#include "all.h" #include "io.h" #include "mem.h" enum { Paddr= 0x70, /* address port */ Pdata= 0x71, /* data port */ Seconds= 0x00, Minutes= 0x02, Hours= 0x04, Mday= 0x07, Month= 0x08, Year= 0x09, Status= 0x0A, Nbcd= 6, }; #define GETBCD(o) ((bcdclock[o]&0xf) + 10*(bcdclock[o]>>4)) #define PUTBCD(n,o) bcdclock[o] = (n % 10) | (((n / 10) % 10)<<4) static Lock rtclock; void setrtc(Timet secs) { Rtc rtc; uchar bcdclock[Nbcd]; sec2rtc(secs, &rtc); PUTBCD(rtc.sec, 0); PUTBCD(rtc.min, 1); PUTBCD(rtc.hour, 2); PUTBCD(rtc.mday, 3); PUTBCD(rtc.mon, 4); PUTBCD(rtc.year, 5); ilock(&rtclock); outb(Paddr, Seconds); outb(Pdata, bcdclock[0]); outb(Paddr, Minutes); outb(Pdata, bcdclock[1]); outb(Paddr, Hours); outb(Pdata, bcdclock[2]); outb(Paddr, Mday); outb(Pdata, bcdclock[3]); outb(Paddr, Month); outb(Pdata, bcdclock[4]); outb(Paddr, Year); outb(Pdata, bcdclock[5]); iunlock(&rtclock); } static ulong _rtctime(void) { uchar bcdclock[Nbcd]; Rtc rtc; int i; /* don't do the read until the clock is no longer busy */ for(i = 0; i < 10000; i++){ outb(Paddr, Status); if(inb(Pdata) & 0x80) continue; /* read clock values */ outb(Paddr, Seconds); bcdclock[0] = inb(Pdata); outb(Paddr, Minutes); bcdclock[1] = inb(Pdata); outb(Paddr, Hours); bcdclock[2] = inb(Pdata); outb(Paddr, Mday); bcdclock[3] = inb(Pdata); outb(Paddr, Month); bcdclock[4] = inb(Pdata); outb(Paddr, Year); bcdclock[5] = inb(Pdata); outb(Paddr, Status); if((inb(Pdata) & 0x80) == 0) break; } /* * convert from BCD */ rtc.sec = GETBCD(0); rtc.min = GETBCD(1); rtc.hour = GETBCD(2); rtc.mday = GETBCD(3); rtc.mon = GETBCD(4); rtc.year = GETBCD(5); /* * the world starts jan 1 1970 */ if(rtc.year < 70) rtc.year += 2000; else rtc.year += 1900; return rtc2sec(&rtc); } Timet rtctime(void) { int i; Timet t, ot; ilock(&rtclock); /* loop till we get two reads in a row the same */ t = _rtctime(); for(i = 0; i < 100; i++){ ot = t; t = _rtctime(); if(ot == t) break; } iunlock(&rtclock); return t; } uchar nvramread(int offset) { outb(Paddr, offset); return inb(Pdata); }