UIP)
continue;
fill_rtcdate(&t2);
if(memcmp(&t1, &t2, sizeof(t1)) == 0)
break;
}
// convert
if(bcd) {
#define CONV(x) (t1.x = ((t1.x >> 4) * 10) + (t1.x & 0xf))
CONV(second);
CONV(minute);
CONV(hour );
CONV(day );
CONV(month );
CONV(year );
#undef CONV
}
*r = t1;
r->year += 2000;
}
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