xy.c revision 1.25.2.4
1 1.25.2.4 he /* $NetBSD: xy.c,v 1.25.2.4 2001/05/15 21:08:14 he Exp $ */ 2 1.1 pk 3 1.1 pk /* 4 1.1 pk * 5 1.1 pk * Copyright (c) 1995 Charles D. Cranor 6 1.1 pk * All rights reserved. 7 1.1 pk * 8 1.1 pk * Redistribution and use in source and binary forms, with or without 9 1.1 pk * modification, are permitted provided that the following conditions 10 1.1 pk * are met: 11 1.1 pk * 1. Redistributions of source code must retain the above copyright 12 1.1 pk * notice, this list of conditions and the following disclaimer. 13 1.1 pk * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 pk * notice, this list of conditions and the following disclaimer in the 15 1.1 pk * documentation and/or other materials provided with the distribution. 16 1.1 pk * 3. All advertising materials mentioning features or use of this software 17 1.1 pk * must display the following acknowledgement: 18 1.1 pk * This product includes software developed by Charles D. Cranor. 19 1.1 pk * 4. The name of the author may not be used to endorse or promote products 20 1.1 pk * derived from this software without specific prior written permission. 21 1.1 pk * 22 1.1 pk * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 23 1.1 pk * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 24 1.1 pk * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 25 1.1 pk * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 26 1.1 pk * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 27 1.1 pk * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 28 1.1 pk * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 29 1.1 pk * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 30 1.1 pk * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 31 1.1 pk * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 32 1.1 pk */ 33 1.1 pk 34 1.1 pk /* 35 1.1 pk * 36 1.1 pk * x y . c x y l o g i c s 4 5 0 / 4 5 1 s m d d r i v e r 37 1.1 pk * 38 1.1 pk * author: Chuck Cranor <chuck (at) ccrc.wustl.edu> 39 1.1 pk * started: 14-Sep-95 40 1.1 pk * references: [1] Xylogics Model 753 User's Manual 41 1.1 pk * part number: 166-753-001, Revision B, May 21, 1988. 42 1.1 pk * "Your Partner For Performance" 43 1.1 pk * [2] other NetBSD disk device drivers 44 1.1 pk * [3] Xylogics Model 450 User's Manual 45 1.1 pk * part number: 166-017-001, Revision B, 1983. 46 1.1 pk * [4] Addendum to Xylogics Model 450 Disk Controller User's 47 1.1 pk * Manual, Jan. 1985. 48 1.1 pk * [5] The 451 Controller, Rev. B3, September 2, 1986. 49 1.1 pk * [6] David Jones <dej (at) achilles.net>'s unfinished 450/451 driver 50 1.1 pk * 51 1.1 pk */ 52 1.1 pk 53 1.1 pk #undef XYC_DEBUG /* full debug */ 54 1.1 pk #undef XYC_DIAG /* extra sanity checks */ 55 1.1 pk #if defined(DIAGNOSTIC) && !defined(XYC_DIAG) 56 1.1 pk #define XYC_DIAG /* link in with master DIAG option */ 57 1.1 pk #endif 58 1.1 pk 59 1.1 pk #include <sys/param.h> 60 1.1 pk #include <sys/proc.h> 61 1.1 pk #include <sys/systm.h> 62 1.1 pk #include <sys/kernel.h> 63 1.1 pk #include <sys/file.h> 64 1.1 pk #include <sys/stat.h> 65 1.1 pk #include <sys/ioctl.h> 66 1.1 pk #include <sys/buf.h> 67 1.1 pk #include <sys/uio.h> 68 1.1 pk #include <sys/malloc.h> 69 1.1 pk #include <sys/device.h> 70 1.1 pk #include <sys/disklabel.h> 71 1.1 pk #include <sys/disk.h> 72 1.1 pk #include <sys/syslog.h> 73 1.1 pk #include <sys/dkbad.h> 74 1.1 pk #include <sys/conf.h> 75 1.1 pk 76 1.1 pk #include <vm/vm.h> 77 1.1 pk #include <vm/vm_kern.h> 78 1.1 pk 79 1.1 pk #include <machine/bus.h> 80 1.12 drochner #include <machine/intr.h> 81 1.9 mrg 82 1.25 chs #if defined(__sparc__) || defined(sun3) 83 1.9 mrg #include <dev/sun/disklabel.h> 84 1.11 pk #endif 85 1.1 pk 86 1.25.2.1 pk #include <dev/vme/vmereg.h> 87 1.1 pk #include <dev/vme/vmevar.h> 88 1.12 drochner 89 1.1 pk #include <dev/vme/xyreg.h> 90 1.1 pk #include <dev/vme/xyvar.h> 91 1.1 pk #include <dev/vme/xio.h> 92 1.1 pk 93 1.1 pk #include "locators.h" 94 1.1 pk 95 1.1 pk /* 96 1.1 pk * macros 97 1.1 pk */ 98 1.1 pk 99 1.1 pk /* 100 1.1 pk * XYC_GO: start iopb ADDR (DVMA addr in a u_long) on XYC 101 1.1 pk */ 102 1.1 pk #define XYC_GO(XYC, ADDR) { \ 103 1.1 pk (XYC)->xyc_addr_lo = ((ADDR) & 0xff); \ 104 1.1 pk (ADDR) = ((ADDR) >> 8); \ 105 1.1 pk (XYC)->xyc_addr_hi = ((ADDR) & 0xff); \ 106 1.1 pk (ADDR) = ((ADDR) >> 8); \ 107 1.1 pk (XYC)->xyc_reloc_lo = ((ADDR) & 0xff); \ 108 1.1 pk (ADDR) = ((ADDR) >> 8); \ 109 1.1 pk (XYC)->xyc_reloc_hi = (ADDR); \ 110 1.1 pk (XYC)->xyc_csr = XYC_GBSY; /* go! */ \ 111 1.1 pk } 112 1.1 pk 113 1.1 pk /* 114 1.1 pk * XYC_DONE: don't need IORQ, get error code and free (done after xyc_cmd) 115 1.1 pk */ 116 1.1 pk 117 1.1 pk #define XYC_DONE(SC,ER) { \ 118 1.1 pk if ((ER) == XY_ERR_AOK) { \ 119 1.1 pk (ER) = (SC)->ciorq->errno; \ 120 1.1 pk (SC)->ciorq->mode = XY_SUB_FREE; \ 121 1.1 pk wakeup((SC)->ciorq); \ 122 1.1 pk } \ 123 1.1 pk } 124 1.1 pk 125 1.1 pk /* 126 1.1 pk * XYC_ADVANCE: advance iorq's pointers by a number of sectors 127 1.1 pk */ 128 1.1 pk 129 1.1 pk #define XYC_ADVANCE(IORQ, N) { \ 130 1.1 pk if (N) { \ 131 1.1 pk (IORQ)->sectcnt -= (N); \ 132 1.1 pk (IORQ)->blockno += (N); \ 133 1.1 pk (IORQ)->dbuf += ((N)*XYFM_BPS); \ 134 1.1 pk } \ 135 1.1 pk } 136 1.1 pk 137 1.1 pk /* 138 1.1 pk * note - addresses you can sleep on: 139 1.1 pk * [1] & of xy_softc's "state" (waiting for a chance to attach a drive) 140 1.1 pk * [2] & an iorq (waiting for an XY_SUB_WAIT iorq to finish) 141 1.1 pk */ 142 1.1 pk 143 1.1 pk 144 1.1 pk /* 145 1.1 pk * function prototypes 146 1.1 pk * "xyc_*" functions are internal, all others are external interfaces 147 1.1 pk */ 148 1.1 pk 149 1.1 pk extern int pil_to_vme[]; /* from obio.c */ 150 1.1 pk 151 1.1 pk /* internals */ 152 1.1 pk struct xy_iopb *xyc_chain __P((struct xyc_softc *, struct xy_iorq *)); 153 1.1 pk int xyc_cmd __P((struct xyc_softc *, int, int, int, int, int, char *, int)); 154 1.1 pk char *xyc_e2str __P((int)); 155 1.1 pk int xyc_entoact __P((int)); 156 1.1 pk int xyc_error __P((struct xyc_softc *, struct xy_iorq *, 157 1.1 pk struct xy_iopb *, int)); 158 1.1 pk int xyc_ioctlcmd __P((struct xy_softc *, dev_t dev, struct xd_iocmd *)); 159 1.1 pk void xyc_perror __P((struct xy_iorq *, struct xy_iopb *, int)); 160 1.1 pk int xyc_piodriver __P((struct xyc_softc *, struct xy_iorq *)); 161 1.1 pk int xyc_remove_iorq __P((struct xyc_softc *)); 162 1.1 pk int xyc_reset __P((struct xyc_softc *, int, struct xy_iorq *, int, 163 1.1 pk struct xy_softc *)); 164 1.1 pk inline void xyc_rqinit __P((struct xy_iorq *, struct xyc_softc *, 165 1.1 pk struct xy_softc *, int, u_long, int, 166 1.1 pk caddr_t, struct buf *)); 167 1.1 pk void xyc_rqtopb __P((struct xy_iorq *, struct xy_iopb *, int, int)); 168 1.1 pk void xyc_start __P((struct xyc_softc *, struct xy_iorq *)); 169 1.1 pk int xyc_startbuf __P((struct xyc_softc *, struct xy_softc *, struct buf *)); 170 1.1 pk int xyc_submit_iorq __P((struct xyc_softc *, struct xy_iorq *, int)); 171 1.1 pk void xyc_tick __P((void *)); 172 1.1 pk int xyc_unbusy __P((struct xyc *, int)); 173 1.1 pk void xyc_xyreset __P((struct xyc_softc *, struct xy_softc *)); 174 1.19 pk int xy_dmamem_alloc(bus_dma_tag_t, bus_dmamap_t, bus_dma_segment_t *, 175 1.19 pk int *, bus_size_t, caddr_t *, bus_addr_t *); 176 1.19 pk void xy_dmamem_free(bus_dma_tag_t, bus_dmamap_t, bus_dma_segment_t *, 177 1.19 pk int, bus_size_t, caddr_t); 178 1.1 pk 179 1.1 pk /* machine interrupt hook */ 180 1.1 pk int xycintr __P((void *)); 181 1.1 pk 182 1.1 pk /* autoconf */ 183 1.1 pk int xycmatch __P((struct device *, struct cfdata *, void *)); 184 1.1 pk void xycattach __P((struct device *, struct device *, void *)); 185 1.1 pk int xymatch __P((struct device *, struct cfdata *, void *)); 186 1.1 pk void xyattach __P((struct device *, struct device *, void *)); 187 1.12 drochner static int xyc_probe __P((void *, bus_space_tag_t, bus_space_handle_t)); 188 1.1 pk 189 1.1 pk static void xydummystrat __P((struct buf *)); 190 1.1 pk int xygetdisklabel __P((struct xy_softc *, void *)); 191 1.1 pk 192 1.12 drochner bdev_decl(xy); 193 1.12 drochner cdev_decl(xy); 194 1.12 drochner 195 1.1 pk /* 196 1.3 thorpej * cfattach's: device driver interface to autoconfig 197 1.1 pk */ 198 1.1 pk 199 1.1 pk struct cfattach xyc_ca = { 200 1.1 pk sizeof(struct xyc_softc), xycmatch, xycattach 201 1.1 pk }; 202 1.1 pk 203 1.1 pk struct cfattach xy_ca = { 204 1.1 pk sizeof(struct xy_softc), xymatch, xyattach 205 1.1 pk }; 206 1.1 pk 207 1.3 thorpej extern struct cfdriver xy_cd; 208 1.1 pk 209 1.1 pk struct xyc_attach_args { /* this is the "aux" args to xyattach */ 210 1.1 pk int driveno; /* unit number */ 211 1.1 pk int fullmode; /* submit mode */ 212 1.1 pk int booting; /* are we booting or not? */ 213 1.1 pk }; 214 1.1 pk 215 1.1 pk /* 216 1.1 pk * dkdriver 217 1.1 pk */ 218 1.1 pk 219 1.1 pk struct dkdriver xydkdriver = { xystrategy }; 220 1.1 pk 221 1.1 pk /* 222 1.1 pk * start: disk label fix code (XXX) 223 1.1 pk */ 224 1.1 pk 225 1.1 pk static void *xy_labeldata; 226 1.1 pk 227 1.1 pk static void 228 1.1 pk xydummystrat(bp) 229 1.1 pk struct buf *bp; 230 1.1 pk { 231 1.1 pk if (bp->b_bcount != XYFM_BPS) 232 1.1 pk panic("xydummystrat"); 233 1.22 thorpej bcopy(xy_labeldata, bp->b_data, XYFM_BPS); 234 1.1 pk bp->b_flags |= B_DONE; 235 1.1 pk bp->b_flags &= ~B_BUSY; 236 1.1 pk } 237 1.1 pk 238 1.1 pk int 239 1.1 pk xygetdisklabel(xy, b) 240 1.1 pk struct xy_softc *xy; 241 1.1 pk void *b; 242 1.1 pk { 243 1.1 pk char *err; 244 1.25 chs #if defined(__sparc__) || defined(sun3) 245 1.1 pk struct sun_disklabel *sdl; 246 1.11 pk #endif 247 1.1 pk 248 1.1 pk /* We already have the label data in `b'; setup for dummy strategy */ 249 1.1 pk xy_labeldata = b; 250 1.1 pk 251 1.1 pk /* Required parameter for readdisklabel() */ 252 1.1 pk xy->sc_dk.dk_label->d_secsize = XYFM_BPS; 253 1.1 pk 254 1.1 pk err = readdisklabel(MAKEDISKDEV(0, xy->sc_dev.dv_unit, RAW_PART), 255 1.1 pk xydummystrat, 256 1.1 pk xy->sc_dk.dk_label, xy->sc_dk.dk_cpulabel); 257 1.1 pk if (err) { 258 1.1 pk printf("%s: %s\n", xy->sc_dev.dv_xname, err); 259 1.1 pk return(XY_ERR_FAIL); 260 1.1 pk } 261 1.1 pk 262 1.25 chs #if defined(__sparc__) || defined(sun3) 263 1.1 pk /* Ok, we have the label; fill in `pcyl' if there's SunOS magic */ 264 1.1 pk sdl = (struct sun_disklabel *)xy->sc_dk.dk_cpulabel->cd_block; 265 1.11 pk if (sdl->sl_magic == SUN_DKMAGIC) { 266 1.1 pk xy->pcyl = sdl->sl_pcylinders; 267 1.11 pk } else 268 1.14 drochner #endif 269 1.11 pk { 270 1.1 pk printf("%s: WARNING: no `pcyl' in disk label.\n", 271 1.1 pk xy->sc_dev.dv_xname); 272 1.1 pk xy->pcyl = xy->sc_dk.dk_label->d_ncylinders + 273 1.1 pk xy->sc_dk.dk_label->d_acylinders; 274 1.1 pk printf("%s: WARNING: guessing pcyl=%d (ncyl+acyl)\n", 275 1.1 pk xy->sc_dev.dv_xname, xy->pcyl); 276 1.1 pk } 277 1.1 pk 278 1.1 pk xy->ncyl = xy->sc_dk.dk_label->d_ncylinders; 279 1.1 pk xy->acyl = xy->sc_dk.dk_label->d_acylinders; 280 1.1 pk xy->nhead = xy->sc_dk.dk_label->d_ntracks; 281 1.1 pk xy->nsect = xy->sc_dk.dk_label->d_nsectors; 282 1.1 pk xy->sectpercyl = xy->nhead * xy->nsect; 283 1.1 pk xy->sc_dk.dk_label->d_secsize = XYFM_BPS; /* not handled by 284 1.1 pk * sun->bsd */ 285 1.1 pk return(XY_ERR_AOK); 286 1.1 pk } 287 1.1 pk 288 1.1 pk /* 289 1.1 pk * end: disk label fix code (XXX) 290 1.1 pk */ 291 1.1 pk 292 1.1 pk /* 293 1.19 pk * Shorthand for allocating, mapping and loading a DMA buffer 294 1.19 pk */ 295 1.19 pk int 296 1.19 pk xy_dmamem_alloc(tag, map, seg, nsegp, len, kvap, dmap) 297 1.19 pk bus_dma_tag_t tag; 298 1.19 pk bus_dmamap_t map; 299 1.19 pk bus_dma_segment_t *seg; 300 1.19 pk int *nsegp; 301 1.19 pk bus_size_t len; 302 1.19 pk caddr_t *kvap; 303 1.19 pk bus_addr_t *dmap; 304 1.19 pk { 305 1.19 pk int nseg; 306 1.19 pk int error; 307 1.19 pk 308 1.20 pk if ((error = bus_dmamem_alloc(tag, len, 0, 0, 309 1.19 pk seg, 1, &nseg, BUS_DMA_NOWAIT)) != 0) { 310 1.19 pk return (error); 311 1.19 pk } 312 1.19 pk 313 1.19 pk if ((error = bus_dmamap_load_raw(tag, map, 314 1.19 pk seg, nseg, len, BUS_DMA_NOWAIT)) != 0) { 315 1.19 pk bus_dmamem_free(tag, seg, nseg); 316 1.19 pk return (error); 317 1.19 pk } 318 1.19 pk 319 1.19 pk if ((error = bus_dmamem_map(tag, seg, nseg, 320 1.19 pk len, kvap, 321 1.19 pk BUS_DMA_NOWAIT|BUS_DMA_COHERENT)) != 0) { 322 1.19 pk bus_dmamap_unload(tag, map); 323 1.19 pk bus_dmamem_free(tag, seg, nseg); 324 1.19 pk return (error); 325 1.19 pk } 326 1.19 pk 327 1.19 pk *dmap = map->dm_segs[0].ds_addr; 328 1.19 pk *nsegp = nseg; 329 1.19 pk return (0); 330 1.19 pk } 331 1.19 pk 332 1.19 pk void 333 1.19 pk xy_dmamem_free(tag, map, seg, nseg, len, kva) 334 1.19 pk bus_dma_tag_t tag; 335 1.19 pk bus_dmamap_t map; 336 1.19 pk bus_dma_segment_t *seg; 337 1.19 pk int nseg; 338 1.19 pk bus_size_t len; 339 1.19 pk caddr_t kva; 340 1.19 pk { 341 1.19 pk 342 1.19 pk bus_dmamap_unload(tag, map); 343 1.19 pk bus_dmamem_unmap(tag, kva, len); 344 1.19 pk bus_dmamem_free(tag, seg, nseg); 345 1.19 pk } 346 1.19 pk 347 1.19 pk 348 1.19 pk /* 349 1.1 pk * a u t o c o n f i g f u n c t i o n s 350 1.1 pk */ 351 1.1 pk 352 1.1 pk /* 353 1.1 pk * xycmatch: determine if xyc is present or not. we do a 354 1.1 pk * soft reset to detect the xyc. 355 1.1 pk */ 356 1.6 pk int 357 1.12 drochner xyc_probe(arg, tag, handle) 358 1.6 pk void *arg; 359 1.12 drochner bus_space_tag_t tag; 360 1.12 drochner bus_space_handle_t handle; 361 1.6 pk { 362 1.12 drochner struct xyc *xyc = (void *)handle; /* XXX */ 363 1.6 pk 364 1.12 drochner return ((xyc_unbusy(xyc, XYC_RESETUSEC) != XY_ERR_FAIL) ? 0 : EIO); 365 1.6 pk } 366 1.1 pk 367 1.1 pk int xycmatch(parent, cf, aux) 368 1.1 pk struct device *parent; 369 1.1 pk struct cfdata *cf; 370 1.1 pk void *aux; 371 1.1 pk { 372 1.1 pk struct vme_attach_args *va = aux; 373 1.12 drochner vme_chipset_tag_t ct = va->va_vct; 374 1.12 drochner vme_am_t mod; 375 1.12 drochner int error; 376 1.12 drochner 377 1.25.2.1 pk mod = VME_AM_A16 | VME_AM_MBO | VME_AM_SUPER | VME_AM_DATA; 378 1.25.2.1 pk if (vme_space_alloc(ct, va->r[0].offset, sizeof(struct xyc), mod)) 379 1.12 drochner return (0); 380 1.25.2.1 pk 381 1.12 drochner error = vme_probe(ct, va->r[0].offset, sizeof(struct xyc), 382 1.25.2.1 pk mod, VME_D16, xyc_probe, 0); 383 1.12 drochner vme_space_free(va->va_vct, va->r[0].offset, sizeof(struct xyc), mod); 384 1.12 drochner 385 1.12 drochner return (error == 0); 386 1.1 pk } 387 1.1 pk 388 1.1 pk /* 389 1.1 pk * xycattach: attach controller 390 1.1 pk */ 391 1.1 pk void 392 1.1 pk xycattach(parent, self, aux) 393 1.1 pk struct device *parent, *self; 394 1.1 pk void *aux; 395 1.1 pk 396 1.1 pk { 397 1.25.2.1 pk struct xyc_softc *xyc = (void *) self; 398 1.1 pk struct vme_attach_args *va = aux; 399 1.12 drochner vme_chipset_tag_t ct = va->va_vct; 400 1.12 drochner bus_space_tag_t bt; 401 1.1 pk bus_space_handle_t bh; 402 1.1 pk vme_intr_handle_t ih; 403 1.12 drochner vme_am_t mod; 404 1.1 pk struct xyc_attach_args xa; 405 1.19 pk int lcv, res, error; 406 1.2 pk bus_dma_segment_t seg; 407 1.2 pk int rseg; 408 1.12 drochner vme_mapresc_t resc; 409 1.1 pk 410 1.1 pk /* get addressing and intr level stuff from autoconfig and load it 411 1.1 pk * into our xyc_softc. */ 412 1.1 pk 413 1.25.2.1 pk mod = VME_AM_A16 | VME_AM_MBO | VME_AM_SUPER | VME_AM_DATA; 414 1.1 pk 415 1.25.2.1 pk if (vme_space_alloc(ct, va->r[0].offset, sizeof(struct xyc), mod)) 416 1.12 drochner panic("xyc: vme alloc"); 417 1.25.2.1 pk 418 1.12 drochner if (vme_space_map(ct, va->r[0].offset, sizeof(struct xyc), 419 1.25.2.1 pk mod, VME_D16, 0, &bt, &bh, &resc) != 0) 420 1.1 pk panic("xyc: vme_map"); 421 1.1 pk 422 1.12 drochner xyc->xyc = (struct xyc *) bh; /* XXX */ 423 1.12 drochner xyc->ipl = va->ilevel; 424 1.12 drochner xyc->vector = va->ivector; 425 1.1 pk xyc->no_ols = 0; /* XXX should be from config */ 426 1.1 pk 427 1.1 pk for (lcv = 0; lcv < XYC_MAXDEV; lcv++) 428 1.1 pk xyc->sc_drives[lcv] = (struct xy_softc *) 0; 429 1.1 pk 430 1.1 pk /* 431 1.1 pk * allocate and zero buffers 432 1.1 pk * check boundaries of the KVA's ... all IOPBs must reside in 433 1.1 pk * the same 64K region. 434 1.1 pk */ 435 1.1 pk 436 1.19 pk /* Get DMA handle for misc. transfers */ 437 1.25.2.1 pk if ((error = vme_dmamap_create( 438 1.25.2.1 pk ct, /* VME chip tag */ 439 1.25.2.1 pk MAXPHYS, /* size */ 440 1.25.2.1 pk VME_AM_A24, /* address modifier */ 441 1.25.2.1 pk VME_D16, /* data size */ 442 1.25.2.1 pk 0, /* swap */ 443 1.19 pk 1, /* nsegments */ 444 1.25.2.1 pk MAXPHYS, /* maxsegsz */ 445 1.19 pk 0, /* boundary */ 446 1.19 pk BUS_DMA_NOWAIT, 447 1.25.2.1 pk &xyc->reqs[lcv].dmamap)) != 0) { 448 1.25.2.1 pk 449 1.19 pk printf("%s: DMA buffer map create error %d\n", 450 1.19 pk xyc->sc_dev.dv_xname, error); 451 1.19 pk return; 452 1.19 pk } 453 1.2 pk 454 1.19 pk /* Get DMA handle for mapping iorq descriptors */ 455 1.25.2.1 pk if ((error = vme_dmamap_create( 456 1.25.2.1 pk ct, /* VME chip tag */ 457 1.19 pk XYC_MAXIOPB * sizeof(struct xy_iopb), 458 1.25.2.1 pk VME_AM_A24, /* address modifier */ 459 1.25.2.1 pk VME_D16, /* data size */ 460 1.25.2.1 pk 0, /* swap */ 461 1.19 pk 1, /* nsegments */ 462 1.19 pk XYC_MAXIOPB * sizeof(struct xy_iopb), 463 1.19 pk 64*1024, /* boundary */ 464 1.19 pk BUS_DMA_NOWAIT, 465 1.19 pk &xyc->iopmap)) != 0) { 466 1.25.2.1 pk 467 1.19 pk printf("%s: DMA buffer map create error %d\n", 468 1.2 pk xyc->sc_dev.dv_xname, error); 469 1.2 pk return; 470 1.2 pk } 471 1.2 pk 472 1.19 pk /* Get DMA buffer for iorq descriptors */ 473 1.19 pk if ((error = xy_dmamem_alloc(xyc->dmatag, xyc->iopmap, &seg, &rseg, 474 1.19 pk XYC_MAXIOPB * sizeof(struct xy_iopb), 475 1.19 pk (caddr_t *)&xyc->iopbase, 476 1.19 pk (bus_addr_t *)&xyc->dvmaiopb)) != 0) { 477 1.19 pk printf("%s: DMA buffer alloc error %d\n", 478 1.2 pk xyc->sc_dev.dv_xname, error); 479 1.2 pk return; 480 1.1 pk } 481 1.19 pk 482 1.19 pk bzero(xyc->iopbase, XYC_MAXIOPB * sizeof(struct xy_iopb)); 483 1.2 pk 484 1.1 pk xyc->reqs = (struct xy_iorq *) 485 1.1 pk malloc(XYC_MAXIOPB * sizeof(struct xy_iorq), M_DEVBUF, M_NOWAIT); 486 1.1 pk if (xyc->reqs == NULL) 487 1.1 pk panic("xyc malloc"); 488 1.1 pk bzero(xyc->reqs, XYC_MAXIOPB * sizeof(struct xy_iorq)); 489 1.1 pk 490 1.1 pk /* 491 1.1 pk * init iorq to iopb pointers, and non-zero fields in the 492 1.1 pk * iopb which never change. 493 1.1 pk */ 494 1.1 pk 495 1.1 pk for (lcv = 0; lcv < XYC_MAXIOPB; lcv++) { 496 1.1 pk xyc->xy_chain[lcv] = NULL; 497 1.1 pk xyc->reqs[lcv].iopb = &xyc->iopbase[lcv]; 498 1.10 pk xyc->reqs[lcv].dmaiopb = &xyc->dvmaiopb[lcv]; 499 1.1 pk xyc->iopbase[lcv].asr = 1; /* always the same */ 500 1.1 pk xyc->iopbase[lcv].eef = 1; /* always the same */ 501 1.1 pk xyc->iopbase[lcv].ecm = XY_ECM; /* always the same */ 502 1.1 pk xyc->iopbase[lcv].aud = 1; /* always the same */ 503 1.1 pk xyc->iopbase[lcv].relo = 1; /* always the same */ 504 1.1 pk xyc->iopbase[lcv].thro = XY_THRO;/* always the same */ 505 1.2 pk 506 1.25.2.1 pk if ((error = vme_dmamap_create( 507 1.25.2.1 pk ct, /* VME chip tag */ 508 1.2 pk MAXPHYS, /* size */ 509 1.25.2.1 pk VME_AM_A24, /* address modifier */ 510 1.25.2.1 pk VME_D16, /* data size */ 511 1.25.2.1 pk 0, /* swap */ 512 1.2 pk 1, /* nsegments */ 513 1.2 pk MAXPHYS, /* maxsegsz */ 514 1.2 pk 0, /* boundary */ 515 1.2 pk BUS_DMA_NOWAIT, 516 1.25.2.1 pk &xyc->reqs[lcv].dmamap)) != 0) { 517 1.25.2.1 pk 518 1.2 pk printf("%s: DMA buffer map create error %d\n", 519 1.2 pk xyc->sc_dev.dv_xname, error); 520 1.2 pk return; 521 1.2 pk } 522 1.1 pk } 523 1.1 pk xyc->ciorq = &xyc->reqs[XYC_CTLIOPB]; /* short hand name */ 524 1.1 pk xyc->ciopb = &xyc->iopbase[XYC_CTLIOPB]; /* short hand name */ 525 1.1 pk xyc->xy_hand = 0; 526 1.1 pk 527 1.1 pk /* read controller parameters and insure we have a 450/451 */ 528 1.1 pk 529 1.2 pk error = xyc_cmd(xyc, XYCMD_ST, 0, 0, 0, 0, 0, XY_SUB_POLL); 530 1.1 pk res = xyc->ciopb->ctyp; 531 1.2 pk XYC_DONE(xyc, error); 532 1.1 pk if (res != XYCT_450) { 533 1.2 pk if (error) 534 1.2 pk printf(": %s: ", xyc_e2str(error)); 535 1.1 pk printf(": doesn't identify as a 450/451\n"); 536 1.1 pk return; 537 1.1 pk } 538 1.1 pk printf(": Xylogics 450/451"); 539 1.1 pk if (xyc->no_ols) 540 1.1 pk printf(" [OLS disabled]"); /* 450 doesn't overlap seek right */ 541 1.1 pk printf("\n"); 542 1.2 pk if (error) { 543 1.1 pk printf("%s: error: %s\n", xyc->sc_dev.dv_xname, 544 1.2 pk xyc_e2str(error)); 545 1.1 pk return; 546 1.1 pk } 547 1.1 pk if ((xyc->xyc->xyc_csr & XYC_ADRM) == 0) { 548 1.1 pk printf("%s: 24 bit addressing turned off\n", 549 1.1 pk xyc->sc_dev.dv_xname); 550 1.1 pk printf("please set hardware jumpers JM1-JM2=in, JM3-JM4=out\n"); 551 1.1 pk printf("to enable 24 bit mode and this driver\n"); 552 1.1 pk return; 553 1.1 pk } 554 1.1 pk 555 1.1 pk /* link in interrupt with higher level software */ 556 1.25.2.2 pk vme_intr_map(ct, va->ilevel, va->ivector, &ih); 557 1.12 drochner vme_intr_establish(ct, ih, IPL_BIO, xycintr, xyc); 558 1.24 cgd evcnt_attach_dynamic(&xyc->sc_intrcnt, EVCNT_TYPE_INTR, NULL, 559 1.24 cgd xyc->sc_dev.dv_xname, "intr"); 560 1.1 pk 561 1.17 thorpej callout_init(&xyc->sc_tick_ch); 562 1.1 pk 563 1.1 pk /* now we must look for disks using autoconfig */ 564 1.1 pk xa.fullmode = XY_SUB_POLL; 565 1.1 pk xa.booting = 1; 566 1.1 pk 567 1.1 pk for (xa.driveno = 0; xa.driveno < XYC_MAXDEV; xa.driveno++) 568 1.1 pk (void) config_found(self, (void *) &xa, NULL); 569 1.1 pk 570 1.1 pk /* start the watchdog clock */ 571 1.17 thorpej callout_reset(&xyc->sc_tick_ch, XYC_TICKCNT, xyc_tick, xyc); 572 1.1 pk 573 1.1 pk } 574 1.1 pk 575 1.1 pk /* 576 1.1 pk * xymatch: probe for disk. 577 1.1 pk * 578 1.1 pk * note: we almost always say disk is present. this allows us to 579 1.1 pk * spin up and configure a disk after the system is booted (we can 580 1.1 pk * call xyattach!). 581 1.1 pk */ 582 1.1 pk int 583 1.1 pk xymatch(parent, cf, aux) 584 1.1 pk struct device *parent; 585 1.1 pk struct cfdata *cf; 586 1.1 pk void *aux; 587 1.1 pk { 588 1.1 pk struct xyc_attach_args *xa = aux; 589 1.1 pk 590 1.1 pk /* looking for autoconf wildcard or exact match */ 591 1.1 pk 592 1.1 pk if (cf->cf_loc[XYCCF_DRIVE] != XYCCF_DRIVE_DEFAULT && 593 1.1 pk cf->cf_loc[XYCCF_DRIVE] != xa->driveno) 594 1.1 pk return 0; 595 1.1 pk 596 1.1 pk return 1; 597 1.1 pk 598 1.1 pk } 599 1.1 pk 600 1.1 pk /* 601 1.1 pk * xyattach: attach a disk. this can be called from autoconf and also 602 1.1 pk * from xyopen/xystrategy. 603 1.1 pk */ 604 1.1 pk void 605 1.1 pk xyattach(parent, self, aux) 606 1.1 pk struct device *parent, *self; 607 1.1 pk void *aux; 608 1.1 pk 609 1.1 pk { 610 1.1 pk struct xy_softc *xy = (void *) self, *oxy; 611 1.1 pk struct xyc_softc *xyc = (void *) parent; 612 1.1 pk struct xyc_attach_args *xa = aux; 613 1.2 pk int spt, mb, blk, lcv, fmode, s = 0, newstate; 614 1.1 pk struct dkbad *dkb; 615 1.2 pk int rseg, error; 616 1.2 pk bus_dma_segment_t seg; 617 1.2 pk caddr_t dmaddr; 618 1.2 pk caddr_t buf; 619 1.1 pk 620 1.1 pk /* 621 1.1 pk * Always re-initialize the disk structure. We want statistics 622 1.1 pk * to start with a clean slate. 623 1.1 pk */ 624 1.1 pk bzero(&xy->sc_dk, sizeof(xy->sc_dk)); 625 1.1 pk xy->sc_dk.dk_driver = &xydkdriver; 626 1.1 pk xy->sc_dk.dk_name = xy->sc_dev.dv_xname; 627 1.1 pk 628 1.1 pk /* if booting, init the xy_softc */ 629 1.1 pk 630 1.1 pk if (xa->booting) { 631 1.1 pk xy->state = XY_DRIVE_UNKNOWN; /* to start */ 632 1.1 pk xy->flags = 0; 633 1.1 pk xy->parent = xyc; 634 1.1 pk 635 1.1 pk /* init queue of waiting bufs */ 636 1.1 pk 637 1.15 thorpej BUFQ_INIT(&xy->xyq); 638 1.1 pk 639 1.1 pk xy->xyrq = &xyc->reqs[xa->driveno]; 640 1.1 pk 641 1.1 pk } 642 1.1 pk xy->xy_drive = xa->driveno; 643 1.1 pk fmode = xa->fullmode; 644 1.1 pk xyc->sc_drives[xa->driveno] = xy; 645 1.1 pk 646 1.1 pk /* if not booting, make sure we are the only process in the attach for 647 1.1 pk * this drive. if locked out, sleep on it. */ 648 1.1 pk 649 1.1 pk if (!xa->booting) { 650 1.1 pk s = splbio(); 651 1.1 pk while (xy->state == XY_DRIVE_ATTACHING) { 652 1.1 pk if (tsleep(&xy->state, PRIBIO, "xyattach", 0)) { 653 1.1 pk splx(s); 654 1.1 pk return; 655 1.1 pk } 656 1.1 pk } 657 1.1 pk printf("%s at %s", 658 1.1 pk xy->sc_dev.dv_xname, xy->parent->sc_dev.dv_xname); 659 1.1 pk } 660 1.2 pk 661 1.1 pk /* we now have control */ 662 1.1 pk xy->state = XY_DRIVE_ATTACHING; 663 1.1 pk newstate = XY_DRIVE_UNKNOWN; 664 1.1 pk 665 1.2 pk buf = NULL; 666 1.19 pk if ((error = xy_dmamem_alloc(xyc->dmatag, xyc->auxmap, &seg, &rseg, 667 1.19 pk XYFM_BPS, 668 1.19 pk (caddr_t *)&buf, 669 1.19 pk (bus_addr_t *)&dmaddr)) != 0) { 670 1.2 pk printf("%s: DMA buffer alloc error %d\n", 671 1.19 pk xyc->sc_dev.dv_xname, error); 672 1.19 pk return; 673 1.2 pk } 674 1.2 pk 675 1.1 pk /* first try and reset the drive */ 676 1.2 pk error = xyc_cmd(xyc, XYCMD_RST, 0, xy->xy_drive, 0, 0, 0, fmode); 677 1.2 pk XYC_DONE(xyc, error); 678 1.2 pk if (error == XY_ERR_DNRY) { 679 1.1 pk printf(" drive %d: off-line\n", xa->driveno); 680 1.1 pk goto done; 681 1.1 pk } 682 1.2 pk if (error) { 683 1.2 pk printf(": ERROR 0x%02x (%s)\n", error, xyc_e2str(error)); 684 1.1 pk goto done; 685 1.1 pk } 686 1.1 pk printf(" drive %d: ready", xa->driveno); 687 1.1 pk 688 1.1 pk /* 689 1.1 pk * now set drive parameters (to semi-bogus values) so we can read the 690 1.1 pk * disk label. 691 1.1 pk */ 692 1.1 pk xy->pcyl = xy->ncyl = 1; 693 1.1 pk xy->acyl = 0; 694 1.1 pk xy->nhead = 1; 695 1.1 pk xy->nsect = 1; 696 1.1 pk xy->sectpercyl = 1; 697 1.1 pk for (lcv = 0; lcv < 126; lcv++) /* init empty bad144 table */ 698 1.1 pk xy->dkb.bt_bad[lcv].bt_cyl = 699 1.1 pk xy->dkb.bt_bad[lcv].bt_trksec = 0xffff; 700 1.1 pk 701 1.1 pk /* read disk label */ 702 1.1 pk for (xy->drive_type = 0 ; xy->drive_type <= XYC_MAXDT ; 703 1.1 pk xy->drive_type++) { 704 1.2 pk error = xyc_cmd(xyc, XYCMD_RD, 0, xy->xy_drive, 0, 1, 705 1.2 pk dmaddr, fmode); 706 1.2 pk XYC_DONE(xyc, error); 707 1.2 pk if (error == XY_ERR_AOK) break; 708 1.1 pk } 709 1.1 pk 710 1.2 pk if (error != XY_ERR_AOK) { 711 1.1 pk printf("\n%s: reading disk label failed: %s\n", 712 1.2 pk xy->sc_dev.dv_xname, xyc_e2str(error)); 713 1.1 pk goto done; 714 1.1 pk } 715 1.1 pk printf(" (drive type %d)\n", xy->drive_type); 716 1.1 pk 717 1.1 pk newstate = XY_DRIVE_NOLABEL; 718 1.1 pk 719 1.1 pk xy->hw_spt = spt = 0; /* XXX needed ? */ 720 1.1 pk /* Attach the disk: must be before getdisklabel to malloc label */ 721 1.1 pk disk_attach(&xy->sc_dk); 722 1.1 pk 723 1.2 pk if (xygetdisklabel(xy, buf) != XY_ERR_AOK) 724 1.1 pk goto done; 725 1.1 pk 726 1.1 pk /* inform the user of what is up */ 727 1.1 pk printf("%s: <%s>, pcyl %d\n", xy->sc_dev.dv_xname, 728 1.2 pk buf, xy->pcyl); 729 1.1 pk mb = xy->ncyl * (xy->nhead * xy->nsect) / (1048576 / XYFM_BPS); 730 1.1 pk printf("%s: %dMB, %d cyl, %d head, %d sec, %d bytes/sec\n", 731 1.1 pk xy->sc_dev.dv_xname, mb, xy->ncyl, xy->nhead, xy->nsect, 732 1.1 pk XYFM_BPS); 733 1.1 pk 734 1.1 pk /* 735 1.1 pk * 450/451 stupidity: the drive type is encoded into the format 736 1.1 pk * of the disk. the drive type in the IOPB must match the drive 737 1.1 pk * type in the format, or you will not be able to do I/O to the 738 1.1 pk * disk (you get header not found errors). if you have two drives 739 1.1 pk * of different sizes that have the same drive type in their 740 1.1 pk * formatting then you are out of luck. 741 1.1 pk * 742 1.1 pk * this problem was corrected in the 753/7053. 743 1.1 pk */ 744 1.1 pk 745 1.1 pk for (lcv = 0 ; lcv < XYC_MAXDEV ; lcv++) { 746 1.1 pk oxy = xyc->sc_drives[lcv]; 747 1.1 pk if (oxy == NULL || oxy == xy) continue; 748 1.1 pk if (oxy->drive_type != xy->drive_type) continue; 749 1.1 pk if (xy->nsect != oxy->nsect || xy->pcyl != oxy->pcyl || 750 1.1 pk xy->nhead != oxy->nhead) { 751 1.1 pk printf("%s: %s and %s must be the same size!\n", 752 1.1 pk xyc->sc_dev.dv_xname, xy->sc_dev.dv_xname, 753 1.1 pk oxy->sc_dev.dv_xname); 754 1.1 pk panic("xy drive size mismatch"); 755 1.1 pk } 756 1.1 pk } 757 1.1 pk 758 1.1 pk 759 1.1 pk /* now set the real drive parameters! */ 760 1.1 pk 761 1.1 pk blk = (xy->nsect - 1) + 762 1.1 pk ((xy->nhead - 1) * xy->nsect) + 763 1.1 pk ((xy->pcyl - 1) * xy->nsect * xy->nhead); 764 1.2 pk error = xyc_cmd(xyc, XYCMD_SDS, 0, xy->xy_drive, blk, 0, 0, fmode); 765 1.2 pk XYC_DONE(xyc, error); 766 1.2 pk if (error) { 767 1.1 pk printf("%s: write drive size failed: %s\n", 768 1.2 pk xy->sc_dev.dv_xname, xyc_e2str(error)); 769 1.1 pk goto done; 770 1.1 pk } 771 1.1 pk newstate = XY_DRIVE_ONLINE; 772 1.1 pk 773 1.1 pk /* 774 1.1 pk * read bad144 table. this table resides on the first sector of the 775 1.1 pk * last track of the disk (i.e. second cyl of "acyl" area). 776 1.1 pk */ 777 1.1 pk 778 1.1 pk blk = (xy->ncyl + xy->acyl - 1) * (xy->nhead * xy->nsect) + 779 1.1 pk /* last cyl */ 780 1.1 pk (xy->nhead - 1) * xy->nsect; /* last head */ 781 1.2 pk error = xyc_cmd(xyc, XYCMD_RD, 0, xy->xy_drive, blk, 1, 782 1.2 pk dmaddr, fmode); 783 1.2 pk XYC_DONE(xyc, error); 784 1.2 pk if (error) { 785 1.1 pk printf("%s: reading bad144 failed: %s\n", 786 1.2 pk xy->sc_dev.dv_xname, xyc_e2str(error)); 787 1.1 pk goto done; 788 1.1 pk } 789 1.1 pk 790 1.1 pk /* check dkbad for sanity */ 791 1.2 pk dkb = (struct dkbad *) buf; 792 1.1 pk for (lcv = 0; lcv < 126; lcv++) { 793 1.1 pk if ((dkb->bt_bad[lcv].bt_cyl == 0xffff || 794 1.1 pk dkb->bt_bad[lcv].bt_cyl == 0) && 795 1.1 pk dkb->bt_bad[lcv].bt_trksec == 0xffff) 796 1.1 pk continue; /* blank */ 797 1.1 pk if (dkb->bt_bad[lcv].bt_cyl >= xy->ncyl) 798 1.1 pk break; 799 1.1 pk if ((dkb->bt_bad[lcv].bt_trksec >> 8) >= xy->nhead) 800 1.1 pk break; 801 1.1 pk if ((dkb->bt_bad[lcv].bt_trksec & 0xff) >= xy->nsect) 802 1.1 pk break; 803 1.1 pk } 804 1.1 pk if (lcv != 126) { 805 1.1 pk printf("%s: warning: invalid bad144 sector!\n", 806 1.1 pk xy->sc_dev.dv_xname); 807 1.1 pk } else { 808 1.2 pk bcopy(buf, &xy->dkb, XYFM_BPS); 809 1.1 pk } 810 1.1 pk 811 1.1 pk done: 812 1.2 pk if (buf != NULL) { 813 1.19 pk xy_dmamem_free(xyc->dmatag, xyc->auxmap, 814 1.19 pk &seg, rseg, XYFM_BPS, buf); 815 1.2 pk } 816 1.2 pk 817 1.1 pk xy->state = newstate; 818 1.1 pk if (!xa->booting) { 819 1.1 pk wakeup(&xy->state); 820 1.1 pk splx(s); 821 1.1 pk } 822 1.1 pk } 823 1.1 pk 824 1.1 pk /* 825 1.1 pk * end of autoconfig functions 826 1.1 pk */ 827 1.1 pk 828 1.1 pk /* 829 1.1 pk * { b , c } d e v s w f u n c t i o n s 830 1.1 pk */ 831 1.1 pk 832 1.1 pk /* 833 1.1 pk * xyclose: close device 834 1.1 pk */ 835 1.1 pk int 836 1.1 pk xyclose(dev, flag, fmt, p) 837 1.1 pk dev_t dev; 838 1.1 pk int flag, fmt; 839 1.1 pk struct proc *p; 840 1.1 pk 841 1.1 pk { 842 1.1 pk struct xy_softc *xy = xy_cd.cd_devs[DISKUNIT(dev)]; 843 1.1 pk int part = DISKPART(dev); 844 1.1 pk 845 1.1 pk /* clear mask bits */ 846 1.1 pk 847 1.1 pk switch (fmt) { 848 1.1 pk case S_IFCHR: 849 1.1 pk xy->sc_dk.dk_copenmask &= ~(1 << part); 850 1.1 pk break; 851 1.1 pk case S_IFBLK: 852 1.1 pk xy->sc_dk.dk_bopenmask &= ~(1 << part); 853 1.1 pk break; 854 1.1 pk } 855 1.1 pk xy->sc_dk.dk_openmask = xy->sc_dk.dk_copenmask | xy->sc_dk.dk_bopenmask; 856 1.1 pk 857 1.1 pk return 0; 858 1.1 pk } 859 1.1 pk 860 1.1 pk /* 861 1.1 pk * xydump: crash dump system 862 1.1 pk */ 863 1.1 pk int 864 1.1 pk xydump(dev, blkno, va, size) 865 1.1 pk dev_t dev; 866 1.1 pk daddr_t blkno; 867 1.1 pk caddr_t va; 868 1.1 pk size_t size; 869 1.1 pk { 870 1.1 pk int unit, part; 871 1.1 pk struct xy_softc *xy; 872 1.1 pk 873 1.1 pk unit = DISKUNIT(dev); 874 1.1 pk if (unit >= xy_cd.cd_ndevs) 875 1.1 pk return ENXIO; 876 1.1 pk part = DISKPART(dev); 877 1.1 pk 878 1.1 pk xy = xy_cd.cd_devs[unit]; 879 1.1 pk 880 1.1 pk printf("%s%c: crash dump not supported (yet)\n", xy->sc_dev.dv_xname, 881 1.1 pk 'a' + part); 882 1.1 pk 883 1.1 pk return ENXIO; 884 1.1 pk 885 1.1 pk /* outline: globals: "dumplo" == sector number of partition to start 886 1.1 pk * dump at (convert to physical sector with partition table) 887 1.1 pk * "dumpsize" == size of dump in clicks "physmem" == size of physical 888 1.1 pk * memory (clicks, ctob() to get bytes) (normal case: dumpsize == 889 1.1 pk * physmem) 890 1.1 pk * 891 1.1 pk * dump a copy of physical memory to the dump device starting at sector 892 1.1 pk * "dumplo" in the swap partition (make sure > 0). map in pages as 893 1.1 pk * we go. use polled I/O. 894 1.1 pk * 895 1.1 pk * XXX how to handle NON_CONTIG? */ 896 1.1 pk 897 1.1 pk } 898 1.1 pk 899 1.1 pk /* 900 1.1 pk * xyioctl: ioctls on XY drives. based on ioctl's of other netbsd disks. 901 1.1 pk */ 902 1.1 pk int 903 1.1 pk xyioctl(dev, command, addr, flag, p) 904 1.1 pk dev_t dev; 905 1.1 pk u_long command; 906 1.1 pk caddr_t addr; 907 1.1 pk int flag; 908 1.1 pk struct proc *p; 909 1.1 pk 910 1.1 pk { 911 1.1 pk struct xy_softc *xy; 912 1.1 pk struct xd_iocmd *xio; 913 1.1 pk int error, s, unit; 914 1.25.2.3 he #ifdef __HAVE_OLD_DISKLABEL 915 1.25.2.4 he struct disklabel newlabel; 916 1.25.2.3 he #endif 917 1.25.2.4 he struct disklabel *lp; 918 1.25.2.4 he 919 1.1 pk unit = DISKUNIT(dev); 920 1.1 pk 921 1.1 pk if (unit >= xy_cd.cd_ndevs || (xy = xy_cd.cd_devs[unit]) == NULL) 922 1.1 pk return (ENXIO); 923 1.1 pk 924 1.1 pk /* switch on ioctl type */ 925 1.1 pk 926 1.1 pk switch (command) { 927 1.1 pk case DIOCSBAD: /* set bad144 info */ 928 1.1 pk if ((flag & FWRITE) == 0) 929 1.1 pk return EBADF; 930 1.1 pk s = splbio(); 931 1.1 pk bcopy(addr, &xy->dkb, sizeof(xy->dkb)); 932 1.1 pk splx(s); 933 1.1 pk return 0; 934 1.1 pk 935 1.1 pk case DIOCGDINFO: /* get disk label */ 936 1.1 pk bcopy(xy->sc_dk.dk_label, addr, sizeof(struct disklabel)); 937 1.1 pk return 0; 938 1.25.2.3 he #ifdef __HAVE_OLD_DISKLABEL 939 1.25.2.3 he case ODIOCGDINFO: 940 1.25.2.3 he newlabel = *(xy->sc_dk.dk_label); 941 1.25.2.3 he if (newlabel.d_npartitions > OLDMAXPARTITIONS) 942 1.25.2.3 he return ENOTTY; 943 1.25.2.3 he memcpy(addr, &newlabel, sizeof (struct olddisklabel)); 944 1.25.2.3 he return 0; 945 1.25.2.3 he #endif 946 1.1 pk 947 1.1 pk case DIOCGPART: /* get partition info */ 948 1.1 pk ((struct partinfo *) addr)->disklab = xy->sc_dk.dk_label; 949 1.1 pk ((struct partinfo *) addr)->part = 950 1.1 pk &xy->sc_dk.dk_label->d_partitions[DISKPART(dev)]; 951 1.1 pk return 0; 952 1.1 pk 953 1.1 pk case DIOCSDINFO: /* set disk label */ 954 1.25.2.3 he #ifdef __HAVE_OLD_DISKLABEL 955 1.25.2.3 he case ODIOCSDINFO: 956 1.25.2.3 he if (command == ODIOCSDINFO) { 957 1.25.2.3 he memset(&newlabel, 0, sizeof newlabel); 958 1.25.2.3 he memcpy(&newlabel, addr, sizeof (struct olddisklabel)); 959 1.25.2.3 he lp = &newlabel; 960 1.25.2.3 he } else 961 1.25.2.3 he #endif 962 1.25.2.3 he lp = (struct disklabel *)addr; 963 1.25.2.3 he 964 1.1 pk if ((flag & FWRITE) == 0) 965 1.1 pk return EBADF; 966 1.1 pk error = setdisklabel(xy->sc_dk.dk_label, 967 1.25.2.3 he lp, /* xy->sc_dk.dk_openmask : */ 0, 968 1.1 pk xy->sc_dk.dk_cpulabel); 969 1.1 pk if (error == 0) { 970 1.1 pk if (xy->state == XY_DRIVE_NOLABEL) 971 1.1 pk xy->state = XY_DRIVE_ONLINE; 972 1.1 pk } 973 1.1 pk return error; 974 1.1 pk 975 1.1 pk case DIOCWLABEL: /* change write status of disk label */ 976 1.1 pk if ((flag & FWRITE) == 0) 977 1.1 pk return EBADF; 978 1.1 pk if (*(int *) addr) 979 1.1 pk xy->flags |= XY_WLABEL; 980 1.1 pk else 981 1.1 pk xy->flags &= ~XY_WLABEL; 982 1.1 pk return 0; 983 1.1 pk 984 1.1 pk case DIOCWDINFO: /* write disk label */ 985 1.25.2.3 he #ifdef __HAVE_OLD_DISKLABEL 986 1.25.2.3 he case ODIOCWDINFO: 987 1.25.2.3 he if (command == ODIOCWDINFO) { 988 1.25.2.3 he memset(&newlabel, 0, sizeof newlabel); 989 1.25.2.3 he memcpy(&newlabel, addr, sizeof (struct olddisklabel)); 990 1.25.2.3 he lp = &newlabel; 991 1.25.2.3 he } else 992 1.25.2.3 he #endif 993 1.25.2.3 he lp = (struct disklabel *)addr; 994 1.25.2.3 he 995 1.1 pk if ((flag & FWRITE) == 0) 996 1.1 pk return EBADF; 997 1.1 pk error = setdisklabel(xy->sc_dk.dk_label, 998 1.25.2.3 he lp, /* xy->sc_dk.dk_openmask : */ 0, 999 1.1 pk xy->sc_dk.dk_cpulabel); 1000 1.1 pk if (error == 0) { 1001 1.1 pk if (xy->state == XY_DRIVE_NOLABEL) 1002 1.1 pk xy->state = XY_DRIVE_ONLINE; 1003 1.1 pk 1004 1.1 pk /* Simulate opening partition 0 so write succeeds. */ 1005 1.1 pk xy->sc_dk.dk_openmask |= (1 << 0); 1006 1.1 pk error = writedisklabel(MAKEDISKDEV(major(dev), DISKUNIT(dev), RAW_PART), 1007 1.1 pk xystrategy, xy->sc_dk.dk_label, 1008 1.1 pk xy->sc_dk.dk_cpulabel); 1009 1.1 pk xy->sc_dk.dk_openmask = 1010 1.1 pk xy->sc_dk.dk_copenmask | xy->sc_dk.dk_bopenmask; 1011 1.1 pk } 1012 1.1 pk return error; 1013 1.1 pk 1014 1.1 pk case DIOSXDCMD: 1015 1.1 pk xio = (struct xd_iocmd *) addr; 1016 1.1 pk if ((error = suser(p->p_ucred, &p->p_acflag)) != 0) 1017 1.1 pk return (error); 1018 1.1 pk return (xyc_ioctlcmd(xy, dev, xio)); 1019 1.1 pk 1020 1.1 pk default: 1021 1.1 pk return ENOTTY; 1022 1.1 pk } 1023 1.1 pk } 1024 1.1 pk 1025 1.1 pk /* 1026 1.1 pk * xyopen: open drive 1027 1.1 pk */ 1028 1.1 pk 1029 1.1 pk int 1030 1.1 pk xyopen(dev, flag, fmt, p) 1031 1.1 pk dev_t dev; 1032 1.1 pk int flag, fmt; 1033 1.1 pk struct proc *p; 1034 1.1 pk { 1035 1.1 pk int unit, part; 1036 1.1 pk struct xy_softc *xy; 1037 1.1 pk struct xyc_attach_args xa; 1038 1.1 pk 1039 1.1 pk /* first, could it be a valid target? */ 1040 1.1 pk 1041 1.1 pk unit = DISKUNIT(dev); 1042 1.1 pk if (unit >= xy_cd.cd_ndevs || (xy = xy_cd.cd_devs[unit]) == NULL) 1043 1.1 pk return (ENXIO); 1044 1.1 pk part = DISKPART(dev); 1045 1.1 pk 1046 1.1 pk /* do we need to attach the drive? */ 1047 1.1 pk 1048 1.1 pk if (xy->state == XY_DRIVE_UNKNOWN) { 1049 1.1 pk xa.driveno = xy->xy_drive; 1050 1.1 pk xa.fullmode = XY_SUB_WAIT; 1051 1.1 pk xa.booting = 0; 1052 1.1 pk xyattach((struct device *) xy->parent, 1053 1.1 pk (struct device *) xy, &xa); 1054 1.1 pk if (xy->state == XY_DRIVE_UNKNOWN) { 1055 1.1 pk return (EIO); 1056 1.1 pk } 1057 1.1 pk } 1058 1.1 pk /* check for partition */ 1059 1.1 pk 1060 1.1 pk if (part != RAW_PART && 1061 1.1 pk (part >= xy->sc_dk.dk_label->d_npartitions || 1062 1.1 pk xy->sc_dk.dk_label->d_partitions[part].p_fstype == FS_UNUSED)) { 1063 1.1 pk return (ENXIO); 1064 1.1 pk } 1065 1.1 pk /* set open masks */ 1066 1.1 pk 1067 1.1 pk switch (fmt) { 1068 1.1 pk case S_IFCHR: 1069 1.1 pk xy->sc_dk.dk_copenmask |= (1 << part); 1070 1.1 pk break; 1071 1.1 pk case S_IFBLK: 1072 1.1 pk xy->sc_dk.dk_bopenmask |= (1 << part); 1073 1.1 pk break; 1074 1.1 pk } 1075 1.1 pk xy->sc_dk.dk_openmask = xy->sc_dk.dk_copenmask | xy->sc_dk.dk_bopenmask; 1076 1.1 pk 1077 1.1 pk return 0; 1078 1.1 pk } 1079 1.1 pk 1080 1.1 pk int 1081 1.1 pk xyread(dev, uio, flags) 1082 1.1 pk dev_t dev; 1083 1.1 pk struct uio *uio; 1084 1.1 pk int flags; 1085 1.1 pk { 1086 1.1 pk 1087 1.1 pk return (physio(xystrategy, NULL, dev, B_READ, minphys, uio)); 1088 1.1 pk } 1089 1.1 pk 1090 1.1 pk int 1091 1.1 pk xywrite(dev, uio, flags) 1092 1.1 pk dev_t dev; 1093 1.1 pk struct uio *uio; 1094 1.1 pk int flags; 1095 1.1 pk { 1096 1.1 pk 1097 1.1 pk return (physio(xystrategy, NULL, dev, B_WRITE, minphys, uio)); 1098 1.1 pk } 1099 1.1 pk 1100 1.1 pk 1101 1.1 pk /* 1102 1.1 pk * xysize: return size of a partition for a dump 1103 1.1 pk */ 1104 1.1 pk 1105 1.1 pk int 1106 1.1 pk xysize(dev) 1107 1.1 pk dev_t dev; 1108 1.1 pk 1109 1.1 pk { 1110 1.1 pk struct xy_softc *xysc; 1111 1.1 pk int unit, part, size, omask; 1112 1.1 pk 1113 1.1 pk /* valid unit? */ 1114 1.1 pk unit = DISKUNIT(dev); 1115 1.1 pk if (unit >= xy_cd.cd_ndevs || (xysc = xy_cd.cd_devs[unit]) == NULL) 1116 1.1 pk return (-1); 1117 1.1 pk 1118 1.1 pk part = DISKPART(dev); 1119 1.1 pk omask = xysc->sc_dk.dk_openmask & (1 << part); 1120 1.1 pk 1121 1.1 pk if (omask == 0 && xyopen(dev, 0, S_IFBLK, NULL) != 0) 1122 1.1 pk return (-1); 1123 1.1 pk 1124 1.1 pk /* do it */ 1125 1.1 pk if (xysc->sc_dk.dk_label->d_partitions[part].p_fstype != FS_SWAP) 1126 1.1 pk size = -1; /* only give valid size for swap partitions */ 1127 1.1 pk else 1128 1.1 pk size = xysc->sc_dk.dk_label->d_partitions[part].p_size * 1129 1.1 pk (xysc->sc_dk.dk_label->d_secsize / DEV_BSIZE); 1130 1.1 pk if (omask == 0 && xyclose(dev, 0, S_IFBLK, NULL) != 0) 1131 1.1 pk return (-1); 1132 1.1 pk return (size); 1133 1.1 pk } 1134 1.1 pk 1135 1.1 pk /* 1136 1.1 pk * xystrategy: buffering system interface to xy. 1137 1.1 pk */ 1138 1.1 pk 1139 1.1 pk void 1140 1.1 pk xystrategy(bp) 1141 1.1 pk struct buf *bp; 1142 1.1 pk 1143 1.1 pk { 1144 1.1 pk struct xy_softc *xy; 1145 1.1 pk int s, unit; 1146 1.1 pk struct xyc_attach_args xa; 1147 1.16 thorpej struct disklabel *lp; 1148 1.16 thorpej daddr_t blkno; 1149 1.1 pk 1150 1.1 pk unit = DISKUNIT(bp->b_dev); 1151 1.1 pk 1152 1.1 pk /* check for live device */ 1153 1.1 pk 1154 1.1 pk if (unit >= xy_cd.cd_ndevs || (xy = xy_cd.cd_devs[unit]) == 0 || 1155 1.1 pk bp->b_blkno < 0 || 1156 1.1 pk (bp->b_bcount % xy->sc_dk.dk_label->d_secsize) != 0) { 1157 1.1 pk bp->b_error = EINVAL; 1158 1.1 pk goto bad; 1159 1.1 pk } 1160 1.1 pk /* do we need to attach the drive? */ 1161 1.1 pk 1162 1.1 pk if (xy->state == XY_DRIVE_UNKNOWN) { 1163 1.1 pk xa.driveno = xy->xy_drive; 1164 1.1 pk xa.fullmode = XY_SUB_WAIT; 1165 1.1 pk xa.booting = 0; 1166 1.1 pk xyattach((struct device *)xy->parent, (struct device *)xy, &xa); 1167 1.1 pk if (xy->state == XY_DRIVE_UNKNOWN) { 1168 1.1 pk bp->b_error = EIO; 1169 1.1 pk goto bad; 1170 1.1 pk } 1171 1.1 pk } 1172 1.1 pk if (xy->state != XY_DRIVE_ONLINE && DISKPART(bp->b_dev) != RAW_PART) { 1173 1.1 pk /* no I/O to unlabeled disks, unless raw partition */ 1174 1.1 pk bp->b_error = EIO; 1175 1.1 pk goto bad; 1176 1.1 pk } 1177 1.1 pk /* short circuit zero length request */ 1178 1.1 pk 1179 1.1 pk if (bp->b_bcount == 0) 1180 1.1 pk goto done; 1181 1.1 pk 1182 1.1 pk /* check bounds with label (disksubr.c). Determine the size of the 1183 1.1 pk * transfer, and make sure it is within the boundaries of the 1184 1.1 pk * partition. Adjust transfer if needed, and signal errors or early 1185 1.1 pk * completion. */ 1186 1.1 pk 1187 1.16 thorpej lp = xy->sc_dk.dk_label; 1188 1.16 thorpej 1189 1.16 thorpej if (bounds_check_with_label(bp, lp, 1190 1.1 pk (xy->flags & XY_WLABEL) != 0) <= 0) 1191 1.1 pk goto done; 1192 1.1 pk 1193 1.1 pk /* 1194 1.16 thorpej * Now convert the block number to absolute and put it in 1195 1.16 thorpej * terms of the device's logical block size. 1196 1.16 thorpej */ 1197 1.16 thorpej blkno = bp->b_blkno / (lp->d_secsize / DEV_BSIZE); 1198 1.16 thorpej if (DISKPART(bp->b_dev) != RAW_PART) 1199 1.16 thorpej blkno += lp->d_partitions[DISKPART(bp->b_dev)].p_offset; 1200 1.16 thorpej 1201 1.16 thorpej bp->b_rawblkno = blkno; 1202 1.16 thorpej 1203 1.16 thorpej /* 1204 1.1 pk * now we know we have a valid buf structure that we need to do I/O 1205 1.1 pk * on. 1206 1.1 pk */ 1207 1.1 pk s = splbio(); /* protect the queues */ 1208 1.1 pk 1209 1.16 thorpej disksort_blkno(&xy->xyq, bp); 1210 1.1 pk 1211 1.1 pk /* start 'em up */ 1212 1.1 pk 1213 1.1 pk xyc_start(xy->parent, NULL); 1214 1.1 pk 1215 1.1 pk /* done! */ 1216 1.1 pk 1217 1.1 pk splx(s); 1218 1.1 pk return; 1219 1.1 pk 1220 1.1 pk bad: /* tells upper layers we have an error */ 1221 1.1 pk bp->b_flags |= B_ERROR; 1222 1.1 pk done: /* tells upper layers we are done with this 1223 1.1 pk * buf */ 1224 1.1 pk bp->b_resid = bp->b_bcount; 1225 1.1 pk biodone(bp); 1226 1.1 pk } 1227 1.1 pk /* 1228 1.1 pk * end of {b,c}devsw functions 1229 1.1 pk */ 1230 1.1 pk 1231 1.1 pk /* 1232 1.1 pk * i n t e r r u p t f u n c t i o n 1233 1.1 pk * 1234 1.1 pk * xycintr: hardware interrupt. 1235 1.1 pk */ 1236 1.1 pk int 1237 1.1 pk xycintr(v) 1238 1.1 pk void *v; 1239 1.1 pk 1240 1.1 pk { 1241 1.1 pk struct xyc_softc *xycsc = v; 1242 1.1 pk 1243 1.1 pk /* kick the event counter */ 1244 1.1 pk 1245 1.1 pk xycsc->sc_intrcnt.ev_count++; 1246 1.1 pk 1247 1.1 pk /* remove as many done IOPBs as possible */ 1248 1.1 pk 1249 1.1 pk xyc_remove_iorq(xycsc); 1250 1.1 pk 1251 1.1 pk /* start any iorq's already waiting */ 1252 1.1 pk 1253 1.1 pk xyc_start(xycsc, NULL); 1254 1.1 pk 1255 1.1 pk return (1); 1256 1.1 pk } 1257 1.1 pk /* 1258 1.1 pk * end of interrupt function 1259 1.1 pk */ 1260 1.1 pk 1261 1.1 pk /* 1262 1.1 pk * i n t e r n a l f u n c t i o n s 1263 1.1 pk */ 1264 1.1 pk 1265 1.1 pk /* 1266 1.1 pk * xyc_rqinit: fill out the fields of an I/O request 1267 1.1 pk */ 1268 1.1 pk 1269 1.1 pk inline void 1270 1.1 pk xyc_rqinit(rq, xyc, xy, md, blk, cnt, db, bp) 1271 1.1 pk struct xy_iorq *rq; 1272 1.1 pk struct xyc_softc *xyc; 1273 1.1 pk struct xy_softc *xy; 1274 1.1 pk int md; 1275 1.1 pk u_long blk; 1276 1.1 pk int cnt; 1277 1.1 pk caddr_t db; 1278 1.1 pk struct buf *bp; 1279 1.1 pk { 1280 1.1 pk rq->xyc = xyc; 1281 1.1 pk rq->xy = xy; 1282 1.1 pk rq->ttl = XYC_MAXTTL + 10; 1283 1.1 pk rq->mode = md; 1284 1.1 pk rq->tries = rq->errno = rq->lasterror = 0; 1285 1.1 pk rq->blockno = blk; 1286 1.1 pk rq->sectcnt = cnt; 1287 1.2 pk rq->dbuf = db; 1288 1.1 pk rq->buf = bp; 1289 1.1 pk } 1290 1.1 pk 1291 1.1 pk /* 1292 1.1 pk * xyc_rqtopb: load up an IOPB based on an iorq 1293 1.1 pk */ 1294 1.1 pk 1295 1.1 pk void 1296 1.1 pk xyc_rqtopb(iorq, iopb, cmd, subfun) 1297 1.1 pk struct xy_iorq *iorq; 1298 1.1 pk struct xy_iopb *iopb; 1299 1.1 pk int cmd, subfun; 1300 1.1 pk 1301 1.1 pk { 1302 1.1 pk u_long block, dp; 1303 1.1 pk 1304 1.1 pk /* normal IOPB case, standard stuff */ 1305 1.1 pk 1306 1.1 pk /* chain bit handled later */ 1307 1.1 pk iopb->ien = (XY_STATE(iorq->mode) == XY_SUB_POLL) ? 0 : 1; 1308 1.1 pk iopb->com = cmd; 1309 1.1 pk iopb->errno = 0; 1310 1.1 pk iopb->errs = 0; 1311 1.1 pk iopb->done = 0; 1312 1.1 pk if (iorq->xy) { 1313 1.1 pk iopb->unit = iorq->xy->xy_drive; 1314 1.1 pk iopb->dt = iorq->xy->drive_type; 1315 1.1 pk } else { 1316 1.1 pk iopb->unit = 0; 1317 1.1 pk iopb->dt = 0; 1318 1.1 pk } 1319 1.1 pk block = iorq->blockno; 1320 1.1 pk if (iorq->xy == NULL || block == 0) { 1321 1.1 pk iopb->sect = iopb->head = iopb->cyl = 0; 1322 1.1 pk } else { 1323 1.1 pk iopb->sect = block % iorq->xy->nsect; 1324 1.1 pk block = block / iorq->xy->nsect; 1325 1.1 pk iopb->head = block % iorq->xy->nhead; 1326 1.1 pk block = block / iorq->xy->nhead; 1327 1.1 pk iopb->cyl = block; 1328 1.1 pk } 1329 1.1 pk iopb->scnt = iorq->sectcnt; 1330 1.2 pk dp = (u_long) iorq->dbuf; 1331 1.1 pk if (iorq->dbuf == NULL) { 1332 1.1 pk iopb->dataa = 0; 1333 1.1 pk iopb->datar = 0; 1334 1.1 pk } else { 1335 1.1 pk iopb->dataa = (dp & 0xffff); 1336 1.1 pk iopb->datar = ((dp & 0xff0000) >> 16); 1337 1.1 pk } 1338 1.1 pk iopb->subfn = subfun; 1339 1.1 pk } 1340 1.1 pk 1341 1.1 pk 1342 1.1 pk /* 1343 1.1 pk * xyc_unbusy: wait for the xyc to go unbusy, or timeout. 1344 1.1 pk */ 1345 1.1 pk 1346 1.1 pk int 1347 1.1 pk xyc_unbusy(xyc, del) 1348 1.1 pk 1349 1.1 pk struct xyc *xyc; 1350 1.1 pk int del; 1351 1.1 pk 1352 1.1 pk { 1353 1.1 pk while (del-- > 0) { 1354 1.1 pk if ((xyc->xyc_csr & XYC_GBSY) == 0) 1355 1.1 pk break; 1356 1.1 pk DELAY(1); 1357 1.1 pk } 1358 1.1 pk return(del == 0 ? XY_ERR_FAIL : XY_ERR_AOK); 1359 1.1 pk } 1360 1.1 pk 1361 1.1 pk /* 1362 1.1 pk * xyc_cmd: front end for POLL'd and WAIT'd commands. Returns 0 or error. 1363 1.1 pk * note that NORM requests are handled seperately. 1364 1.1 pk */ 1365 1.1 pk int 1366 1.1 pk xyc_cmd(xycsc, cmd, subfn, unit, block, scnt, dptr, fullmode) 1367 1.1 pk struct xyc_softc *xycsc; 1368 1.1 pk int cmd, subfn, unit, block, scnt; 1369 1.1 pk char *dptr; 1370 1.1 pk int fullmode; 1371 1.1 pk 1372 1.1 pk { 1373 1.1 pk int submode = XY_STATE(fullmode); 1374 1.1 pk struct xy_iorq *iorq = xycsc->ciorq; 1375 1.1 pk struct xy_iopb *iopb = xycsc->ciopb; 1376 1.1 pk 1377 1.1 pk /* 1378 1.1 pk * is someone else using the control iopq wait for it if we can 1379 1.1 pk */ 1380 1.1 pk start: 1381 1.1 pk if (submode == XY_SUB_WAIT && XY_STATE(iorq->mode) != XY_SUB_FREE) { 1382 1.1 pk if (tsleep(iorq, PRIBIO, "xyc_cmd", 0)) 1383 1.1 pk return(XY_ERR_FAIL); 1384 1.1 pk goto start; 1385 1.1 pk } 1386 1.1 pk 1387 1.1 pk if (XY_STATE(iorq->mode) != XY_SUB_FREE) { 1388 1.1 pk DELAY(1000000); /* XY_SUB_POLL: steal the iorq */ 1389 1.1 pk iorq->mode = XY_SUB_FREE; 1390 1.1 pk printf("%s: stole control iopb\n", xycsc->sc_dev.dv_xname); 1391 1.1 pk } 1392 1.1 pk 1393 1.1 pk /* init iorq/iopb */ 1394 1.1 pk 1395 1.1 pk xyc_rqinit(iorq, xycsc, 1396 1.1 pk (unit == XYC_NOUNIT) ? NULL : xycsc->sc_drives[unit], 1397 1.1 pk fullmode, block, scnt, dptr, NULL); 1398 1.1 pk 1399 1.1 pk /* load IOPB from iorq */ 1400 1.1 pk 1401 1.1 pk xyc_rqtopb(iorq, iopb, cmd, subfn); 1402 1.1 pk 1403 1.1 pk /* submit it for processing */ 1404 1.1 pk 1405 1.1 pk xyc_submit_iorq(xycsc, iorq, fullmode); /* error code will be in iorq */ 1406 1.1 pk 1407 1.1 pk return(XY_ERR_AOK); 1408 1.1 pk } 1409 1.1 pk 1410 1.1 pk /* 1411 1.1 pk * xyc_startbuf 1412 1.1 pk * start a buffer for running 1413 1.1 pk */ 1414 1.1 pk 1415 1.1 pk int 1416 1.1 pk xyc_startbuf(xycsc, xysc, bp) 1417 1.1 pk struct xyc_softc *xycsc; 1418 1.1 pk struct xy_softc *xysc; 1419 1.1 pk struct buf *bp; 1420 1.1 pk 1421 1.1 pk { 1422 1.2 pk int partno, error; 1423 1.1 pk struct xy_iorq *iorq; 1424 1.1 pk struct xy_iopb *iopb; 1425 1.1 pk u_long block; 1426 1.1 pk 1427 1.1 pk iorq = xysc->xyrq; 1428 1.1 pk iopb = iorq->iopb; 1429 1.1 pk 1430 1.1 pk /* get buf */ 1431 1.1 pk 1432 1.1 pk if (bp == NULL) 1433 1.1 pk panic("xyc_startbuf null buf"); 1434 1.1 pk 1435 1.1 pk partno = DISKPART(bp->b_dev); 1436 1.1 pk #ifdef XYC_DEBUG 1437 1.1 pk printf("xyc_startbuf: %s%c: %s block %d\n", xysc->sc_dev.dv_xname, 1438 1.1 pk 'a' + partno, (bp->b_flags & B_READ) ? "read" : "write", bp->b_blkno); 1439 1.1 pk printf("xyc_startbuf: b_bcount %d, b_data 0x%x\n", 1440 1.1 pk bp->b_bcount, bp->b_data); 1441 1.1 pk #endif 1442 1.1 pk 1443 1.1 pk /* 1444 1.16 thorpej * load request. 1445 1.1 pk * 1446 1.1 pk * note that iorq points to the buffer as mapped into DVMA space, 1447 1.1 pk * where as the bp->b_data points to its non-DVMA mapping. 1448 1.1 pk */ 1449 1.1 pk 1450 1.16 thorpej block = bp->b_rawblkno; 1451 1.1 pk 1452 1.2 pk error = bus_dmamap_load(xycsc->dmatag, iorq->dmamap, 1453 1.2 pk bp->b_data, bp->b_bcount, 0, BUS_DMA_NOWAIT); 1454 1.10 pk if (error != 0) { 1455 1.2 pk printf("%s: warning: cannot load DMA map\n", 1456 1.1 pk xycsc->sc_dev.dv_xname); 1457 1.1 pk return (XY_ERR_FAIL); /* XXX: need some sort of 1458 1.1 pk * call-back scheme here? */ 1459 1.1 pk } 1460 1.1 pk 1461 1.7 thorpej bus_dmamap_sync(xycsc->dmatag, iorq->dmamap, 0, 1462 1.7 thorpej iorq->dmamap->dm_mapsize, (bp->b_flags & B_READ) 1463 1.2 pk ? BUS_DMASYNC_PREREAD 1464 1.2 pk : BUS_DMASYNC_PREWRITE); 1465 1.2 pk 1466 1.1 pk /* init iorq and load iopb from it */ 1467 1.1 pk xyc_rqinit(iorq, xycsc, xysc, XY_SUB_NORM | XY_MODE_VERBO, block, 1468 1.2 pk bp->b_bcount / XYFM_BPS, 1469 1.2 pk (caddr_t)iorq->dmamap->dm_segs[0].ds_addr, 1470 1.2 pk bp); 1471 1.1 pk 1472 1.1 pk xyc_rqtopb(iorq, iopb, (bp->b_flags & B_READ) ? XYCMD_RD : XYCMD_WR, 0); 1473 1.1 pk 1474 1.1 pk /* Instrumentation. */ 1475 1.1 pk disk_busy(&xysc->sc_dk); 1476 1.1 pk 1477 1.1 pk return (XY_ERR_AOK); 1478 1.1 pk } 1479 1.1 pk 1480 1.1 pk 1481 1.1 pk /* 1482 1.1 pk * xyc_submit_iorq: submit an iorq for processing. returns XY_ERR_AOK 1483 1.1 pk * if ok. if it fail returns an error code. type is XY_SUB_*. 1484 1.1 pk * 1485 1.1 pk * note: caller frees iorq in all cases except NORM 1486 1.1 pk * 1487 1.1 pk * return value: 1488 1.1 pk * NORM: XY_AOK (req pending), XY_FAIL (couldn't submit request) 1489 1.1 pk * WAIT: XY_AOK (success), <error-code> (failed) 1490 1.1 pk * POLL: <same as WAIT> 1491 1.1 pk * NOQ : <same as NORM> 1492 1.1 pk * 1493 1.1 pk * there are three sources for i/o requests: 1494 1.1 pk * [1] xystrategy: normal block I/O, using "struct buf" system. 1495 1.1 pk * [2] autoconfig/crash dump: these are polled I/O requests, no interrupts. 1496 1.1 pk * [3] open/ioctl: these are I/O requests done in the context of a process, 1497 1.1 pk * and the process should block until they are done. 1498 1.1 pk * 1499 1.1 pk * software state is stored in the iorq structure. each iorq has an 1500 1.1 pk * iopb structure. the hardware understands the iopb structure. 1501 1.1 pk * every command must go through an iopb. a 450 handles one iopb at a 1502 1.1 pk * time, where as a 451 can take them in chains. [the 450 claims it 1503 1.1 pk * can handle chains, but is appears to be buggy...] iopb are allocated 1504 1.1 pk * in DVMA space at boot up time. each disk gets one iopb, and the 1505 1.1 pk * controller gets one (for POLL and WAIT commands). what happens if 1506 1.1 pk * the iopb is busy? for i/o type [1], the buffers are queued at the 1507 1.1 pk * "buff" layer and * picked up later by the interrupt routine. for case 1508 1.1 pk * [2] we can only be blocked if there is a WAIT type I/O request being 1509 1.1 pk * run. since this can only happen when we are crashing, we wait a sec 1510 1.1 pk * and then steal the IOPB. for case [3] the process can sleep 1511 1.1 pk * on the iorq free list until some iopbs are avaliable. 1512 1.1 pk */ 1513 1.1 pk 1514 1.1 pk 1515 1.1 pk int 1516 1.1 pk xyc_submit_iorq(xycsc, iorq, type) 1517 1.1 pk struct xyc_softc *xycsc; 1518 1.1 pk struct xy_iorq *iorq; 1519 1.1 pk int type; 1520 1.1 pk 1521 1.1 pk { 1522 1.10 pk struct xy_iopb *dmaiopb; 1523 1.1 pk 1524 1.1 pk #ifdef XYC_DEBUG 1525 1.1 pk printf("xyc_submit_iorq(%s, addr=0x%x, type=%d)\n", 1526 1.1 pk xycsc->sc_dev.dv_xname, iorq, type); 1527 1.1 pk #endif 1528 1.1 pk 1529 1.1 pk /* first check and see if controller is busy */ 1530 1.1 pk if ((xycsc->xyc->xyc_csr & XYC_GBSY) != 0) { 1531 1.1 pk #ifdef XYC_DEBUG 1532 1.1 pk printf("xyc_submit_iorq: XYC not ready (BUSY)\n"); 1533 1.1 pk #endif 1534 1.1 pk if (type == XY_SUB_NOQ) 1535 1.1 pk return (XY_ERR_FAIL); /* failed */ 1536 1.1 pk switch (type) { 1537 1.1 pk case XY_SUB_NORM: 1538 1.1 pk return XY_ERR_AOK; /* success */ 1539 1.1 pk case XY_SUB_WAIT: 1540 1.1 pk while (iorq->iopb->done == 0) { 1541 1.23 thorpej (void) tsleep(iorq, PRIBIO, "xyciorq", 0); 1542 1.1 pk } 1543 1.1 pk return (iorq->errno); 1544 1.1 pk case XY_SUB_POLL: /* steal controller */ 1545 1.10 pk (void)xycsc->xyc->xyc_rsetup; /* RESET */ 1546 1.1 pk if (xyc_unbusy(xycsc->xyc,XYC_RESETUSEC) == XY_ERR_FAIL) 1547 1.1 pk panic("xyc_submit_iorq: stuck xyc"); 1548 1.1 pk printf("%s: stole controller\n", 1549 1.1 pk xycsc->sc_dev.dv_xname); 1550 1.1 pk break; 1551 1.1 pk default: 1552 1.1 pk panic("xyc_submit_iorq adding"); 1553 1.1 pk } 1554 1.1 pk } 1555 1.1 pk 1556 1.10 pk dmaiopb = xyc_chain(xycsc, iorq); /* build chain */ 1557 1.10 pk if (dmaiopb == NULL) { /* nothing doing? */ 1558 1.1 pk if (type == XY_SUB_NORM || type == XY_SUB_NOQ) 1559 1.1 pk return(XY_ERR_AOK); 1560 1.1 pk panic("xyc_submit_iorq: xyc_chain failed!\n"); 1561 1.1 pk } 1562 1.1 pk 1563 1.10 pk XYC_GO(xycsc->xyc, (u_long)dmaiopb); 1564 1.1 pk 1565 1.1 pk /* command now running, wrap it up */ 1566 1.1 pk switch (type) { 1567 1.1 pk case XY_SUB_NORM: 1568 1.1 pk case XY_SUB_NOQ: 1569 1.1 pk return (XY_ERR_AOK); /* success */ 1570 1.1 pk case XY_SUB_WAIT: 1571 1.1 pk while (iorq->iopb->done == 0) { 1572 1.23 thorpej (void) tsleep(iorq, PRIBIO, "xyciorq", 0); 1573 1.1 pk } 1574 1.1 pk return (iorq->errno); 1575 1.1 pk case XY_SUB_POLL: 1576 1.1 pk return (xyc_piodriver(xycsc, iorq)); 1577 1.1 pk default: 1578 1.1 pk panic("xyc_submit_iorq wrap up"); 1579 1.1 pk } 1580 1.1 pk panic("xyc_submit_iorq"); 1581 1.1 pk return 0; /* not reached */ 1582 1.1 pk } 1583 1.1 pk 1584 1.1 pk 1585 1.1 pk /* 1586 1.1 pk * xyc_chain: build a chain. return dvma address of first element in 1587 1.1 pk * the chain. iorq != NULL: means we only want that item on the chain. 1588 1.1 pk */ 1589 1.1 pk 1590 1.1 pk struct xy_iopb * 1591 1.1 pk xyc_chain(xycsc, iorq) 1592 1.10 pk struct xyc_softc *xycsc; 1593 1.10 pk struct xy_iorq *iorq; 1594 1.10 pk 1595 1.10 pk { 1596 1.10 pk int togo, chain, hand; 1597 1.10 pk 1598 1.10 pk bzero(xycsc->xy_chain, sizeof(xycsc->xy_chain)); 1599 1.10 pk 1600 1.10 pk /* 1601 1.10 pk * promote control IOPB to the top 1602 1.10 pk */ 1603 1.10 pk if (iorq == NULL) { 1604 1.10 pk if ((XY_STATE(xycsc->reqs[XYC_CTLIOPB].mode) == XY_SUB_POLL || 1605 1.10 pk XY_STATE(xycsc->reqs[XYC_CTLIOPB].mode) == XY_SUB_WAIT) && 1606 1.10 pk xycsc->iopbase[XYC_CTLIOPB].done == 0) 1607 1.10 pk iorq = &xycsc->reqs[XYC_CTLIOPB]; 1608 1.10 pk } 1609 1.10 pk 1610 1.10 pk /* 1611 1.10 pk * special case: if iorq != NULL then we have a POLL or WAIT request. 1612 1.10 pk * we let these take priority and do them first. 1613 1.10 pk */ 1614 1.10 pk if (iorq) { 1615 1.10 pk xycsc->xy_chain[0] = iorq; 1616 1.10 pk iorq->iopb->chen = 0; 1617 1.10 pk return(iorq->dmaiopb); 1618 1.10 pk } 1619 1.1 pk 1620 1.10 pk /* 1621 1.10 pk * NORM case: do round robin and maybe chain (if allowed and possible) 1622 1.10 pk */ 1623 1.10 pk chain = 0; 1624 1.10 pk hand = xycsc->xy_hand; 1625 1.10 pk xycsc->xy_hand = (xycsc->xy_hand + 1) % XYC_MAXIOPB; 1626 1.10 pk 1627 1.10 pk for (togo = XYC_MAXIOPB; togo > 0; 1628 1.10 pk togo--, hand = (hand + 1) % XYC_MAXIOPB) { 1629 1.10 pk struct xy_iopb *iopb, *prev_iopb, *dmaiopb; 1630 1.10 pk 1631 1.10 pk if (XY_STATE(xycsc->reqs[hand].mode) != XY_SUB_NORM || 1632 1.10 pk xycsc->iopbase[hand].done) 1633 1.10 pk continue; /* not ready-for-i/o */ 1634 1.10 pk 1635 1.10 pk xycsc->xy_chain[chain] = &xycsc->reqs[hand]; 1636 1.10 pk iopb = xycsc->xy_chain[chain]->iopb; 1637 1.10 pk iopb->chen = 0; 1638 1.10 pk if (chain != 0) { 1639 1.10 pk /* adding a link to a chain */ 1640 1.10 pk prev_iopb = xycsc->xy_chain[chain-1]->iopb; 1641 1.10 pk prev_iopb->chen = 1; 1642 1.10 pk dmaiopb = xycsc->xy_chain[chain]->dmaiopb; 1643 1.10 pk prev_iopb->nxtiopb = ((u_long)dmaiopb) & 0xffff; 1644 1.10 pk } else { 1645 1.10 pk /* head of chain */ 1646 1.10 pk iorq = xycsc->xy_chain[chain]; 1647 1.10 pk } 1648 1.10 pk chain++; 1649 1.10 pk 1650 1.10 pk /* quit if chaining dis-allowed */ 1651 1.10 pk if (xycsc->no_ols) 1652 1.10 pk break; 1653 1.10 pk } 1654 1.1 pk 1655 1.10 pk return(iorq ? iorq->dmaiopb : NULL); 1656 1.1 pk } 1657 1.1 pk 1658 1.1 pk /* 1659 1.1 pk * xyc_piodriver 1660 1.1 pk * 1661 1.1 pk * programmed i/o driver. this function takes over the computer 1662 1.1 pk * and drains off the polled i/o request. it returns the status of the iorq 1663 1.1 pk * the caller is interesting in. 1664 1.1 pk */ 1665 1.1 pk int 1666 1.1 pk xyc_piodriver(xycsc, iorq) 1667 1.1 pk struct xyc_softc *xycsc; 1668 1.1 pk struct xy_iorq *iorq; 1669 1.1 pk 1670 1.1 pk { 1671 1.1 pk int nreset = 0; 1672 1.1 pk int retval = 0; 1673 1.1 pk u_long res; 1674 1.1 pk #ifdef XYC_DEBUG 1675 1.1 pk printf("xyc_piodriver(%s, 0x%x)\n", xycsc->sc_dev.dv_xname, iorq); 1676 1.1 pk #endif 1677 1.1 pk 1678 1.1 pk while (iorq->iopb->done == 0) { 1679 1.1 pk 1680 1.1 pk res = xyc_unbusy(xycsc->xyc, XYC_MAXTIME); 1681 1.1 pk 1682 1.1 pk /* we expect some progress soon */ 1683 1.1 pk if (res == XY_ERR_FAIL && nreset >= 2) { 1684 1.1 pk xyc_reset(xycsc, 0, XY_RSET_ALL, XY_ERR_FAIL, 0); 1685 1.1 pk #ifdef XYC_DEBUG 1686 1.1 pk printf("xyc_piodriver: timeout\n"); 1687 1.1 pk #endif 1688 1.1 pk return (XY_ERR_FAIL); 1689 1.1 pk } 1690 1.1 pk if (res == XY_ERR_FAIL) { 1691 1.1 pk if (xyc_reset(xycsc, 0, 1692 1.1 pk (nreset++ == 0) ? XY_RSET_NONE : iorq, 1693 1.1 pk XY_ERR_FAIL, 1694 1.1 pk 0) == XY_ERR_FAIL) 1695 1.1 pk return (XY_ERR_FAIL); /* flushes all but POLL 1696 1.1 pk * requests, resets */ 1697 1.1 pk continue; 1698 1.1 pk } 1699 1.1 pk 1700 1.1 pk xyc_remove_iorq(xycsc); /* may resubmit request */ 1701 1.1 pk 1702 1.1 pk if (iorq->iopb->done == 0) 1703 1.1 pk xyc_start(xycsc, iorq); 1704 1.1 pk } 1705 1.1 pk 1706 1.1 pk /* get return value */ 1707 1.1 pk 1708 1.1 pk retval = iorq->errno; 1709 1.1 pk 1710 1.1 pk #ifdef XYC_DEBUG 1711 1.1 pk printf("xyc_piodriver: done, retval = 0x%x (%s)\n", 1712 1.1 pk iorq->errno, xyc_e2str(iorq->errno)); 1713 1.1 pk #endif 1714 1.1 pk 1715 1.1 pk /* start up any bufs that have queued */ 1716 1.1 pk 1717 1.1 pk xyc_start(xycsc, NULL); 1718 1.1 pk 1719 1.1 pk return (retval); 1720 1.1 pk } 1721 1.1 pk 1722 1.1 pk /* 1723 1.1 pk * xyc_xyreset: reset one drive. NOTE: assumes xyc was just reset. 1724 1.1 pk * we steal iopb[XYC_CTLIOPB] for this, but we put it back when we are done. 1725 1.1 pk */ 1726 1.1 pk void 1727 1.1 pk xyc_xyreset(xycsc, xysc) 1728 1.1 pk struct xyc_softc *xycsc; 1729 1.1 pk struct xy_softc *xysc; 1730 1.1 pk 1731 1.1 pk { 1732 1.1 pk struct xy_iopb tmpiopb; 1733 1.10 pk struct xy_iopb *iopb; 1734 1.1 pk int del; 1735 1.1 pk 1736 1.10 pk iopb = xycsc->ciopb; 1737 1.10 pk 1738 1.10 pk /* Save contents */ 1739 1.10 pk bcopy(iopb, &tmpiopb, sizeof(struct xy_iopb)); 1740 1.10 pk 1741 1.10 pk iopb->chen = iopb->done = iopb->errs = 0; 1742 1.10 pk iopb->ien = 0; 1743 1.10 pk iopb->com = XYCMD_RST; 1744 1.10 pk iopb->unit = xysc->xy_drive; 1745 1.10 pk 1746 1.10 pk XYC_GO(xycsc->xyc, (u_long)xycsc->ciorq->dmaiopb); 1747 1.1 pk 1748 1.1 pk del = XYC_RESETUSEC; 1749 1.1 pk while (del > 0) { 1750 1.10 pk if ((xycsc->xyc->xyc_csr & XYC_GBSY) == 0) 1751 1.10 pk break; 1752 1.1 pk DELAY(1); 1753 1.1 pk del--; 1754 1.1 pk } 1755 1.1 pk 1756 1.10 pk if (del <= 0 || iopb->errs) { 1757 1.1 pk printf("%s: off-line: %s\n", xycsc->sc_dev.dv_xname, 1758 1.10 pk xyc_e2str(iopb->errno)); 1759 1.1 pk del = xycsc->xyc->xyc_rsetup; 1760 1.1 pk if (xyc_unbusy(xycsc->xyc, XYC_RESETUSEC) == XY_ERR_FAIL) 1761 1.1 pk panic("xyc_reset"); 1762 1.1 pk } else { 1763 1.1 pk xycsc->xyc->xyc_csr = XYC_IPND; /* clear IPND */ 1764 1.1 pk } 1765 1.10 pk 1766 1.10 pk /* Restore contents */ 1767 1.10 pk bcopy(&tmpiopb, iopb, sizeof(struct xy_iopb)); 1768 1.1 pk } 1769 1.1 pk 1770 1.1 pk 1771 1.1 pk /* 1772 1.1 pk * xyc_reset: reset everything: requests are marked as errors except 1773 1.1 pk * a polled request (which is resubmitted) 1774 1.1 pk */ 1775 1.1 pk int 1776 1.1 pk xyc_reset(xycsc, quiet, blastmode, error, xysc) 1777 1.1 pk struct xyc_softc *xycsc; 1778 1.1 pk int quiet, error; 1779 1.1 pk struct xy_iorq *blastmode; 1780 1.1 pk struct xy_softc *xysc; 1781 1.1 pk 1782 1.1 pk { 1783 1.1 pk int del = 0, lcv, retval = XY_ERR_AOK; 1784 1.1 pk 1785 1.1 pk /* soft reset hardware */ 1786 1.1 pk 1787 1.1 pk if (!quiet) 1788 1.1 pk printf("%s: soft reset\n", xycsc->sc_dev.dv_xname); 1789 1.1 pk del = xycsc->xyc->xyc_rsetup; 1790 1.1 pk del = xyc_unbusy(xycsc->xyc, XYC_RESETUSEC); 1791 1.1 pk if (del == XY_ERR_FAIL) { 1792 1.1 pk blastmode = XY_RSET_ALL; /* dead, flush all requests */ 1793 1.1 pk retval = XY_ERR_FAIL; 1794 1.1 pk } 1795 1.1 pk if (xysc) 1796 1.1 pk xyc_xyreset(xycsc, xysc); 1797 1.1 pk 1798 1.1 pk /* fix queues based on "blast-mode" */ 1799 1.1 pk 1800 1.1 pk for (lcv = 0; lcv < XYC_MAXIOPB; lcv++) { 1801 1.1 pk register struct xy_iorq *iorq = &xycsc->reqs[lcv]; 1802 1.1 pk 1803 1.1 pk if (XY_STATE(iorq->mode) != XY_SUB_POLL && 1804 1.1 pk XY_STATE(iorq->mode) != XY_SUB_WAIT && 1805 1.1 pk XY_STATE(iorq->mode) != XY_SUB_NORM) 1806 1.1 pk /* is it active? */ 1807 1.1 pk continue; 1808 1.1 pk 1809 1.1 pk if (blastmode == XY_RSET_ALL || 1810 1.1 pk blastmode != iorq) { 1811 1.1 pk /* failed */ 1812 1.1 pk iorq->errno = error; 1813 1.1 pk xycsc->iopbase[lcv].done = xycsc->iopbase[lcv].errs = 1; 1814 1.1 pk switch (XY_STATE(iorq->mode)) { 1815 1.1 pk case XY_SUB_NORM: 1816 1.1 pk iorq->buf->b_error = EIO; 1817 1.1 pk iorq->buf->b_flags |= B_ERROR; 1818 1.1 pk iorq->buf->b_resid = iorq->sectcnt * XYFM_BPS; 1819 1.2 pk 1820 1.7 thorpej bus_dmamap_sync(xycsc->dmatag, iorq->dmamap, 0, 1821 1.7 thorpej iorq->dmamap->dm_mapsize, 1822 1.2 pk (iorq->buf->b_flags & B_READ) 1823 1.2 pk ? BUS_DMASYNC_POSTREAD 1824 1.2 pk : BUS_DMASYNC_POSTWRITE); 1825 1.2 pk 1826 1.2 pk bus_dmamap_unload(xycsc->dmatag, iorq->dmamap); 1827 1.2 pk 1828 1.15 thorpej BUFQ_REMOVE(&iorq->xy->xyq, iorq->buf); 1829 1.1 pk disk_unbusy(&xycsc->reqs[lcv].xy->sc_dk, 1830 1.1 pk (xycsc->reqs[lcv].buf->b_bcount - 1831 1.1 pk xycsc->reqs[lcv].buf->b_resid)); 1832 1.1 pk biodone(iorq->buf); 1833 1.1 pk iorq->mode = XY_SUB_FREE; 1834 1.1 pk break; 1835 1.1 pk case XY_SUB_WAIT: 1836 1.1 pk wakeup(iorq); 1837 1.1 pk case XY_SUB_POLL: 1838 1.1 pk iorq->mode = 1839 1.1 pk XY_NEWSTATE(iorq->mode, XY_SUB_DONE); 1840 1.1 pk break; 1841 1.1 pk } 1842 1.1 pk 1843 1.1 pk } else { 1844 1.1 pk 1845 1.1 pk /* resubmit, no need to do anything here */ 1846 1.1 pk } 1847 1.1 pk } 1848 1.1 pk 1849 1.1 pk /* 1850 1.1 pk * now, if stuff is waiting, start it. 1851 1.1 pk * since we just reset it should go 1852 1.1 pk */ 1853 1.1 pk xyc_start(xycsc, NULL); 1854 1.1 pk 1855 1.1 pk return (retval); 1856 1.1 pk } 1857 1.1 pk 1858 1.1 pk /* 1859 1.1 pk * xyc_start: start waiting buffers 1860 1.1 pk */ 1861 1.1 pk 1862 1.1 pk void 1863 1.1 pk xyc_start(xycsc, iorq) 1864 1.1 pk struct xyc_softc *xycsc; 1865 1.1 pk struct xy_iorq *iorq; 1866 1.1 pk 1867 1.1 pk { 1868 1.1 pk int lcv; 1869 1.1 pk struct xy_softc *xy; 1870 1.1 pk 1871 1.1 pk if (iorq == NULL) { 1872 1.1 pk for (lcv = 0; lcv < XYC_MAXDEV ; lcv++) { 1873 1.1 pk if ((xy = xycsc->sc_drives[lcv]) == NULL) continue; 1874 1.15 thorpej if (BUFQ_FIRST(&xy->xyq) == NULL) continue; 1875 1.1 pk if (xy->xyrq->mode != XY_SUB_FREE) continue; 1876 1.15 thorpej xyc_startbuf(xycsc, xy, BUFQ_FIRST(&xy->xyq)); 1877 1.1 pk } 1878 1.1 pk } 1879 1.1 pk xyc_submit_iorq(xycsc, iorq, XY_SUB_NOQ); 1880 1.1 pk } 1881 1.1 pk 1882 1.1 pk /* 1883 1.1 pk * xyc_remove_iorq: remove "done" IOPB's. 1884 1.1 pk */ 1885 1.1 pk 1886 1.1 pk int 1887 1.1 pk xyc_remove_iorq(xycsc) 1888 1.1 pk struct xyc_softc *xycsc; 1889 1.1 pk 1890 1.1 pk { 1891 1.1 pk int errno, rq, comm, errs; 1892 1.1 pk struct xyc *xyc = xycsc->xyc; 1893 1.1 pk u_long addr; 1894 1.1 pk struct xy_iopb *iopb; 1895 1.1 pk struct xy_iorq *iorq; 1896 1.1 pk struct buf *bp; 1897 1.1 pk 1898 1.1 pk if (xyc->xyc_csr & XYC_DERR) { 1899 1.1 pk /* 1900 1.1 pk * DOUBLE ERROR: should never happen under normal use. This 1901 1.1 pk * error is so bad, you can't even tell which IOPB is bad, so 1902 1.1 pk * we dump them all. 1903 1.1 pk */ 1904 1.1 pk errno = XY_ERR_DERR; 1905 1.1 pk printf("%s: DOUBLE ERROR!\n", xycsc->sc_dev.dv_xname); 1906 1.1 pk if (xyc_reset(xycsc, 0, XY_RSET_ALL, errno, 0) != XY_ERR_AOK) { 1907 1.1 pk printf("%s: soft reset failed!\n", 1908 1.1 pk xycsc->sc_dev.dv_xname); 1909 1.1 pk panic("xyc_remove_iorq: controller DEAD"); 1910 1.1 pk } 1911 1.1 pk return (XY_ERR_AOK); 1912 1.1 pk } 1913 1.1 pk 1914 1.1 pk /* 1915 1.1 pk * get iopb that is done, loop down the chain 1916 1.1 pk */ 1917 1.1 pk 1918 1.1 pk if (xyc->xyc_csr & XYC_ERR) { 1919 1.1 pk xyc->xyc_csr = XYC_ERR; /* clear error condition */ 1920 1.1 pk } 1921 1.1 pk if (xyc->xyc_csr & XYC_IPND) { 1922 1.1 pk xyc->xyc_csr = XYC_IPND; /* clear interrupt */ 1923 1.1 pk } 1924 1.1 pk 1925 1.1 pk for (rq = 0; rq < XYC_MAXIOPB; rq++) { 1926 1.1 pk iorq = xycsc->xy_chain[rq]; 1927 1.1 pk if (iorq == NULL) break; /* done ! */ 1928 1.1 pk if (iorq->mode == 0 || XY_STATE(iorq->mode) == XY_SUB_DONE) 1929 1.1 pk continue; /* free, or done */ 1930 1.1 pk iopb = iorq->iopb; 1931 1.1 pk if (iopb->done == 0) 1932 1.1 pk continue; /* not done yet */ 1933 1.1 pk 1934 1.1 pk comm = iopb->com; 1935 1.1 pk errs = iopb->errs; 1936 1.1 pk 1937 1.1 pk if (errs) 1938 1.1 pk iorq->errno = iopb->errno; 1939 1.1 pk else 1940 1.1 pk iorq->errno = 0; 1941 1.1 pk 1942 1.1 pk /* handle non-fatal errors */ 1943 1.1 pk 1944 1.1 pk if (errs && 1945 1.1 pk xyc_error(xycsc, iorq, iopb, comm) == XY_ERR_AOK) 1946 1.1 pk continue; /* AOK: we resubmitted it */ 1947 1.1 pk 1948 1.1 pk 1949 1.1 pk /* this iorq is now done (hasn't been restarted or anything) */ 1950 1.1 pk 1951 1.1 pk if ((iorq->mode & XY_MODE_VERBO) && iorq->lasterror) 1952 1.1 pk xyc_perror(iorq, iopb, 0); 1953 1.1 pk 1954 1.1 pk /* now, if read/write check to make sure we got all the data 1955 1.1 pk * we needed. (this may not be the case if we got an error in 1956 1.1 pk * the middle of a multisector request). */ 1957 1.1 pk 1958 1.1 pk if ((iorq->mode & XY_MODE_B144) != 0 && errs == 0 && 1959 1.1 pk (comm == XYCMD_RD || comm == XYCMD_WR)) { 1960 1.1 pk /* we just successfully processed a bad144 sector 1961 1.1 pk * note: if we are in bad 144 mode, the pointers have 1962 1.1 pk * been advanced already (see above) and are pointing 1963 1.1 pk * at the bad144 sector. to exit bad144 mode, we 1964 1.1 pk * must advance the pointers 1 sector and issue a new 1965 1.1 pk * request if there are still sectors left to process 1966 1.1 pk * 1967 1.1 pk */ 1968 1.1 pk XYC_ADVANCE(iorq, 1); /* advance 1 sector */ 1969 1.1 pk 1970 1.1 pk /* exit b144 mode */ 1971 1.1 pk iorq->mode = iorq->mode & (~XY_MODE_B144); 1972 1.1 pk 1973 1.1 pk if (iorq->sectcnt) { /* more to go! */ 1974 1.1 pk iorq->lasterror = iorq->errno = iopb->errno = 0; 1975 1.1 pk iopb->errs = iopb->done = 0; 1976 1.1 pk iorq->tries = 0; 1977 1.1 pk iopb->scnt = iorq->sectcnt; 1978 1.1 pk iopb->cyl = iorq->blockno / 1979 1.1 pk iorq->xy->sectpercyl; 1980 1.1 pk iopb->head = 1981 1.1 pk (iorq->blockno / iorq->xy->nhead) % 1982 1.1 pk iorq->xy->nhead; 1983 1.1 pk iopb->sect = iorq->blockno % XYFM_BPS; 1984 1.2 pk addr = (u_long) iorq->dbuf; 1985 1.1 pk iopb->dataa = (addr & 0xffff); 1986 1.1 pk iopb->datar = ((addr & 0xff0000) >> 16); 1987 1.1 pk /* will resubit at end */ 1988 1.1 pk continue; 1989 1.1 pk } 1990 1.1 pk } 1991 1.1 pk /* final cleanup, totally done with this request */ 1992 1.1 pk 1993 1.1 pk switch (XY_STATE(iorq->mode)) { 1994 1.1 pk case XY_SUB_NORM: 1995 1.1 pk bp = iorq->buf; 1996 1.1 pk if (errs) { 1997 1.1 pk bp->b_error = EIO; 1998 1.1 pk bp->b_flags |= B_ERROR; 1999 1.1 pk bp->b_resid = iorq->sectcnt * XYFM_BPS; 2000 1.1 pk } else { 2001 1.1 pk bp->b_resid = 0; /* done */ 2002 1.1 pk } 2003 1.7 thorpej bus_dmamap_sync(xycsc->dmatag, iorq->dmamap, 0, 2004 1.7 thorpej iorq->dmamap->dm_mapsize, 2005 1.2 pk (iorq->buf->b_flags & B_READ) 2006 1.2 pk ? BUS_DMASYNC_POSTREAD 2007 1.2 pk : BUS_DMASYNC_POSTWRITE); 2008 1.2 pk 2009 1.2 pk bus_dmamap_unload(xycsc->dmatag, iorq->dmamap); 2010 1.2 pk 2011 1.15 thorpej BUFQ_REMOVE(&iorq->xy->xyq, bp); 2012 1.1 pk disk_unbusy(&iorq->xy->sc_dk, 2013 1.1 pk (bp->b_bcount - bp->b_resid)); 2014 1.1 pk iorq->mode = XY_SUB_FREE; 2015 1.1 pk biodone(bp); 2016 1.1 pk break; 2017 1.1 pk case XY_SUB_WAIT: 2018 1.1 pk iorq->mode = XY_NEWSTATE(iorq->mode, XY_SUB_DONE); 2019 1.1 pk wakeup(iorq); 2020 1.1 pk break; 2021 1.1 pk case XY_SUB_POLL: 2022 1.1 pk iorq->mode = XY_NEWSTATE(iorq->mode, XY_SUB_DONE); 2023 1.1 pk break; 2024 1.1 pk } 2025 1.1 pk } 2026 1.1 pk 2027 1.1 pk return (XY_ERR_AOK); 2028 1.1 pk } 2029 1.1 pk 2030 1.1 pk /* 2031 1.1 pk * xyc_perror: print error. 2032 1.1 pk * - if still_trying is true: we got an error, retried and got a 2033 1.1 pk * different error. in that case lasterror is the old error, 2034 1.1 pk * and errno is the new one. 2035 1.1 pk * - if still_trying is not true, then if we ever had an error it 2036 1.1 pk * is in lasterror. also, if iorq->errno == 0, then we recovered 2037 1.1 pk * from that error (otherwise iorq->errno == iorq->lasterror). 2038 1.1 pk */ 2039 1.1 pk void 2040 1.1 pk xyc_perror(iorq, iopb, still_trying) 2041 1.1 pk struct xy_iorq *iorq; 2042 1.1 pk struct xy_iopb *iopb; 2043 1.1 pk int still_trying; 2044 1.1 pk 2045 1.1 pk { 2046 1.1 pk 2047 1.1 pk int error = iorq->lasterror; 2048 1.1 pk 2049 1.1 pk printf("%s", (iorq->xy) ? iorq->xy->sc_dev.dv_xname 2050 1.1 pk : iorq->xyc->sc_dev.dv_xname); 2051 1.1 pk if (iorq->buf) 2052 1.1 pk printf("%c: ", 'a' + DISKPART(iorq->buf->b_dev)); 2053 1.1 pk if (iopb->com == XYCMD_RD || iopb->com == XYCMD_WR) 2054 1.1 pk printf("%s %d/%d/%d: ", 2055 1.1 pk (iopb->com == XYCMD_RD) ? "read" : "write", 2056 1.1 pk iopb->cyl, iopb->head, iopb->sect); 2057 1.1 pk printf("%s", xyc_e2str(error)); 2058 1.1 pk 2059 1.1 pk if (still_trying) 2060 1.1 pk printf(" [still trying, new error=%s]", xyc_e2str(iorq->errno)); 2061 1.1 pk else 2062 1.1 pk if (iorq->errno == 0) 2063 1.1 pk printf(" [recovered in %d tries]", iorq->tries); 2064 1.1 pk 2065 1.1 pk printf("\n"); 2066 1.1 pk } 2067 1.1 pk 2068 1.1 pk /* 2069 1.1 pk * xyc_error: non-fatal error encountered... recover. 2070 1.1 pk * return AOK if resubmitted, return FAIL if this iopb is done 2071 1.1 pk */ 2072 1.1 pk int 2073 1.1 pk xyc_error(xycsc, iorq, iopb, comm) 2074 1.1 pk struct xyc_softc *xycsc; 2075 1.1 pk struct xy_iorq *iorq; 2076 1.1 pk struct xy_iopb *iopb; 2077 1.1 pk int comm; 2078 1.1 pk 2079 1.1 pk { 2080 1.1 pk int errno = iorq->errno; 2081 1.1 pk int erract = xyc_entoact(errno); 2082 1.12 drochner int oldmode, advance; 2083 1.18 chs #ifdef __sparc__ 2084 1.12 drochner int i; 2085 1.12 drochner #endif 2086 1.1 pk 2087 1.1 pk if (erract == XY_ERA_RSET) { /* some errors require a reset */ 2088 1.1 pk oldmode = iorq->mode; 2089 1.1 pk iorq->mode = XY_SUB_DONE | (~XY_SUB_MASK & oldmode); 2090 1.1 pk /* make xyc_start ignore us */ 2091 1.1 pk xyc_reset(xycsc, 1, XY_RSET_NONE, errno, iorq->xy); 2092 1.1 pk iorq->mode = oldmode; 2093 1.1 pk } 2094 1.1 pk /* check for read/write to a sector in bad144 table if bad: redirect 2095 1.1 pk * request to bad144 area */ 2096 1.1 pk 2097 1.1 pk if ((comm == XYCMD_RD || comm == XYCMD_WR) && 2098 1.1 pk (iorq->mode & XY_MODE_B144) == 0) { 2099 1.1 pk advance = iorq->sectcnt - iopb->scnt; 2100 1.1 pk XYC_ADVANCE(iorq, advance); 2101 1.18 chs #ifdef __sparc__ 2102 1.1 pk if ((i = isbad(&iorq->xy->dkb, iorq->blockno / iorq->xy->sectpercyl, 2103 1.1 pk (iorq->blockno / iorq->xy->nsect) % iorq->xy->nhead, 2104 1.1 pk iorq->blockno % iorq->xy->nsect)) != -1) { 2105 1.1 pk iorq->mode |= XY_MODE_B144; /* enter bad144 mode & 2106 1.1 pk * redirect */ 2107 1.1 pk iopb->errno = iopb->done = iopb->errs = 0; 2108 1.1 pk iopb->scnt = 1; 2109 1.1 pk iopb->cyl = (iorq->xy->ncyl + iorq->xy->acyl) - 2; 2110 1.1 pk /* second to last acyl */ 2111 1.1 pk i = iorq->xy->sectpercyl - 1 - i; /* follow bad144 2112 1.1 pk * standard */ 2113 1.1 pk iopb->head = i / iorq->xy->nhead; 2114 1.1 pk iopb->sect = i % iorq->xy->nhead; 2115 1.1 pk /* will resubmit when we come out of remove_iorq */ 2116 1.1 pk return (XY_ERR_AOK); /* recovered! */ 2117 1.1 pk } 2118 1.12 drochner #endif 2119 1.1 pk } 2120 1.1 pk 2121 1.1 pk /* 2122 1.1 pk * it isn't a bad144 sector, must be real error! see if we can retry 2123 1.1 pk * it? 2124 1.1 pk */ 2125 1.1 pk if ((iorq->mode & XY_MODE_VERBO) && iorq->lasterror) 2126 1.1 pk xyc_perror(iorq, iopb, 1); /* inform of error state 2127 1.1 pk * change */ 2128 1.1 pk iorq->lasterror = errno; 2129 1.1 pk 2130 1.1 pk if ((erract == XY_ERA_RSET || erract == XY_ERA_HARD) 2131 1.1 pk && iorq->tries < XYC_MAXTRIES) { /* retry? */ 2132 1.1 pk iorq->tries++; 2133 1.1 pk iorq->errno = iopb->errno = iopb->done = iopb->errs = 0; 2134 1.1 pk /* will resubmit at end of remove_iorq */ 2135 1.1 pk return (XY_ERR_AOK); /* recovered! */ 2136 1.1 pk } 2137 1.1 pk 2138 1.1 pk /* failed to recover from this error */ 2139 1.1 pk return (XY_ERR_FAIL); 2140 1.1 pk } 2141 1.1 pk 2142 1.1 pk /* 2143 1.1 pk * xyc_tick: make sure xy is still alive and ticking (err, kicking). 2144 1.1 pk */ 2145 1.1 pk void 2146 1.1 pk xyc_tick(arg) 2147 1.1 pk void *arg; 2148 1.1 pk 2149 1.1 pk { 2150 1.1 pk struct xyc_softc *xycsc = arg; 2151 1.1 pk int lcv, s, reset = 0; 2152 1.1 pk 2153 1.1 pk /* reduce ttl for each request if one goes to zero, reset xyc */ 2154 1.1 pk s = splbio(); 2155 1.1 pk for (lcv = 0; lcv < XYC_MAXIOPB; lcv++) { 2156 1.1 pk if (xycsc->reqs[lcv].mode == 0 || 2157 1.1 pk XY_STATE(xycsc->reqs[lcv].mode) == XY_SUB_DONE) 2158 1.1 pk continue; 2159 1.1 pk xycsc->reqs[lcv].ttl--; 2160 1.1 pk if (xycsc->reqs[lcv].ttl == 0) 2161 1.1 pk reset = 1; 2162 1.1 pk } 2163 1.1 pk if (reset) { 2164 1.1 pk printf("%s: watchdog timeout\n", xycsc->sc_dev.dv_xname); 2165 1.1 pk xyc_reset(xycsc, 0, XY_RSET_NONE, XY_ERR_FAIL, NULL); 2166 1.1 pk } 2167 1.1 pk splx(s); 2168 1.1 pk 2169 1.1 pk /* until next time */ 2170 1.1 pk 2171 1.17 thorpej callout_reset(&xycsc->sc_tick_ch, XYC_TICKCNT, xyc_tick, xycsc); 2172 1.1 pk } 2173 1.1 pk 2174 1.1 pk /* 2175 1.1 pk * xyc_ioctlcmd: this function provides a user level interface to the 2176 1.1 pk * controller via ioctl. this allows "format" programs to be written 2177 1.1 pk * in user code, and is also useful for some debugging. we return 2178 1.1 pk * an error code. called at user priority. 2179 1.1 pk * 2180 1.1 pk * XXX missing a few commands (see the 7053 driver for ideas) 2181 1.1 pk */ 2182 1.1 pk int 2183 1.1 pk xyc_ioctlcmd(xy, dev, xio) 2184 1.1 pk struct xy_softc *xy; 2185 1.1 pk dev_t dev; 2186 1.1 pk struct xd_iocmd *xio; 2187 1.1 pk 2188 1.1 pk { 2189 1.2 pk int s, rqno, dummy = 0; 2190 1.1 pk caddr_t dvmabuf = NULL, buf = NULL; 2191 1.1 pk struct xyc_softc *xycsc; 2192 1.2 pk int rseg, error; 2193 1.2 pk bus_dma_segment_t seg; 2194 1.1 pk 2195 1.1 pk /* check sanity of requested command */ 2196 1.1 pk 2197 1.1 pk switch (xio->cmd) { 2198 1.1 pk 2199 1.1 pk case XYCMD_NOP: /* no op: everything should be zero */ 2200 1.1 pk if (xio->subfn || xio->dptr || xio->dlen || 2201 1.1 pk xio->block || xio->sectcnt) 2202 1.1 pk return (EINVAL); 2203 1.1 pk break; 2204 1.1 pk 2205 1.1 pk case XYCMD_RD: /* read / write sectors (up to XD_IOCMD_MAXS) */ 2206 1.1 pk case XYCMD_WR: 2207 1.1 pk if (xio->subfn || xio->sectcnt > XD_IOCMD_MAXS || 2208 1.1 pk xio->sectcnt * XYFM_BPS != xio->dlen || xio->dptr == NULL) 2209 1.1 pk return (EINVAL); 2210 1.1 pk break; 2211 1.1 pk 2212 1.1 pk case XYCMD_SK: /* seek: doesn't seem useful to export this */ 2213 1.1 pk return (EINVAL); 2214 1.1 pk 2215 1.1 pk break; 2216 1.1 pk 2217 1.1 pk default: 2218 1.1 pk return (EINVAL);/* ??? */ 2219 1.1 pk } 2220 1.1 pk 2221 1.2 pk xycsc = xy->parent; 2222 1.2 pk 2223 1.1 pk /* create DVMA buffer for request if needed */ 2224 1.2 pk if (xio->dlen) { 2225 1.19 pk if ((error = xy_dmamem_alloc(xycsc->dmatag, xycsc->auxmap, 2226 1.19 pk &seg, &rseg, 2227 1.19 pk xio->dlen, &buf, 2228 1.19 pk (bus_addr_t *)&dvmabuf)) != 0) { 2229 1.2 pk return (error); 2230 1.2 pk } 2231 1.1 pk 2232 1.1 pk if (xio->cmd == XYCMD_WR) { 2233 1.2 pk if ((error = copyin(xio->dptr, buf, xio->dlen)) != 0) { 2234 1.2 pk bus_dmamem_unmap(xycsc->dmatag, buf, xio->dlen); 2235 1.2 pk bus_dmamem_free(xycsc->dmatag, &seg, rseg); 2236 1.2 pk return (error); 2237 1.1 pk } 2238 1.1 pk } 2239 1.1 pk } 2240 1.1 pk /* do it! */ 2241 1.1 pk 2242 1.2 pk error = 0; 2243 1.1 pk s = splbio(); 2244 1.1 pk rqno = xyc_cmd(xycsc, xio->cmd, xio->subfn, xy->xy_drive, xio->block, 2245 1.1 pk xio->sectcnt, dvmabuf, XY_SUB_WAIT); 2246 1.1 pk if (rqno == XY_ERR_FAIL) { 2247 1.2 pk error = EIO; 2248 1.1 pk goto done; 2249 1.1 pk } 2250 1.1 pk xio->errno = xycsc->ciorq->errno; 2251 1.1 pk xio->tries = xycsc->ciorq->tries; 2252 1.1 pk XYC_DONE(xycsc, dummy); 2253 1.1 pk 2254 1.1 pk if (xio->cmd == XYCMD_RD) 2255 1.2 pk error = copyout(buf, xio->dptr, xio->dlen); 2256 1.1 pk 2257 1.1 pk done: 2258 1.1 pk splx(s); 2259 1.2 pk if (dvmabuf) { 2260 1.19 pk xy_dmamem_free(xycsc->dmatag, xycsc->auxmap, &seg, rseg, 2261 1.19 pk xio->dlen, buf); 2262 1.2 pk } 2263 1.2 pk return (error); 2264 1.1 pk } 2265 1.1 pk 2266 1.1 pk /* 2267 1.1 pk * xyc_e2str: convert error code number into an error string 2268 1.1 pk */ 2269 1.1 pk char * 2270 1.1 pk xyc_e2str(no) 2271 1.1 pk int no; 2272 1.1 pk { 2273 1.1 pk switch (no) { 2274 1.1 pk case XY_ERR_FAIL: 2275 1.1 pk return ("Software fatal error"); 2276 1.1 pk case XY_ERR_DERR: 2277 1.1 pk return ("DOUBLE ERROR"); 2278 1.1 pk case XY_ERR_AOK: 2279 1.1 pk return ("Successful completion"); 2280 1.1 pk case XY_ERR_IPEN: 2281 1.1 pk return("Interrupt pending"); 2282 1.1 pk case XY_ERR_BCFL: 2283 1.1 pk return("Busy conflict"); 2284 1.1 pk case XY_ERR_TIMO: 2285 1.1 pk return("Operation timeout"); 2286 1.1 pk case XY_ERR_NHDR: 2287 1.1 pk return("Header not found"); 2288 1.1 pk case XY_ERR_HARD: 2289 1.1 pk return("Hard ECC error"); 2290 1.1 pk case XY_ERR_ICYL: 2291 1.1 pk return("Illegal cylinder address"); 2292 1.1 pk case XY_ERR_ISEC: 2293 1.1 pk return("Illegal sector address"); 2294 1.1 pk case XY_ERR_SMAL: 2295 1.1 pk return("Last sector too small"); 2296 1.1 pk case XY_ERR_SACK: 2297 1.1 pk return("Slave ACK error (non-existent memory)"); 2298 1.1 pk case XY_ERR_CHER: 2299 1.1 pk return("Cylinder and head/header error"); 2300 1.1 pk case XY_ERR_SRTR: 2301 1.1 pk return("Auto-seek retry successful"); 2302 1.1 pk case XY_ERR_WPRO: 2303 1.1 pk return("Write-protect error"); 2304 1.1 pk case XY_ERR_UIMP: 2305 1.1 pk return("Unimplemented command"); 2306 1.1 pk case XY_ERR_DNRY: 2307 1.1 pk return("Drive not ready"); 2308 1.1 pk case XY_ERR_SZER: 2309 1.1 pk return("Sector count zero"); 2310 1.1 pk case XY_ERR_DFLT: 2311 1.1 pk return("Drive faulted"); 2312 1.1 pk case XY_ERR_ISSZ: 2313 1.1 pk return("Illegal sector size"); 2314 1.1 pk case XY_ERR_SLTA: 2315 1.1 pk return("Self test A"); 2316 1.1 pk case XY_ERR_SLTB: 2317 1.1 pk return("Self test B"); 2318 1.1 pk case XY_ERR_SLTC: 2319 1.1 pk return("Self test C"); 2320 1.1 pk case XY_ERR_SOFT: 2321 1.1 pk return("Soft ECC error"); 2322 1.1 pk case XY_ERR_SFOK: 2323 1.1 pk return("Soft ECC error recovered"); 2324 1.1 pk case XY_ERR_IHED: 2325 1.1 pk return("Illegal head"); 2326 1.1 pk case XY_ERR_DSEQ: 2327 1.1 pk return("Disk sequencer error"); 2328 1.1 pk case XY_ERR_SEEK: 2329 1.1 pk return("Seek error"); 2330 1.1 pk default: 2331 1.1 pk return ("Unknown error"); 2332 1.1 pk } 2333 1.1 pk } 2334 1.1 pk 2335 1.1 pk int 2336 1.1 pk xyc_entoact(errno) 2337 1.1 pk 2338 1.1 pk int errno; 2339 1.1 pk 2340 1.1 pk { 2341 1.1 pk switch (errno) { 2342 1.1 pk case XY_ERR_FAIL: case XY_ERR_DERR: case XY_ERR_IPEN: 2343 1.1 pk case XY_ERR_BCFL: case XY_ERR_ICYL: case XY_ERR_ISEC: 2344 1.1 pk case XY_ERR_UIMP: case XY_ERR_SZER: case XY_ERR_ISSZ: 2345 1.1 pk case XY_ERR_SLTA: case XY_ERR_SLTB: case XY_ERR_SLTC: 2346 1.1 pk case XY_ERR_IHED: case XY_ERR_SACK: case XY_ERR_SMAL: 2347 1.1 pk 2348 1.1 pk return(XY_ERA_PROG); /* program error ! */ 2349 1.1 pk 2350 1.1 pk case XY_ERR_TIMO: case XY_ERR_NHDR: case XY_ERR_HARD: 2351 1.1 pk case XY_ERR_DNRY: case XY_ERR_CHER: case XY_ERR_SEEK: 2352 1.1 pk case XY_ERR_SOFT: 2353 1.1 pk 2354 1.1 pk return(XY_ERA_HARD); /* hard error, retry */ 2355 1.1 pk 2356 1.1 pk case XY_ERR_DFLT: case XY_ERR_DSEQ: 2357 1.1 pk 2358 1.1 pk return(XY_ERA_RSET); /* hard error reset */ 2359 1.1 pk 2360 1.1 pk case XY_ERR_SRTR: case XY_ERR_SFOK: case XY_ERR_AOK: 2361 1.1 pk 2362 1.1 pk return(XY_ERA_SOFT); /* an FYI error */ 2363 1.1 pk 2364 1.1 pk case XY_ERR_WPRO: 2365 1.1 pk 2366 1.1 pk return(XY_ERA_WPRO); /* write protect */ 2367 1.1 pk } 2368 1.1 pk 2369 1.1 pk return(XY_ERA_PROG); /* ??? */ 2370 1.1 pk } 2371
Indexes created Wed Oct 15 16:09:53 GMT 2025