/*- * Copyright (c) 1990 The Regents of the University of California. * All rights reserved. * * This code is derived from software contributed to Berkeley by * William Jolitz. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * from: @(#)wd.c 7.2 (Berkeley) 5/9/91 * $Id: wd.c,v 1.201 1999/08/14 11:40:40 phk Exp $ */ /* TODO: * o Bump error count after timeout. * o Satisfy ATA timing in all cases. * o Finish merging berry/sos timeout code (bump error count...). * o Merge/fix TIH/NetBSD bad144 code. * o Don't use polling except for initialization. Need to * reorganize the state machine. Then "extra" interrupts * shouldn't happen (except maybe one for initialization). * o Fix disklabel, boot and driver inconsistencies with * bad144 in standard versions. * o Support extended DOS partitions. * o Support swapping to DOS partitions. * o Handle bad sectors, clustering, disklabelling, DOS * partitions and swapping driver-independently. Use * i386/dkbad.c for bad sectors. Swapping will need new * driver entries for polled reinit and polled write). */ #include "wd.h" #ifdef NWDC #undef NWDC #endif #include "wdc.h" #if NWDC > 0 #include "opt_hw_wdog.h" #include "opt_ide_delay.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include extern void wdstart(int ctrlr); #ifdef IDE_DELAY #define TIMEOUT IDE_DELAY #else #define TIMEOUT 10000 #endif #define RETRIES 5 /* number of retries before giving up */ #define RECOVERYTIME 500000 /* usec for controller to recover after err */ #define MAXTRANSFER 255 /* max size of transfer in sectors */ /* correct max is 256 but some controllers */ /* can't handle that in all cases */ #define WDOPT_32BIT 0x8000 #define WDOPT_SLEEPHACK 0x4000 #define WDOPT_DMA 0x2000 #define WDOPT_LBA 0x1000 #define WDOPT_FORCEHD(x) (((x)&0x0f00)>>8) #define WDOPT_MULTIMASK 0x00ff /* * Drive states. Used to initialize drive. */ #define CLOSED 0 /* disk is closed. */ #define WANTOPEN 1 /* open requested, not started */ #define RECAL 2 /* doing restore */ #define OPEN 3 /* done with open */ #define PRIMARY 0 /* * Disk geometry. A small part of struct disklabel. * XXX disklabel.5 contains an old clone of disklabel.h. */ struct diskgeom { u_long d_secsize; /* # of bytes per sector */ u_long d_nsectors; /* # of data sectors per track */ u_long d_ntracks; /* # of tracks per cylinder */ u_long d_ncylinders; /* # of data cylinders per unit */ u_long d_secpercyl; /* # of data sectors per cylinder */ u_long d_secperunit; /* # of data sectors per unit */ u_long d_precompcyl; /* XXX always 0 */ }; /* * The structure of a disk drive. */ struct disk { u_int dk_bc; /* byte count left */ short dk_skip; /* blocks already transferred */ int dk_ctrlr; /* physical controller number */ int dk_ctrlr_cmd640;/* controller number for CMD640 quirk */ u_int32_t dk_unit; /* physical unit number */ u_int32_t dk_lunit; /* logical unit number */ u_int32_t dk_interface; /* interface (two ctrlrs per interface) */ char dk_state; /* control state */ u_char dk_status; /* copy of status reg. */ u_char dk_error; /* copy of error reg. */ u_char dk_timeout; /* countdown to next timeout */ u_int32_t dk_port; /* i/o port base */ u_int32_t dk_altport; /* altstatus port base */ u_long cfg_flags; /* configured characteristics */ short dk_flags; /* drive characteristics found */ #define DKFL_SINGLE 0x00004 /* sector at a time mode */ #define DKFL_ERROR 0x00008 /* processing a disk error */ #define DKFL_LABELLING 0x00080 /* readdisklabel() in progress */ #define DKFL_32BIT 0x00100 /* use 32-bit i/o mode */ #define DKFL_MULTI 0x00200 /* use multi-i/o mode */ #define DKFL_BADSCAN 0x00400 /* report all errors */ #define DKFL_USEDMA 0x00800 /* use DMA for data transfers */ #define DKFL_DMA 0x01000 /* using DMA on this transfer-- DKFL_SINGLE * overrides this */ #define DKFL_LBA 0x02000 /* use LBA for data transfers */ struct wdparams dk_params; /* ESDI/IDE drive/controller parameters */ unsigned int dk_multi; /* multi transfers */ int dk_currentiosize; /* current io size */ struct diskgeom dk_dd; /* device configuration data */ struct diskslices *dk_slices; /* virtual drives */ void *dk_dmacookie; /* handle for DMA services */ struct devstat dk_stats; /* devstat entry */ }; #define WD_COUNT_RETRIES static int wdtest = 0; static struct disk *wddrives[NWD]; /* table of units */ static struct buf_queue_head drive_queue[NWD]; /* head of queue per drive */ static struct { int b_active; } wdutab[NWD]; /* static struct buf wdtab[NWDC]; */ static struct { struct buf_queue_head controller_queue; int b_errcnt; int b_active; } wdtab[NWDC]; struct wddma wddma[NWDC]; #ifdef notyet static struct buf rwdbuf[NWD]; /* buffers for raw IO */ #endif static int wdprobe(struct isa_device *dvp); static int wdattach(struct isa_device *dvp); static void wdustart(struct disk *du); static int wdcontrol(struct buf *bp); static int wdcommand(struct disk *du, u_int cylinder, u_int head, u_int sector, u_int count, u_int command); static int wdsetctlr(struct disk *du); #if 0 static int wdwsetctlr(struct disk *du); #endif static int wdsetmode(int mode, void *wdinfo); static int wdgetctlr(struct disk *du); static void wderror(struct buf *bp, struct disk *du, char *mesg); static void wdflushirq(struct disk *du, int old_ipl); static int wdreset(struct disk *du); static void wdsleep(int ctrlr, char *wmesg); static timeout_t wdtimeout; static int wdunwedge(struct disk *du); static int wdwait(struct disk *du, u_char bits_wanted, int timeout); struct isa_driver wdcdriver = { wdprobe, wdattach, "wdc", }; static d_open_t wdopen; static d_close_t wdclose; static d_strategy_t wdstrategy; static d_ioctl_t wdioctl; static d_dump_t wddump; static d_psize_t wdsize; #define CDEV_MAJOR 3 #define BDEV_MAJOR 0 static struct cdevsw wd_cdevsw = { /* open */ wdopen, /* close */ wdclose, /* read */ physread, /* write */ physwrite, /* ioctl */ wdioctl, /* stop */ nostop, /* reset */ noreset, /* devtotty */ nodevtotty, /* poll */ nopoll, /* mmap */ nommap, /* strategy */ wdstrategy, /* name */ "wd", /* parms */ noparms, /* maj */ CDEV_MAJOR, /* dump */ wddump, /* psize */ wdsize, /* flags */ D_DISK, /* maxio */ 0, /* bmaj */ BDEV_MAJOR }; static int atapictrlr; static int eide_quirks; /* * Here we use the pci-subsystem to find out, whether there is * a cmd640b-chip attached on this pci-bus. This public routine * will be called by ide_pci.c */ void wdc_pci(int quirks) { eide_quirks = quirks; } /* * Probe for controller. */ static int wdprobe(struct isa_device *dvp) { int unit = dvp->id_unit; int interface; struct disk *du; if (unit >= NWDC) return (0); du = malloc(sizeof *du, M_TEMP, M_NOWAIT); if (du == NULL) return (0); bzero(du, sizeof *du); du->dk_ctrlr = dvp->id_unit; interface = du->dk_ctrlr / 2; du->dk_interface = interface; du->dk_port = dvp->id_iobase; if (wddma[interface].wdd_candma != NULL) { du->dk_dmacookie = wddma[interface].wdd_candma(dvp->id_iobase, du->dk_ctrlr, du->dk_unit); du->dk_altport = wddma[interface].wdd_altiobase(du->dk_dmacookie); } if (du->dk_altport == 0) du->dk_altport = du->dk_port + wd_ctlr; /* check if we have registers that work */ outb(du->dk_port + wd_sdh, WDSD_IBM); /* set unit 0 */ outb(du->dk_port + wd_cyl_lo, 0xa5); /* wd_cyl_lo is read/write */ if (inb(du->dk_port + wd_cyl_lo) == 0xff) { /* XXX too weak */ /* There is no master, try the ATAPI slave. */ du->dk_unit = 1; outb(du->dk_port + wd_sdh, WDSD_IBM | 0x10); outb(du->dk_port + wd_cyl_lo, 0xa5); if (inb(du->dk_port + wd_cyl_lo) == 0xff) goto nodevice; } if (wdreset(du) == 0) goto reset_ok; /* test for ATAPI signature */ outb(du->dk_port + wd_sdh, WDSD_IBM); /* master */ if (inb(du->dk_port + wd_cyl_lo) == 0x14 && inb(du->dk_port + wd_cyl_hi) == 0xeb) goto reset_ok; du->dk_unit = 1; outb(du->dk_port + wd_sdh, WDSD_IBM | 0x10); /* slave */ if (inb(du->dk_port + wd_cyl_lo) == 0x14 && inb(du->dk_port + wd_cyl_hi) == 0xeb) goto reset_ok; DELAY(RECOVERYTIME); if (wdreset(du) != 0) { goto nodevice; } reset_ok: /* execute a controller only command */ if (wdcommand(du, 0, 0, 0, 0, WDCC_DIAGNOSE) != 0 || wdwait(du, 0, TIMEOUT) < 0) { goto nodevice; } /* * drive(s) did not time out during diagnostic : * Get error status and check that both drives are OK. * Table 9-2 of ATA specs suggests that we must check for * a value of 0x01 * * Strangely, some controllers will return a status of * 0x81 (drive 0 OK, drive 1 failure), and then when * the DRV bit is set, return status of 0x01 (OK) for * drive 2. (This seems to contradict the ATA spec.) */ du->dk_error = inb(du->dk_port + wd_error); if(du->dk_error != 0x01 && du->dk_error != 0) { if(du->dk_error & 0x80) { /* drive 1 failure */ /* first set the DRV bit */ u_int sdh; sdh = inb(du->dk_port+ wd_sdh); sdh = sdh | 0x10; outb(du->dk_port+ wd_sdh, sdh); /* Wait, to make sure drv 1 has completed diags */ if ( wdwait(du, 0, TIMEOUT) < 0) goto nodevice; /* Get status for drive 1 */ du->dk_error = inb(du->dk_port + wd_error); /* printf("Error (drv 1) : %x\n", du->dk_error); */ /* * Sometimes (apparently mostly with ATAPI * drives involved) 0x81 really means 0x81 * (drive 0 OK, drive 1 failed). */ if(du->dk_error != 0x01 && du->dk_error != 0x81) goto nodevice; } else /* drive 0 fail */ goto nodevice; } free(du, M_TEMP); return (IO_WDCSIZE); nodevice: free(du, M_TEMP); return (0); } /* * Attach each drive if possible. */ static int wdattach(struct isa_device *dvp) { int unit, lunit, flags, i; struct disk *du; struct wdparams *wp; static char buf[] = "wdcXXX"; dvp->id_intr = wdintr; if (dvp->id_unit >= NWDC) return (0); if (eide_quirks & Q_CMD640B) { if (dvp->id_unit == PRIMARY) { printf("wdc0: CMD640B workaround enabled\n"); bufq_init(&wdtab[PRIMARY].controller_queue); } } else bufq_init(&wdtab[dvp->id_unit].controller_queue); sprintf(buf, "wdc%d", dvp->id_unit); for (i = resource_query_string(-1, "at", buf); i != -1; i = resource_query_string(i, "at", buf)) { if (strcmp(resource_query_name(i), "wd")) /* Avoid a bit of foot shooting. */ continue; lunit = resource_query_unit(i); if (lunit >= NWD) continue; if (resource_int_value("wd", lunit, "drive", &unit) != 0) continue; if (resource_int_value("wd", lunit, "flags", &flags) != 0) flags = 0; du = malloc(sizeof *du, M_TEMP, M_NOWAIT); if (du == NULL) continue; if (wddrives[lunit] != NULL) panic("drive attached twice"); wddrives[lunit] = du; bufq_init(&drive_queue[lunit]); bzero(du, sizeof *du); du->dk_ctrlr = dvp->id_unit; if (eide_quirks & Q_CMD640B) { du->dk_ctrlr_cmd640 = PRIMARY; } else { du->dk_ctrlr_cmd640 = du->dk_ctrlr; } du->dk_unit = unit; du->dk_lunit = lunit; du->dk_port = dvp->id_iobase; du->dk_altport = du->dk_port + wd_ctlr; /* * Use the individual device flags or the controller * flags. */ du->cfg_flags = flags | ((dvp->id_flags) >> (16 * unit)); if (wdgetctlr(du) == 0) { /* * Print out description of drive. * wdp_model may not be null terminated. */ printf("wdc%d: unit %d (wd%d): <%.*s>", dvp->id_unit, unit, lunit, (int)sizeof(du->dk_params.wdp_model), du->dk_params.wdp_model); if (du->dk_flags & DKFL_LBA) printf(", LBA"); if (du->dk_flags & DKFL_USEDMA) printf(", DMA"); if (du->dk_flags & DKFL_32BIT) printf(", 32-bit"); if (du->dk_multi > 1) printf(", multi-block-%d", du->dk_multi); if (du->cfg_flags & WDOPT_SLEEPHACK) printf(", sleep-hack"); printf("\n"); if (du->dk_params.wdp_heads == 0) printf("wd%d: size unknown, using %s values\n", lunit, du->dk_dd.d_secperunit > 17 ? "BIOS" : "fake"); printf( "wd%d: %luMB (%lu sectors), " "%lu cyls, %lu heads, %lu S/T, %lu B/S\n", lunit, du->dk_dd.d_secperunit / ((1024L * 1024L) / du->dk_dd.d_secsize), du->dk_dd.d_secperunit, du->dk_dd.d_ncylinders, du->dk_dd.d_ntracks, du->dk_dd.d_nsectors, du->dk_dd.d_secsize); if (bootverbose) { wp = &du->dk_params; printf( "wd%d: ATA INQUIRE valid = %04x, " "dmamword = %04x, apio = %04x, " "udma = %04x\n", du->dk_lunit, wp->wdp_atavalid, wp->wdp_dmamword, wp->wdp_eidepiomodes, wp->wdp_udmamode); } /* * Start timeout routine for this drive. * XXX timeout should be per controller. */ wdtimeout(du); make_dev(&wd_cdevsw, dkmakeminor(lunit, WHOLE_DISK_SLICE, RAW_PART), UID_ROOT, GID_OPERATOR, 0640, "rwd%d", lunit); /* * Export the drive to the devstat interface. */ devstat_add_entry(&du->dk_stats, "wd", lunit, du->dk_dd.d_secsize, DEVSTAT_NO_ORDERED_TAGS, DEVSTAT_TYPE_DIRECT | DEVSTAT_TYPE_IF_IDE, DEVSTAT_PRIORITY_WD); } else { free(du, M_TEMP); wddrives[lunit] = NULL; } } /* * Probe all free IDE units, searching for ATAPI drives. */ for (unit=0; unit<2; ++unit) { for (lunit=0; lunitdk_ctrlr == dvp->id_unit && wddrives[lunit]->dk_unit == unit) goto next; if (atapi_attach (dvp->id_unit, unit, dvp->id_iobase)) atapictrlr = dvp->id_unit; next: ; } /* * Discard any interrupts generated by wdgetctlr(). wdflushirq() * doesn't work now because the ambient ipl is too high. */ if (eide_quirks & Q_CMD640B) { wdtab[PRIMARY].b_active = 2; } else { wdtab[dvp->id_unit].b_active = 2; } return (1); } /* Read/write routine for a buffer. Finds the proper unit, range checks * arguments, and schedules the transfer. Does not wait for the transfer * to complete. Multi-page transfers are supported. All I/O requests must * be a multiple of a sector in length. */ void wdstrategy(register struct buf *bp) { struct disk *du; int lunit = dkunit(bp->b_dev); int s; /* valid unit, controller, and request? */ if (lunit >= NWD || bp->b_blkno < 0 || (du = wddrives[lunit]) == NULL || bp->b_bcount % DEV_BSIZE != 0) { bp->b_error = EINVAL; bp->b_flags |= B_ERROR; goto done; } /* * Do bounds checking, adjust transfer, and set b_pblkno. */ if (dscheck(bp, du->dk_slices) <= 0) goto done; /* * Check for *any* block on this transfer being on the bad block list * if it is, then flag the block as a transfer that requires * bad block handling. Also, used as a hint for low level disksort * clustering code to keep from coalescing a bad transfer into * a normal transfer. Single block transfers for a large number of * blocks associated with a cluster I/O are undesirable. * * XXX the old disksort() doesn't look at B_BAD. Coalescing _is_ * desirable. We should split the results at bad blocks just * like we should split them at MAXTRANSFER boundaries. */ if (dsgetbad(bp->b_dev, du->dk_slices) != NULL) { long *badsect = dsgetbad(bp->b_dev, du->dk_slices)->bi_bad; int i; int nsecs = howmany(bp->b_bcount, DEV_BSIZE); /* XXX pblkno is too physical. */ daddr_t nspblkno = bp->b_pblkno - du->dk_slices->dss_slices[dkslice(bp->b_dev)].ds_offset; int blkend = nspblkno + nsecs; for (i = 0; badsect[i] != -1 && badsect[i] < blkend; i++) { if (badsect[i] >= nspblkno) { bp->b_flags |= B_BAD; break; } } } /* queue transfer on drive, activate drive and controller if idle */ s = splbio(); /* Pick up changes made by readdisklabel(). */ if (du->dk_flags & DKFL_LABELLING && du->dk_state > RECAL) { wdsleep(du->dk_ctrlr, "wdlab"); du->dk_state = WANTOPEN; } bufqdisksort(&drive_queue[lunit], bp); if (wdutab[lunit].b_active == 0) wdustart(du); /* start drive */ if (wdtab[du->dk_ctrlr_cmd640].b_active == 0) wdstart(du->dk_ctrlr); /* start controller */ /* Tell devstat that we have started a transaction on this drive */ devstat_start_transaction(&du->dk_stats); splx(s); return; done: /* toss transfer, we're done early */ biodone(bp); } /* * Routine to queue a command to the controller. The unit's * request is linked into the active list for the controller. * If the controller is idle, the transfer is started. */ static void wdustart(register struct disk *du) { register struct buf *bp; int ctrlr = du->dk_ctrlr_cmd640; /* unit already active? */ if (wdutab[du->dk_lunit].b_active) return; bp = bufq_first(&drive_queue[du->dk_lunit]); if (bp == NULL) { /* yes, an assign */ return; } /* * store away which device we came from. */ bp->b_driver1 = du; bufq_remove(&drive_queue[du->dk_lunit], bp); /* link onto controller queue */ bufq_insert_tail(&wdtab[ctrlr].controller_queue, bp); /* mark the drive unit as busy */ wdutab[du->dk_lunit].b_active = 1; } /* * Controller startup routine. This does the calculation, and starts * a single-sector read or write operation. Called to start a transfer, * or from the interrupt routine to continue a multi-sector transfer. * RESTRICTIONS: * 1. The transfer length must be an exact multiple of the sector size. */ void wdstart(int ctrlr) { register struct disk *du; register struct buf *bp; struct diskgeom *lp; /* XXX sic */ long blknum; long secpertrk, secpercyl; u_int lunit; u_int count; int ctrlr_atapi; if (eide_quirks & Q_CMD640B) { ctrlr = PRIMARY; ctrlr_atapi = atapictrlr; } else { ctrlr_atapi = ctrlr; } if (wdtab[ctrlr].b_active == 2) wdtab[ctrlr].b_active = 0; if (wdtab[ctrlr].b_active) return; /* is there a drive for the controller to do a transfer with? */ bp = bufq_first(&wdtab[ctrlr].controller_queue); if (bp == NULL) { if (atapi_start && atapi_start (ctrlr_atapi)) /* mark controller active in ATAPI mode */ wdtab[ctrlr].b_active = 3; return; } /* obtain controller and drive information */ lunit = dkunit(bp->b_dev); du = wddrives[lunit]; /* if not really a transfer, do control operations specially */ if (du->dk_state < OPEN) { if (du->dk_state != WANTOPEN) printf("wd%d: wdstart: weird dk_state %d\n", du->dk_lunit, du->dk_state); if (wdcontrol(bp) != 0) printf("wd%d: wdstart: wdcontrol returned nonzero, state = %d\n", du->dk_lunit, du->dk_state); return; } /* calculate transfer details */ blknum = bp->b_pblkno + du->dk_skip; #ifdef WDDEBUG if (du->dk_skip == 0) printf("wd%d: wdstart: %s %d@%d; map ", lunit, (bp->b_flags & B_READ) ? "read" : "write", bp->b_bcount, blknum); else printf(" %d)%x", du->dk_skip, inb(du->dk_altport)); #endif lp = &du->dk_dd; secpertrk = lp->d_nsectors; secpercyl = lp->d_secpercyl; if (du->dk_skip == 0) { du->dk_bc = bp->b_bcount; if (bp->b_flags & B_BAD /* * XXX handle large transfers inefficiently instead * of crashing on them. */ || howmany(du->dk_bc, DEV_BSIZE) > MAXTRANSFER) du->dk_flags |= DKFL_SINGLE; } if (du->dk_flags & DKFL_SINGLE && dsgetbad(bp->b_dev, du->dk_slices) != NULL) { /* XXX */ u_long ds_offset = du->dk_slices->dss_slices[dkslice(bp->b_dev)].ds_offset; blknum = transbad144(dsgetbad(bp->b_dev, du->dk_slices), blknum - ds_offset) + ds_offset; } wdtab[ctrlr].b_active = 1; /* mark controller active */ /* if starting a multisector transfer, or doing single transfers */ if (du->dk_skip == 0 || (du->dk_flags & DKFL_SINGLE)) { u_int command; u_int count1; long cylin, head, sector; if (du->dk_flags & DKFL_LBA) { sector = (blknum >> 0) & 0xff; cylin = (blknum >> 8) & 0xffff; head = ((blknum >> 24) & 0xf) | WDSD_LBA; } else { cylin = blknum / secpercyl; head = (blknum % secpercyl) / secpertrk; sector = blknum % secpertrk; } /* * XXX this looks like an attempt to skip bad sectors * on write. */ if (wdtab[ctrlr].b_errcnt && (bp->b_flags & B_READ) == 0) du->dk_bc += DEV_BSIZE; count1 = howmany( du->dk_bc, DEV_BSIZE); du->dk_flags &= ~DKFL_MULTI; #ifdef B_FORMAT if (bp->b_flags & B_FORMAT) { command = WDCC_FORMAT; count1 = lp->d_nsectors; sector = lp->d_gap3 - 1; /* + 1 later */ } else #endif { if (du->dk_flags & DKFL_SINGLE) { command = (bp->b_flags & B_READ) ? WDCC_READ : WDCC_WRITE; count1 = 1; du->dk_currentiosize = 1; } else { if((du->dk_flags & DKFL_USEDMA) && wddma[du->dk_interface].wdd_dmaverify(du->dk_dmacookie, (void *)((int)bp->b_data + du->dk_skip * DEV_BSIZE), du->dk_bc, bp->b_flags & B_READ)) { du->dk_flags |= DKFL_DMA; if( bp->b_flags & B_READ) command = WDCC_READ_DMA; else command = WDCC_WRITE_DMA; du->dk_currentiosize = count1; } else if( (count1 > 1) && (du->dk_multi > 1)) { du->dk_flags |= DKFL_MULTI; if( bp->b_flags & B_READ) { command = WDCC_READ_MULTI; } else { command = WDCC_WRITE_MULTI; } du->dk_currentiosize = du->dk_multi; if( du->dk_currentiosize > count1) du->dk_currentiosize = count1; } else { if( bp->b_flags & B_READ) { command = WDCC_READ; } else { command = WDCC_WRITE; } du->dk_currentiosize = 1; } } } /* * XXX this loop may never terminate. The code to handle * counting down of retries and eventually failing the i/o * is in wdintr() and we can't get there from here. */ if (wdtest != 0) { if (--wdtest == 0) { wdtest = 100; printf("dummy wdunwedge\n"); wdunwedge(du); } } if ((du->dk_flags & (DKFL_DMA|DKFL_SINGLE)) == DKFL_DMA) { wddma[du->dk_interface].wdd_dmaprep(du->dk_dmacookie, (void *)((int)bp->b_data + du->dk_skip * DEV_BSIZE), du->dk_bc, bp->b_flags & B_READ); } while (wdcommand(du, cylin, head, sector, count1, command) != 0) { wderror(bp, du, "wdstart: timeout waiting to give command"); wdunwedge(du); } #ifdef WDDEBUG printf("cylin %ld head %ld sector %ld addr %x sts %x\n", cylin, head, sector, (int)bp->b_data + du->dk_skip * DEV_BSIZE, inb(du->dk_altport)); #endif } /* * Schedule wdtimeout() to wake up after a few seconds. Retrying * unmarked bad blocks can take 3 seconds! Then it is not good that * we retry 5 times. * * On the first try, we give it 10 seconds, for drives that may need * to spin up. * * XXX wdtimeout() doesn't increment the error count so we may loop * forever. More seriously, the loop isn't forever but causes a * crash. * * TODO fix b_resid bug elsewhere (fd.c....). Fix short but positive * counts being discarded after there is an error (in physio I * think). Discarding them would be OK if the (special) file offset * was not advanced. */ if (wdtab[ctrlr].b_errcnt == 0) du->dk_timeout = 1 + 10; else du->dk_timeout = 1 + 3; /* if this is a DMA op, start DMA and go away until it's done. */ if ((du->dk_flags & (DKFL_DMA|DKFL_SINGLE)) == DKFL_DMA) { wddma[du->dk_interface].wdd_dmastart(du->dk_dmacookie); return; } /* If this is a read operation, just go away until it's done. */ if (bp->b_flags & B_READ) return; /* Ready to send data? */ if (wdwait(du, WDCS_READY | WDCS_SEEKCMPLT | WDCS_DRQ, TIMEOUT) < 0) { wderror(bp, du, "wdstart: timeout waiting for DRQ"); /* * XXX what do we do now? If we've just issued the command, * then we can treat this failure the same as a command * failure. But if we are continuing a multi-sector write, * the command was issued ages ago, so we can't simply * restart it. * * XXX we waste a lot of time unnecessarily translating block * numbers to cylin/head/sector for continued i/o's. */ } count = 1; if( du->dk_flags & DKFL_MULTI) { count = howmany(du->dk_bc, DEV_BSIZE); if( count > du->dk_multi) count = du->dk_multi; if( du->dk_currentiosize > count) du->dk_currentiosize = count; } if (du->dk_flags & DKFL_32BIT) outsl(du->dk_port + wd_data, (void *)((int)bp->b_data + du->dk_skip * DEV_BSIZE), (count * DEV_BSIZE) / sizeof(long)); else outsw(du->dk_port + wd_data, (void *)((int)bp->b_data + du->dk_skip * DEV_BSIZE), (count * DEV_BSIZE) / sizeof(short)); du->dk_bc -= DEV_BSIZE * count; } /* Interrupt routine for the controller. Acknowledge the interrupt, check for * errors on the current operation, mark it done if necessary, and start * the next request. Also check for a partially done transfer, and * continue with the next chunk if so. */ void wdintr(void *unitnum) { register struct disk *du; register struct buf *bp; int dmastat = 0; /* Shut up GCC */ int unit = (int)unitnum; int ctrlr_atapi; if (eide_quirks & Q_CMD640B) { unit = PRIMARY; ctrlr_atapi = atapictrlr; } else { ctrlr_atapi = unit; } if (wdtab[unit].b_active == 2) return; /* intr in wdflushirq() */ if (!wdtab[unit].b_active) { #ifdef WDDEBUG /* * These happen mostly because the power-mgt part of the * bios shuts us down, and we just manage to see the * interrupt from the "SLEEP" command. */ printf("wdc%d: extra interrupt\n", unit); #endif return; } if (wdtab[unit].b_active == 3) { /* process an ATAPI interrupt */ if (atapi_intr && atapi_intr (ctrlr_atapi)) /* ATAPI op continues */ return; /* controller is free, start new op */ wdtab[unit].b_active = 0; wdstart (unit); return; } bp = bufq_first(&wdtab[unit].controller_queue); du = wddrives[dkunit(bp->b_dev)]; /* finish off DMA */ if ((du->dk_flags & (DKFL_DMA|DKFL_SINGLE)) == DKFL_DMA) { /* XXX SMP boxes sometimes generate an early intr. Why? */ if ((wddma[du->dk_interface].wdd_dmastatus(du->dk_dmacookie) & WDDS_INTERRUPT) == 0) return; dmastat = wddma[du->dk_interface].wdd_dmadone(du->dk_dmacookie); } du->dk_timeout = 0; /* check drive status/failure */ if (wdwait(du, 0, TIMEOUT) < 0) { wderror(bp, du, "wdintr: timeout waiting for status"); du->dk_status |= WDCS_ERR; /* XXX */ } /* is it not a transfer, but a control operation? */ if (du->dk_state < OPEN) { wdtab[unit].b_active = 0; switch (wdcontrol(bp)) { case 0: return; case 1: wdstart(unit); return; case 2: goto done; } } /* have we an error? */ if ((du->dk_status & (WDCS_ERR | WDCS_ECCCOR)) || (((du->dk_flags & (DKFL_DMA|DKFL_SINGLE)) == DKFL_DMA) && dmastat != WDDS_INTERRUPT)) { unsigned int errstat; oops: /* * XXX bogus inb() here */ errstat = inb(du->dk_port + wd_error); if(((du->dk_flags & (DKFL_DMA|DKFL_SINGLE)) == DKFL_DMA) && (errstat & WDERR_ABORT)) { wderror(bp, du, "reverting to PIO mode"); du->dk_flags &= ~DKFL_USEDMA; } else if((du->dk_flags & DKFL_MULTI) && (errstat & WDERR_ABORT)) { wderror(bp, du, "reverting to non-multi sector mode"); du->dk_multi = 1; } if (!(du->dk_status & (WDCS_ERR | WDCS_ECCCOR)) && (((du->dk_flags & (DKFL_DMA|DKFL_SINGLE)) == DKFL_DMA) && (dmastat != WDDS_INTERRUPT))) printf("wd%d: DMA failure, DMA status %b\n", du->dk_lunit, dmastat, WDDS_BITS); #ifdef WDDEBUG wderror(bp, du, "wdintr"); #endif if ((du->dk_flags & DKFL_SINGLE) == 0) { du->dk_flags |= DKFL_ERROR; goto outt; } #ifdef B_FORMAT if (bp->b_flags & B_FORMAT) { bp->b_error = EIO; bp->b_flags |= B_ERROR; goto done; } #endif if (du->dk_flags & DKFL_BADSCAN) { bp->b_error = EIO; bp->b_flags |= B_ERROR; } else if (du->dk_status & WDCS_ERR) { if (++wdtab[unit].b_errcnt < RETRIES) { wdtab[unit].b_active = 0; } else { wderror(bp, du, "hard error"); bp->b_error = EIO; bp->b_flags |= B_ERROR; /* flag the error */ } } else if (du->dk_status & WDCS_ECCCOR) wderror(bp, du, "soft ecc"); } /* * If this was a successful read operation, fetch the data. */ if (((bp->b_flags & (B_READ | B_ERROR)) == B_READ) && !((du->dk_flags & (DKFL_DMA|DKFL_SINGLE)) == DKFL_DMA) && wdtab[unit].b_active) { u_int chk, dummy, multisize; multisize = chk = du->dk_currentiosize * DEV_BSIZE; if( du->dk_bc < chk) { chk = du->dk_bc; if( ((chk + DEV_BSIZE - 1) / DEV_BSIZE) < du->dk_currentiosize) { du->dk_currentiosize = (chk + DEV_BSIZE - 1) / DEV_BSIZE; multisize = du->dk_currentiosize * DEV_BSIZE; } } /* ready to receive data? */ if ((du->dk_status & (WDCS_READY | WDCS_SEEKCMPLT | WDCS_DRQ)) != (WDCS_READY | WDCS_SEEKCMPLT | WDCS_DRQ)) wderror(bp, du, "wdintr: read intr arrived early"); if (wdwait(du, WDCS_READY | WDCS_SEEKCMPLT | WDCS_DRQ, TIMEOUT) != 0) { wderror(bp, du, "wdintr: read error detected late"); goto oops; } /* suck in data */ if( du->dk_flags & DKFL_32BIT) insl(du->dk_port + wd_data, (void *)((int)bp->b_data + du->dk_skip * DEV_BSIZE), chk / sizeof(long)); else insw(du->dk_port + wd_data, (void *)((int)bp->b_data + du->dk_skip * DEV_BSIZE), chk / sizeof(short)); du->dk_bc -= chk; /* XXX for obsolete fractional sector reads. */ while (chk < multisize) { insw(du->dk_port + wd_data, &dummy, 1); chk += sizeof(short); } } /* final cleanup on DMA */ if (((bp->b_flags & B_ERROR) == 0) && ((du->dk_flags & (DKFL_DMA|DKFL_SINGLE)) == DKFL_DMA) && wdtab[unit].b_active) { int iosize; iosize = du->dk_currentiosize * DEV_BSIZE; du->dk_bc -= iosize; } outt: if (wdtab[unit].b_active) { if ((bp->b_flags & B_ERROR) == 0) { du->dk_skip += du->dk_currentiosize;/* add to successful sectors */ if (wdtab[unit].b_errcnt) wderror(bp, du, "soft error"); wdtab[unit].b_errcnt = 0; /* see if more to transfer */ if (du->dk_bc > 0 && (du->dk_flags & DKFL_ERROR) == 0) { if( (du->dk_flags & DKFL_SINGLE) || ((bp->b_flags & B_READ) == 0)) { wdtab[unit].b_active = 0; wdstart(unit); } else { du->dk_timeout = 1 + 3; } return; /* next chunk is started */ } else if ((du->dk_flags & (DKFL_SINGLE | DKFL_ERROR)) == DKFL_ERROR) { du->dk_skip = 0; du->dk_flags &= ~DKFL_ERROR; du->dk_flags |= DKFL_SINGLE; wdtab[unit].b_active = 0; wdstart(unit); return; /* redo xfer sector by sector */ } } done: ; /* done with this transfer, with or without error */ du->dk_flags &= ~(DKFL_SINGLE|DKFL_DMA); bufq_remove( &wdtab[unit].controller_queue, bp); wdtab[unit].b_errcnt = 0; bp->b_resid = bp->b_bcount - du->dk_skip * DEV_BSIZE; wdutab[du->dk_lunit].b_active = 0; du->dk_skip = 0; /* Update device stats */ devstat_end_transaction(&du->dk_stats, bp->b_bcount - bp->b_resid, DEVSTAT_TAG_NONE, (bp->b_flags & B_READ) ? DEVSTAT_READ : DEVSTAT_WRITE); biodone(bp); } /* controller idle */ wdtab[unit].b_active = 0; /* anything more on drive queue? */ wdustart(du); /* anything more for controller to do? */ wdstart(unit); } /* * Initialize a drive. */ int wdopen(dev_t dev, int flags, int fmt, struct proc *p) { register unsigned int lunit; register struct disk *du; int error; lunit = dkunit(dev); if (lunit >= NWD || dktype(dev) != 0) return (ENXIO); du = wddrives[lunit]; if (du == NULL) return (ENXIO); /* Finish flushing IRQs left over from wdattach(). */ if (wdtab[du->dk_ctrlr_cmd640].b_active == 2) wdtab[du->dk_ctrlr_cmd640].b_active = 0; du->dk_flags &= ~DKFL_BADSCAN; /* spin waiting for anybody else reading the disk label */ while (du->dk_flags & DKFL_LABELLING) tsleep((caddr_t)&du->dk_flags, PZERO - 1, "wdopen", 1); #if 1 wdsleep(du->dk_ctrlr, "wdopn1"); du->dk_flags |= DKFL_LABELLING; du->dk_state = WANTOPEN; { struct disklabel label; bzero(&label, sizeof label); label.d_secsize = du->dk_dd.d_secsize; label.d_nsectors = du->dk_dd.d_nsectors; label.d_ntracks = du->dk_dd.d_ntracks; label.d_ncylinders = du->dk_dd.d_ncylinders; label.d_secpercyl = du->dk_dd.d_secpercyl; label.d_secperunit = du->dk_dd.d_secperunit; error = dsopen("wd", dev, fmt, 0, &du->dk_slices, &label); } du->dk_flags &= ~DKFL_LABELLING; wdsleep(du->dk_ctrlr, "wdopn2"); return (error); #else if ((du->dk_flags & DKFL_BSDLABEL) == 0) { /* * wdtab[ctrlr].b_active != 0 implies XXX applicable now ?? * drive_queue[lunit].b_act == NULL (?) XXX applicable now ?? * so the following guards most things (until the next i/o). * It doesn't guard against a new i/o starting and being * affected by the label being changed. Sigh. */ wdsleep(du->dk_ctrlr, "wdopn1"); du->dk_flags |= DKFL_LABELLING; du->dk_state = WANTOPEN; error = dsinit(dkmodpart(dev, RAW_PART), &du->dk_dd, &du->dk_slices); if (error != 0) { du->dk_flags &= ~DKFL_LABELLING; return (error); } /* XXX check value returned by wdwsetctlr(). */ wdwsetctlr(du); if (dkslice(dev) == WHOLE_DISK_SLICE) { dsopen(dev, fmt, du->dk_slices); return (0); } /* * Read label using RAW_PART partition. * * If the drive has an MBR, then the current geometry (from * wdgetctlr()) is used to read it; then the BIOS/DOS * geometry is inferred and used to read the label off the * 'c' partition. Otherwise the label is read using the * current geometry. The label gives the final geometry. * If bad sector handling is enabled, then this geometry * is used to read the bad sector table. The geometry * changes occur inside readdisklabel() and are propagated * to the driver by resetting the state machine. * * XXX can now handle changes directly since dsinit() doesn't * do too much. */ msg = correct_readdisklabel(dkmodpart(dev, RAW_PART), &du->dk_dd); /* XXX check value returned by wdwsetctlr(). */ wdwsetctlr(du); if (msg == NULL && du->dk_dd.d_flags & D_BADSECT) msg = readbad144(dkmodpart(dev, RAW_PART), &du->dk_dd, &du->dk_bad); du->dk_flags &= ~DKFL_LABELLING; if (msg != NULL) { log(LOG_WARNING, "wd%d: cannot find label (%s)\n", lunit, msg); if (part != RAW_PART) return (EINVAL); /* XXX needs translation */ /* * Soon return. This is how slices without labels * are allowed. They only work on the raw partition. */ } else { unsigned long newsize, offset, size; #if 0 /* * Force RAW_PART partition to be the whole disk. */ offset = du->dk_dd.d_partitions[RAW_PART].p_offset; if (offset != 0) { printf( "wd%d: changing offset of '%c' partition from %lu to 0\n", du->dk_lunit, 'a' + RAW_PART, offset); du->dk_dd.d_partitions[RAW_PART].p_offset = 0; } size = du->dk_dd.d_partitions[RAW_PART].p_size; newsize = du->dk_dd.d_secperunit; /* XXX */ if (size != newsize) { printf( "wd%d: changing size of '%c' partition from %lu to %lu\n", du->dk_lunit, 'a' + RAW_PART, size, newsize); du->dk_dd.d_partitions[RAW_PART].p_size = newsize; } #endif } /* Pick up changes made by readdisklabel(). */ wdsleep(du->dk_ctrlr, "wdopn2"); du->dk_state = WANTOPEN; } /* * Warn if a partion is opened that overlaps another partition which * is open unless one is the "raw" partition (whole disk). */ if ((du->dk_openpart & mask) == 0 && part != RAW_PART) { int start, end; pp = &du->dk_dd.d_partitions[part]; start = pp->p_offset; end = pp->p_offset + pp->p_size; for (pp = du->dk_dd.d_partitions; pp < &du->dk_dd.d_partitions[du->dk_dd.d_npartitions]; pp++) { if (pp->p_offset + pp->p_size <= start || pp->p_offset >= end) continue; if (pp - du->dk_dd.d_partitions == RAW_PART) continue; if (du->dk_openpart & (1 << (pp - du->dk_dd.d_partitions))) log(LOG_WARNING, "wd%d%c: overlaps open partition (%c)\n", lunit, part + 'a', pp - du->dk_dd.d_partitions + 'a'); } } if (part >= du->dk_dd.d_npartitions && part != RAW_PART) return (ENXIO); dsopen(dev, fmt, du->dk_slices); return (0); #endif } /* * Implement operations other than read/write. * Called from wdstart or wdintr during opens and formats. * Uses finite-state-machine to track progress of operation in progress. * Returns 0 if operation still in progress, 1 if completed, 2 if error. */ static int wdcontrol(register struct buf *bp) { register struct disk *du; int ctrlr; du = wddrives[dkunit(bp->b_dev)]; ctrlr = du->dk_ctrlr_cmd640; switch (du->dk_state) { case WANTOPEN: tryagainrecal: wdtab[ctrlr].b_active = 1; if (wdcommand(du, 0, 0, 0, 0, WDCC_RESTORE | WD_STEP) != 0) { wderror(bp, du, "wdcontrol: wdcommand failed"); goto maybe_retry; } du->dk_state = RECAL; return (0); case RECAL: if (du->dk_status & WDCS_ERR || wdsetctlr(du) != 0) { wderror(bp, du, "wdcontrol: recal failed"); maybe_retry: if (du->dk_status & WDCS_ERR) wdunwedge(du); du->dk_state = WANTOPEN; if (++wdtab[ctrlr].b_errcnt < RETRIES) goto tryagainrecal; bp->b_error = ENXIO; /* XXX needs translation */ bp->b_flags |= B_ERROR; return (2); } wdtab[ctrlr].b_errcnt = 0; du->dk_state = OPEN; /* * The rest of the initialization can be done by normal * means. */ return (1); } panic("wdcontrol"); return (2); } /* * Wait uninterruptibly until controller is not busy, then send it a command. * The wait usually terminates immediately because we waited for the previous * command to terminate. */ static int wdcommand(struct disk *du, u_int cylinder, u_int head, u_int sector, u_int count, u_int command) { u_int wdc; wdc = du->dk_port; if (du->cfg_flags & WDOPT_SLEEPHACK) { /* OK, so the APM bios has put the disk into SLEEP mode, * how can we tell ? Uhm, we can't. There is no * standardized way of finding out, and the only way to * wake it up is to reset it. Bummer. * * All the many and varied versions of the IDE/ATA standard * explicitly tells us not to look at these registers if * the disk is in SLEEP mode. Well, too bad really, we * have to find out if it's in sleep mode before we can * avoid reading the registers. * * I have reason to belive that most disks will return * either 0xff or 0x00 in all but the status register * when in SLEEP mode, but I have yet to see one return * 0x00, so we don't check for that yet. * * The check for WDCS_BUSY is for the case where the * bios spins up the disk for us, but doesn't initialize * it correctly /phk */ if(inb(wdc + wd_precomp) + inb(wdc + wd_cyl_lo) + inb(wdc + wd_cyl_hi) + inb(wdc + wd_sdh) + inb(wdc + wd_sector) + inb(wdc + wd_seccnt) == 6 * 0xff) { if (bootverbose) printf("wd(%d,%d): disk aSLEEP\n", du->dk_ctrlr, du->dk_unit); wdunwedge(du); } else if(inb(wdc + wd_status) == WDCS_BUSY) { if (bootverbose) printf("wd(%d,%d): disk is BUSY\n", du->dk_ctrlr, du->dk_unit); wdunwedge(du); } } if (wdwait(du, 0, TIMEOUT) < 0) return (1); if( command == WDCC_FEATURES) { outb(wdc + wd_sdh, WDSD_IBM | (du->dk_unit << 4) | head); outb(wdc + wd_features, count); if ( count == WDFEA_SETXFER ) outb(wdc + wd_seccnt, sector); } else { outb(wdc + wd_precomp, du->dk_dd.d_precompcyl / 4); outb(wdc + wd_cyl_lo, cylinder); outb(wdc + wd_cyl_hi, cylinder >> 8); outb(wdc + wd_sdh, WDSD_IBM | (du->dk_unit << 4) | head); if (head & WDSD_LBA) outb(wdc + wd_sector, sector); else outb(wdc + wd_sector, sector + 1); outb(wdc + wd_seccnt, count); } if (wdwait(du, (command == WDCC_DIAGNOSE || command == WDCC_IDC) ? 0 : WDCS_READY, TIMEOUT) < 0) return (1); outb(wdc + wd_command, command); return (0); } static void wdsetmulti(struct disk *du) { /* * The config option flags low 8 bits define the maximum multi-block * transfer size. If the user wants the maximum that the drive * is capable of, just set the low bits of the config option to * 0x00ff. */ if ((du->cfg_flags & WDOPT_MULTIMASK) != 0 && (du->dk_multi > 1)) { int configval = du->cfg_flags & WDOPT_MULTIMASK; du->dk_multi = min(du->dk_multi, configval); if (wdcommand(du, 0, 0, 0, du->dk_multi, WDCC_SET_MULTI)) { du->dk_multi = 1; } else { if (wdwait(du, WDCS_READY, TIMEOUT) < 0) { du->dk_multi = 1; } } } else { du->dk_multi = 1; } } /* * issue IDC to drive to tell it just what geometry it is to be. */ static int wdsetctlr(struct disk *du) { int error = 0; #ifdef WDDEBUG printf("wd(%d,%d): wdsetctlr: C %lu H %lu S %lu\n", du->dk_ctrlr, du->dk_unit, du->dk_dd.d_ncylinders, du->dk_dd.d_ntracks, du->dk_dd.d_nsectors); #endif if (!(du->dk_flags & DKFL_LBA)) { if (du->dk_dd.d_ntracks == 0 || du->dk_dd.d_ntracks > 16) { struct wdparams *wp; printf("wd%d: can't handle %lu heads from partition table ", du->dk_lunit, du->dk_dd.d_ntracks); /* obtain parameters */ wp = &du->dk_params; if (wp->wdp_heads > 0 && wp->wdp_heads <= 16) { printf("(controller value %u restored)\n", wp->wdp_heads); du->dk_dd.d_ntracks = wp->wdp_heads; } else { printf("(truncating to 16)\n"); du->dk_dd.d_ntracks = 16; } } if (du->dk_dd.d_nsectors == 0 || du->dk_dd.d_nsectors > 255) { printf("wd%d: cannot handle %lu sectors (max 255)\n", du->dk_lunit, du->dk_dd.d_nsectors); error = 1; } if (error) { wdtab[du->dk_ctrlr_cmd640].b_errcnt += RETRIES; return (1); } if (wdcommand(du, du->dk_dd.d_ncylinders, du->dk_dd.d_ntracks - 1, 0, du->dk_dd.d_nsectors, WDCC_IDC) != 0 || wdwait(du, WDCS_READY, TIMEOUT) < 0) { wderror((struct buf *)NULL, du, "wdsetctlr failed"); return (1); } } wdsetmulti(du); #ifdef NOTYET /* set read caching and write caching */ wdcommand(du, 0, 0, 0, WDFEA_RCACHE, WDCC_FEATURES); wdwait(du, WDCS_READY, TIMEOUT); wdcommand(du, 0, 0, 0, WDFEA_WCACHE, WDCC_FEATURES); wdwait(du, WDCS_READY, TIMEOUT); #endif return (0); } #if 0 /* * Wait until driver is inactive, then set up controller. */ static int wdwsetctlr(struct disk *du) { int stat; int x; wdsleep(du->dk_ctrlr, "wdwset"); x = splbio(); stat = wdsetctlr(du); wdflushirq(du, x); splx(x); return (stat); } #endif /* * gross little callback function for wdddma interface. returns 1 for * success, 0 for failure. */ static int wdsetmode(int mode, void *wdinfo) { int i; struct disk *du; du = wdinfo; if (bootverbose) printf("wd%d: wdsetmode() setting transfer mode to %02x\n", du->dk_lunit, mode); i = wdcommand(du, 0, 0, mode, WDFEA_SETXFER, WDCC_FEATURES) == 0 && wdwait(du, WDCS_READY, TIMEOUT) == 0; return i; } /* * issue READP to drive to ask it what it is. */ static int wdgetctlr(struct disk *du) { int i; char tb[DEV_BSIZE], tb2[DEV_BSIZE]; struct wdparams *wp = NULL; u_long flags = du->cfg_flags; again: if (wdcommand(du, 0, 0, 0, 0, WDCC_READP) != 0 || wdwait(du, WDCS_READY | WDCS_SEEKCMPLT | WDCS_DRQ, TIMEOUT) != 0) { /* * if we failed on the second try, assume non-32bit */ if( du->dk_flags & DKFL_32BIT) goto failed; /* XXX need to check error status after final transfer. */ /* * Old drives don't support WDCC_READP. Try a seek to 0. * Some IDE controllers return trash if there is no drive * attached, so first test that the drive can be selected. * This also avoids long waits for nonexistent drives. */ if (wdwait(du, 0, TIMEOUT) < 0) return (1); outb(du->dk_port + wd_sdh, WDSD_IBM | (du->dk_unit << 4)); DELAY(5000); /* usually unnecessary; drive select is fast */ /* * Do this twice: may get a false WDCS_READY the first time. */ inb(du->dk_port + wd_status); if ((inb(du->dk_port + wd_status) & (WDCS_BUSY | WDCS_READY)) != WDCS_READY || wdcommand(du, 0, 0, 0, 0, WDCC_RESTORE | WD_STEP) != 0 || wdwait(du, WDCS_READY | WDCS_SEEKCMPLT, TIMEOUT) != 0) return (1); if (du->dk_unit == bootinfo.bi_n_bios_used) { du->dk_dd.d_secsize = DEV_BSIZE; du->dk_dd.d_nsectors = bootinfo.bi_bios_geom[du->dk_unit] & 0xff; du->dk_dd.d_ntracks = ((bootinfo.bi_bios_geom[du->dk_unit] >> 8) & 0xff) + 1; /* XXX Why 2 ? */ du->dk_dd.d_ncylinders = (bootinfo.bi_bios_geom[du->dk_unit] >> 16) + 2; du->dk_dd.d_secpercyl = du->dk_dd.d_ntracks * du->dk_dd.d_nsectors; du->dk_dd.d_secperunit = du->dk_dd.d_secpercyl * du->dk_dd.d_ncylinders; #if 0 du->dk_dd.d_partitions[WDRAW].p_size = du->dk_dd.d_secperunit; du->dk_dd.d_type = DTYPE_ST506; du->dk_dd.d_subtype |= DSTYPE_GEOMETRY; strncpy(du->dk_dd.d_typename, "Bios geometry", sizeof du->dk_dd.d_typename); strncpy(du->dk_params.wdp_model, "ST506", sizeof du->dk_params.wdp_model); #endif bootinfo.bi_n_bios_used ++; return 0; } /* * Fake minimal drive geometry for reading the MBR. * readdisklabel() may enlarge it to read the label and the * bad sector table. */ du->dk_dd.d_secsize = DEV_BSIZE; du->dk_dd.d_nsectors = 17; du->dk_dd.d_ntracks = 1; du->dk_dd.d_ncylinders = 1; du->dk_dd.d_secpercyl = 17; du->dk_dd.d_secperunit = 17; #if 0 /* * Fake maximal drive size for writing the label. */ du->dk_dd.d_partitions[RAW_PART].p_size = 64 * 16 * 1024; /* * Fake some more of the label for printing by disklabel(1) * in case there is no real label. */ du->dk_dd.d_type = DTYPE_ST506; du->dk_dd.d_subtype |= DSTYPE_GEOMETRY; strncpy(du->dk_dd.d_typename, "Fake geometry", sizeof du->dk_dd.d_typename); #endif /* Fake the model name for printing by wdattach(). */ strncpy(du->dk_params.wdp_model, "unknown", sizeof du->dk_params.wdp_model); return (0); } /* obtain parameters */ wp = &du->dk_params; if (du->dk_flags & DKFL_32BIT) insl(du->dk_port + wd_data, tb, sizeof(tb) / sizeof(long)); else insw(du->dk_port + wd_data, tb, sizeof(tb) / sizeof(short)); /* try 32-bit data path (VLB IDE controller) */ if (flags & WDOPT_32BIT) { if (! (du->dk_flags & DKFL_32BIT)) { bcopy(tb, tb2, sizeof(struct wdparams)); du->dk_flags |= DKFL_32BIT; goto again; } /* check that we really have 32-bit controller */ if (bcmp (tb, tb2, sizeof(struct wdparams)) != 0) { failed: /* test failed, use 16-bit i/o mode */ bcopy(tb2, tb, sizeof(struct wdparams)); du->dk_flags &= ~DKFL_32BIT; } } bcopy(tb, wp, sizeof(struct wdparams)); /* shuffle string byte order */ for (i = 0; (unsigned)i < sizeof(wp->wdp_model); i += 2) { u_short *p; p = (u_short *) (wp->wdp_model + i); *p = ntohs(*p); } /* * Clean up the wdp_model by converting nulls to spaces, and * then removing the trailing spaces. */ for (i = 0; (unsigned)i < sizeof(wp->wdp_model); i++) { if (wp->wdp_model[i] == '\0') { wp->wdp_model[i] = ' '; } } for (i = sizeof(wp->wdp_model) - 1; (i >= 0 && wp->wdp_model[i] == ' '); i--) { wp->wdp_model[i] = '\0'; } /* * find out the drives maximum multi-block transfer capability */ du->dk_multi = wp->wdp_nsecperint & 0xff; wdsetmulti(du); /* * check drive's DMA capability */ if (wddma[du->dk_interface].wdd_candma) { du->dk_dmacookie = wddma[du->dk_interface].wdd_candma( du->dk_port, du->dk_ctrlr, du->dk_unit); /* does user want this? */ if ((du->cfg_flags & WDOPT_DMA) && /* have we got a DMA controller? */ du->dk_dmacookie && /* can said drive do DMA? */ wddma[du->dk_interface].wdd_dmainit(du->dk_dmacookie, wp, wdsetmode, du)) { du->dk_flags |= DKFL_USEDMA; } } else { du->dk_dmacookie = NULL; } #ifdef WDDEBUG printf( "\nwd(%d,%d): wdgetctlr: gc %x cyl %d trk %d sec %d type %d sz %d model %s\n", du->dk_ctrlr, du->dk_unit, wp->wdp_config, wp->wdp_cylinders, wp->wdp_heads, wp->wdp_sectors, wp->wdp_buffertype, wp->wdp_buffersize, wp->wdp_model); #endif /* update disklabel given drive information */ du->dk_dd.d_secsize = DEV_BSIZE; if ((du->cfg_flags & WDOPT_LBA) && wp->wdp_lbasize) { du->dk_dd.d_nsectors = 63; if (wp->wdp_lbasize < 16*63*1024) { /* <=528.4 MB */ du->dk_dd.d_ntracks = 16; } else if (wp->wdp_lbasize < 32*63*1024) { /* <=1.057 GB */ du->dk_dd.d_ntracks = 32; } else if (wp->wdp_lbasize < 64*63*1024) { /* <=2.114 GB */ du->dk_dd.d_ntracks = 64; } else if (wp->wdp_lbasize < 128*63*1024) { /* <=4.228 GB */ du->dk_dd.d_ntracks = 128; } else if (wp->wdp_lbasize < 255*63*1024) { /* <=8.422 GB */ du->dk_dd.d_ntracks = 255; } else { /* >8.422 GB */ du->dk_dd.d_ntracks = 255; /* XXX */ } du->dk_dd.d_secpercyl= du->dk_dd.d_ntracks*du->dk_dd.d_nsectors; du->dk_dd.d_ncylinders = wp->wdp_lbasize/du->dk_dd.d_secpercyl; du->dk_dd.d_secperunit = wp->wdp_lbasize; du->dk_flags |= DKFL_LBA; } else { du->dk_dd.d_ncylinders = wp->wdp_cylinders; /* +- 1 */ du->dk_dd.d_ntracks = wp->wdp_heads; du->dk_dd.d_nsectors = wp->wdp_sectors; du->dk_dd.d_secpercyl = du->dk_dd.d_ntracks * du->dk_dd.d_nsectors; du->dk_dd.d_secperunit = du->dk_dd.d_secpercyl * du->dk_dd.d_ncylinders; if (wp->wdp_cylinders == 16383 && du->dk_dd.d_secperunit < wp->wdp_lbasize) { du->dk_dd.d_secperunit = wp->wdp_lbasize; du->dk_dd.d_ncylinders = du->dk_dd.d_secperunit / du->dk_dd.d_secpercyl; } } if (WDOPT_FORCEHD(du->cfg_flags)) { du->dk_dd.d_ntracks = WDOPT_FORCEHD(du->cfg_flags); du->dk_dd.d_secpercyl = du->dk_dd.d_ntracks * du->dk_dd.d_nsectors; du->dk_dd.d_ncylinders = du->dk_dd.d_secperunit / du->dk_dd.d_secpercyl; } #if 0 du->dk_dd.d_partitions[RAW_PART].p_size = du->dk_dd.d_secperunit; /* dubious ... */ bcopy("ESDI/IDE", du->dk_dd.d_typename, 9); bcopy(wp->wdp_model + 20, du->dk_dd.d_packname, 14 - 1); /* better ... */ du->dk_dd.d_type = DTYPE_ESDI; du->dk_dd.d_subtype |= DSTYPE_GEOMETRY; #endif return (0); } int wdclose(dev_t dev, int flags, int fmt, struct proc *p) { dsclose(dev, fmt, wddrives[dkunit(dev)]->dk_slices); return (0); } int wdioctl(dev_t dev, u_long cmd, caddr_t addr, int flags, struct proc *p) { int lunit = dkunit(dev); register struct disk *du; int error; #ifdef notyet struct uio auio; struct iovec aiov; struct format_op *fop; #endif du = wddrives[lunit]; wdsleep(du->dk_ctrlr, "wdioct"); error = dsioctl("wd", dev, cmd, addr, flags, &du->dk_slices); if (error != ENOIOCTL) return (error); switch (cmd) { case DIOCSBADSCAN: if (*(int *)addr) du->dk_flags |= DKFL_BADSCAN; else du->dk_flags &= ~DKFL_BADSCAN; return (0); #ifdef notyet case DIOCWFORMAT: if (!(flag & FWRITE)) return (EBADF); fop = (struct format_op *)addr; aiov.iov_base = fop->df_buf; aiov.iov_len = fop->df_count; auio.uio_iov = &aiov; auio.uio_iovcnt = 1; auio.uio_resid = fop->df_count; auio.uio_segflg = 0; auio.uio_offset = fop->df_startblk * du->dk_dd.d_secsize; #error /* XXX the 386BSD interface is different */ error = physio(wdformat, &rwdbuf[lunit], 0, dev, B_WRITE, minphys, &auio); fop->df_count -= auio.uio_resid; fop->df_reg[0] = du->dk_status; fop->df_reg[1] = du->dk_error; return (error); #endif default: return (ENOTTY); } } #ifdef B_FORMAT int wdformat(struct buf *bp) { bp->b_flags |= B_FORMAT; BUF_STRATEGY(bp, 0); /* * phk put this here, better that return(wdstrategy(bp)); * XXX */ return -1; } #endif int wdsize(dev_t dev) { struct disk *du; int lunit; lunit = dkunit(dev); if (lunit >= NWD || dktype(dev) != 0) return (-1); du = wddrives[lunit]; if (du == NULL) return (-1); return (dssize(dev, &du->dk_slices)); } int wddump(dev_t dev) { register struct disk *du; struct disklabel *lp; long num; /* number of sectors to write */ int lunit, part; long blkoff, blknum; long blkchk, blkcnt, blknext; u_long ds_offset; u_long nblocks; static int wddoingadump = 0; long cylin, head, sector; long secpertrk, secpercyl; char *addr; /* Toss any characters present prior to dump. */ while (cncheckc() != -1) ; /* Check for acceptable device. */ /* XXX should reset to maybe allow du->dk_state < OPEN. */ lunit = dkunit(dev); /* eventually support floppies? */ part = dkpart(dev); if (lunit >= NWD || (du = wddrives[lunit]) == NULL || du->dk_state < OPEN || (lp = dsgetlabel(dev, du->dk_slices)) == NULL) return (ENXIO); /* Size of memory to dump, in disk sectors. */ num = (u_long)Maxmem * PAGE_SIZE / du->dk_dd.d_secsize; secpertrk = du->dk_dd.d_nsectors; secpercyl = du->dk_dd.d_secpercyl; nblocks = lp->d_partitions[part].p_size; blkoff = lp->d_partitions[part].p_offset; /* XXX */ ds_offset = du->dk_slices->dss_slices[dkslice(dev)].ds_offset; blkoff += ds_offset; #if 0 pg("part %x, nblocks %d, dumplo %d num %d\n", part, nblocks, dumplo, num); #endif /* Check transfer bounds against partition size. */ if (dumplo < 0 || dumplo + num > nblocks) return (EINVAL); /* Check if we are being called recursively. */ if (wddoingadump) return (EFAULT); #if 0 /* Mark controller active for if we panic during the dump. */ wdtab[du->dk_ctrlr].b_active = 1; #endif wddoingadump = 1; /* Recalibrate the drive. */ DELAY(5); /* ATA spec XXX NOT */ if (wdcommand(du, 0, 0, 0, 0, WDCC_RESTORE | WD_STEP) != 0 || wdwait(du, WDCS_READY | WDCS_SEEKCMPLT, TIMEOUT) != 0 || wdsetctlr(du) != 0) { wderror((struct buf *)NULL, du, "wddump: recalibrate failed"); return (EIO); } du->dk_flags |= DKFL_SINGLE; addr = (char *) 0; blknum = dumplo + blkoff; while (num > 0) { blkcnt = num; if (blkcnt > MAXTRANSFER) blkcnt = MAXTRANSFER; /* Keep transfer within current cylinder. */ if ((blknum + blkcnt - 1) / secpercyl != blknum / secpercyl) blkcnt = secpercyl - (blknum % secpercyl); blknext = blknum + blkcnt; /* * See if one of the sectors is in the bad sector list * (if we have one). If the first sector is bad, then * reduce the transfer to this one bad sector; if another * sector is bad, then reduce reduce the transfer to * avoid any bad sectors. */ if (du->dk_flags & DKFL_SINGLE && dsgetbad(dev, du->dk_slices) != NULL) { for (blkchk = blknum; blkchk < blknum + blkcnt; blkchk++) { daddr_t blknew; blknew = transbad144(dsgetbad(dev, du->dk_slices), blkchk - ds_offset) + ds_offset; if (blknew != blkchk) { /* Found bad block. */ blkcnt = blkchk - blknum; if (blkcnt > 0) { blknext = blknum + blkcnt; goto out; } blkcnt = 1; blknext = blknum + blkcnt; #if 1 || defined(WDDEBUG) printf("bad block %ld -> %ld\n", (long)blknum, (long)blknew); #endif break; } } } out: /* Compute disk address. */ cylin = blknum / secpercyl; head = (blknum % secpercyl) / secpertrk; sector = blknum % secpertrk; #if 0 /* Let's just talk about this first... */ pg("cylin l%d head %ld sector %ld addr 0x%x count %ld", cylin, head, sector, addr, blkcnt); #endif /* Do the write. */ if (wdcommand(du, cylin, head, sector, blkcnt, WDCC_WRITE) != 0) { wderror((struct buf *)NULL, du, "wddump: timeout waiting to to give command"); return (EIO); } while (blkcnt != 0) { if (is_physical_memory((vm_offset_t)addr)) pmap_enter(kernel_pmap, (vm_offset_t)CADDR1, trunc_page((vm_offset_t)addr), VM_PROT_READ, TRUE); else pmap_enter(kernel_pmap, (vm_offset_t)CADDR1, trunc_page(0), VM_PROT_READ, TRUE); /* Ready to send data? */ DELAY(5); /* ATA spec */ if (wdwait(du, WDCS_READY | WDCS_SEEKCMPLT | WDCS_DRQ, TIMEOUT) < 0) { wderror((struct buf *)NULL, du, "wddump: timeout waiting for DRQ"); return (EIO); } if (du->dk_flags & DKFL_32BIT) outsl(du->dk_port + wd_data, CADDR1 + ((int)addr & PAGE_MASK), DEV_BSIZE / sizeof(long)); else outsw(du->dk_port + wd_data, CADDR1 + ((int)addr & PAGE_MASK), DEV_BSIZE / sizeof(short)); addr += DEV_BSIZE; /* * If we are dumping core, it may take a while. * So reassure the user and hold off any watchdogs. */ if ((unsigned)addr % (1024 * 1024) == 0) { #ifdef HW_WDOG if (wdog_tickler) (*wdog_tickler)(); #endif /* HW_WDOG */ printf("%ld ", num / (1024 * 1024 / DEV_BSIZE)); } num--; blkcnt--; } /* Wait for completion. */ DELAY(5); /* ATA spec XXX NOT */ if (wdwait(du, WDCS_READY | WDCS_SEEKCMPLT, TIMEOUT) < 0) { wderror((struct buf *)NULL, du, "wddump: timeout waiting for status"); return (EIO); } /* Check final status. */ if ((du->dk_status & (WDCS_READY | WDCS_SEEKCMPLT | WDCS_DRQ | WDCS_ERR)) != (WDCS_READY | WDCS_SEEKCMPLT)) { wderror((struct buf *)NULL, du, "wddump: extra DRQ, or error"); return (EIO); } /* Update block count. */ blknum = blknext; /* Operator aborting dump? */ if (cncheckc() != -1) return (EINTR); } return (0); } static void wderror(struct buf *bp, struct disk *du, char *mesg) { if (bp == NULL) printf("wd%d: %s", du->dk_lunit, mesg); else diskerr(bp, "wd", mesg, LOG_PRINTF, du->dk_skip, dsgetlabel(bp->b_dev, du->dk_slices)); printf(" (status %b error %b)\n", du->dk_status, WDCS_BITS, du->dk_error, WDERR_BITS); } /* * Discard any interrupts that were latched by the interrupt system while * we were doing polled i/o. */ static void wdflushirq(struct disk *du, int old_ipl) { wdtab[du->dk_ctrlr_cmd640].b_active = 2; splx(old_ipl); (void)splbio(); wdtab[du->dk_ctrlr_cmd640].b_active = 0; } /* * Reset the controller. */ static int wdreset(struct disk *du) { int err = 0; if ((du->dk_flags & (DKFL_DMA|DKFL_SINGLE)) == DKFL_DMA) wddma[du->dk_interface].wdd_dmadone(du->dk_dmacookie); (void)wdwait(du, 0, TIMEOUT); outb(du->dk_altport, WDCTL_IDS | WDCTL_RST); DELAY(10 * 1000); outb(du->dk_altport, WDCTL_IDS); outb(du->dk_port + wd_sdh, WDSD_IBM | (du->dk_unit << 4)); if (wdwait(du, 0, TIMEOUT) != 0) err = 1; /* no IDE drive found */ du->dk_error = inb(du->dk_port + wd_error); if (du->dk_error != 0x01) err = 1; /* the drive is incompatible */ outb(du->dk_altport, WDCTL_4BIT); return (err); } /* * Sleep until driver is inactive. * This is used only for avoiding rare race conditions, so it is unimportant * that the sleep may be far too short or too long. */ static void wdsleep(int ctrlr, char *wmesg) { int s = splbio(); if (eide_quirks & Q_CMD640B) ctrlr = PRIMARY; while (wdtab[ctrlr].b_active) tsleep((caddr_t)&wdtab[ctrlr].b_active, PZERO - 1, wmesg, 1); splx(s); } static void wdtimeout(void *cdu) { struct disk *du; int x; static int timeouts; du = (struct disk *)cdu; x = splbio(); if (du->dk_timeout != 0 && --du->dk_timeout == 0) { if(timeouts++ <= 5) { char *msg; msg = (timeouts > 5) ? "Last time I say: interrupt timeout. Probably a portable PC." : "interrupt timeout"; wderror((struct buf *)NULL, du, msg); if (du->dk_dmacookie) printf("wd%d: wdtimeout() DMA status %b\n", du->dk_lunit, wddma[du->dk_interface].wdd_dmastatus(du->dk_dmacookie), WDDS_BITS); } wdunwedge(du); wdflushirq(du, x); du->dk_skip = 0; du->dk_flags |= DKFL_SINGLE; wdstart(du->dk_ctrlr); } timeout(wdtimeout, cdu, hz); splx(x); } /* * Reset the controller after it has become wedged. This is different from * wdreset() so that wdreset() can be used in the probe and so that this * can restore the geometry . */ static int wdunwedge(struct disk *du) { struct disk *du1; int lunit; /* Schedule other drives for recalibration. */ for (lunit = 0; lunit < NWD; lunit++) if ((du1 = wddrives[lunit]) != NULL && du1 != du && du1->dk_ctrlr == du->dk_ctrlr && du1->dk_state > WANTOPEN) du1->dk_state = WANTOPEN; DELAY(RECOVERYTIME); if (wdreset(du) == 0) { /* * XXX - recalibrate current drive now because some callers * aren't prepared to have its state change. */ if (wdcommand(du, 0, 0, 0, 0, WDCC_RESTORE | WD_STEP) == 0 && wdwait(du, WDCS_READY | WDCS_SEEKCMPLT, TIMEOUT) == 0 && wdsetctlr(du) == 0) return (0); } wderror((struct buf *)NULL, du, "wdunwedge failed"); return (1); } /* * Wait uninterruptibly until controller is not busy and either certain * status bits are set or an error has occurred. * The wait is usually short unless it is for the controller to process * an entire critical command. * Return 1 for (possibly stale) controller errors, -1 for timeout errors, * or 0 for no errors. * Return controller status in du->dk_status and, if there was a controller * error, return the error code in du->dk_error. */ #ifdef WD_COUNT_RETRIES static int min_retries[NWDC]; #endif static int wdwait(struct disk *du, u_char bits_wanted, int timeout) { int wdc; u_char status; #define POLLING 1000 wdc = du->dk_port; timeout += POLLING; /* * This delay is really too long, but does not impact the performance * as much when using the multi-sector option. Shorter delays have * caused I/O errors on some drives and system configs. This should * probably be fixed if we develop a better short term delay mechanism. */ DELAY(1); do { #ifdef WD_COUNT_RETRIES if (min_retries[du->dk_ctrlr] > timeout || min_retries[du->dk_ctrlr] == 0) min_retries[du->dk_ctrlr] = timeout; #endif du->dk_status = status = inb(wdc + wd_status); /* * Atapi drives have a very interesting feature, when attached * as a slave on the IDE bus, and there is no master. * They release the bus after getting the command. * We should reselect the drive here to get the status. */ if (status == 0xff) { outb(wdc + wd_sdh, WDSD_IBM | du->dk_unit << 4); du->dk_status = status = inb(wdc + wd_status); } if (!(status & WDCS_BUSY)) { if (status & WDCS_ERR) { du->dk_error = inb(wdc + wd_error); /* * We once returned here. This is wrong * because the error bit is apparently only * valid after the controller has interrupted * (e.g., the error bit is stale when we wait * for DRQ for writes). So we can't depend * on the error bit at all when polling for * command completion. */ } if ((status & bits_wanted) == bits_wanted) { return (status & WDCS_ERR); } } if (timeout < TIMEOUT) /* * Switch to a polling rate of about 1 KHz so that * the timeout is almost machine-independent. The * controller is taking a long time to respond, so * an extra msec won't matter. */ DELAY(1000); else DELAY(1); } while (--timeout != 0); return (-1); } static void wd_drvinit(void *unused) { if (wd_cdevsw.d_maxio == 0) wd_cdevsw.d_maxio = 248 * 512; cdevsw_add(&wd_cdevsw); } SYSINIT(wddev,SI_SUB_DRIVERS,SI_ORDER_MIDDLE+CDEV_MAJOR,wd_drvinit,NULL) #endif /* NWDC > 0 */