#include #include "lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" #include "fs.h" #include "devfloppy.h" /* Intel 82077A (8272A compatible) floppy controller */ /* This module expects the following functions to be defined * elsewhere: * * inb() * outb() * floppyexec() * floppyeject() * floppysetup0() * floppysetup1() * dmainit() * dmasetup() * dmaend() * * On DMA systems, floppyexec() should be an empty function; * on non-DMA systems, dmaend() should be an empty function; * dmasetup() may enforce maximum transfer sizes. */ enum { /* file types */ Qdir= 0, Qdata= (1<<2), Qctl= (2<<2), Qmask= (3<<2), DMAchan= 2, /* floppy dma channel */ }; #define DPRINT if(0)print FType floppytype[] = { { "3½HD", T1440kb, 512, 18, 2, 1, 80, 0x1B, 0x54, 0, }, { "3½DD", T1440kb, 512, 9, 2, 1, 80, 0x1B, 0x54, 2, }, { "3½DD", T720kb, 512, 9, 2, 1, 80, 0x1B, 0x54, 2, }, { "5¼HD", T1200kb, 512, 15, 2, 1, 80, 0x2A, 0x50, 0, }, { "5¼DD", T1200kb, 512, 9, 2, 2, 40, 0x2A, 0x50, 1, }, { "ATT3B1", T1200kb, 512, 8, 2, 2, 48, 0x2A, 0x50, 1, }, { "5¼DD", T360kb, 512, 9, 2, 1, 40, 0x2A, 0x50, 2, }, }; /* * bytes per sector encoding for the controller. * - index for b2c is is (bytes per sector/128). * - index for c2b is code from b2c */ static int b2c[] = { [1] 0, [2] 1, [4] 2, [8] 3, }; static int c2b[] = { 128, 256, 512, 1024, }; FController fl; #define MOTORBIT(i) (1<<((i)+4)) /* * predeclared */ static int cmddone(void*); static void floppyformat(FDrive*, char*); static void floppykproc(void*); static void floppypos(FDrive*,long); static int floppyrecal(FDrive*); static int floppyresult(void); static void floppyrevive(void); static vlong pcfloppyseek(FDrive*, vlong); static int floppysense(void); static void floppywait(int); static long floppyxfer(FDrive*, int, void*, long, long); static void fldump(void) { DPRINT("sra %ux srb %ux dor %ux msr %ux dir %ux\n", inb(Psra), inb(Psrb), inb(Pdor), inb(Pmsr), inb(Pdir)); } static void floppyalarm(Alarm* a) { FDrive *dp; for(dp = fl.d; dp < &fl.d[fl.ndrive]; dp++){ if((fl.motor&MOTORBIT(dp->dev)) && TK2SEC(m->ticks - dp->lasttouched) > 5) floppyoff(dp); } alarm(5*1000, floppyalarm, 0); cancel(a); } /* * set floppy drive to its default type */ static void floppysetdef(FDrive *dp) { FType *t; for(t = floppytype; t < &floppytype[nelem(floppytype)]; t++) if(dp->dt == t->dt){ dp->t = t; break; } } static void _floppydetach(void) { /* * stop the motors */ fl.motor = 0; delay(10); outb(Pdor, fl.motor | Fintena | Fena); delay(10); } int floppyinit(void) { FDrive *dp; FType *t; ulong maxtsize; int mask; dmainit(DMAchan); floppysetup0(&fl); /* * init dependent parameters */ maxtsize = 0; for(t = floppytype; t < &floppytype[nelem(floppytype)]; t++){ t->cap = t->bytes * t->heads * t->sectors * t->tracks; t->bcode = b2c[t->bytes/128]; t->tsize = t->bytes * t->sectors; if(maxtsize < t->tsize) maxtsize = t->tsize; } fl.selected = fl.d; floppydetach = _floppydetach; floppydetach(); /* * init drives */ mask = 0; for(dp = fl.d; dp < &fl.d[fl.ndrive]; dp++){ dp->dev = dp - fl.d; if(dp->dt == Tnone) continue; mask |= 1<dev; floppysetdef(dp); dp->cyl = -1; /* because we don't know */ dp->cache = (uchar*)xspanalloc(maxtsize, BY2PG, 64*1024); dp->ccyl = -1; dp->vers = 0; dp->maxtries = 5; } /* * first operation will recalibrate */ fl.confused = 1; floppysetup1(&fl); /* to turn the motor off when inactive */ alarm(5*1000, floppyalarm, 0); return mask; } void floppyinitdev(int i, char *name) { if(i >= fl.ndrive) panic("floppyinitdev"); sprint(name, "fd%d", i); } void floppyprintdevs(int i) { if(i >= fl.ndrive) panic("floppyprintdevs"); print(" fd%d", i); } int floppyboot(int dev, char *file, Boot *b) { Fs *fs; /* there are no partitions on floppies */ if(strncmp(file, "dos!", 4) == 0) file += 4; if(strchr(file, '!') != nil || strcmp(file, "") == 0) { print("syntax is fd0!file\n"); return -1; } fs = floppygetfspart(dev, "dos", 1); if(fs == nil) return -1; return fsboot(fs, file, b); } void floppyprintbootdevs(int dev) { print(" fd%d", dev); } /* * check if the floppy has been replaced under foot. cause * an error if it has. * * a seek and a read clears the condition. this was determined * experimentally, there has to be a better way. * * if the read fails, cycle through the possible floppy * density till one works or we've cycled through all * possibilities for this drive. */ static int changed(FDrive *dp) { FType *start; /* * if floppy has changed or first time through */ if((inb(Pdir)&Fchange) || dp->vers == 0){ DPRINT("changed\n"); fldump(); dp->vers++; floppysetdef(dp); dp->maxtries = 3; start = dp->t; /* flopppyon fails if there's no drive */ dp->confused = 1; /* make floppyon recal */ if(floppyon(dp) < 0) return -1; pcfloppyseek(dp, dp->t->heads*dp->t->tsize); while(floppyxfer(dp, Fread, dp->cache, 0, dp->t->tsize) <= 0){ /* * if the xfer attempt doesn't clear the changed bit, * there's no floppy in the drive */ if(inb(Pdir)&Fchange) return -1; while(++dp->t){ if(dp->t == &floppytype[nelem(floppytype)]) dp->t = floppytype; if(dp->dt == dp->t->dt) break; } /* flopppyon fails if there's no drive */ if(floppyon(dp) < 0) return -1; DPRINT("changed: trying %s\n", dp->t->name); fldump(); if(dp->t == start) return -1; } } return 0; } static int readtrack(FDrive *dp, int cyl, int head) { int i, nn, sofar; ulong pos; nn = dp->t->tsize; if(dp->ccyl==cyl && dp->chead==head) return nn; pos = (cyl*dp->t->heads+head) * nn; for(sofar = 0; sofar < nn; sofar += i){ dp->ccyl = -1; i = floppyxfer(dp, Fread, dp->cache + sofar, pos + sofar, nn - sofar); if(i <= 0) return -1; } dp->ccyl = cyl; dp->chead = head; return nn; } long floppyread(Fs *fs, void *a, long n) { FDrive *dp; long rv, offset; int sec, head, cyl; long len; uchar *aa; aa = a; dp = &fl.d[fs->dev]; offset = dp->offset; floppyon(dp); if(changed(dp)) return -1; for(rv = 0; rv < n; rv += len){ /* * all xfers come out of the track cache */ dp->len = n - rv; floppypos(dp, offset+rv); cyl = dp->tcyl; head = dp->thead; len = dp->len; sec = dp->tsec; if(readtrack(dp, cyl, head) < 0) break; memmove(aa+rv, dp->cache + (sec-1)*dp->t->bytes, len); } dp->offset = offset+rv; return rv; } void* floppygetfspart(int i, char *name, int chatty) { static Fs fs; if(strcmp(name, "dos") != 0){ if(chatty) print("unknown partition fd%d!%s (use fd%d!dos)\n", i, name, i); return nil; } fs.dev = i; fs.diskread = floppyread; fs.diskseek = floppyseek; /* sometimes we get spurious errors and doing it again works */ if(dosinit(&fs) < 0 && dosinit(&fs) < 0){ if(chatty) print("fd%d!%s does not contain a FAT file system\n", i, name); return nil; } return &fs; } static int return0(void*) { return 0; } static void timedsleep(int (*f)(void*), void* arg, int ms) { int s; ulong end; end = m->ticks + 1 + MS2TK(ms); while(m->ticks < end && !(*f)(arg)){ s = spllo(); delay(10); splx(s); } } /* * start a floppy drive's motor. */ static int floppyon(FDrive *dp) { int alreadyon; int tries; if(fl.confused) floppyrevive(); /* start motor and select drive */ dp->lasttouched = m->ticks; alreadyon = fl.motor & MOTORBIT(dp->dev); if(!alreadyon){ fl.motor |= MOTORBIT(dp->dev); outb(Pdor, fl.motor | Fintena | Fena | dp->dev); /* wait for drive to spin up */ timedsleep(return0, 0, 750); /* clear any pending interrupts */ floppysense(); } /* set transfer rate */ if(fl.rate != dp->t->rate){ fl.rate = dp->t->rate; outb(Pdsr, fl.rate); } /* get drive to a known cylinder */ if(dp->confused) for(tries = 0; tries < 4; tries++) if(floppyrecal(dp) >= 0) break; dp->lasttouched = m->ticks; fl.selected = dp; if(dp->confused) return -1; return 0; } /* * stop the floppy if it hasn't been used in 5 seconds */ static void floppyoff(FDrive *dp) { fl.motor &= ~MOTORBIT(dp->dev); outb(Pdor, fl.motor | Fintena | Fena | dp->dev); } /* * send a command to the floppy */ static int floppycmd(void) { int i; int tries; fl.nstat = 0; for(i = 0; i < fl.ncmd; i++){ for(tries = 0; ; tries++){ if((inb(Pmsr)&(Ffrom|Fready)) == Fready) break; if(tries > 1000){ DPRINT("cmd %ux can't be sent (%d)\n", fl.cmd[0], i); fldump(); /* empty fifo, might have been a bad command */ floppyresult(); return -1; } microdelay(1); } outb(Pfdata, fl.cmd[i]); } return 0; } /* * get a command result from the floppy * * when the controller goes ready waiting for a command * (instead of sending results), we're done * */ static int floppyresult(void) { int i, s; int tries; /* get the result of the operation */ for(i = 0; i < sizeof(fl.stat); i++){ /* wait for status byte */ for(tries = 0; ; tries++){ s = inb(Pmsr)&(Ffrom|Fready); if(s == Fready){ fl.nstat = i; return fl.nstat; } if(s == (Ffrom|Fready)) break; if(tries > 1000){ DPRINT("floppyresult: %d stats\n", i); fldump(); fl.confused = 1; return -1; } microdelay(1); } fl.stat[i] = inb(Pfdata); } fl.nstat = sizeof(fl.stat); return fl.nstat; } /* * calculate physical address of a logical byte offset into the disk * * truncate dp->length if it crosses a track boundary */ static void floppypos(FDrive *dp, long off) { int lsec; int ltrack; int end; if (dp->t->bytes == 0 || dp->t->sectors == 0 || dp->t->heads == 0) panic("floppypos: zero geometry"); lsec = off/dp->t->bytes; ltrack = lsec/dp->t->sectors; dp->tcyl = ltrack/dp->t->heads; dp->tsec = (lsec % dp->t->sectors) + 1; dp->thead = (lsec/dp->t->sectors) % dp->t->heads; /* * can't read across track boundaries. * if so, decrement the bytes to be read. */ end = (ltrack+1)*dp->t->sectors*dp->t->bytes; if(off+dp->len > end) dp->len = end - off; } /* * get the interrupt cause from the floppy. */ static int floppysense(void) { fl.ncmd = 0; fl.cmd[fl.ncmd++] = Fsense; if(floppycmd() < 0) return -1; if(floppyresult() < 2){ DPRINT("can't read sense response\n"); fldump(); fl.confused = 1; return -1; } return 0; } static int cmddone(void *a) { USED(a); return fl.ncmd == 0; } /* * Wait for a floppy interrupt. If none occurs in 5 seconds, we * may have missed one. This only happens on some portables which * do power management behind our backs. Call the interrupt * routine to try to clear any conditions. */ static void floppywait(int slow) { timedsleep(cmddone, 0, slow ? 5000 : 1000); if(!cmddone(0)){ floppyintr(0); fl.confused = 1; } } /* * we've lost the floppy position, go to cylinder 0. */ static int floppyrecal(FDrive *dp) { dp->ccyl = -1; dp->cyl = -1; fl.ncmd = 0; fl.cmd[fl.ncmd++] = Frecal; fl.cmd[fl.ncmd++] = dp->dev; if(floppycmd() < 0) return -1; floppywait(1); if(fl.nstat < 2){ DPRINT("recalibrate: confused %ux\n", inb(Pmsr)); fl.confused = 1; return -1; } if((fl.stat[0] & (Codemask|Seekend)) != Seekend){ DPRINT("recalibrate: failed\n"); dp->confused = 1; return -1; } dp->cyl = fl.stat[1]; if(dp->cyl != 0){ DPRINT("recalibrate: wrong cylinder %d\n", dp->cyl); dp->cyl = -1; dp->confused = 1; return -1; } dp->confused = 0; return 0; } /* * if the controller or a specific drive is in a confused state, * reset it and get back to a kown state */ static void floppyrevive(void) { FDrive *dp; /* * reset the controller if it's confused */ if(fl.confused){ DPRINT("floppyrevive in\n"); fldump(); /* reset controller and turn all motors off */ splhi(); fl.ncmd = 1; fl.cmd[0] = 0; outb(Pdor, 0); delay(10); outb(Pdor, Fintena|Fena); delay(10); spllo(); fl.motor = 0; fl.confused = 0; floppywait(0); /* mark all drives in an unknown state */ for(dp = fl.d; dp < &fl.d[fl.ndrive]; dp++) dp->confused = 1; /* set rate to a known value */ outb(Pdsr, 0); fl.rate = 0; DPRINT("floppyrevive out\n"); fldump(); } } /* * seek to the target cylinder * * interrupt, no results */ static vlong pcfloppyseek(FDrive *dp, vlong off) { floppypos(dp, off); if(dp->cyl == dp->tcyl){ dp->offset = off; return off; } dp->cyl = -1; fl.ncmd = 0; fl.cmd[fl.ncmd++] = Fseek; fl.cmd[fl.ncmd++] = (dp->thead<<2) | dp->dev; fl.cmd[fl.ncmd++] = dp->tcyl * dp->t->steps; if(floppycmd() < 0) return -1; floppywait(1); if(fl.nstat < 2){ DPRINT("seek: confused\n"); fl.confused = 1; return -1; } if((fl.stat[0] & (Codemask|Seekend)) != Seekend){ DPRINT("seek: failed\n"); dp->confused = 1; return -1; } dp->cyl = dp->tcyl; dp->offset = off; DPRINT("seek to %d succeeded\n", dp->offset); return dp->offset; } /* * read or write to floppy. try up to three times. */ static long floppyxfer(FDrive *dp, int cmd, void *a, long off, long n) { long offset; int tries; if(off >= dp->t->cap) return 0; if(off + n > dp->t->cap) n = dp->t->cap - off; /* retry on error (until it gets ridiculous) */ for(tries = 0; tries < dp->maxtries; tries++){ dp->len = n; if(pcfloppyseek(dp, off) < 0){ DPRINT("xfer: seek failed\n"); dp->confused = 1; continue; } /* * set up the dma (dp->len may be trimmed) */ dp->len = dmasetup(DMAchan, a, dp->len, cmd==Fread); if(dp->len < 0){ buggery: dmaend(DMAchan); continue; } /* * start operation */ fl.ncmd = 0; fl.cmd[fl.ncmd++] = cmd | (dp->t->heads > 1 ? Fmulti : 0); fl.cmd[fl.ncmd++] = (dp->thead<<2) | dp->dev; fl.cmd[fl.ncmd++] = dp->tcyl; fl.cmd[fl.ncmd++] = dp->thead; fl.cmd[fl.ncmd++] = dp->tsec; fl.cmd[fl.ncmd++] = dp->t->bcode; fl.cmd[fl.ncmd++] = dp->t->sectors; fl.cmd[fl.ncmd++] = dp->t->gpl; fl.cmd[fl.ncmd++] = 0xFF; if(floppycmd() < 0) goto buggery; /* * give bus to DMA, floppyintr() will read result */ floppywait(0); dmaend(DMAchan); /* * check for errors */ if(fl.nstat < 7){ DPRINT("xfer: confused\n"); fl.confused = 1; continue; } if((fl.stat[0] & Codemask)!=0 || fl.stat[1] || fl.stat[2]){ DPRINT("xfer: failed %ux %ux %ux\n", fl.stat[0], fl.stat[1], fl.stat[2]); DPRINT("offset %lud len %ld\n", off, dp->len); if((fl.stat[0]&Codemask)==Cmdexec && fl.stat[1]==Overrun){ DPRINT("DMA overrun: retry\n"); } else dp->confused = 1; continue; } /* * check for correct cylinder */ offset = fl.stat[3] * dp->t->heads + fl.stat[4]; offset = offset*dp->t->sectors + fl.stat[5] - 1; offset = offset * c2b[fl.stat[6]]; if(offset != off+dp->len){ DPRINT("xfer: ends on wrong cyl\n"); dp->confused = 1; continue; } dp->lasttouched = m->ticks; dp->maxtries = 20; return dp->len; } return -1; } /* void floppymemwrite(void) { int i; int n; uchar *a; FDrive *dp; dp = &fl.d[0]; a = (uchar*)0x80000000; n = 0; while(n < 1440*1024){ i = floppyxfer(dp, Fwrite, a+n, n, 1440*1024-n); if(i <= 0) break; n += i; } print("floppymemwrite wrote %d bytes\n", n); splhi(); for(;;); } */ static void floppyintr(Ureg *ur) { USED(ur); switch(fl.cmd[0]&~Fmulti){ case Fread: case Fwrite: case Fformat: case Fdumpreg: floppyresult(); break; case Fseek: case Frecal: default: floppysense(); /* to clear interrupt */ break; } fl.ncmd = 0; }