#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" #include "devtab.h" #include "io.h" /* * Mostek MK48T12-15 Zeropower/Timekeeper * This driver is actually portable. */ typedef struct Rtc Rtc; struct Rtc { int sec; int min; int hour; int wday; int mday; int mon; int year; }; ulong rtc2sec(Rtc *); void sec2rtc(ulong, Rtc *); enum{ Qrtc = 1, Qnvram, }; QLock rtclock; /* mutex on clock operations */ static Dirtab rtcdir[]={ "rtc", {Qrtc, 0}, 0, 0666, "nvram", {Qnvram, 0}, 0, 0666, }; #define NRTC (sizeof(rtcdir)/sizeof(rtcdir[0])) void setrtc(Rtc*); long rtctime(void); void rtcreset(void) { } void rtcinit(void) { } Chan* rtcattach(char *spec) { return devattach('r', spec); } Chan* rtcclone(Chan *c, Chan *nc) { return devclone(c, nc); } int rtcwalk(Chan *c, char *name) { return devwalk(c, name, rtcdir, NRTC, devgen); } void rtcstat(Chan *c, char *dp) { devstat(c, dp, rtcdir, NRTC, devgen); } Chan* rtcopen(Chan *c, int omode) { omode = openmode(omode); switch(c->qid.path){ case Qrtc: if(strcmp(u->p->user, eve)!=0 && omode!=OREAD) error(Eperm); break; case Qnvram: if(strcmp(u->p->user, eve)!=0 || !cpuserver) error(Eperm); } return devopen(c, omode, rtcdir, NRTC, devgen); } void rtccreate(Chan *c, char *name, int omode, ulong perm) { USED(c, name, omode, perm); error(Eperm); } void rtcclose(Chan *c) { USED(c); } long rtcread(Chan *c, void *buf, long n, ulong offset) { Nvram *nv; ulong t, ot; int i; if(c->qid.path & CHDIR) return devdirread(c, buf, n, rtcdir, NRTC, devgen); switch(c->qid.path){ case Qrtc: qlock(&rtclock); t = rtctime(); do{ ot = t; t = rtctime(); /* make sure there's no skew */ }while(t != ot); qunlock(&rtclock); n = readnum(offset, buf, n, t, 12); return n; case Qnvram: if(offset > NVLEN) return 0; if(n > NVLEN - offset) n = NVLEN - offset; nv = NVRAM; qlock(&rtclock); for(i = 0; i < n; i++) ((char*)buf)[i] = nv[i+offset].val; qunlock(&rtclock); return n; } error(Egreg); return 0; /* not reached */ } long rtcwrite(Chan *c, void *buf, long n, ulong offset) { Nvram *nv; Rtc rtc; ulong secs; char *cp, *ep; int i; switch(c->qid.path){ case Qrtc: if(offset!=0) error(Ebadarg); /* * read the time */ cp = ep = buf; ep += n; while(cp < ep){ if(*cp>='0' && *cp<='9') break; cp++; } secs = strtoul(cp, 0, 0); /* * convert to bcd */ sec2rtc(secs, &rtc); /* * write it */ qlock(&rtclock); setrtc(&rtc); qunlock(&rtclock); return n; case Qnvram: if(offset < 1024) error(Eperm); if(offset > NVLEN) return 0; if(n > NVLEN - offset) n = NVLEN - offset; nv = NVRAM; qlock(&rtclock); for(i = 0; i < n; i++) nv[i+offset].val = ((char*)buf)[i]; qunlock(&rtclock); return n; } error(Egreg); return 0; /* not reached */ } void rtcremove(Chan *c) { USED(c); error(Eperm); } void rtcwstat(Chan *c, char *dp) { USED(c, dp); error(Eperm); } #define bcd2dec(bcd) (((((bcd)>>4) & 0x0F) * 10) + ((bcd) & 0x0F)) #define dec2bcd(dec) ((((dec)/10)<<4)|((dec)%10)) void setrtc(Rtc *rtc) { struct RTCdev *dev = RTC; dev->control |= RTCWRITE; wbflush(); dev->year = dec2bcd(rtc->year % 100); dev->mon = dec2bcd(rtc->mon); dev->mday = dec2bcd(rtc->mday); dev->hour = dec2bcd(rtc->hour); dev->min = dec2bcd(rtc->min); dev->sec = dec2bcd(rtc->sec); wbflush(); dev->control &= ~RTCWRITE; wbflush(); } long rtctime(void) { struct RTCdev *dev = RTC; Rtc rtc; dev->control |= RTCREAD; wbflush(); rtc.sec = bcd2dec(dev->sec) & 0x7F; rtc.min = bcd2dec(dev->min & 0x7F); rtc.hour = bcd2dec(dev->hour & 0x3F); rtc.mday = bcd2dec(dev->mday & 0x3F); rtc.mon = bcd2dec(dev->mon & 0x3F); rtc.year = bcd2dec(dev->year); dev->control &= ~RTCREAD; wbflush(); if (rtc.mon < 1 || rtc.mon > 12) return 0; /* * the world starts Jan 1 1970 */ if(rtc.year < 70) rtc.year += 2000; else rtc.year += 1900; return rtc2sec(&rtc); } #define SEC2MIN 60L #define SEC2HOUR (60L*SEC2MIN) #define SEC2DAY (24L*SEC2HOUR) /* * days per month plus days/year */ static int dmsize[] = { 365, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; static int ldmsize[] = { 366, 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; /* * return the days/month for the given year */ int * yrsize(int yr) { if((yr % 4) == 0) return ldmsize; else return dmsize; } /* * compute seconds since Jan 1 1970 */ ulong rtc2sec(Rtc *rtc) { ulong secs; int i; int *d2m; secs = 0; /* * seconds per year */ for(i = 1970; i < rtc->year; i++){ d2m = yrsize(i); secs += d2m[0] * SEC2DAY; } /* * seconds per month */ d2m = yrsize(rtc->year); for(i = 1; i < rtc->mon; i++) secs += d2m[i] * SEC2DAY; secs += (rtc->mday-1) * SEC2DAY; secs += rtc->hour * SEC2HOUR; secs += rtc->min * SEC2MIN; secs += rtc->sec; return secs; } /* * compute rtc from seconds since Jan 1 1970 */ void sec2rtc(ulong secs, Rtc *rtc) { int d; long hms, day; int *d2m; /* * break initial number into days */ hms = secs % SEC2DAY; day = secs / SEC2DAY; if(hms < 0) { hms += SEC2DAY; day -= 1; } /* * generate hours:minutes:seconds */ rtc->sec = hms % 60; d = hms / 60; rtc->min = d % 60; d /= 60; rtc->hour = d; /* * year number */ if(day >= 0) for(d = 1970; day >= *yrsize(d); d++) day -= *yrsize(d); else for (d = 1970; day < 0; d--) day += *yrsize(d-1); rtc->year = d; /* * generate month */ d2m = yrsize(rtc->year); for(d = 1; day >= d2m[d]; d++) day -= d2m[d]; rtc->mday = day + 1; rtc->mon = d; return; }