rd.c revision 1.19.4.1
1 1.19.4.1 yamt /* $NetBSD: rd.c,v 1.19.4.1 2008/05/16 02:23:57 yamt Exp $ */ 2 1.1 gmcgarry 3 1.1 gmcgarry /*- 4 1.1 gmcgarry * Copyright (c) 1996-2003 The NetBSD Foundation, Inc. 5 1.1 gmcgarry * All rights reserved. 6 1.1 gmcgarry * 7 1.1 gmcgarry * This code is derived from software contributed to The NetBSD Foundation 8 1.1 gmcgarry * by Jason R. Thorpe. 9 1.1 gmcgarry * 10 1.1 gmcgarry * Redistribution and use in source and binary forms, with or without 11 1.1 gmcgarry * modification, are permitted provided that the following conditions 12 1.1 gmcgarry * are met: 13 1.1 gmcgarry * 1. Redistributions of source code must retain the above copyright 14 1.1 gmcgarry * notice, this list of conditions and the following disclaimer. 15 1.1 gmcgarry * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 gmcgarry * notice, this list of conditions and the following disclaimer in the 17 1.1 gmcgarry * documentation and/or other materials provided with the distribution. 18 1.1 gmcgarry * 19 1.1 gmcgarry * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 gmcgarry * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 gmcgarry * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 gmcgarry * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 gmcgarry * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 gmcgarry * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 gmcgarry * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 gmcgarry * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 gmcgarry * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 gmcgarry * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 gmcgarry * POSSIBILITY OF SUCH DAMAGE. 30 1.1 gmcgarry */ 31 1.1 gmcgarry 32 1.1 gmcgarry /* 33 1.1 gmcgarry * Copyright (c) 1982, 1990, 1993 34 1.1 gmcgarry * The Regents of the University of California. All rights reserved. 35 1.1 gmcgarry * 36 1.1 gmcgarry * This code is derived from software contributed to Berkeley by 37 1.1 gmcgarry * the Systems Programming Group of the University of Utah Computer 38 1.1 gmcgarry * Science Department. 39 1.1 gmcgarry * 40 1.1 gmcgarry * Redistribution and use in source and binary forms, with or without 41 1.1 gmcgarry * modification, are permitted provided that the following conditions 42 1.1 gmcgarry * are met: 43 1.1 gmcgarry * 1. Redistributions of source code must retain the above copyright 44 1.1 gmcgarry * notice, this list of conditions and the following disclaimer. 45 1.1 gmcgarry * 2. Redistributions in binary form must reproduce the above copyright 46 1.1 gmcgarry * notice, this list of conditions and the following disclaimer in the 47 1.1 gmcgarry * documentation and/or other materials provided with the distribution. 48 1.2 agc * 3. Neither the name of the University nor the names of its contributors 49 1.2 agc * may be used to endorse or promote products derived from this software 50 1.2 agc * without specific prior written permission. 51 1.2 agc * 52 1.2 agc * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 53 1.2 agc * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 54 1.2 agc * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 55 1.2 agc * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 56 1.2 agc * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 57 1.2 agc * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 58 1.2 agc * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 59 1.2 agc * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 60 1.2 agc * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 61 1.2 agc * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 62 1.2 agc * SUCH DAMAGE. 63 1.2 agc * 64 1.2 agc * from: Utah $Hdr: rd.c 1.44 92/12/26$ 65 1.2 agc * 66 1.2 agc * @(#)rd.c 8.2 (Berkeley) 5/19/94 67 1.2 agc */ 68 1.2 agc 69 1.2 agc /* 70 1.2 agc * Copyright (c) 1988 University of Utah. 71 1.2 agc * 72 1.2 agc * This code is derived from software contributed to Berkeley by 73 1.2 agc * the Systems Programming Group of the University of Utah Computer 74 1.2 agc * Science Department. 75 1.2 agc * 76 1.2 agc * Redistribution and use in source and binary forms, with or without 77 1.2 agc * modification, are permitted provided that the following conditions 78 1.2 agc * are met: 79 1.2 agc * 1. Redistributions of source code must retain the above copyright 80 1.2 agc * notice, this list of conditions and the following disclaimer. 81 1.2 agc * 2. Redistributions in binary form must reproduce the above copyright 82 1.2 agc * notice, this list of conditions and the following disclaimer in the 83 1.2 agc * documentation and/or other materials provided with the distribution. 84 1.1 gmcgarry * 3. All advertising materials mentioning features or use of this software 85 1.1 gmcgarry * must display the following acknowledgement: 86 1.1 gmcgarry * This product includes software developed by the University of 87 1.1 gmcgarry * California, Berkeley and its contributors. 88 1.1 gmcgarry * 4. Neither the name of the University nor the names of its contributors 89 1.1 gmcgarry * may be used to endorse or promote products derived from this software 90 1.1 gmcgarry * without specific prior written permission. 91 1.1 gmcgarry * 92 1.1 gmcgarry * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 93 1.1 gmcgarry * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 94 1.1 gmcgarry * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 95 1.1 gmcgarry * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 96 1.1 gmcgarry * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 97 1.1 gmcgarry * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 98 1.1 gmcgarry * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 99 1.1 gmcgarry * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 100 1.1 gmcgarry * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 101 1.1 gmcgarry * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 102 1.1 gmcgarry * SUCH DAMAGE. 103 1.1 gmcgarry * 104 1.1 gmcgarry * from: Utah $Hdr: rd.c 1.44 92/12/26$ 105 1.1 gmcgarry * 106 1.1 gmcgarry * @(#)rd.c 8.2 (Berkeley) 5/19/94 107 1.1 gmcgarry */ 108 1.1 gmcgarry 109 1.1 gmcgarry /* 110 1.1 gmcgarry * CS80/SS80 disk driver 111 1.1 gmcgarry */ 112 1.1 gmcgarry 113 1.1 gmcgarry #include <sys/cdefs.h> 114 1.19.4.1 yamt __KERNEL_RCSID(0, "$NetBSD: rd.c,v 1.19.4.1 2008/05/16 02:23:57 yamt Exp $"); 115 1.1 gmcgarry 116 1.1 gmcgarry #include "rnd.h" 117 1.1 gmcgarry 118 1.1 gmcgarry #include <sys/param.h> 119 1.1 gmcgarry #include <sys/systm.h> 120 1.1 gmcgarry #include <sys/buf.h> 121 1.4 yamt #include <sys/bufq.h> 122 1.1 gmcgarry #include <sys/callout.h> 123 1.1 gmcgarry #include <sys/conf.h> 124 1.1 gmcgarry #include <sys/device.h> 125 1.1 gmcgarry #include <sys/disk.h> 126 1.1 gmcgarry #include <sys/disklabel.h> 127 1.1 gmcgarry #include <sys/endian.h> 128 1.1 gmcgarry #include <sys/fcntl.h> 129 1.1 gmcgarry #include <sys/ioctl.h> 130 1.1 gmcgarry #include <sys/proc.h> 131 1.1 gmcgarry #include <sys/stat.h> 132 1.1 gmcgarry 133 1.1 gmcgarry #if NRND > 0 134 1.1 gmcgarry #include <sys/rnd.h> 135 1.1 gmcgarry #endif 136 1.1 gmcgarry 137 1.1 gmcgarry #include <dev/gpib/gpibvar.h> 138 1.1 gmcgarry #include <dev/gpib/cs80busvar.h> 139 1.1 gmcgarry 140 1.1 gmcgarry #include <dev/gpib/rdreg.h> 141 1.1 gmcgarry 142 1.1 gmcgarry #ifdef DEBUG 143 1.1 gmcgarry int rddebug = 0xff; 144 1.1 gmcgarry #define RDB_FOLLOW 0x01 145 1.1 gmcgarry #define RDB_STATUS 0x02 146 1.1 gmcgarry #define RDB_IDENT 0x04 147 1.1 gmcgarry #define RDB_IO 0x08 148 1.1 gmcgarry #define RDB_ASYNC 0x10 149 1.1 gmcgarry #define RDB_ERROR 0x80 150 1.1 gmcgarry #define DPRINTF(mask, str) if (rddebug & (mask)) printf str 151 1.1 gmcgarry #else 152 1.1 gmcgarry #define DPRINTF(mask, str) /* nothing */ 153 1.1 gmcgarry #endif 154 1.1 gmcgarry 155 1.1 gmcgarry struct rd_softc { 156 1.1 gmcgarry struct device sc_dev; 157 1.1 gmcgarry gpib_chipset_tag_t sc_ic; 158 1.1 gmcgarry gpib_handle_t sc_hdl; 159 1.1 gmcgarry 160 1.1 gmcgarry struct disk sc_dk; 161 1.1 gmcgarry 162 1.1 gmcgarry int sc_slave; /* GPIB slave */ 163 1.1 gmcgarry int sc_punit; /* physical unit on slave */ 164 1.1 gmcgarry 165 1.1 gmcgarry int sc_flags; 166 1.1 gmcgarry #define RDF_ALIVE 0x01 167 1.1 gmcgarry #define RDF_SEEK 0x02 168 1.1 gmcgarry #define RDF_SWAIT 0x04 169 1.1 gmcgarry #define RDF_OPENING 0x08 170 1.1 gmcgarry #define RDF_CLOSING 0x10 171 1.1 gmcgarry #define RDF_WANTED 0x20 172 1.1 gmcgarry #define RDF_WLABEL 0x40 173 1.1 gmcgarry 174 1.1 gmcgarry u_int16_t sc_type; 175 1.1 gmcgarry u_int8_t *sc_addr; 176 1.1 gmcgarry int sc_resid; 177 1.1 gmcgarry struct rd_iocmd sc_ioc; 178 1.6 yamt struct bufq_state *sc_tab; 179 1.1 gmcgarry int sc_active; 180 1.1 gmcgarry int sc_errcnt; 181 1.1 gmcgarry 182 1.1 gmcgarry struct callout sc_restart_ch; 183 1.1 gmcgarry 184 1.1 gmcgarry #if NRND > 0 185 1.1 gmcgarry rndsource_element_t rnd_source; 186 1.1 gmcgarry #endif 187 1.1 gmcgarry }; 188 1.1 gmcgarry 189 1.1 gmcgarry #define RDUNIT(dev) DISKUNIT(dev) 190 1.1 gmcgarry #define RDPART(dev) DISKPART(dev) 191 1.1 gmcgarry #define RDMAKEDEV(maj, unit, part) MAKEDISKDEV(maj, unit, part) 192 1.1 gmcgarry #define RDLABELDEV(dev) (RDMAKEDEV(major(dev), RDUNIT(dev), RAW_PART)) 193 1.1 gmcgarry 194 1.1 gmcgarry #define RDRETRY 5 195 1.1 gmcgarry #define RDWAITC 1 /* min time for timeout in seconds */ 196 1.1 gmcgarry 197 1.1 gmcgarry int rderrthresh = RDRETRY-1; /* when to start reporting errors */ 198 1.1 gmcgarry 199 1.1 gmcgarry /* 200 1.1 gmcgarry * Misc. HW description, indexed by sc_type. 201 1.1 gmcgarry * Used for mapping 256-byte sectors for 512-byte sectors 202 1.1 gmcgarry */ 203 1.1 gmcgarry const struct rdidentinfo { 204 1.1 gmcgarry u_int16_t ri_hwid; /* 2 byte HW id */ 205 1.1 gmcgarry u_int16_t ri_maxunum; /* maximum allowed unit number */ 206 1.14 cube const char *ri_desc; /* drive type description */ 207 1.1 gmcgarry int ri_nbpt; /* DEV_BSIZE blocks per track */ 208 1.1 gmcgarry int ri_ntpc; /* tracks per cylinder */ 209 1.1 gmcgarry int ri_ncyl; /* cylinders per unit */ 210 1.1 gmcgarry int ri_nblocks; /* DEV_BSIZE blocks on disk */ 211 1.1 gmcgarry } rdidentinfo[] = { 212 1.1 gmcgarry { RD7946AID, 0, "7945A", NRD7945ABPT, 213 1.1 gmcgarry NRD7945ATRK, 968, 108416 }, 214 1.1 gmcgarry 215 1.1 gmcgarry { RD9134DID, 1, "9134D", NRD9134DBPT, 216 1.1 gmcgarry NRD9134DTRK, 303, 29088 }, 217 1.1 gmcgarry 218 1.1 gmcgarry { RD9134LID, 1, "9122S", NRD9122SBPT, 219 1.1 gmcgarry NRD9122STRK, 77, 1232 }, 220 1.1 gmcgarry 221 1.1 gmcgarry { RD7912PID, 0, "7912P", NRD7912PBPT, 222 1.1 gmcgarry NRD7912PTRK, 572, 128128 }, 223 1.1 gmcgarry 224 1.1 gmcgarry { RD7914PID, 0, "7914P", NRD7914PBPT, 225 1.1 gmcgarry NRD7914PTRK, 1152, 258048 }, 226 1.1 gmcgarry 227 1.1 gmcgarry { RD7958AID, 0, "7958A", NRD7958ABPT, 228 1.1 gmcgarry NRD7958ATRK, 1013, 255276 }, 229 1.1 gmcgarry 230 1.1 gmcgarry { RD7957AID, 0, "7957A", NRD7957ABPT, 231 1.1 gmcgarry NRD7957ATRK, 1036, 159544 }, 232 1.1 gmcgarry 233 1.1 gmcgarry { RD7933HID, 0, "7933H", NRD7933HBPT, 234 1.1 gmcgarry NRD7933HTRK, 1321, 789958 }, 235 1.1 gmcgarry 236 1.1 gmcgarry { RD9134LID, 1, "9134L", NRD9134LBPT, 237 1.1 gmcgarry NRD9134LTRK, 973, 77840 }, 238 1.1 gmcgarry 239 1.1 gmcgarry { RD7936HID, 0, "7936H", NRD7936HBPT, 240 1.1 gmcgarry NRD7936HTRK, 698, 600978 }, 241 1.1 gmcgarry 242 1.1 gmcgarry { RD7937HID, 0, "7937H", NRD7937HBPT, 243 1.1 gmcgarry NRD7937HTRK, 698, 1116102 }, 244 1.1 gmcgarry 245 1.1 gmcgarry { RD7914CTID, 0, "7914CT", NRD7914PBPT, 246 1.1 gmcgarry NRD7914PTRK, 1152, 258048 }, 247 1.1 gmcgarry 248 1.1 gmcgarry { RD7946AID, 0, "7946A", NRD7945ABPT, 249 1.1 gmcgarry NRD7945ATRK, 968, 108416 }, 250 1.1 gmcgarry 251 1.1 gmcgarry { RD9134LID, 1, "9122D", NRD9122SBPT, 252 1.1 gmcgarry NRD9122STRK, 77, 1232 }, 253 1.1 gmcgarry 254 1.1 gmcgarry { RD7957BID, 0, "7957B", NRD7957BBPT, 255 1.1 gmcgarry NRD7957BTRK, 1269, 159894 }, 256 1.1 gmcgarry 257 1.1 gmcgarry { RD7958BID, 0, "7958B", NRD7958BBPT, 258 1.1 gmcgarry NRD7958BTRK, 786, 297108 }, 259 1.1 gmcgarry 260 1.1 gmcgarry { RD7959BID, 0, "7959B", NRD7959BBPT, 261 1.1 gmcgarry NRD7959BTRK, 1572, 594216 }, 262 1.1 gmcgarry 263 1.1 gmcgarry { RD2200AID, 0, "2200A", NRD2200ABPT, 264 1.1 gmcgarry NRD2200ATRK, 1449, 654948 }, 265 1.1 gmcgarry 266 1.1 gmcgarry { RD2203AID, 0, "2203A", NRD2203ABPT, 267 1.1 gmcgarry NRD2203ATRK, 1449, 1309896 } 268 1.1 gmcgarry }; 269 1.1 gmcgarry int numrdidentinfo = sizeof(rdidentinfo) / sizeof(rdidentinfo[0]); 270 1.1 gmcgarry 271 1.1 gmcgarry int rdlookup(int, int, int); 272 1.1 gmcgarry int rdgetinfo(struct rd_softc *); 273 1.1 gmcgarry void rdrestart(void *); 274 1.1 gmcgarry struct buf *rdfinish(struct rd_softc *, struct buf *); 275 1.1 gmcgarry 276 1.1 gmcgarry void rdgetcompatlabel(struct rd_softc *, struct disklabel *); 277 1.1 gmcgarry void rdgetdefaultlabel(struct rd_softc *, struct disklabel *); 278 1.1 gmcgarry void rdrestart(void *); 279 1.1 gmcgarry void rdustart(struct rd_softc *); 280 1.1 gmcgarry struct buf *rdfinish(struct rd_softc *, struct buf *); 281 1.1 gmcgarry void rdcallback(void *, int); 282 1.1 gmcgarry void rdstart(struct rd_softc *); 283 1.1 gmcgarry void rdintr(struct rd_softc *); 284 1.1 gmcgarry int rderror(struct rd_softc *); 285 1.1 gmcgarry 286 1.1 gmcgarry int rdmatch(struct device *, struct cfdata *, void *); 287 1.1 gmcgarry void rdattach(struct device *, struct device *, void *); 288 1.1 gmcgarry 289 1.1 gmcgarry CFATTACH_DECL(rd, sizeof(struct rd_softc), 290 1.1 gmcgarry rdmatch, rdattach, NULL, NULL); 291 1.1 gmcgarry 292 1.1 gmcgarry 293 1.1 gmcgarry dev_type_open(rdopen); 294 1.1 gmcgarry dev_type_close(rdclose); 295 1.1 gmcgarry dev_type_read(rdread); 296 1.1 gmcgarry dev_type_write(rdwrite); 297 1.1 gmcgarry dev_type_ioctl(rdioctl); 298 1.1 gmcgarry dev_type_strategy(rdstrategy); 299 1.1 gmcgarry dev_type_dump(rddump); 300 1.1 gmcgarry dev_type_size(rdsize); 301 1.1 gmcgarry 302 1.1 gmcgarry const struct bdevsw rd_bdevsw = { 303 1.1 gmcgarry rdopen, rdclose, rdstrategy, rdioctl, rddump, rdsize, D_DISK 304 1.1 gmcgarry }; 305 1.1 gmcgarry 306 1.1 gmcgarry const struct cdevsw rd_cdevsw = { 307 1.1 gmcgarry rdopen, rdclose, rdread, rdwrite, rdioctl, 308 1.1 gmcgarry nostop, notty, nopoll, nommap, nokqfilter, D_DISK 309 1.1 gmcgarry }; 310 1.1 gmcgarry 311 1.1 gmcgarry extern struct cfdriver rd_cd; 312 1.1 gmcgarry 313 1.1 gmcgarry int 314 1.1 gmcgarry rdlookup(id, slave, punit) 315 1.1 gmcgarry int id; 316 1.1 gmcgarry int slave; 317 1.1 gmcgarry int punit; 318 1.1 gmcgarry { 319 1.1 gmcgarry int i; 320 1.1 gmcgarry 321 1.1 gmcgarry for (i = 0; i < numrdidentinfo; i++) { 322 1.1 gmcgarry if (rdidentinfo[i].ri_hwid == id) 323 1.1 gmcgarry break; 324 1.1 gmcgarry } 325 1.1 gmcgarry if (i == numrdidentinfo || punit > rdidentinfo[i].ri_maxunum) 326 1.1 gmcgarry return (-1); 327 1.1 gmcgarry return (i); 328 1.1 gmcgarry } 329 1.1 gmcgarry 330 1.1 gmcgarry int 331 1.1 gmcgarry rdmatch(parent, match, aux) 332 1.1 gmcgarry struct device *parent; 333 1.1 gmcgarry struct cfdata *match; 334 1.1 gmcgarry void *aux; 335 1.1 gmcgarry { 336 1.1 gmcgarry struct cs80bus_attach_args *ca = aux; 337 1.1 gmcgarry 338 1.1 gmcgarry if (rdlookup(ca->ca_id, ca->ca_slave, ca->ca_punit) < 0) 339 1.1 gmcgarry return (0); 340 1.1 gmcgarry return (1); 341 1.1 gmcgarry } 342 1.1 gmcgarry 343 1.1 gmcgarry void 344 1.1 gmcgarry rdattach(parent, self, aux) 345 1.1 gmcgarry struct device *parent, *self; 346 1.1 gmcgarry void *aux; 347 1.1 gmcgarry { 348 1.11 thorpej struct rd_softc *sc = device_private(self); 349 1.1 gmcgarry struct cs80bus_attach_args *ca = aux; 350 1.1 gmcgarry struct cs80_description csd; 351 1.1 gmcgarry char name[7]; 352 1.1 gmcgarry int type, i, n; 353 1.1 gmcgarry 354 1.1 gmcgarry sc->sc_ic = ca->ca_ic; 355 1.1 gmcgarry sc->sc_slave = ca->ca_slave; 356 1.1 gmcgarry sc->sc_punit = ca->ca_punit; 357 1.1 gmcgarry 358 1.1 gmcgarry if ((type = rdlookup(ca->ca_id, ca->ca_slave, ca->ca_punit)) < 0) 359 1.1 gmcgarry return; 360 1.1 gmcgarry 361 1.1 gmcgarry if (cs80reset(parent, sc->sc_slave, sc->sc_punit)) { 362 1.19 cegger aprint_normal("\n"); 363 1.19 cegger aprint_error_dev(&sc->sc_dev, "can't reset device\n"); 364 1.1 gmcgarry return; 365 1.1 gmcgarry } 366 1.1 gmcgarry 367 1.1 gmcgarry if (cs80describe(parent, sc->sc_slave, sc->sc_punit, &csd)) { 368 1.19 cegger aprint_normal("\n"); 369 1.19 cegger aprint_error_dev(&sc->sc_dev, "didn't respond to describe command\n"); 370 1.1 gmcgarry return; 371 1.1 gmcgarry } 372 1.5 perry memset(name, 0, sizeof(name)); 373 1.1 gmcgarry for (i=0, n=0; i<3; i++) { 374 1.1 gmcgarry name[n++] = (csd.d_name[i] >> 4) + '0'; 375 1.1 gmcgarry name[n++] = (csd.d_name[i] & 0x0f) + '0'; 376 1.1 gmcgarry } 377 1.1 gmcgarry 378 1.1 gmcgarry #ifdef DEBUG 379 1.1 gmcgarry if (rddebug & RDB_IDENT) { 380 1.1 gmcgarry printf("\n%s: name: ('%s')\n", 381 1.19 cegger device_xname(&sc->sc_dev), name); 382 1.1 gmcgarry printf(" iuw %x, maxxfr %d, ctype %d\n", 383 1.1 gmcgarry csd.d_iuw, csd.d_cmaxxfr, csd.d_ctype); 384 1.1 gmcgarry printf(" utype %d, bps %d, blkbuf %d, burst %d, blktime %d\n", 385 1.1 gmcgarry csd.d_utype, csd.d_sectsize, 386 1.1 gmcgarry csd.d_blkbuf, csd.d_burstsize, csd.d_blocktime); 387 1.1 gmcgarry printf(" avxfr %d, ort %d, atp %d, maxint %d, fv %x, rv %x\n", 388 1.1 gmcgarry csd.d_uavexfr, csd.d_retry, csd.d_access, 389 1.1 gmcgarry csd.d_maxint, csd.d_fvbyte, csd.d_rvbyte); 390 1.1 gmcgarry printf(" maxcyl/head/sect %d/%d/%d, maxvsect %d, inter %d\n", 391 1.1 gmcgarry csd.d_maxcylhead >> 8, csd.d_maxcylhead & 0xff, 392 1.1 gmcgarry csd.d_maxsect, csd.d_maxvsectl, csd.d_interleave); 393 1.19 cegger printf("%s", device_xname(&sc->sc_dev)); 394 1.1 gmcgarry } 395 1.1 gmcgarry #endif 396 1.1 gmcgarry 397 1.1 gmcgarry /* 398 1.1 gmcgarry * Take care of a couple of anomolies: 399 1.1 gmcgarry * 1. 7945A and 7946A both return same HW id 400 1.1 gmcgarry * 2. 9122S and 9134D both return same HW id 401 1.1 gmcgarry * 3. 9122D and 9134L both return same HW id 402 1.1 gmcgarry */ 403 1.1 gmcgarry switch (ca->ca_id) { 404 1.1 gmcgarry case RD7946AID: 405 1.1 gmcgarry if (memcmp(name, "079450", 6) == 0) 406 1.1 gmcgarry type = RD7945A; 407 1.1 gmcgarry else 408 1.1 gmcgarry type = RD7946A; 409 1.1 gmcgarry break; 410 1.1 gmcgarry 411 1.1 gmcgarry case RD9134LID: 412 1.1 gmcgarry if (memcmp(name, "091340", 6) == 0) 413 1.1 gmcgarry type = RD9134L; 414 1.1 gmcgarry else 415 1.1 gmcgarry type = RD9122D; 416 1.1 gmcgarry break; 417 1.1 gmcgarry 418 1.1 gmcgarry case RD9134DID: 419 1.1 gmcgarry if (memcmp(name, "091220", 6) == 0) 420 1.1 gmcgarry type = RD9122S; 421 1.1 gmcgarry else 422 1.1 gmcgarry type = RD9134D; 423 1.1 gmcgarry break; 424 1.1 gmcgarry } 425 1.1 gmcgarry 426 1.1 gmcgarry sc->sc_type = type; 427 1.1 gmcgarry 428 1.1 gmcgarry /* 429 1.1 gmcgarry * XXX We use DEV_BSIZE instead of the sector size value pulled 430 1.1 gmcgarry * XXX off the driver because all of this code assumes 512 byte 431 1.1 gmcgarry * XXX blocks. ICK! 432 1.1 gmcgarry */ 433 1.1 gmcgarry printf(": %s\n", rdidentinfo[type].ri_desc); 434 1.1 gmcgarry printf("%s: %d cylinders, %d heads, %d blocks, %d bytes/block\n", 435 1.19 cegger device_xname(&sc->sc_dev), rdidentinfo[type].ri_ncyl, 436 1.1 gmcgarry rdidentinfo[type].ri_ntpc, rdidentinfo[type].ri_nblocks, 437 1.1 gmcgarry DEV_BSIZE); 438 1.1 gmcgarry 439 1.6 yamt bufq_alloc(&sc->sc_tab, "fcfs", 0); 440 1.1 gmcgarry 441 1.1 gmcgarry /* 442 1.1 gmcgarry * Initialize and attach the disk structure. 443 1.1 gmcgarry */ 444 1.1 gmcgarry memset(&sc->sc_dk, 0, sizeof(sc->sc_dk)); 445 1.19 cegger disk_init(&sc->sc_dk, device_xname(&sc->sc_dev), NULL); 446 1.1 gmcgarry disk_attach(&sc->sc_dk); 447 1.1 gmcgarry 448 1.16 ad callout_init(&sc->sc_restart_ch, 0); 449 1.1 gmcgarry 450 1.1 gmcgarry if (gpibregister(sc->sc_ic, sc->sc_slave, rdcallback, sc, 451 1.1 gmcgarry &sc->sc_hdl)) { 452 1.19 cegger aprint_error_dev(&sc->sc_dev, "can't register callback\n"); 453 1.1 gmcgarry return; 454 1.1 gmcgarry } 455 1.1 gmcgarry 456 1.1 gmcgarry sc->sc_flags = RDF_ALIVE; 457 1.1 gmcgarry #ifdef DEBUG 458 1.1 gmcgarry /* always report errors */ 459 1.1 gmcgarry if (rddebug & RDB_ERROR) 460 1.1 gmcgarry rderrthresh = 0; 461 1.1 gmcgarry #endif 462 1.1 gmcgarry #if NRND > 0 463 1.1 gmcgarry /* 464 1.1 gmcgarry * attach the device into the random source list 465 1.1 gmcgarry */ 466 1.19 cegger rnd_attach_source(&sc->rnd_source, device_xname(&sc->sc_dev), 467 1.1 gmcgarry RND_TYPE_DISK, 0); 468 1.1 gmcgarry #endif 469 1.1 gmcgarry } 470 1.1 gmcgarry 471 1.1 gmcgarry /* 472 1.8 wiz * Read or construct a disklabel 473 1.1 gmcgarry */ 474 1.1 gmcgarry int 475 1.1 gmcgarry rdgetinfo(sc) 476 1.1 gmcgarry struct rd_softc *sc; 477 1.1 gmcgarry { 478 1.1 gmcgarry struct disklabel *lp = sc->sc_dk.dk_label; 479 1.1 gmcgarry struct partition *pi; 480 1.1 gmcgarry const char *msg; 481 1.1 gmcgarry 482 1.1 gmcgarry memset(sc->sc_dk.dk_cpulabel, 0, sizeof(struct cpu_disklabel)); 483 1.1 gmcgarry 484 1.1 gmcgarry rdgetdefaultlabel(sc, lp); 485 1.1 gmcgarry 486 1.1 gmcgarry /* 487 1.1 gmcgarry * Call the generic disklabel extraction routine 488 1.1 gmcgarry */ 489 1.10 thorpej msg = readdisklabel(RDMAKEDEV(0, device_unit(&sc->sc_dev), RAW_PART), 490 1.1 gmcgarry rdstrategy, lp, NULL); 491 1.1 gmcgarry if (msg == NULL) 492 1.1 gmcgarry return (0); 493 1.1 gmcgarry 494 1.1 gmcgarry pi = lp->d_partitions; 495 1.19 cegger printf("%s: WARNING: %s\n", device_xname(&sc->sc_dev), msg); 496 1.3 thorpej 497 1.1 gmcgarry pi[RAW_PART].p_size = rdidentinfo[sc->sc_type].ri_nblocks; 498 1.1 gmcgarry lp->d_npartitions = RAW_PART+1; 499 1.1 gmcgarry pi[0].p_size = 0; 500 1.3 thorpej 501 1.1 gmcgarry return (0); 502 1.1 gmcgarry } 503 1.1 gmcgarry 504 1.1 gmcgarry int 505 1.14 cube rdopen(dev, flags, mode, l) 506 1.1 gmcgarry dev_t dev; 507 1.1 gmcgarry int flags, mode; 508 1.14 cube struct lwp *l; 509 1.1 gmcgarry { 510 1.1 gmcgarry struct rd_softc *sc; 511 1.1 gmcgarry int error, mask, part; 512 1.1 gmcgarry 513 1.1 gmcgarry sc = device_lookup(&rd_cd, RDUNIT(dev)); 514 1.1 gmcgarry if (sc == NULL || (sc->sc_flags & RDF_ALIVE) ==0) 515 1.1 gmcgarry return (ENXIO); 516 1.1 gmcgarry 517 1.1 gmcgarry /* 518 1.1 gmcgarry * Wait for any pending opens/closes to complete 519 1.1 gmcgarry */ 520 1.1 gmcgarry while (sc->sc_flags & (RDF_OPENING | RDF_CLOSING)) 521 1.1 gmcgarry (void) tsleep(sc, PRIBIO, "rdopen", 0); 522 1.1 gmcgarry 523 1.1 gmcgarry /* 524 1.1 gmcgarry * On first open, get label and partition info. 525 1.1 gmcgarry * We may block reading the label, so be careful 526 1.1 gmcgarry * to stop any other opens. 527 1.1 gmcgarry */ 528 1.1 gmcgarry if (sc->sc_dk.dk_openmask == 0) { 529 1.1 gmcgarry sc->sc_flags |= RDF_OPENING; 530 1.1 gmcgarry error = rdgetinfo(sc); 531 1.1 gmcgarry sc->sc_flags &= ~RDF_OPENING; 532 1.15 christos wakeup((void *)sc); 533 1.1 gmcgarry if (error) 534 1.1 gmcgarry return (error); 535 1.1 gmcgarry } 536 1.1 gmcgarry 537 1.1 gmcgarry part = RDPART(dev); 538 1.1 gmcgarry mask = 1 << part; 539 1.1 gmcgarry 540 1.1 gmcgarry /* Check that the partition exists. */ 541 1.1 gmcgarry if (part != RAW_PART && (part > sc->sc_dk.dk_label->d_npartitions || 542 1.1 gmcgarry sc->sc_dk.dk_label->d_partitions[part].p_fstype == FS_UNUSED)) 543 1.1 gmcgarry return (ENXIO); 544 1.1 gmcgarry 545 1.1 gmcgarry /* Ensure only one open at a time. */ 546 1.1 gmcgarry switch (mode) { 547 1.1 gmcgarry case S_IFCHR: 548 1.1 gmcgarry sc->sc_dk.dk_copenmask |= mask; 549 1.1 gmcgarry break; 550 1.1 gmcgarry case S_IFBLK: 551 1.1 gmcgarry sc->sc_dk.dk_bopenmask |= mask; 552 1.1 gmcgarry break; 553 1.1 gmcgarry } 554 1.1 gmcgarry sc->sc_dk.dk_openmask = 555 1.1 gmcgarry sc->sc_dk.dk_copenmask | sc->sc_dk.dk_bopenmask; 556 1.1 gmcgarry 557 1.1 gmcgarry return (0); 558 1.1 gmcgarry } 559 1.1 gmcgarry 560 1.1 gmcgarry int 561 1.14 cube rdclose(dev, flag, mode, l) 562 1.1 gmcgarry dev_t dev; 563 1.1 gmcgarry int flag, mode; 564 1.14 cube struct lwp *l; 565 1.1 gmcgarry { 566 1.1 gmcgarry struct rd_softc *sc; 567 1.1 gmcgarry struct disk *dk; 568 1.1 gmcgarry int mask, s; 569 1.1 gmcgarry 570 1.1 gmcgarry sc = device_lookup(&rd_cd, RDUNIT(dev)); 571 1.1 gmcgarry if (sc == NULL) 572 1.1 gmcgarry return (ENXIO); 573 1.1 gmcgarry 574 1.1 gmcgarry dk = &sc->sc_dk; 575 1.1 gmcgarry 576 1.1 gmcgarry mask = 1 << RDPART(dev); 577 1.1 gmcgarry if (mode == S_IFCHR) 578 1.1 gmcgarry dk->dk_copenmask &= ~mask; 579 1.1 gmcgarry else 580 1.1 gmcgarry dk->dk_bopenmask &= ~mask; 581 1.1 gmcgarry dk->dk_openmask = dk->dk_copenmask | dk->dk_bopenmask; 582 1.1 gmcgarry /* 583 1.1 gmcgarry * On last close, we wait for all activity to cease since 584 1.1 gmcgarry * the label/parition info will become invalid. Since we 585 1.1 gmcgarry * might sleep, we must block any opens while we are here. 586 1.1 gmcgarry * Note we don't have to about other closes since we know 587 1.1 gmcgarry * we are the last one. 588 1.1 gmcgarry */ 589 1.1 gmcgarry if (dk->dk_openmask == 0) { 590 1.1 gmcgarry sc->sc_flags |= RDF_CLOSING; 591 1.1 gmcgarry s = splbio(); 592 1.1 gmcgarry while (sc->sc_active) { 593 1.1 gmcgarry sc->sc_flags |= RDF_WANTED; 594 1.1 gmcgarry (void) tsleep(&sc->sc_tab, PRIBIO, "rdclose", 0); 595 1.1 gmcgarry } 596 1.1 gmcgarry splx(s); 597 1.1 gmcgarry sc->sc_flags &= ~(RDF_CLOSING | RDF_WLABEL); 598 1.15 christos wakeup((void *)sc); 599 1.1 gmcgarry } 600 1.1 gmcgarry return (0); 601 1.1 gmcgarry } 602 1.1 gmcgarry 603 1.1 gmcgarry void 604 1.1 gmcgarry rdstrategy(bp) 605 1.1 gmcgarry struct buf *bp; 606 1.1 gmcgarry { 607 1.1 gmcgarry struct rd_softc *sc; 608 1.1 gmcgarry struct partition *pinfo; 609 1.1 gmcgarry daddr_t bn; 610 1.1 gmcgarry int sz, s; 611 1.1 gmcgarry int offset; 612 1.1 gmcgarry 613 1.1 gmcgarry sc = device_lookup(&rd_cd, RDUNIT(bp->b_dev)); 614 1.1 gmcgarry 615 1.1 gmcgarry DPRINTF(RDB_FOLLOW, 616 1.1 gmcgarry ("rdstrategy(%p): dev %x, bn %" PRId64 ", bcount %ld, %c\n", 617 1.1 gmcgarry bp, bp->b_dev, bp->b_blkno, bp->b_bcount, 618 1.1 gmcgarry (bp->b_flags & B_READ) ? 'R' : 'W')); 619 1.1 gmcgarry 620 1.1 gmcgarry bn = bp->b_blkno; 621 1.1 gmcgarry sz = howmany(bp->b_bcount, DEV_BSIZE); 622 1.1 gmcgarry pinfo = &sc->sc_dk.dk_label->d_partitions[RDPART(bp->b_dev)]; 623 1.1 gmcgarry 624 1.1 gmcgarry /* Don't perform partition translation on RAW_PART. */ 625 1.1 gmcgarry offset = (RDPART(bp->b_dev) == RAW_PART) ? 0 : pinfo->p_offset; 626 1.1 gmcgarry 627 1.1 gmcgarry if (RDPART(bp->b_dev) != RAW_PART) { 628 1.1 gmcgarry /* 629 1.1 gmcgarry * XXX This block of code belongs in 630 1.1 gmcgarry * XXX bounds_check_with_label() 631 1.1 gmcgarry */ 632 1.1 gmcgarry 633 1.1 gmcgarry if (bn < 0 || bn + sz > pinfo->p_size) { 634 1.1 gmcgarry sz = pinfo->p_size - bn; 635 1.1 gmcgarry if (sz == 0) { 636 1.1 gmcgarry bp->b_resid = bp->b_bcount; 637 1.1 gmcgarry goto done; 638 1.1 gmcgarry } 639 1.1 gmcgarry if (sz < 0) { 640 1.1 gmcgarry bp->b_error = EINVAL; 641 1.17 ad goto done; 642 1.1 gmcgarry } 643 1.1 gmcgarry bp->b_bcount = dbtob(sz); 644 1.1 gmcgarry } 645 1.1 gmcgarry /* 646 1.1 gmcgarry * Check for write to write protected label 647 1.1 gmcgarry */ 648 1.1 gmcgarry if (bn + offset <= LABELSECTOR && 649 1.1 gmcgarry #if LABELSECTOR != 0 650 1.1 gmcgarry bn + offset + sz > LABELSECTOR && 651 1.1 gmcgarry #endif 652 1.1 gmcgarry !(bp->b_flags & B_READ) && !(sc->sc_flags & RDF_WLABEL)) { 653 1.1 gmcgarry bp->b_error = EROFS; 654 1.17 ad goto done; 655 1.1 gmcgarry } 656 1.1 gmcgarry } 657 1.1 gmcgarry bp->b_rawblkno = bn + offset; 658 1.1 gmcgarry s = splbio(); 659 1.6 yamt BUFQ_PUT(sc->sc_tab, bp); 660 1.1 gmcgarry if (sc->sc_active == 0) { 661 1.1 gmcgarry sc->sc_active = 1; 662 1.1 gmcgarry rdustart(sc); 663 1.1 gmcgarry } 664 1.1 gmcgarry splx(s); 665 1.1 gmcgarry return; 666 1.1 gmcgarry done: 667 1.1 gmcgarry biodone(bp); 668 1.1 gmcgarry } 669 1.1 gmcgarry 670 1.1 gmcgarry /* 671 1.1 gmcgarry * Called from timeout() when handling maintenance releases 672 1.1 gmcgarry * callout from timeouts 673 1.1 gmcgarry */ 674 1.1 gmcgarry void 675 1.1 gmcgarry rdrestart(arg) 676 1.1 gmcgarry void *arg; 677 1.1 gmcgarry { 678 1.1 gmcgarry int s = splbio(); 679 1.1 gmcgarry rdustart((struct rd_softc *)arg); 680 1.1 gmcgarry splx(s); 681 1.1 gmcgarry } 682 1.1 gmcgarry 683 1.1 gmcgarry 684 1.1 gmcgarry /* called by rdstrategy() to start a block transfer */ 685 1.1 gmcgarry /* called by rdrestart() when handingly timeouts */ 686 1.1 gmcgarry /* called by rdintr() */ 687 1.1 gmcgarry void 688 1.1 gmcgarry rdustart(sc) 689 1.1 gmcgarry struct rd_softc *sc; 690 1.1 gmcgarry { 691 1.1 gmcgarry struct buf *bp; 692 1.1 gmcgarry 693 1.6 yamt bp = BUFQ_PEEK(sc->sc_tab); 694 1.1 gmcgarry sc->sc_addr = bp->b_data; 695 1.1 gmcgarry sc->sc_resid = bp->b_bcount; 696 1.1 gmcgarry if (gpibrequest(sc->sc_ic, sc->sc_hdl)) 697 1.1 gmcgarry rdstart(sc); 698 1.1 gmcgarry } 699 1.1 gmcgarry 700 1.1 gmcgarry struct buf * 701 1.1 gmcgarry rdfinish(sc, bp) 702 1.1 gmcgarry struct rd_softc *sc; 703 1.1 gmcgarry struct buf *bp; 704 1.1 gmcgarry { 705 1.1 gmcgarry 706 1.1 gmcgarry sc->sc_errcnt = 0; 707 1.6 yamt (void)BUFQ_GET(sc->sc_tab); 708 1.1 gmcgarry bp->b_resid = 0; 709 1.1 gmcgarry biodone(bp); 710 1.1 gmcgarry gpibrelease(sc->sc_ic, sc->sc_hdl); 711 1.6 yamt if ((bp = BUFQ_PEEK(sc->sc_tab)) != NULL) 712 1.1 gmcgarry return (bp); 713 1.1 gmcgarry sc->sc_active = 0; 714 1.1 gmcgarry if (sc->sc_flags & RDF_WANTED) { 715 1.1 gmcgarry sc->sc_flags &= ~RDF_WANTED; 716 1.15 christos wakeup((void *)&sc->sc_tab); 717 1.1 gmcgarry } 718 1.1 gmcgarry return (NULL); 719 1.1 gmcgarry } 720 1.1 gmcgarry 721 1.1 gmcgarry void 722 1.1 gmcgarry rdcallback(v, action) 723 1.1 gmcgarry void *v; 724 1.1 gmcgarry int action; 725 1.1 gmcgarry { 726 1.1 gmcgarry struct rd_softc *sc = v; 727 1.1 gmcgarry 728 1.1 gmcgarry DPRINTF(RDB_FOLLOW, ("rdcallback: v=%p, action=%d\n", v, action)); 729 1.1 gmcgarry 730 1.1 gmcgarry switch (action) { 731 1.1 gmcgarry case GPIBCBF_START: 732 1.1 gmcgarry rdstart(sc); 733 1.1 gmcgarry break; 734 1.1 gmcgarry case GPIBCBF_INTR: 735 1.1 gmcgarry rdintr(sc); 736 1.1 gmcgarry break; 737 1.1 gmcgarry #ifdef DEBUG 738 1.1 gmcgarry default: 739 1.1 gmcgarry DPRINTF(RDB_ERROR, ("rdcallback: unknown action %d\n", 740 1.1 gmcgarry action)); 741 1.1 gmcgarry break; 742 1.1 gmcgarry #endif 743 1.1 gmcgarry } 744 1.1 gmcgarry } 745 1.1 gmcgarry 746 1.1 gmcgarry 747 1.1 gmcgarry /* called from rdustart() to start a transfer */ 748 1.1 gmcgarry /* called from gpib interface as the initiator */ 749 1.1 gmcgarry void 750 1.1 gmcgarry rdstart(sc) 751 1.1 gmcgarry struct rd_softc *sc; 752 1.1 gmcgarry { 753 1.6 yamt struct buf *bp = BUFQ_PEEK(sc->sc_tab); 754 1.1 gmcgarry int part, slave, punit; 755 1.1 gmcgarry 756 1.1 gmcgarry slave = sc->sc_slave; 757 1.1 gmcgarry punit = sc->sc_punit; 758 1.1 gmcgarry 759 1.1 gmcgarry DPRINTF(RDB_FOLLOW, ("rdstart(%s): bp %p, %c\n", 760 1.19 cegger device_xname(&sc->sc_dev), bp, (bp->b_flags & B_READ) ? 'R' : 'W')); 761 1.1 gmcgarry 762 1.1 gmcgarry again: 763 1.1 gmcgarry 764 1.1 gmcgarry part = RDPART(bp->b_dev); 765 1.1 gmcgarry sc->sc_flags |= RDF_SEEK; 766 1.1 gmcgarry sc->sc_ioc.c_unit = CS80CMD_SUNIT(punit); 767 1.1 gmcgarry sc->sc_ioc.c_volume = CS80CMD_SVOL(0); 768 1.1 gmcgarry sc->sc_ioc.c_saddr = CS80CMD_SADDR; 769 1.1 gmcgarry sc->sc_ioc.c_hiaddr = htobe16(0); 770 1.1 gmcgarry sc->sc_ioc.c_addr = htobe32(RDBTOS(bp->b_rawblkno)); 771 1.1 gmcgarry sc->sc_ioc.c_nop2 = CS80CMD_NOP; 772 1.1 gmcgarry sc->sc_ioc.c_slen = CS80CMD_SLEN; 773 1.1 gmcgarry sc->sc_ioc.c_len = htobe32(sc->sc_resid); 774 1.1 gmcgarry sc->sc_ioc.c_cmd = bp->b_flags & B_READ ? CS80CMD_READ : CS80CMD_WRITE; 775 1.1 gmcgarry 776 1.1 gmcgarry if (gpibsend(sc->sc_ic, slave, CS80CMD_SCMD, &sc->sc_ioc.c_unit, 777 1.1 gmcgarry sizeof(sc->sc_ioc)-1) == sizeof(sc->sc_ioc)-1) { 778 1.1 gmcgarry /* Instrumentation. */ 779 1.1 gmcgarry disk_busy(&sc->sc_dk); 780 1.12 blymn iostat_seek(sc->sc_dk.dk_stats); 781 1.1 gmcgarry gpibawait(sc->sc_ic); 782 1.1 gmcgarry return; 783 1.1 gmcgarry } 784 1.1 gmcgarry /* 785 1.1 gmcgarry * Experience has shown that the gpibwait in this gpibsend will 786 1.1 gmcgarry * occasionally timeout. It appears to occur mostly on old 7914 787 1.1 gmcgarry * drives with full maintenance tracks. We should probably 788 1.1 gmcgarry * integrate this with the backoff code in rderror. 789 1.1 gmcgarry */ 790 1.1 gmcgarry 791 1.1 gmcgarry DPRINTF(RDB_ERROR, 792 1.1 gmcgarry ("rdstart: cmd %x adr %ul blk %" PRId64 " len %d ecnt %d\n", 793 1.1 gmcgarry sc->sc_ioc.c_cmd, sc->sc_ioc.c_addr, bp->b_blkno, sc->sc_resid, 794 1.1 gmcgarry sc->sc_errcnt)); 795 1.1 gmcgarry 796 1.1 gmcgarry sc->sc_flags &= ~RDF_SEEK; 797 1.9 thorpej cs80reset(device_parent(&sc->sc_dev), slave, punit); 798 1.1 gmcgarry if (sc->sc_errcnt++ < RDRETRY) 799 1.1 gmcgarry goto again; 800 1.1 gmcgarry printf("%s: rdstart err: cmd 0x%x sect %uld blk %" PRId64 " len %d\n", 801 1.19 cegger device_xname(&sc->sc_dev), sc->sc_ioc.c_cmd, sc->sc_ioc.c_addr, 802 1.1 gmcgarry bp->b_blkno, sc->sc_resid); 803 1.1 gmcgarry bp->b_error = EIO; 804 1.1 gmcgarry bp = rdfinish(sc, bp); 805 1.1 gmcgarry if (bp) { 806 1.1 gmcgarry sc->sc_addr = bp->b_data; 807 1.1 gmcgarry sc->sc_resid = bp->b_bcount; 808 1.1 gmcgarry if (gpibrequest(sc->sc_ic, sc->sc_hdl)) 809 1.1 gmcgarry goto again; 810 1.1 gmcgarry } 811 1.1 gmcgarry } 812 1.1 gmcgarry 813 1.1 gmcgarry void 814 1.1 gmcgarry rdintr(sc) 815 1.1 gmcgarry struct rd_softc *sc; 816 1.1 gmcgarry { 817 1.1 gmcgarry struct buf *bp; 818 1.1 gmcgarry u_int8_t stat = 13; /* in case gpibrecv fails */ 819 1.1 gmcgarry int rv, dir, restart, slave; 820 1.1 gmcgarry 821 1.1 gmcgarry slave = sc->sc_slave; 822 1.6 yamt bp = BUFQ_PEEK(sc->sc_tab); 823 1.1 gmcgarry 824 1.1 gmcgarry DPRINTF(RDB_FOLLOW, ("rdintr(%s): bp %p, %c, flags %x\n", 825 1.19 cegger device_xname(&sc->sc_dev), bp, (bp->b_flags & B_READ) ? 'R' : 'W', 826 1.1 gmcgarry sc->sc_flags)); 827 1.1 gmcgarry 828 1.1 gmcgarry disk_unbusy(&sc->sc_dk, (bp->b_bcount - bp->b_resid), 829 1.1 gmcgarry (bp->b_flags & B_READ)); 830 1.1 gmcgarry 831 1.1 gmcgarry if (sc->sc_flags & RDF_SEEK) { 832 1.1 gmcgarry sc->sc_flags &= ~RDF_SEEK; 833 1.1 gmcgarry dir = (bp->b_flags & B_READ ? GPIB_READ : GPIB_WRITE); 834 1.1 gmcgarry gpibxfer(sc->sc_ic, slave, CS80CMD_EXEC, sc->sc_addr, 835 1.1 gmcgarry sc->sc_resid, dir, dir == GPIB_READ); 836 1.1 gmcgarry disk_busy(&sc->sc_dk); 837 1.1 gmcgarry return; 838 1.1 gmcgarry } 839 1.1 gmcgarry if ((sc->sc_flags & RDF_SWAIT) == 0) { 840 1.1 gmcgarry if (gpibpptest(sc->sc_ic, slave) == 0) { 841 1.1 gmcgarry /* Instrumentation. */ 842 1.1 gmcgarry disk_busy(&sc->sc_dk); 843 1.1 gmcgarry sc->sc_flags |= RDF_SWAIT; 844 1.1 gmcgarry gpibawait(sc->sc_ic); 845 1.1 gmcgarry return; 846 1.1 gmcgarry } 847 1.1 gmcgarry } else 848 1.1 gmcgarry sc->sc_flags &= ~RDF_SWAIT; 849 1.1 gmcgarry rv = gpibrecv(sc->sc_ic, slave, CS80CMD_QSTAT, &stat, 1); 850 1.1 gmcgarry if (rv != 1 || stat) { 851 1.1 gmcgarry DPRINTF(RDB_ERROR, 852 1.1 gmcgarry ("rdintr: receive failed (rv=%d) or bad stat %d\n", rv, 853 1.1 gmcgarry stat)); 854 1.1 gmcgarry restart = rderror(sc); 855 1.1 gmcgarry if (sc->sc_errcnt++ < RDRETRY) { 856 1.1 gmcgarry if (restart) 857 1.1 gmcgarry rdstart(sc); 858 1.1 gmcgarry return; 859 1.1 gmcgarry } 860 1.1 gmcgarry bp->b_error = EIO; 861 1.1 gmcgarry } 862 1.1 gmcgarry if (rdfinish(sc, bp) != NULL) 863 1.1 gmcgarry rdustart(sc); 864 1.1 gmcgarry #if NRND > 0 865 1.1 gmcgarry rnd_add_uint32(&sc->rnd_source, bp->b_blkno); 866 1.1 gmcgarry #endif 867 1.1 gmcgarry } 868 1.1 gmcgarry 869 1.1 gmcgarry /* 870 1.1 gmcgarry * Deal with errors. 871 1.1 gmcgarry * Returns 1 if request should be restarted, 872 1.1 gmcgarry * 0 if we should just quietly give up. 873 1.1 gmcgarry */ 874 1.1 gmcgarry int 875 1.1 gmcgarry rderror(sc) 876 1.1 gmcgarry struct rd_softc *sc; 877 1.1 gmcgarry { 878 1.1 gmcgarry struct cs80_stat css; 879 1.1 gmcgarry struct buf *bp; 880 1.1 gmcgarry daddr_t hwbn, pbn; 881 1.1 gmcgarry 882 1.1 gmcgarry DPRINTF(RDB_FOLLOW, ("rderror: sc=%p\n", sc)); 883 1.1 gmcgarry 884 1.9 thorpej if (cs80status(device_parent(&sc->sc_dev), sc->sc_slave, 885 1.1 gmcgarry sc->sc_punit, &css)) { 886 1.9 thorpej cs80reset(device_parent(&sc->sc_dev), sc->sc_slave, 887 1.9 thorpej sc->sc_punit); 888 1.1 gmcgarry return (1); 889 1.1 gmcgarry } 890 1.1 gmcgarry #ifdef DEBUG 891 1.1 gmcgarry if (rddebug & RDB_ERROR) { /* status info */ 892 1.1 gmcgarry printf("\n volume: %d, unit: %d\n", 893 1.1 gmcgarry (css.c_vu>>4)&0xF, css.c_vu&0xF); 894 1.1 gmcgarry printf(" reject 0x%x\n", css.c_ref); 895 1.1 gmcgarry printf(" fault 0x%x\n", css.c_fef); 896 1.1 gmcgarry printf(" access 0x%x\n", css.c_aef); 897 1.1 gmcgarry printf(" info 0x%x\n", css.c_ief); 898 1.1 gmcgarry printf(" block, P1-P10: "); 899 1.1 gmcgarry printf("0x%x", *(u_int32_t *)&css.c_raw[0]); 900 1.1 gmcgarry printf("0x%x", *(u_int32_t *)&css.c_raw[4]); 901 1.1 gmcgarry printf("0x%x\n", *(u_int16_t *)&css.c_raw[8]); 902 1.1 gmcgarry } 903 1.1 gmcgarry #endif 904 1.1 gmcgarry if (css.c_fef & FEF_REXMT) 905 1.1 gmcgarry return (1); 906 1.1 gmcgarry if (css.c_fef & FEF_PF) { 907 1.9 thorpej cs80reset(device_parent(&sc->sc_dev), sc->sc_slave, 908 1.9 thorpej sc->sc_punit); 909 1.1 gmcgarry return (1); 910 1.1 gmcgarry } 911 1.1 gmcgarry /* 912 1.1 gmcgarry * Unit requests release for internal maintenance. 913 1.1 gmcgarry * We just delay awhile and try again later. Use expontially 914 1.1 gmcgarry * increasing backoff ala ethernet drivers since we don't really 915 1.1 gmcgarry * know how long the maintenance will take. With RDWAITC and 916 1.1 gmcgarry * RDRETRY as defined, the range is 1 to 32 seconds. 917 1.1 gmcgarry */ 918 1.1 gmcgarry if (css.c_fef & FEF_IMR) { 919 1.1 gmcgarry extern int hz; 920 1.1 gmcgarry int rdtimo = RDWAITC << sc->sc_errcnt; 921 1.1 gmcgarry DPRINTF(RDB_STATUS, 922 1.1 gmcgarry ("%s: internal maintenance, %d-second timeout\n", 923 1.19 cegger device_xname(&sc->sc_dev), rdtimo)); 924 1.1 gmcgarry gpibrelease(sc->sc_ic, sc->sc_hdl); 925 1.1 gmcgarry callout_reset(&sc->sc_restart_ch, rdtimo * hz, rdrestart, sc); 926 1.1 gmcgarry return (0); 927 1.1 gmcgarry } 928 1.1 gmcgarry /* 929 1.1 gmcgarry * Only report error if we have reached the error reporting 930 1.1 gmcgarry * threshhold. By default, this will only report after the 931 1.1 gmcgarry * retry limit has been exceeded. 932 1.1 gmcgarry */ 933 1.1 gmcgarry if (sc->sc_errcnt < rderrthresh) 934 1.1 gmcgarry return (1); 935 1.1 gmcgarry 936 1.1 gmcgarry /* 937 1.1 gmcgarry * First conjure up the block number at which the error occurred. 938 1.1 gmcgarry */ 939 1.6 yamt bp = BUFQ_PEEK(sc->sc_tab); 940 1.1 gmcgarry pbn = sc->sc_dk.dk_label->d_partitions[RDPART(bp->b_dev)].p_offset; 941 1.1 gmcgarry if ((css.c_fef & FEF_CU) || (css.c_fef & FEF_DR) || 942 1.1 gmcgarry (css.c_ief & IEF_RRMASK)) { 943 1.1 gmcgarry /* 944 1.1 gmcgarry * Not all errors report a block number, just use b_blkno. 945 1.1 gmcgarry */ 946 1.1 gmcgarry hwbn = RDBTOS(pbn + bp->b_blkno); 947 1.1 gmcgarry pbn = bp->b_blkno; 948 1.1 gmcgarry } else { 949 1.1 gmcgarry hwbn = css.c_blk; 950 1.1 gmcgarry pbn = RDSTOB(hwbn) - pbn; 951 1.1 gmcgarry } 952 1.1 gmcgarry #ifdef DEBUG 953 1.1 gmcgarry if (rddebug & RDB_ERROR) { /* status info */ 954 1.1 gmcgarry printf("\n volume: %d, unit: %d\n", 955 1.1 gmcgarry (css.c_vu>>4)&0xF, css.c_vu&0xF); 956 1.1 gmcgarry printf(" reject 0x%x\n", css.c_ref); 957 1.1 gmcgarry printf(" fault 0x%x\n", css.c_fef); 958 1.1 gmcgarry printf(" access 0x%x\n", css.c_aef); 959 1.1 gmcgarry printf(" info 0x%x\n", css.c_ief); 960 1.1 gmcgarry printf(" block, P1-P10: "); 961 1.1 gmcgarry printf(" block: %" PRId64 ", P1-P10: ", hwbn); 962 1.1 gmcgarry printf("0x%x", *(u_int32_t *)&css.c_raw[0]); 963 1.1 gmcgarry printf("0x%x", *(u_int32_t *)&css.c_raw[4]); 964 1.1 gmcgarry printf("0x%x\n", *(u_int16_t *)&css.c_raw[8]); 965 1.1 gmcgarry } 966 1.1 gmcgarry #endif 967 1.1 gmcgarry #ifdef DEBUG 968 1.1 gmcgarry if (rddebug & RDB_ERROR) { /* command */ 969 1.1 gmcgarry printf(" ioc: "); 970 1.1 gmcgarry printf("0x%x", *(u_int32_t *)&sc->sc_ioc.c_pad); 971 1.1 gmcgarry printf("0x%x", *(u_int16_t *)&sc->sc_ioc.c_hiaddr); 972 1.1 gmcgarry printf("0x%x", *(u_int32_t *)&sc->sc_ioc.c_addr); 973 1.1 gmcgarry printf("0x%x", *(u_int16_t *)&sc->sc_ioc.c_nop2); 974 1.1 gmcgarry printf("0x%x", *(u_int32_t *)&sc->sc_ioc.c_len); 975 1.1 gmcgarry printf("0x%x\n", *(u_int16_t *)&sc->sc_ioc.c_cmd); 976 1.1 gmcgarry return (1); 977 1.1 gmcgarry } 978 1.1 gmcgarry #endif 979 1.1 gmcgarry /* 980 1.1 gmcgarry * Now output a generic message suitable for badsect. 981 1.1 gmcgarry * Note that we don't use harderr because it just prints 982 1.1 gmcgarry * out b_blkno which is just the beginning block number 983 1.1 gmcgarry * of the transfer, not necessary where the error occurred. 984 1.1 gmcgarry */ 985 1.1 gmcgarry printf("%s%c: hard error, sector number %" PRId64 "\n", 986 1.19 cegger device_xname(&sc->sc_dev), 'a'+RDPART(bp->b_dev), pbn); 987 1.1 gmcgarry /* 988 1.1 gmcgarry * Now report the status as returned by the hardware with 989 1.1 gmcgarry * attempt at interpretation. 990 1.1 gmcgarry */ 991 1.19 cegger printf("%s %s error:", device_xname(&sc->sc_dev), 992 1.1 gmcgarry (bp->b_flags & B_READ) ? "read" : "write"); 993 1.1 gmcgarry printf(" unit %d, volume %d R0x%x F0x%x A0x%x I0x%x\n", 994 1.1 gmcgarry css.c_vu&0xF, (css.c_vu>>4)&0xF, 995 1.1 gmcgarry css.c_ref, css.c_fef, css.c_aef, css.c_ief); 996 1.1 gmcgarry printf("P1-P10: "); 997 1.1 gmcgarry printf("0x%x ", *(u_int32_t *)&css.c_raw[0]); 998 1.1 gmcgarry printf("0x%x ", *(u_int32_t *)&css.c_raw[4]); 999 1.1 gmcgarry printf("0x%x\n", *(u_int16_t *)&css.c_raw[8]); 1000 1.1 gmcgarry 1001 1.1 gmcgarry return (1); 1002 1.1 gmcgarry } 1003 1.1 gmcgarry 1004 1.1 gmcgarry int 1005 1.1 gmcgarry rdread(dev, uio, flags) 1006 1.1 gmcgarry dev_t dev; 1007 1.1 gmcgarry struct uio *uio; 1008 1.1 gmcgarry int flags; 1009 1.1 gmcgarry { 1010 1.1 gmcgarry 1011 1.1 gmcgarry return (physio(rdstrategy, NULL, dev, B_READ, minphys, uio)); 1012 1.1 gmcgarry } 1013 1.1 gmcgarry 1014 1.1 gmcgarry int 1015 1.1 gmcgarry rdwrite(dev, uio, flags) 1016 1.1 gmcgarry dev_t dev; 1017 1.1 gmcgarry struct uio *uio; 1018 1.1 gmcgarry int flags; 1019 1.1 gmcgarry { 1020 1.1 gmcgarry 1021 1.1 gmcgarry return (physio(rdstrategy, NULL, dev, B_WRITE, minphys, uio)); 1022 1.1 gmcgarry } 1023 1.1 gmcgarry 1024 1.1 gmcgarry int 1025 1.14 cube rdioctl(dev, cmd, data, flag, l) 1026 1.1 gmcgarry dev_t dev; 1027 1.1 gmcgarry u_long cmd; 1028 1.15 christos void *data; 1029 1.1 gmcgarry int flag; 1030 1.14 cube struct lwp *l; 1031 1.1 gmcgarry { 1032 1.1 gmcgarry struct rd_softc *sc; 1033 1.1 gmcgarry struct disklabel *lp; 1034 1.1 gmcgarry int error, flags; 1035 1.1 gmcgarry 1036 1.1 gmcgarry sc = device_lookup(&rd_cd, RDUNIT(dev)); 1037 1.1 gmcgarry if (sc == NULL) 1038 1.1 gmcgarry return (ENXIO); 1039 1.1 gmcgarry lp = sc->sc_dk.dk_label; 1040 1.1 gmcgarry 1041 1.1 gmcgarry DPRINTF(RDB_FOLLOW, ("rdioctl: sc=%p\n", sc)); 1042 1.1 gmcgarry 1043 1.1 gmcgarry switch (cmd) { 1044 1.1 gmcgarry case DIOCGDINFO: 1045 1.1 gmcgarry *(struct disklabel *)data = *lp; 1046 1.1 gmcgarry return (0); 1047 1.1 gmcgarry 1048 1.1 gmcgarry case DIOCGPART: 1049 1.1 gmcgarry ((struct partinfo *)data)->disklab = lp; 1050 1.1 gmcgarry ((struct partinfo *)data)->part = 1051 1.1 gmcgarry &lp->d_partitions[RDPART(dev)]; 1052 1.1 gmcgarry return (0); 1053 1.1 gmcgarry 1054 1.1 gmcgarry case DIOCWLABEL: 1055 1.1 gmcgarry if ((flag & FWRITE) == 0) 1056 1.1 gmcgarry return (EBADF); 1057 1.1 gmcgarry if (*(int *)data) 1058 1.1 gmcgarry sc->sc_flags |= RDF_WLABEL; 1059 1.1 gmcgarry else 1060 1.1 gmcgarry sc->sc_flags &= ~RDF_WLABEL; 1061 1.1 gmcgarry return (0); 1062 1.1 gmcgarry 1063 1.1 gmcgarry case DIOCSDINFO: 1064 1.1 gmcgarry if ((flag & FWRITE) == 0) 1065 1.1 gmcgarry return (EBADF); 1066 1.1 gmcgarry return (setdisklabel(lp, (struct disklabel *)data, 1067 1.1 gmcgarry (sc->sc_flags & RDF_WLABEL) ? 0 : sc->sc_dk.dk_openmask, 1068 1.1 gmcgarry (struct cpu_disklabel *)0)); 1069 1.1 gmcgarry 1070 1.1 gmcgarry case DIOCWDINFO: 1071 1.1 gmcgarry if ((flag & FWRITE) == 0) 1072 1.1 gmcgarry return (EBADF); 1073 1.1 gmcgarry error = setdisklabel(lp, (struct disklabel *)data, 1074 1.1 gmcgarry (sc->sc_flags & RDF_WLABEL) ? 0 : sc->sc_dk.dk_openmask, 1075 1.1 gmcgarry (struct cpu_disklabel *)0); 1076 1.1 gmcgarry if (error) 1077 1.1 gmcgarry return (error); 1078 1.1 gmcgarry flags = sc->sc_flags; 1079 1.1 gmcgarry sc->sc_flags = RDF_ALIVE | RDF_WLABEL; 1080 1.1 gmcgarry error = writedisklabel(RDLABELDEV(dev), rdstrategy, lp, 1081 1.1 gmcgarry (struct cpu_disklabel *)0); 1082 1.1 gmcgarry sc->sc_flags = flags; 1083 1.1 gmcgarry return (error); 1084 1.1 gmcgarry 1085 1.1 gmcgarry case DIOCGDEFLABEL: 1086 1.1 gmcgarry rdgetdefaultlabel(sc, (struct disklabel *)data); 1087 1.1 gmcgarry return (0); 1088 1.1 gmcgarry } 1089 1.1 gmcgarry return (EINVAL); 1090 1.1 gmcgarry } 1091 1.1 gmcgarry 1092 1.1 gmcgarry void 1093 1.1 gmcgarry rdgetdefaultlabel(sc, lp) 1094 1.1 gmcgarry struct rd_softc *sc; 1095 1.1 gmcgarry struct disklabel *lp; 1096 1.1 gmcgarry { 1097 1.1 gmcgarry int type = sc->sc_type; 1098 1.1 gmcgarry 1099 1.15 christos memset((void *)lp, 0, sizeof(struct disklabel)); 1100 1.1 gmcgarry 1101 1.1 gmcgarry lp->d_type = DTYPE_GPIB; 1102 1.1 gmcgarry lp->d_secsize = DEV_BSIZE; 1103 1.1 gmcgarry lp->d_nsectors = rdidentinfo[type].ri_nbpt; 1104 1.1 gmcgarry lp->d_ntracks = rdidentinfo[type].ri_ntpc; 1105 1.1 gmcgarry lp->d_ncylinders = rdidentinfo[type].ri_ncyl; 1106 1.1 gmcgarry lp->d_secpercyl = lp->d_ntracks * lp->d_nsectors; 1107 1.1 gmcgarry lp->d_secperunit = lp->d_ncylinders * lp->d_secpercyl; 1108 1.1 gmcgarry 1109 1.1 gmcgarry strncpy(lp->d_typename, rdidentinfo[type].ri_desc, 16); 1110 1.1 gmcgarry strncpy(lp->d_packname, "fictitious", 16); 1111 1.1 gmcgarry lp->d_rpm = 3000; 1112 1.1 gmcgarry lp->d_interleave = 1; 1113 1.1 gmcgarry lp->d_flags = 0; 1114 1.1 gmcgarry 1115 1.1 gmcgarry lp->d_partitions[RAW_PART].p_offset = 0; 1116 1.1 gmcgarry lp->d_partitions[RAW_PART].p_size = 1117 1.1 gmcgarry lp->d_secperunit * (lp->d_secsize / DEV_BSIZE); 1118 1.1 gmcgarry lp->d_partitions[RAW_PART].p_fstype = FS_UNUSED; 1119 1.1 gmcgarry lp->d_npartitions = RAW_PART + 1; 1120 1.1 gmcgarry 1121 1.1 gmcgarry lp->d_magic = DISKMAGIC; 1122 1.1 gmcgarry lp->d_magic2 = DISKMAGIC; 1123 1.1 gmcgarry lp->d_checksum = dkcksum(lp); 1124 1.1 gmcgarry } 1125 1.1 gmcgarry 1126 1.1 gmcgarry int 1127 1.1 gmcgarry rdsize(dev) 1128 1.1 gmcgarry dev_t dev; 1129 1.1 gmcgarry { 1130 1.1 gmcgarry struct rd_softc *sc; 1131 1.1 gmcgarry int psize, didopen = 0; 1132 1.1 gmcgarry 1133 1.1 gmcgarry sc = device_lookup(&rd_cd, RDUNIT(dev)); 1134 1.1 gmcgarry if (sc == NULL || (sc->sc_flags & RDF_ALIVE) == 0) 1135 1.1 gmcgarry return (-1); 1136 1.1 gmcgarry 1137 1.1 gmcgarry /* 1138 1.1 gmcgarry * We get called very early on (via swapconf) 1139 1.1 gmcgarry * without the device being open so we may need 1140 1.1 gmcgarry * to handle it here. 1141 1.1 gmcgarry */ 1142 1.1 gmcgarry if (sc->sc_dk.dk_openmask == 0) { 1143 1.1 gmcgarry if (rdopen(dev, FREAD | FWRITE, S_IFBLK, NULL)) 1144 1.1 gmcgarry return (-1); 1145 1.1 gmcgarry didopen = 1; 1146 1.1 gmcgarry } 1147 1.1 gmcgarry psize = sc->sc_dk.dk_label->d_partitions[RDPART(dev)].p_size * 1148 1.1 gmcgarry (sc->sc_dk.dk_label->d_secsize / DEV_BSIZE); 1149 1.1 gmcgarry if (didopen) 1150 1.1 gmcgarry (void) rdclose(dev, FREAD | FWRITE, S_IFBLK, NULL); 1151 1.1 gmcgarry return (psize); 1152 1.1 gmcgarry } 1153 1.1 gmcgarry 1154 1.1 gmcgarry 1155 1.1 gmcgarry static int rddoingadump; /* simple mutex */ 1156 1.1 gmcgarry 1157 1.1 gmcgarry /* 1158 1.1 gmcgarry * Non-interrupt driven, non-dma dump routine. 1159 1.1 gmcgarry */ 1160 1.1 gmcgarry int 1161 1.1 gmcgarry rddump(dev, blkno, va, size) 1162 1.1 gmcgarry dev_t dev; 1163 1.1 gmcgarry daddr_t blkno; 1164 1.15 christos void *va; 1165 1.1 gmcgarry size_t size; 1166 1.1 gmcgarry { 1167 1.1 gmcgarry struct rd_softc *sc; 1168 1.1 gmcgarry int sectorsize; /* size of a disk sector */ 1169 1.1 gmcgarry int nsects; /* number of sectors in partition */ 1170 1.1 gmcgarry int sectoff; /* sector offset of partition */ 1171 1.1 gmcgarry int totwrt; /* total number of sectors left to write */ 1172 1.1 gmcgarry int nwrt; /* current number of sectors to write */ 1173 1.1 gmcgarry int slave; 1174 1.1 gmcgarry struct disklabel *lp; 1175 1.1 gmcgarry u_int8_t stat; 1176 1.1 gmcgarry 1177 1.1 gmcgarry /* Check for recursive dump; if so, punt. */ 1178 1.1 gmcgarry if (rddoingadump) 1179 1.1 gmcgarry return (EFAULT); 1180 1.1 gmcgarry rddoingadump = 1; 1181 1.1 gmcgarry 1182 1.1 gmcgarry sc = device_lookup(&rd_cd, RDUNIT(dev)); 1183 1.1 gmcgarry if (sc == NULL || (sc->sc_flags & RDF_ALIVE) == 0) 1184 1.1 gmcgarry return (ENXIO); 1185 1.1 gmcgarry 1186 1.1 gmcgarry DPRINTF(RDB_FOLLOW, ("rddump: sc=%p\n", sc)); 1187 1.1 gmcgarry 1188 1.1 gmcgarry slave = sc->sc_slave; 1189 1.1 gmcgarry 1190 1.1 gmcgarry /* 1191 1.1 gmcgarry * Convert to disk sectors. Request must be a multiple of size. 1192 1.1 gmcgarry */ 1193 1.1 gmcgarry lp = sc->sc_dk.dk_label; 1194 1.1 gmcgarry sectorsize = lp->d_secsize; 1195 1.1 gmcgarry if ((size % sectorsize) != 0) 1196 1.1 gmcgarry return (EFAULT); 1197 1.1 gmcgarry totwrt = size / sectorsize; 1198 1.1 gmcgarry blkno = dbtob(blkno) / sectorsize; /* blkno in DEV_BSIZE units */ 1199 1.1 gmcgarry 1200 1.1 gmcgarry nsects = lp->d_partitions[RDPART(dev)].p_size; 1201 1.1 gmcgarry sectoff = lp->d_partitions[RDPART(dev)].p_offset; 1202 1.1 gmcgarry 1203 1.1 gmcgarry /* Check transfer bounds against partition size. */ 1204 1.1 gmcgarry if ((blkno < 0) || (blkno + totwrt) > nsects) 1205 1.1 gmcgarry return (EINVAL); 1206 1.1 gmcgarry 1207 1.1 gmcgarry /* Offset block number to start of partition. */ 1208 1.1 gmcgarry blkno += sectoff; 1209 1.1 gmcgarry 1210 1.1 gmcgarry while (totwrt > 0) { 1211 1.1 gmcgarry nwrt = totwrt; /* XXX */ 1212 1.1 gmcgarry #ifndef RD_DUMP_NOT_TRUSTED 1213 1.1 gmcgarry /* 1214 1.1 gmcgarry * Fill out and send GPIB command. 1215 1.1 gmcgarry */ 1216 1.1 gmcgarry sc->sc_ioc.c_unit = CS80CMD_SUNIT(sc->sc_punit); 1217 1.1 gmcgarry sc->sc_ioc.c_volume = CS80CMD_SVOL(0); 1218 1.1 gmcgarry sc->sc_ioc.c_saddr = CS80CMD_SADDR; 1219 1.1 gmcgarry sc->sc_ioc.c_hiaddr = 0; 1220 1.1 gmcgarry sc->sc_ioc.c_addr = RDBTOS(blkno); 1221 1.1 gmcgarry sc->sc_ioc.c_nop2 = CS80CMD_NOP; 1222 1.1 gmcgarry sc->sc_ioc.c_slen = CS80CMD_SLEN; 1223 1.1 gmcgarry sc->sc_ioc.c_len = nwrt * sectorsize; 1224 1.1 gmcgarry sc->sc_ioc.c_cmd = CS80CMD_WRITE; 1225 1.1 gmcgarry (void) gpibsend(sc->sc_ic, slave, CS80CMD_SCMD, 1226 1.1 gmcgarry &sc->sc_ioc.c_unit, sizeof(sc->sc_ioc)-3); 1227 1.1 gmcgarry if (gpibswait(sc->sc_ic, slave)) 1228 1.1 gmcgarry return (EIO); 1229 1.1 gmcgarry /* 1230 1.1 gmcgarry * Send the data. 1231 1.1 gmcgarry */ 1232 1.1 gmcgarry (void) gpibsend(sc->sc_ic, slave, CS80CMD_EXEC, va, 1233 1.1 gmcgarry nwrt * sectorsize); 1234 1.1 gmcgarry (void) gpibswait(sc->sc_ic, slave); 1235 1.1 gmcgarry (void) gpibrecv(sc->sc_ic, slave, CS80CMD_QSTAT, &stat, 1); 1236 1.1 gmcgarry if (stat) 1237 1.1 gmcgarry return (EIO); 1238 1.1 gmcgarry #else /* RD_DUMP_NOT_TRUSTED */ 1239 1.1 gmcgarry /* Let's just talk about this first... */ 1240 1.19 cegger printf("%s: dump addr %p, blk %d\n", device_xname(&sc->sc_dev), 1241 1.1 gmcgarry va, blkno); 1242 1.1 gmcgarry delay(500 * 1000); /* half a second */ 1243 1.1 gmcgarry #endif /* RD_DUMP_NOT_TRUSTED */ 1244 1.1 gmcgarry 1245 1.1 gmcgarry /* update block count */ 1246 1.1 gmcgarry totwrt -= nwrt; 1247 1.1 gmcgarry blkno += nwrt; 1248 1.1 gmcgarry va += sectorsize * nwrt; 1249 1.1 gmcgarry } 1250 1.1 gmcgarry rddoingadump = 0; 1251 1.1 gmcgarry return (0); 1252 1.1 gmcgarry } 1253
Indexes created Thu Oct 02 01:09:59 GMT 2025