ref: efd1615c5741a6898853fefc24b1cbcb734e5477
dir: /os/boot/puma/hard.c/
#include "u.h" #include "lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #define DPRINT if(0)print typedef struct Drive Drive; typedef struct Ident Ident; typedef struct Controller Controller; enum { /* ports */ Pbase0= 0x1F0, /* primary */ Pbase1= 0x170, /* secondary */ Pbase2= 0x1E8, /* tertiary */ Pbase3= 0x168, /* quaternary */ Pdata= 0, /* data port (16 bits) */ Perror= 1, /* error port (read) */ Pprecomp= 1, /* buffer mode port (write) */ Pcount= 2, /* sector count port */ Psector= 3, /* sector number port */ Pcyllsb= 4, /* least significant byte cylinder # */ Pcylmsb= 5, /* most significant byte cylinder # */ Pdh= 6, /* drive/head port */ DHmagic= 0xA0, DHslave= 0x10, Pstatus= 7, /* status port (read) */ Sbusy= (1<<7), Sready= (1<<6), Sdrq= (1<<3), Serr= (1<<0), Pcmd= 7, /* cmd port (write) */ /* commands */ Crecal= 0x10, Cread= 0x20, Cwrite= 0x30, Cident= 0xEC, Cident2= 0xFF, /* pseudo command for post Cident interrupt */ Csetbuf= 0xEF, /* file types */ Qdir= 0, Timeout= 5, /* seconds to wait for things to complete */ NCtlr= 4, NDrive= NCtlr*2, }; /* * ident sector from drive. this is from ANSI X3.221-1994 */ struct Ident { ushort config; /* general configuration info */ ushort cyls; /* # of cylinders (default) */ ushort reserved0; ushort heads; /* # of heads (default) */ ushort b2t; /* unformatted bytes/track */ ushort b2s; /* unformated bytes/sector */ ushort s2t; /* sectors/track (default) */ ushort reserved1[3]; /* 10 */ ushort serial[10]; /* serial number */ ushort type; /* buffer type */ ushort bsize; /* buffer size/512 */ ushort ecc; /* ecc bytes returned by read long */ ushort firm[4]; /* firmware revision */ ushort model[20]; /* model number */ /* 47 */ ushort s2i; /* number of sectors/interrupt */ ushort dwtf; /* double word transfer flag */ ushort capabilities; ushort reserved2; ushort piomode; ushort dmamode; ushort cvalid; /* (cvald&1) if next 4 words are valid */ ushort ccyls; /* current # cylinders */ ushort cheads; /* current # heads */ ushort cs2t; /* current sectors/track */ ushort ccap[2]; /* current capacity in sectors */ ushort cs2i; /* current number of sectors/interrupt */ /* 60 */ ushort lbasecs[2]; /* # LBA user addressable sectors */ ushort dmasingle; ushort dmadouble; /* 64 */ ushort reserved3[64]; ushort vendor[32]; /* vendor specific */ ushort reserved4[96]; }; /* * a hard drive */ struct Drive { Controller *cp; uchar driveno; uchar dh; Disc; }; /* * a controller for 2 drives */ struct Controller { int pbase; /* base port */ uchar ctlrno; /* * current operation */ int cmd; /* current command */ char *buf; /* xfer buffer */ int tcyl; /* target cylinder */ int thead; /* target head */ int tsec; /* target sector */ int tbyte; /* target byte */ int nsecs; /* length of transfer (sectors) */ int sofar; /* bytes transferred so far */ int status; int error; Drive *dp; /* drive being accessed */ }; static int atactlrmask; static Controller *atactlr[NCtlr]; static int atadrivemask; static Drive *atadrive[NDrive]; static int pbase[NCtlr] = { Pbase0, Pbase1, Pbase2, Pbase3, }; static void hardintr(Ureg*, void*); static long hardxfer(Drive*, Partition*, int, ulong, long); static int hardident(Drive*); static void hardsetbuf(Drive*, int); static void hardpart(Drive*); static int hardparams(Drive*); static void hardrecal(Drive*); static int hardprobe(Drive*, int, int, int); static void atactlrprobe(int ctlrno, int irq) { Controller *ctlr; Drive *drive; int driveno, port; if(atactlrmask & (1<<ctlrno)) return; atactlrmask |= 1<<ctlrno; port = pbase[ctlrno]; outb(port+Pdh, DHmagic); delay(1); if((inb(port+Pdh) & 0xFF) != DHmagic){ DPRINT("ata%d: DHmagic not ok\n", ctlrno); return; } DPRINT("ata%d: DHmagic ok\n", ctlrno); atactlr[ctlrno] = ialloc(sizeof(Controller), 0); ctlr = atactlr[ctlrno]; ctlr->pbase = port; ctlr->ctlrno = ctlrno; ctlr->buf = ialloc(Maxxfer, 0); inb(ctlr->pbase+Pstatus); setvec(irq, hardintr, ctlr); driveno = ctlrno*2; atadrive[driveno] = ialloc(sizeof(Drive), 0); drive = atadrive[driveno]; drive->cp = ctlr; drive->driveno = driveno; drive->dh = DHmagic; driveno++; atadrive[driveno] = ialloc(sizeof(Drive), 0); drive = atadrive[driveno]; drive->cp = ctlr; drive->driveno = driveno; drive->dh = DHmagic|DHslave; } static Drive* atadriveprobe(int driveno) { Drive *drive; int ctlrno; ISAConf isa; ctlrno = driveno/2; if(atactlr[ctlrno] == 0){ if(atactlrmask & (1<<ctlrno)) return 0; memset(&isa, 0, sizeof(ISAConf)); if(isaconfig("ata", ctlrno, &isa) == 0) return 0; if(ctlrno && isa.irq) atactlrprobe(ctlrno, Int0vec+isa.irq); if(atactlr[ctlrno] == 0) return 0; } drive = atadrive[driveno]; if(drive->online == 0){ if(atadrivemask & (1<<driveno)) return 0; atadrivemask |= 1<<driveno; if(hardparams(drive)) return 0; if(drive->lba) print("hd%d: LBA %d sectors, %ud bytes\n", drive->driveno, drive->sectors, drive->cap); else print("hd%d: CHS %d/%d/%d %d bytes\n", drive->driveno, drive->cyl, drive->heads, drive->sectors, drive->cap); drive->online = 1; hardpart(drive); hardsetbuf(drive, 1); } return drive; } int hardinit(void) { atactlrprobe(0, ATAvec0); return 0xFF; } long hardseek(int driveno, long offset) { Drive *drive; if((drive = atadriveprobe(driveno)) == 0) return -1; drive->offset = offset; return offset; } /* * did an interrupt happen? */ static void hardwait(Controller *cp) { ulong start; int x; x = spllo(); for(start = m->ticks; TK2SEC(m->ticks - start) < Timeout && cp->cmd;) if(cp->cmd == Cident2 && TK2SEC(m->ticks - start) >= 1) break; if(TK2SEC(m->ticks - start) >= Timeout){ DPRINT("hardwait timed out %ux\n", inb(cp->pbase+Pstatus)); hardintr(0, cp); } splx(x); } Partition* sethardpart(int driveno, char *p) { Partition *pp; Drive *dp; if((dp = atadriveprobe(driveno)) == 0) return 0; for(pp = dp->p; pp < &dp->p[dp->npart]; pp++) if(strcmp(pp->name, p) == 0){ dp->current = pp; return pp; } return 0; } long hardread(int driveno, void *a, long n) { Drive *dp; long rv, i; int skip; uchar *aa = a; Partition *pp; Controller *cp; if((dp = atadriveprobe(driveno)) == 0) return 0; pp = dp->current; if(pp == 0) return -1; cp = dp->cp; skip = dp->offset % dp->bytes; for(rv = 0; rv < n; rv += i){ i = hardxfer(dp, pp, Cread, dp->offset+rv-skip, n-rv+skip); if(i == 0) break; if(i < 0) return -1; i -= skip; if(i > n - rv) i = n - rv; memmove(aa+rv, cp->buf + skip, i); skip = 0; } dp->offset += rv; return rv; } /* * wait for the controller to be ready to accept a command */ static int cmdreadywait(Drive *drive) { ulong end; uchar dh, status; Controller *ctlr; ctlr = drive->cp; end = m->ticks+MS2TK(10)+1; dh = (inb(ctlr->pbase+Pdh) & DHslave)^(drive->dh & DHslave); status = 0; while(m->ticks < end){ status = inb(ctlr->pbase+Pstatus); if(status & Sbusy) continue; if(dh){ outb(ctlr->pbase+Pdh, drive->dh); dh = 0; continue; } if(status & Sready) return 0; } USED(status); DPRINT("hd%d: cmdreadywait failed %uX\n", drive->driveno, status); outb(ctlr->pbase+Pdh, DHmagic); return -1; } /* * transfer a number of sectors. hardintr will perform all the iterative * parts. */ static long hardxfer(Drive *dp, Partition *pp, int cmd, ulong start, long len) { Controller *cp; long lsec; if(dp->online == 0){ DPRINT("disk not on line\n"); return -1; } if(cmd == Cwrite) return -1; /* * cut transfer size down to disk buffer size */ start = start / dp->bytes; if(len > Maxxfer) len = Maxxfer; len = (len + dp->bytes - 1) / dp->bytes; /* * calculate physical address */ cp = dp->cp; lsec = start + pp->start; if(lsec >= pp->end){ DPRINT("read past end of partition\n"); return 0; } if(dp->lba){ cp->tsec = lsec & 0xff; cp->tcyl = (lsec>>8) & 0xffff; cp->thead = (lsec>>24) & 0xf; } else { cp->tcyl = lsec/(dp->sectors*dp->heads); cp->tsec = (lsec % dp->sectors) + 1; cp->thead = (lsec/dp->sectors) % dp->heads; } /* * can't xfer past end of disk */ if(lsec+len > pp->end) len = pp->end - lsec; cp->nsecs = len; if(cmdreadywait(dp) < 0) return -1; /* * start the transfer */ cp->cmd = cmd; cp->dp = dp; cp->sofar = 0; cp->status = 0; DPRINT("xfer:\ttcyl %d, tsec %d, thead %d\n", cp->tcyl, cp->tsec, cp->thead); DPRINT("\tnsecs %d, sofar %d\n", cp->nsecs, cp->sofar); outb(cp->pbase+Pcount, cp->nsecs); outb(cp->pbase+Psector, cp->tsec); outb(cp->pbase+Pdh, dp->dh | (dp->lba<<6) | cp->thead); outb(cp->pbase+Pcyllsb, cp->tcyl); outb(cp->pbase+Pcylmsb, cp->tcyl>>8); outb(cp->pbase+Pcmd, cmd); hardwait(cp); if(cp->status & Serr){ DPRINT("hd%d err: status %lux, err %lux\n", dp->driveno, cp->status, cp->error); DPRINT("\ttcyl %d, tsec %d, thead %d\n", cp->tcyl, cp->tsec, cp->thead); DPRINT("\tnsecs %d, sofar %d\n", cp->nsecs, cp->sofar); return -1; } return cp->nsecs*dp->bytes; } /* * set read ahead mode (1 == on, 0 == off) */ static void hardsetbuf(Drive *dp, int on) { Controller *cp = dp->cp; if(cmdreadywait(dp) < 0) return; cp->cmd = Csetbuf; /* BUG: precomp varies by hard drive...this is safari-specific? */ outb(cp->pbase+Pprecomp, on ? 0xAA : 0x55); outb(cp->pbase+Pdh, dp->dh); outb(cp->pbase+Pcmd, Csetbuf); hardwait(cp); } static int isatapi(Drive *drive) { Controller *cp; cp = drive->cp; outb(cp->pbase+Pdh, drive->dh); microdelay(1); if(inb(cp->pbase+Pstatus)) return 0; if(inb(cp->pbase+Pcylmsb) != 0xEB || inb(cp->pbase+Pcyllsb) != 0x14) return 0; return 1; } /* * get parameters from the drive */ static int hardident(Drive *dp) { Controller *cp; Ident *ip; dp->bytes = 512; cp = dp->cp; if(isatapi(dp) || cmdreadywait(dp) < 0) return -1; cp->nsecs = 1; cp->sofar = 0; cp->cmd = Cident; cp->dp = dp; outb(cp->pbase+Pdh, dp->dh); outb(cp->pbase+Pcmd, Cident); hardwait(cp); if(cp->status & Serr) return -1; hardwait(cp); ip = (Ident*)cp->buf; DPRINT("LBA%d: %lud\n", ip->capabilities & (1<<9) == 1, (ip->lbasecs[0]) | (ip->lbasecs[1]<<16)); DPRINT("DEF: %ud/%ud/%ud\nMAP %ud/%ud/%ud\n", ip->cyls, ip->heads, ip->s2t, ip->ccyls, ip->cheads, ip->cs2t); if(ip->capabilities & (1<<9)){ dp->lba = 1; dp->sectors = (ip->lbasecs[0]) | (ip->lbasecs[1]<<16); dp->cap = dp->bytes * dp->sectors; /*print("\nata%d model %s with %d lba sectors\n", dp->driveno, id, dp->sectors);/**/ } else { dp->lba = 0; /* use default (unformatted) settings */ dp->cyl = ip->cyls; dp->heads = ip->heads; dp->sectors = ip->s2t; /*print("\nata%d model %s with default %d cyl %d head %d sec\n", dp->driveno, id, dp->cyl, dp->heads, dp->sectors);/**/ if(ip->cvalid&(1<<0)){ /* use current settings */ dp->cyl = ip->ccyls; dp->heads = ip->cheads; dp->sectors = ip->cs2t; /*print("\tchanged to %d cyl %d head %d sec\n", dp->cyl, dp->heads, dp->sectors);/**/ } dp->cap = dp->bytes * dp->cyl * dp->heads * dp->sectors; } return 0; } /* * probe the given sector to see if it exists */ static int hardprobe(Drive *dp, int cyl, int sec, int head) { Controller *cp; cp = dp->cp; if(cmdreadywait(dp) < 0) return -1; /* * start the transfer */ cp->cmd = Cread; cp->dp = dp; cp->sofar = 0; cp->nsecs = 1; cp->status = 0; outb(cp->pbase+Pcount, 1); outb(cp->pbase+Psector, sec+1); outb(cp->pbase+Pdh, dp->dh | (dp->lba<<6) | head); outb(cp->pbase+Pcyllsb, cyl); outb(cp->pbase+Pcylmsb, cyl>>8); outb(cp->pbase+Pcmd, Cread); hardwait(cp); if(cp->status & Serr) return -1; return 0; } /* * figure out the drive parameters */ static int hardparams(Drive *dp) { int i, hi, lo; /* * first try the easy way, ask the drive and make sure it * isn't lying. */ dp->bytes = 512; if(hardident(dp) < 0) return -1; if(dp->lba){ i = dp->sectors - 1; if(hardprobe(dp, (i>>8)&0xffff, (i&0xff)-1, (i>>24)&0xf) == 0) return 0; } else { if(hardprobe(dp, dp->cyl-1, dp->sectors-1, dp->heads-1) == 0) return 0; } DPRINT("hardparam: cyl %d sectors %d heads %d\n", dp->cyl, dp->sectors, dp->heads); /* * the drive lied, determine parameters by seeing which ones * work to read sectors. */ dp->lba = 0; for(i = 0; i < 16; i++) if(hardprobe(dp, 0, 0, i) < 0) break; dp->heads = i; for(i = 0; i < 64; i++) if(hardprobe(dp, 0, i, 0) < 0) break; dp->sectors = i; for(i = 512; ; i += 512) if(hardprobe(dp, i, dp->sectors-1, dp->heads-1) < 0) break; lo = i - 512; hi = i; for(; hi-lo > 1;){ i = lo + (hi - lo)/2; if(hardprobe(dp, i, dp->sectors-1, dp->heads-1) < 0) hi = i; else lo = i; } dp->cyl = lo + 1; dp->cap = dp->bytes * dp->cyl * dp->heads * dp->sectors; if(dp->cyl == 0 || dp->heads == 0 || dp->sectors == 0 || dp->cap == 0) return -1; return 0; } /* * read partition table. The partition table is just ascii strings. */ #define MAGIC "plan9 partitions" static void hardpart(Drive *dp) { Partition *pp; Controller *cp; char *field[3], *line[Npart+1], *p, buf[NAMELEN]; ulong n; int i; cp = dp->cp; /* * we always have a partition for the whole disk * and one for the partition table */ pp = &dp->p[0]; strcpy(pp->name, "disk"); pp->start = 0; pp->end = dp->cap / dp->bytes; pp++; strcpy(pp->name, "partition"); pp->start = dp->p[0].end - 1; pp->end = dp->p[0].end; dp->npart = 2; /* * Check if the partitions are described in plan9.ini. * If not, read the disc. */ sprint(buf, "hd%dpartition", dp->driveno); if((p = getconf(buf)) == 0){ /* * read last sector from disk, null terminate. This used * to be the sector we used for the partition tables. * However, this sector is special on some PC's so we've * started to use the second last sector as the partition * table instead. To avoid reconfiguring all our old systems * we first look to see if there is a valid partition * table in the last sector. If so, we use it. Otherwise * we switch to the second last. */ hardxfer(dp, pp, Cread, 0, dp->bytes); cp->buf[dp->bytes-1] = 0; n = getcfields(cp->buf, line, Npart+1, "\n"); if(n == 0 || strncmp(line[0], MAGIC, sizeof(MAGIC)-1)){ dp->p[0].end--; dp->p[1].start--; dp->p[1].end--; hardxfer(dp, pp, Cread, 0, dp->bytes); cp->buf[dp->bytes-1] = 0; n = getcfields(cp->buf, line, Npart+1, "\n"); } } else{ strcpy(cp->buf, p); n = getcfields(cp->buf, line, Npart+1, "\n"); } /* * parse partition table. */ if(n && strncmp(line[0], MAGIC, sizeof(MAGIC)-1) == 0){ for(i = 1; i < n; i++){ pp++; if(getcfields(line[i], field, 3, " ") != 3) break; strncpy(pp->name, field[0], NAMELEN); pp->start = strtoul(field[1], 0, 0); pp->end = strtoul(field[2], 0, 0); if(pp->start > pp->end || pp->start >= dp->p[0].end) break; dp->npart++; } } return; } /* * we get an interrupt for every sector transferred */ static void hardintr(Ureg*, void *arg) { Controller *cp; Drive *dp; long loop; cp = arg; dp = cp->dp; loop = 0; while((cp->status = inb(cp->pbase+Pstatus)) & Sbusy) if(++loop > 100000){ print("hardintr 0x%lux\n", cp->status); break; } switch(cp->cmd){ case Cread: case Cident: if(cp->status & Serr){ cp->cmd = 0; cp->error = inb(cp->pbase+Perror); return; } loop = 0; while((inb(cp->pbase+Pstatus) & Sdrq) == 0) if(++loop > 100000){ print("hardintr 2 cmd %ux status %ux", cp->cmd, inb(cp->pbase+Pstatus)); cp->cmd = 0; return; } inss(cp->pbase+Pdata, &cp->buf[cp->sofar*dp->bytes], dp->bytes/2); cp->sofar++; if(cp->sofar >= cp->nsecs){ if(cp->cmd == Cident && (cp->status & Sready) == 0) cp->cmd = Cident2; /* sometimes we get a second intr */ else cp->cmd = 0; inb(cp->pbase+Pstatus); } break; case Csetbuf: case Cident2: cp->cmd = 0; break; default: cp->cmd = 0; break; } }