rf.c revision 1.29.4.3
1 1.29.4.3 skrll /* $NetBSD: rf.c,v 1.29.4.3 2015/12/27 12:09:58 skrll Exp $ */ 2 1.1 ragge /* 3 1.1 ragge * Copyright (c) 2002 Jochen Kunz. 4 1.1 ragge * All rights reserved. 5 1.1 ragge * 6 1.1 ragge * Redistribution and use in source and binary forms, with or without 7 1.1 ragge * modification, are permitted provided that the following conditions 8 1.1 ragge * are met: 9 1.1 ragge * 1. Redistributions of source code must retain the above copyright 10 1.1 ragge * notice, this list of conditions and the following disclaimer. 11 1.1 ragge * 2. Redistributions in binary form must reproduce the above copyright 12 1.1 ragge * notice, this list of conditions and the following disclaimer in the 13 1.1 ragge * documentation and/or other materials provided with the distribution. 14 1.1 ragge * 3. The name of Jochen Kunz may not be used to endorse or promote 15 1.1 ragge * products derived from this software without specific prior 16 1.1 ragge * written permission. 17 1.1 ragge * 18 1.1 ragge * THIS SOFTWARE IS PROVIDED BY JOCHEN KUNZ 19 1.1 ragge * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 20 1.1 ragge * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 21 1.1 ragge * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL JOCHEN KUNZ 22 1.1 ragge * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 23 1.1 ragge * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 24 1.1 ragge * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 25 1.1 ragge * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 26 1.1 ragge * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 27 1.1 ragge * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 28 1.1 ragge * POSSIBILITY OF SUCH DAMAGE. 29 1.1 ragge */ 30 1.1 ragge 31 1.1 ragge /* 32 1.1 ragge TODO: 33 1.1 ragge - Better LBN bound checking, block padding for SD disks. 34 1.6 wiz - Formatting / "Set Density" 35 1.29 ryoon - Better error handling / detailed error reason reporting. 36 1.1 ragge */ 37 1.3 lukem 38 1.3 lukem #include <sys/cdefs.h> 39 1.29.4.3 skrll __KERNEL_RCSID(0, "$NetBSD: rf.c,v 1.29.4.3 2015/12/27 12:09:58 skrll Exp $"); 40 1.1 ragge 41 1.1 ragge /* autoconfig stuff */ 42 1.1 ragge #include <sys/param.h> 43 1.1 ragge #include <sys/device.h> 44 1.1 ragge #include <sys/conf.h> 45 1.1 ragge #include "locators.h" 46 1.1 ragge #include "ioconf.h" 47 1.1 ragge 48 1.1 ragge /* bus_space / bus_dma */ 49 1.17 ad #include <sys/bus.h> 50 1.1 ragge 51 1.1 ragge /* UniBus / QBus specific stuff */ 52 1.1 ragge #include <dev/qbus/ubavar.h> 53 1.1 ragge 54 1.1 ragge /* disk interface */ 55 1.1 ragge #include <sys/types.h> 56 1.1 ragge #include <sys/disklabel.h> 57 1.1 ragge #include <sys/disk.h> 58 1.1 ragge 59 1.1 ragge /* general system data and functions */ 60 1.1 ragge #include <sys/systm.h> 61 1.1 ragge #include <sys/ioctl.h> 62 1.1 ragge #include <sys/ioccom.h> 63 1.1 ragge 64 1.1 ragge /* physio / buffer handling */ 65 1.1 ragge #include <sys/buf.h> 66 1.7 yamt #include <sys/bufq.h> 67 1.1 ragge 68 1.1 ragge /* tsleep / sleep / wakeup */ 69 1.1 ragge #include <sys/proc.h> 70 1.1 ragge /* hz for above */ 71 1.1 ragge #include <sys/kernel.h> 72 1.1 ragge 73 1.1 ragge /* bitdefinitions for RX211 */ 74 1.1 ragge #include <dev/qbus/rfreg.h> 75 1.1 ragge 76 1.1 ragge 77 1.1 ragge #define RFS_DENS 0x0001 /* single or double density */ 78 1.1 ragge #define RFS_AD 0x0002 /* density auto detect */ 79 1.1 ragge #define RFS_NOTINIT 0x0000 /* not initialized */ 80 1.1 ragge #define RFS_PROBING 0x0010 /* density detect / verify started */ 81 1.1 ragge #define RFS_FBUF 0x0020 /* Fill Buffer */ 82 1.1 ragge #define RFS_EBUF 0x0030 /* Empty Buffer */ 83 1.1 ragge #define RFS_WSEC 0x0040 /* Write Sector */ 84 1.1 ragge #define RFS_RSEC 0x0050 /* Read Sector */ 85 1.1 ragge #define RFS_SMD 0x0060 /* Set Media Density */ 86 1.1 ragge #define RFS_RSTAT 0x0070 /* Read Status */ 87 1.1 ragge #define RFS_WDDS 0x0080 /* Write Deleted Data Sector */ 88 1.1 ragge #define RFS_REC 0x0090 /* Read Error Code */ 89 1.1 ragge #define RFS_IDLE 0x00a0 /* controller is idle */ 90 1.1 ragge #define RFS_CMDS 0x00f0 /* command mask */ 91 1.4 ragge #define RFS_OPEN_A 0x0100 /* partition a open */ 92 1.4 ragge #define RFS_OPEN_B 0x0200 /* partition b open */ 93 1.4 ragge #define RFS_OPEN_C 0x0400 /* partition c open */ 94 1.4 ragge #define RFS_OPEN_MASK 0x0f00 /* mask for open partitions */ 95 1.4 ragge #define RFS_OPEN_SHIFT 8 /* to shift 1 to get RFS_OPEN_A */ 96 1.1 ragge #define RFS_SETCMD(rf, state) ((rf) = ((rf) & ~RFS_CMDS) | (state)) 97 1.1 ragge 98 1.1 ragge 99 1.1 ragge 100 1.1 ragge /* autoconfig stuff */ 101 1.19 matt static int rfc_match(device_t, cfdata_t, void *); 102 1.19 matt static void rfc_attach(device_t, device_t, void *); 103 1.19 matt static int rf_match(device_t, cfdata_t, void *); 104 1.19 matt static void rf_attach(device_t, device_t, void *); 105 1.1 ragge static int rf_print(void *, const char *); 106 1.1 ragge 107 1.6 wiz /* device interface functions / interface to disk(9) */ 108 1.1 ragge dev_type_open(rfopen); 109 1.1 ragge dev_type_close(rfclose); 110 1.1 ragge dev_type_read(rfread); 111 1.1 ragge dev_type_write(rfwrite); 112 1.1 ragge dev_type_ioctl(rfioctl); 113 1.1 ragge dev_type_strategy(rfstrategy); 114 1.1 ragge dev_type_dump(rfdump); 115 1.1 ragge dev_type_size(rfsize); 116 1.1 ragge 117 1.1 ragge 118 1.1 ragge /* Entries in block and character major device number switch table. */ 119 1.1 ragge const struct bdevsw rf_bdevsw = { 120 1.26 dholland .d_open = rfopen, 121 1.26 dholland .d_close = rfclose, 122 1.26 dholland .d_strategy = rfstrategy, 123 1.26 dholland .d_ioctl = rfioctl, 124 1.26 dholland .d_dump = rfdump, 125 1.26 dholland .d_psize = rfsize, 126 1.27 dholland .d_discard = nodiscard, 127 1.26 dholland .d_flag = D_DISK 128 1.1 ragge }; 129 1.1 ragge 130 1.1 ragge const struct cdevsw rf_cdevsw = { 131 1.26 dholland .d_open = rfopen, 132 1.26 dholland .d_close = rfclose, 133 1.26 dholland .d_read = rfread, 134 1.26 dholland .d_write = rfwrite, 135 1.26 dholland .d_ioctl = rfioctl, 136 1.26 dholland .d_stop = nostop, 137 1.26 dholland .d_tty = notty, 138 1.26 dholland .d_poll = nopoll, 139 1.26 dholland .d_mmap = nommap, 140 1.26 dholland .d_kqfilter = nokqfilter, 141 1.28 dholland .d_discard = nodiscard, 142 1.26 dholland .d_flag = D_DISK 143 1.1 ragge }; 144 1.1 ragge 145 1.1 ragge 146 1.1 ragge 147 1.1 ragge struct rfc_softc { 148 1.19 matt device_t sc_dev; /* common device data */ 149 1.19 matt device_t sc_childs[2]; /* child devices */ 150 1.1 ragge struct evcnt sc_intr_count; /* Interrupt counter for statistics */ 151 1.1 ragge struct buf *sc_curbuf; /* buf that is currently in work */ 152 1.6 wiz bus_space_tag_t sc_iot; /* bus_space I/O tag */ 153 1.6 wiz bus_space_handle_t sc_ioh; /* bus_space I/O handle */ 154 1.1 ragge bus_dma_tag_t sc_dmat; /* bus_dma DMA tag */ 155 1.1 ragge bus_dmamap_t sc_dmam; /* bus_dma DMA map */ 156 1.13 christos void *sc_bufidx; /* current position in buffer data */ 157 1.1 ragge int sc_curchild; /* child whos bufq is in work */ 158 1.1 ragge int sc_bytesleft; /* bytes left to transfer */ 159 1.1 ragge u_int8_t type; /* controller type, 1 or 2 */ 160 1.1 ragge }; 161 1.1 ragge 162 1.1 ragge 163 1.1 ragge 164 1.19 matt CFATTACH_DECL_NEW( 165 1.1 ragge rfc, 166 1.1 ragge sizeof(struct rfc_softc), 167 1.1 ragge rfc_match, 168 1.1 ragge rfc_attach, 169 1.1 ragge NULL, 170 1.8 simonb NULL 171 1.1 ragge ); 172 1.1 ragge 173 1.1 ragge 174 1.1 ragge 175 1.1 ragge struct rf_softc { 176 1.19 matt device_t sc_dev; /* common device data */ 177 1.1 ragge struct disk sc_disk; /* common disk device data */ 178 1.19 matt struct rfc_softc *sc_rfc; /* our parent */ 179 1.9 yamt struct bufq_state *sc_bufq; /* queue of pending transfers */ 180 1.1 ragge int sc_state; /* state of drive */ 181 1.1 ragge u_int8_t sc_dnum; /* drive number, 0 or 1 */ 182 1.1 ragge }; 183 1.1 ragge 184 1.1 ragge 185 1.1 ragge 186 1.19 matt CFATTACH_DECL_NEW( 187 1.1 ragge rf, 188 1.1 ragge sizeof(struct rf_softc), 189 1.1 ragge rf_match, 190 1.1 ragge rf_attach, 191 1.1 ragge NULL, 192 1.1 ragge NULL 193 1.1 ragge ); 194 1.1 ragge 195 1.1 ragge 196 1.1 ragge 197 1.1 ragge struct rfc_attach_args { 198 1.1 ragge u_int8_t type; /* controller type, 1 or 2 */ 199 1.1 ragge u_int8_t dnum; /* drive number, 0 or 1 */ 200 1.1 ragge }; 201 1.1 ragge 202 1.1 ragge 203 1.1 ragge 204 1.19 matt const struct dkdriver rfdkdriver = { 205 1.29.4.2 skrll .d_strategy = rfstrategy 206 1.1 ragge }; 207 1.1 ragge 208 1.1 ragge 209 1.1 ragge 210 1.1 ragge /* helper functions */ 211 1.1 ragge int rfc_sendcmd(struct rfc_softc *, int, int, int); 212 1.4 ragge struct rf_softc* get_new_buf( struct rfc_softc *); 213 1.1 ragge static void rfc_intr(void *); 214 1.1 ragge 215 1.1 ragge 216 1.1 ragge 217 1.1 ragge /* 218 1.1 ragge * Issue a reset command to the controller and look for the bits in 219 1.1 ragge * RX2CS and RX2ES. 220 1.1 ragge * RX2CS_RX02 and / or RX2CS_DD can be set, 221 1.1 ragge * RX2ES has to be set, all other bits must be 0 222 1.1 ragge */ 223 1.1 ragge int 224 1.19 matt rfc_match(device_t parent, cfdata_t match, void *aux) 225 1.1 ragge { 226 1.1 ragge struct uba_attach_args *ua = aux; 227 1.1 ragge int i; 228 1.1 ragge 229 1.1 ragge /* Issue reset command. */ 230 1.1 ragge bus_space_write_2(ua->ua_iot, ua->ua_ioh, RX2CS, RX2CS_INIT); 231 1.1 ragge /* Wait for the controller to become ready, that is when 232 1.1 ragge * RX2CS_DONE, RX2ES_RDY and RX2ES_ID are set. */ 233 1.1 ragge for (i = 0 ; i < 20 ; i++) { 234 1.1 ragge if ((bus_space_read_2(ua->ua_iot, ua->ua_ioh, RX2CS) 235 1.1 ragge & RX2CS_DONE) != 0 236 1.1 ragge && (bus_space_read_2(ua->ua_iot, ua->ua_ioh, RX2ES) 237 1.1 ragge & (RX2ES_RDY | RX2ES_ID)) != 0) 238 1.1 ragge break; 239 1.1 ragge DELAY(100000); /* wait 100ms */ 240 1.1 ragge } 241 1.1 ragge /* 242 1.1 ragge * Give up if the timeout has elapsed 243 1.1 ragge * and the controller is not ready. 244 1.1 ragge */ 245 1.1 ragge if (i >= 20) 246 1.1 ragge return(0); 247 1.1 ragge /* 248 1.1 ragge * Issue a Read Status command with interrupt enabled. 249 1.1 ragge * The uba(4) driver wants to catch the interrupt to get the 250 1.1 ragge * interrupt vector and level of the device 251 1.1 ragge */ 252 1.1 ragge bus_space_write_2(ua->ua_iot, ua->ua_ioh, RX2CS, 253 1.1 ragge RX2CS_RSTAT | RX2CS_IE); 254 1.1 ragge /* 255 1.1 ragge * Wait for command to finish, ignore errors and 256 1.1 ragge * abort if the controller does not respond within the timeout 257 1.1 ragge */ 258 1.1 ragge for (i = 0 ; i < 20 ; i++) { 259 1.1 ragge if ((bus_space_read_2(ua->ua_iot, ua->ua_ioh, RX2CS) 260 1.1 ragge & (RX2CS_DONE | RX2CS_IE)) != 0 261 1.1 ragge && (bus_space_read_2(ua->ua_iot, ua->ua_ioh, RX2ES) 262 1.1 ragge & RX2ES_RDY) != 0 ) 263 1.1 ragge return(1); 264 1.1 ragge DELAY(100000); /* wait 100ms */ 265 1.1 ragge } 266 1.1 ragge return(0); 267 1.1 ragge } 268 1.1 ragge 269 1.1 ragge 270 1.1 ragge 271 1.1 ragge /* #define RX02_PROBE 1 */ 272 1.1 ragge #ifdef RX02_PROBE 273 1.1 ragge /* 274 1.1 ragge * Probe the density of an inserted floppy disk. 275 1.1 ragge * This is done by reading a sector from disk. 276 1.1 ragge * Return -1 on error, 0 on SD and 1 on DD. 277 1.1 ragge */ 278 1.1 ragge int rfcprobedens(struct rfc_softc *, int); 279 1.1 ragge int 280 1.1 ragge rfcprobedens(struct rfc_softc *rfc_sc, int dnum) 281 1.1 ragge { 282 1.1 ragge int dens_flag; 283 1.1 ragge int i; 284 1.1 ragge 285 1.1 ragge dens_flag = 0; 286 1.1 ragge do { 287 1.1 ragge bus_space_write_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2CS, 288 1.1 ragge RX2CS_RSEC | (dens_flag == 0 ? 0 : RX2CS_DD) 289 1.1 ragge | (dnum == 0 ? 0 : RX2CS_US)); 290 1.1 ragge /* 291 1.1 ragge * Transfer request set? 292 1.1 ragge * Wait 50us, the controller needs this time to setle 293 1.1 ragge */ 294 1.1 ragge DELAY(50); 295 1.1 ragge if ((bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2CS) 296 1.1 ragge & RX2CS_TR) == 0) { 297 1.1 ragge printf("%s: did not respond to Read Sector CMD(1)\n", 298 1.19 matt device_xname(rfc_sc->sc_dev)); 299 1.1 ragge return(-1); 300 1.1 ragge } 301 1.1 ragge bus_space_write_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2SA, 1); 302 1.1 ragge /* Wait 50us, the controller needs this time to setle */ 303 1.1 ragge DELAY(50); 304 1.1 ragge if ((bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2CS) 305 1.1 ragge & RX2CS_TR) == 0) { 306 1.1 ragge printf("%s: did not respond to Read Sector CMD(2)\n", 307 1.19 matt device_xname(rfc_sc->sc_dev)); 308 1.1 ragge return(-1); 309 1.1 ragge } 310 1.1 ragge bus_space_write_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2TA, 1); 311 1.1 ragge /* Wait for the command to finish */ 312 1.1 ragge for (i = 0 ; i < 200 ; i++) { 313 1.1 ragge if ((bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, 314 1.1 ragge RX2CS) & RX2CS_DONE) != 0) 315 1.1 ragge break; 316 1.1 ragge DELAY(10000); /* wait 10ms */ 317 1.1 ragge } 318 1.1 ragge if (i >= 200) { 319 1.1 ragge printf("%s: did not respond to Read Sector CMD(3)\n", 320 1.19 matt device_xname(rfc_sc->sc_dev)); 321 1.1 ragge return(-1); 322 1.1 ragge } 323 1.1 ragge if ((bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2CS) 324 1.1 ragge & RX2CS_ERR) == 0) 325 1.1 ragge return(dens_flag); 326 1.1 ragge } while (rfc_sc->type == 2 && dens_flag++ == 0); 327 1.1 ragge return(-1); 328 1.1 ragge } 329 1.1 ragge #endif /* RX02_PROBE */ 330 1.1 ragge 331 1.1 ragge 332 1.1 ragge 333 1.1 ragge void 334 1.19 matt rfc_attach(device_t parent, device_t self, void *aux) 335 1.1 ragge { 336 1.12 thorpej struct rfc_softc *rfc_sc = device_private(self); 337 1.1 ragge struct uba_attach_args *ua = aux; 338 1.1 ragge struct rfc_attach_args rfc_aa; 339 1.1 ragge int i; 340 1.1 ragge 341 1.19 matt rfc_sc->sc_dev = self; 342 1.1 ragge rfc_sc->sc_iot = ua->ua_iot; 343 1.1 ragge rfc_sc->sc_ioh = ua->ua_ioh; 344 1.1 ragge rfc_sc->sc_dmat = ua->ua_dmat; 345 1.1 ragge rfc_sc->sc_curbuf = NULL; 346 1.1 ragge /* Tell the QBus busdriver about our interrupt handler. */ 347 1.1 ragge uba_intr_establish(ua->ua_icookie, ua->ua_cvec, rfc_intr, rfc_sc, 348 1.1 ragge &rfc_sc->sc_intr_count); 349 1.1 ragge /* Attach to the interrupt counter, see evcnt(9) */ 350 1.1 ragge evcnt_attach_dynamic(&rfc_sc->sc_intr_count, EVCNT_TYPE_INTR, 351 1.19 matt ua->ua_evcnt, device_xname(rfc_sc->sc_dev), "intr"); 352 1.1 ragge /* get a bus_dma(9) handle */ 353 1.1 ragge i = bus_dmamap_create(rfc_sc->sc_dmat, RX2_BYTE_DD, 1, RX2_BYTE_DD, 0, 354 1.1 ragge BUS_DMA_ALLOCNOW, &rfc_sc->sc_dmam); 355 1.1 ragge if (i != 0) { 356 1.4 ragge printf("rfc_attach: Error creating bus dma map: %d\n", i); 357 1.1 ragge return; 358 1.1 ragge } 359 1.1 ragge 360 1.1 ragge /* Issue reset command. */ 361 1.1 ragge bus_space_write_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2CS, RX2CS_INIT); 362 1.1 ragge /* 363 1.1 ragge * Wait for the controller to become ready, that is when 364 1.1 ragge * RX2CS_DONE, RX2ES_RDY and RX2ES_ID are set. 365 1.1 ragge */ 366 1.1 ragge for (i = 0 ; i < 20 ; i++) { 367 1.1 ragge if ((bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2CS) 368 1.1 ragge & RX2CS_DONE) != 0 369 1.1 ragge && (bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2ES) 370 1.1 ragge & (RX2ES_RDY | RX2ES_ID)) != 0) 371 1.1 ragge break; 372 1.1 ragge DELAY(100000); /* wait 100ms */ 373 1.1 ragge } 374 1.1 ragge /* 375 1.1 ragge * Give up if the timeout has elapsed 376 1.1 ragge * and the controller is not ready. 377 1.1 ragge */ 378 1.1 ragge if (i >= 20) { 379 1.1 ragge printf(": did not respond to INIT CMD\n"); 380 1.1 ragge return; 381 1.1 ragge } 382 1.1 ragge /* Is ths a RX01 or a RX02? */ 383 1.1 ragge if ((bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2CS) 384 1.1 ragge & RX2CS_RX02) != 0) { 385 1.1 ragge rfc_sc->type = 2; 386 1.1 ragge rfc_aa.type = 2; 387 1.1 ragge } else { 388 1.1 ragge rfc_sc->type = 1; 389 1.1 ragge rfc_aa.type = 1; 390 1.1 ragge } 391 1.1 ragge printf(": RX0%d\n", rfc_sc->type); 392 1.1 ragge 393 1.1 ragge #ifndef RX02_PROBE 394 1.1 ragge /* 395 1.1 ragge * Bouth disk drievs and the controller are one physical unit. 396 1.1 ragge * If we found the controller, there will be bouth disk drievs. 397 1.1 ragge * So attach them. 398 1.1 ragge */ 399 1.1 ragge rfc_aa.dnum = 0; 400 1.19 matt rfc_sc->sc_childs[0] = config_found(rfc_sc->sc_dev, &rfc_aa, rf_print); 401 1.1 ragge rfc_aa.dnum = 1; 402 1.19 matt rfc_sc->sc_childs[1] = config_found(rfc_sc->sc_dev, &rfc_aa, rf_print); 403 1.1 ragge #else /* RX02_PROBE */ 404 1.1 ragge /* 405 1.1 ragge * There are clones of the DEC RX system with standard shugart 406 1.1 ragge * interface. In this case we can not be sure that there are 407 1.1 ragge * bouth disk drievs. So we want to do a detection of attached 408 1.1 ragge * drives. This is done by reading a sector from disk. This means 409 1.6 wiz * that there must be a formatted disk in the drive at boot time. 410 1.6 wiz * This is bad, but I did not find another way to detect the 411 1.1 ragge * (non)existence of a floppy drive. 412 1.1 ragge */ 413 1.1 ragge if (rfcprobedens(rfc_sc, 0) >= 0) { 414 1.1 ragge rfc_aa.dnum = 0; 415 1.25 chs rfc_sc->sc_childs[0] = config_found(rfc_sc->sc_dev, &rfc_aa, 416 1.1 ragge rf_print); 417 1.1 ragge } else 418 1.1 ragge rfc_sc->sc_childs[0] = NULL; 419 1.1 ragge if (rfcprobedens(rfc_sc, 1) >= 0) { 420 1.1 ragge rfc_aa.dnum = 1; 421 1.25 chs rfc_sc->sc_childs[1] = config_found(rfc_sc->sc_dev, &rfc_aa, 422 1.1 ragge rf_print); 423 1.1 ragge } else 424 1.1 ragge rfc_sc->sc_childs[1] = NULL; 425 1.1 ragge #endif /* RX02_PROBE */ 426 1.1 ragge return; 427 1.1 ragge } 428 1.1 ragge 429 1.1 ragge 430 1.1 ragge 431 1.1 ragge int 432 1.19 matt rf_match(device_t parent, cfdata_t match, void *aux) 433 1.1 ragge { 434 1.1 ragge struct rfc_attach_args *rfc_aa = aux; 435 1.1 ragge 436 1.1 ragge /* 437 1.1 ragge * Only attach if the locator is wildcarded or 438 1.1 ragge * if the specified locator addresses the current device. 439 1.1 ragge */ 440 1.1 ragge if (match->cf_loc[RFCCF_DRIVE] == RFCCF_DRIVE_DEFAULT || 441 1.1 ragge match->cf_loc[RFCCF_DRIVE] == rfc_aa->dnum) 442 1.1 ragge return(1); 443 1.1 ragge return(0); 444 1.1 ragge } 445 1.1 ragge 446 1.1 ragge 447 1.1 ragge 448 1.1 ragge void 449 1.19 matt rf_attach(device_t parent, device_t self, void *aux) 450 1.1 ragge { 451 1.12 thorpej struct rf_softc *rf_sc = device_private(self); 452 1.19 matt struct rfc_softc *rfc_sc = device_private(parent); 453 1.1 ragge struct rfc_attach_args *rfc_aa = (struct rfc_attach_args *)aux; 454 1.1 ragge struct disklabel *dl; 455 1.1 ragge 456 1.19 matt rf_sc->sc_dev = self; 457 1.19 matt rf_sc->sc_rfc = rfc_sc; 458 1.1 ragge rf_sc->sc_dnum = rfc_aa->dnum; 459 1.1 ragge rf_sc->sc_state = 0; 460 1.19 matt disk_init(&rf_sc->sc_disk, device_xname(rf_sc->sc_dev), &rfdkdriver); 461 1.1 ragge disk_attach(&rf_sc->sc_disk); 462 1.1 ragge dl = rf_sc->sc_disk.dk_label; 463 1.29.4.1 skrll dl->d_type = DKTYPE_FLOPPY; /* drive type */ 464 1.1 ragge dl->d_magic = DISKMAGIC; /* the magic number */ 465 1.1 ragge dl->d_magic2 = DISKMAGIC; 466 1.1 ragge dl->d_typename[0] = 'R'; 467 1.1 ragge dl->d_typename[1] = 'X'; 468 1.1 ragge dl->d_typename[2] = '0'; 469 1.1 ragge dl->d_typename[3] = rfc_sc->type == 1 ? '1' : '2'; /* type name */ 470 1.1 ragge dl->d_typename[4] = '\0'; 471 1.1 ragge dl->d_secsize = DEV_BSIZE; /* bytes per sector */ 472 1.1 ragge /* 473 1.1 ragge * Fill in some values to have a initialized data structure. Some 474 1.1 ragge * values will be reset by rfopen() depending on the actual density. 475 1.1 ragge */ 476 1.1 ragge dl->d_nsectors = RX2_SECTORS; /* sectors per track */ 477 1.1 ragge dl->d_ntracks = 1; /* tracks per cylinder */ 478 1.1 ragge dl->d_ncylinders = RX2_TRACKS; /* cylinders per unit */ 479 1.1 ragge dl->d_secpercyl = RX2_SECTORS; /* sectors per cylinder */ 480 1.8 simonb dl->d_secperunit = RX2_SECTORS * RX2_TRACKS; /* sectors per unit */ 481 1.1 ragge dl->d_rpm = 360; /* rotational speed */ 482 1.1 ragge dl->d_interleave = 1; /* hardware sector interleave */ 483 1.1 ragge /* number of partitions in following */ 484 1.1 ragge dl->d_npartitions = MAXPARTITIONS; 485 1.1 ragge dl->d_bbsize = 0; /* size of boot area at sn0, bytes */ 486 1.1 ragge dl->d_sbsize = 0; /* max size of fs superblock, bytes */ 487 1.1 ragge /* number of sectors in partition */ 488 1.1 ragge dl->d_partitions[0].p_size = 501; 489 1.1 ragge dl->d_partitions[0].p_offset = 0; /* starting sector */ 490 1.1 ragge dl->d_partitions[0].p_fsize = 0; /* fs basic fragment size */ 491 1.1 ragge dl->d_partitions[0].p_fstype = 0; /* fs type */ 492 1.1 ragge dl->d_partitions[0].p_frag = 0; /* fs fragments per block */ 493 1.1 ragge dl->d_partitions[1].p_size = RX2_SECTORS * RX2_TRACKS / 2; 494 1.1 ragge dl->d_partitions[1].p_offset = 0; /* starting sector */ 495 1.1 ragge dl->d_partitions[1].p_fsize = 0; /* fs basic fragment size */ 496 1.1 ragge dl->d_partitions[1].p_fstype = 0; /* fs type */ 497 1.1 ragge dl->d_partitions[1].p_frag = 0; /* fs fragments per block */ 498 1.1 ragge dl->d_partitions[2].p_size = RX2_SECTORS * RX2_TRACKS; 499 1.1 ragge dl->d_partitions[2].p_offset = 0; /* starting sector */ 500 1.1 ragge dl->d_partitions[2].p_fsize = 0; /* fs basic fragment size */ 501 1.1 ragge dl->d_partitions[2].p_fstype = 0; /* fs type */ 502 1.1 ragge dl->d_partitions[2].p_frag = 0; /* fs fragments per block */ 503 1.9 yamt bufq_alloc(&rf_sc->sc_bufq, "disksort", BUFQ_SORT_CYLINDER); 504 1.1 ragge printf("\n"); 505 1.1 ragge return; 506 1.1 ragge } 507 1.1 ragge 508 1.1 ragge 509 1.1 ragge 510 1.1 ragge int 511 1.1 ragge rf_print(void *aux, const char *name) 512 1.1 ragge { 513 1.1 ragge struct rfc_attach_args *rfc_aa = aux; 514 1.1 ragge 515 1.1 ragge if (name != NULL) 516 1.1 ragge aprint_normal("RX0%d at %s", rfc_aa->type, name); 517 1.1 ragge aprint_normal(" drive %d", rfc_aa->dnum); 518 1.1 ragge return(UNCONF); 519 1.1 ragge } 520 1.1 ragge 521 1.1 ragge 522 1.1 ragge 523 1.1 ragge /* Send a command to the controller */ 524 1.1 ragge int 525 1.1 ragge rfc_sendcmd(struct rfc_softc *rfc_sc, int cmd, int data1, int data2) 526 1.1 ragge { 527 1.1 ragge 528 1.1 ragge /* Write command to CSR. */ 529 1.1 ragge bus_space_write_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2CS, cmd); 530 1.1 ragge /* Wait 50us, the controller needs this time to setle. */ 531 1.1 ragge DELAY(50); 532 1.1 ragge /* Write parameter 1 to DBR */ 533 1.1 ragge if ((cmd & RX2CS_FC) != RX2CS_RSTAT) { 534 1.1 ragge /* Transfer request set? */ 535 1.1 ragge if ((bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2CS) 536 1.1 ragge & RX2CS_TR) == 0) { 537 1.1 ragge printf("%s: did not respond to CMD %x (1)\n", 538 1.19 matt device_xname(rfc_sc->sc_dev), cmd); 539 1.1 ragge return(-1); 540 1.1 ragge } 541 1.1 ragge bus_space_write_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2DB, 542 1.1 ragge data1); 543 1.1 ragge } 544 1.1 ragge /* Write parameter 2 to DBR */ 545 1.1 ragge if ((cmd & RX2CS_FC) <= RX2CS_RSEC || (cmd & RX2CS_FC) == RX2CS_WDDS) { 546 1.1 ragge /* Wait 50us, the controller needs this time to setle. */ 547 1.1 ragge DELAY(50); 548 1.1 ragge /* Transfer request set? */ 549 1.1 ragge if ((bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2CS) 550 1.1 ragge & RX2CS_TR) == 0) { 551 1.1 ragge printf("%s: did not respond to CMD %x (2)\n", 552 1.19 matt device_xname(rfc_sc->sc_dev), cmd); 553 1.1 ragge return(-1); 554 1.1 ragge } 555 1.1 ragge bus_space_write_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, RX2DB, 556 1.1 ragge data2); 557 1.1 ragge } 558 1.1 ragge return(1); 559 1.1 ragge } 560 1.1 ragge 561 1.1 ragge 562 1.1 ragge 563 1.1 ragge void 564 1.1 ragge rfstrategy(struct buf *buf) 565 1.1 ragge { 566 1.1 ragge struct rf_softc *rf_sc; 567 1.1 ragge struct rfc_softc *rfc_sc; 568 1.19 matt int s; 569 1.1 ragge 570 1.19 matt if ((rf_sc = device_lookup_private(&rf_cd, DISKUNIT(buf->b_dev))) == NULL) { 571 1.1 ragge buf->b_error = ENXIO; 572 1.1 ragge biodone(buf); 573 1.1 ragge return; 574 1.1 ragge } 575 1.19 matt rfc_sc = rf_sc->sc_rfc; 576 1.6 wiz /* We are going to operate on a non-open dev? PANIC! */ 577 1.19 matt if ((rf_sc->sc_state & (1 << (DISKPART(buf->b_dev) + RFS_OPEN_SHIFT))) 578 1.4 ragge == 0) 579 1.4 ragge panic("rfstrategy: can not operate on non-open drive %s " 580 1.24 cegger "partition %"PRIu32, device_xname(rf_sc->sc_dev), 581 1.4 ragge DISKPART(buf->b_dev)); 582 1.1 ragge if (buf->b_bcount == 0) { 583 1.1 ragge biodone(buf); 584 1.1 ragge return; 585 1.1 ragge } 586 1.1 ragge /* 587 1.23 yamt * bufq_put() operates on b_rawblkno. rfstrategy() gets 588 1.1 ragge * only b_blkno that is partition relative. As a floppy does not 589 1.1 ragge * have partitions b_rawblkno == b_blkno. 590 1.1 ragge */ 591 1.1 ragge buf->b_rawblkno = buf->b_blkno; 592 1.1 ragge /* 593 1.1 ragge * from sys/kern/subr_disk.c: 594 1.1 ragge * Seek sort for disks. We depend on the driver which calls us using 595 1.1 ragge * b_resid as the current cylinder number. 596 1.1 ragge */ 597 1.19 matt s = splbio(); 598 1.1 ragge if (rfc_sc->sc_curbuf == NULL) { 599 1.1 ragge rfc_sc->sc_curchild = rf_sc->sc_dnum; 600 1.1 ragge rfc_sc->sc_curbuf = buf; 601 1.18 joerg rfc_sc->sc_bufidx = buf->b_data; 602 1.1 ragge rfc_sc->sc_bytesleft = buf->b_bcount; 603 1.1 ragge rfc_intr(rfc_sc); 604 1.1 ragge } else { 605 1.1 ragge buf->b_resid = buf->b_blkno / RX2_SECTORS; 606 1.23 yamt bufq_put(rf_sc->sc_bufq, buf); 607 1.4 ragge buf->b_resid = 0; 608 1.1 ragge } 609 1.19 matt splx(s); 610 1.1 ragge } 611 1.1 ragge 612 1.4 ragge /* 613 1.6 wiz * Look if there is another buffer in the bufferqueue of this drive 614 1.4 ragge * and start to process it if there is one. 615 1.4 ragge * If the bufferqueue is empty, look at the bufferqueue of the other drive 616 1.8 simonb * that is attached to this controller. 617 1.8 simonb * Start procesing the bufferqueue of the other drive if it isn't empty. 618 1.8 simonb * Return a pointer to the softc structure of the drive that is now 619 1.4 ragge * ready to process a buffer or NULL if there is no buffer in either queues. 620 1.4 ragge */ 621 1.4 ragge struct rf_softc* 622 1.8 simonb get_new_buf( struct rfc_softc *rfc_sc) 623 1.4 ragge { 624 1.4 ragge struct rf_softc *rf_sc; 625 1.4 ragge struct rf_softc *other_drive; 626 1.4 ragge 627 1.20 jkunz rf_sc = device_private(rfc_sc->sc_childs[rfc_sc->sc_curchild]); 628 1.23 yamt rfc_sc->sc_curbuf = bufq_get(rf_sc->sc_bufq); 629 1.4 ragge if (rfc_sc->sc_curbuf != NULL) { 630 1.18 joerg rfc_sc->sc_bufidx = rfc_sc->sc_curbuf->b_data; 631 1.4 ragge rfc_sc->sc_bytesleft = rfc_sc->sc_curbuf->b_bcount; 632 1.4 ragge } else { 633 1.4 ragge RFS_SETCMD(rf_sc->sc_state, RFS_IDLE); 634 1.20 jkunz other_drive = device_private( 635 1.20 jkunz rfc_sc->sc_childs[ rfc_sc->sc_curchild == 0 ? 1 : 0]); 636 1.8 simonb if (other_drive != NULL 637 1.23 yamt && bufq_peek(other_drive->sc_bufq) != NULL) { 638 1.4 ragge rfc_sc->sc_curchild = rfc_sc->sc_curchild == 0 ? 1 : 0; 639 1.4 ragge rf_sc = other_drive; 640 1.23 yamt rfc_sc->sc_curbuf = bufq_get(rf_sc->sc_bufq); 641 1.18 joerg rfc_sc->sc_bufidx = rfc_sc->sc_curbuf->b_data; 642 1.4 ragge rfc_sc->sc_bytesleft = rfc_sc->sc_curbuf->b_bcount; 643 1.4 ragge } else 644 1.4 ragge return(NULL); 645 1.4 ragge } 646 1.4 ragge return(rf_sc); 647 1.4 ragge } 648 1.4 ragge 649 1.4 ragge 650 1.4 ragge 651 1.1 ragge void 652 1.1 ragge rfc_intr(void *intarg) 653 1.1 ragge { 654 1.1 ragge struct rfc_softc *rfc_sc = intarg; 655 1.1 ragge struct rf_softc *rf_sc; 656 1.1 ragge int i; 657 1.1 ragge 658 1.20 jkunz rf_sc = device_private(rfc_sc->sc_childs[rfc_sc->sc_curchild]); 659 1.21 dsl for (;;) { 660 1.4 ragge /* 661 1.4 ragge * First clean up from previous command... 662 1.4 ragge */ 663 1.4 ragge switch (rf_sc->sc_state & RFS_CMDS) { 664 1.4 ragge case RFS_PROBING: /* density detect / verify started */ 665 1.4 ragge disk_unbusy(&rf_sc->sc_disk, 0, 1); 666 1.4 ragge if ((bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, 667 1.4 ragge RX2CS) & RX2CS_ERR) == 0) { 668 1.4 ragge RFS_SETCMD(rf_sc->sc_state, RFS_IDLE); 669 1.4 ragge wakeup(rf_sc); 670 1.4 ragge } else { 671 1.4 ragge if (rfc_sc->type == 2 672 1.4 ragge && (rf_sc->sc_state & RFS_DENS) == 0 673 1.4 ragge && (rf_sc->sc_state & RFS_AD) != 0) { 674 1.4 ragge /* retry at DD */ 675 1.4 ragge rf_sc->sc_state |= RFS_DENS; 676 1.4 ragge disk_busy(&rf_sc->sc_disk); 677 1.8 simonb if (rfc_sendcmd(rfc_sc, RX2CS_RSEC 678 1.8 simonb | RX2CS_IE | RX2CS_DD | 679 1.8 simonb (rf_sc->sc_dnum == 0 ? 0 : 680 1.4 ragge RX2CS_US), 1, 1) < 0) { 681 1.8 simonb disk_unbusy(&rf_sc->sc_disk, 682 1.4 ragge 0, 1); 683 1.4 ragge RFS_SETCMD(rf_sc->sc_state, 684 1.4 ragge RFS_NOTINIT); 685 1.4 ragge wakeup(rf_sc); 686 1.4 ragge } 687 1.4 ragge } else { 688 1.4 ragge printf("%s: density error.\n", 689 1.19 matt device_xname(rf_sc->sc_dev)); 690 1.4 ragge RFS_SETCMD(rf_sc->sc_state,RFS_NOTINIT); 691 1.1 ragge wakeup(rf_sc); 692 1.1 ragge } 693 1.4 ragge } 694 1.4 ragge return; 695 1.4 ragge case RFS_IDLE: /* controller is idle */ 696 1.4 ragge if (rfc_sc->sc_curbuf->b_bcount 697 1.4 ragge % ((rf_sc->sc_state & RFS_DENS) == 0 698 1.4 ragge ? RX2_BYTE_SD : RX2_BYTE_DD) != 0) { 699 1.4 ragge /* 700 1.8 simonb * can only handle blocks that are a multiple 701 1.4 ragge * of the physical block size 702 1.4 ragge */ 703 1.15 ad rfc_sc->sc_curbuf->b_error = EIO; 704 1.1 ragge } 705 1.4 ragge RFS_SETCMD(rf_sc->sc_state, (rfc_sc->sc_curbuf->b_flags 706 1.4 ragge & B_READ) != 0 ? RFS_RSEC : RFS_FBUF); 707 1.1 ragge break; 708 1.4 ragge case RFS_RSEC: /* Read Sector */ 709 1.4 ragge disk_unbusy(&rf_sc->sc_disk, 0, 1); 710 1.4 ragge /* check for errors */ 711 1.8 simonb if ((bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, 712 1.4 ragge RX2CS) & RX2CS_ERR) != 0) { 713 1.4 ragge /* should do more verbose error reporting */ 714 1.8 simonb printf("rfc_intr: Error reading secotr: %x\n", 715 1.4 ragge bus_space_read_2(rfc_sc->sc_iot, 716 1.4 ragge rfc_sc->sc_ioh, RX2ES) ); 717 1.15 ad rfc_sc->sc_curbuf->b_error = EIO; 718 1.4 ragge } 719 1.4 ragge RFS_SETCMD(rf_sc->sc_state, RFS_EBUF); 720 1.1 ragge break; 721 1.4 ragge case RFS_WSEC: /* Write Sector */ 722 1.4 ragge i = (rf_sc->sc_state & RFS_DENS) == 0 723 1.4 ragge ? RX2_BYTE_SD : RX2_BYTE_DD; 724 1.4 ragge disk_unbusy(&rf_sc->sc_disk, i, 0); 725 1.4 ragge /* check for errors */ 726 1.8 simonb if ((bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, 727 1.4 ragge RX2CS) & RX2CS_ERR) != 0) { 728 1.4 ragge /* should do more verbose error reporting */ 729 1.4 ragge printf("rfc_intr: Error writing secotr: %x\n", 730 1.4 ragge bus_space_read_2(rfc_sc->sc_iot, 731 1.4 ragge rfc_sc->sc_ioh, RX2ES) ); 732 1.15 ad rfc_sc->sc_curbuf->b_error = EIO; 733 1.4 ragge break; 734 1.4 ragge } 735 1.4 ragge if (rfc_sc->sc_bytesleft > i) { 736 1.4 ragge rfc_sc->sc_bytesleft -= i; 737 1.14 he rfc_sc->sc_bufidx = 738 1.14 he (char *)rfc_sc->sc_bufidx + i; 739 1.1 ragge } else { 740 1.4 ragge biodone(rfc_sc->sc_curbuf); 741 1.4 ragge rf_sc = get_new_buf( rfc_sc); 742 1.4 ragge if (rf_sc == NULL) 743 1.1 ragge return; 744 1.1 ragge } 745 1.4 ragge RFS_SETCMD(rf_sc->sc_state, 746 1.4 ragge (rfc_sc->sc_curbuf->b_flags & B_READ) != 0 747 1.4 ragge ? RFS_RSEC : RFS_FBUF); 748 1.4 ragge break; 749 1.4 ragge case RFS_FBUF: /* Fill Buffer */ 750 1.4 ragge disk_unbusy(&rf_sc->sc_disk, 0, 0); 751 1.4 ragge bus_dmamap_unload(rfc_sc->sc_dmat, rfc_sc->sc_dmam); 752 1.4 ragge /* check for errors */ 753 1.8 simonb if ((bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, 754 1.4 ragge RX2CS) & RX2CS_ERR) != 0) { 755 1.4 ragge /* should do more verbose error reporting */ 756 1.4 ragge printf("rfc_intr: Error while DMA: %x\n", 757 1.4 ragge bus_space_read_2(rfc_sc->sc_iot, 758 1.4 ragge rfc_sc->sc_ioh, RX2ES)); 759 1.15 ad rfc_sc->sc_curbuf->b_error = EIO; 760 1.4 ragge } 761 1.4 ragge RFS_SETCMD(rf_sc->sc_state, RFS_WSEC); 762 1.4 ragge break; 763 1.4 ragge case RFS_EBUF: /* Empty Buffer */ 764 1.4 ragge i = (rf_sc->sc_state & RFS_DENS) == 0 765 1.4 ragge ? RX2_BYTE_SD : RX2_BYTE_DD; 766 1.4 ragge disk_unbusy(&rf_sc->sc_disk, i, 1); 767 1.4 ragge bus_dmamap_unload(rfc_sc->sc_dmat, rfc_sc->sc_dmam); 768 1.4 ragge /* check for errors */ 769 1.8 simonb if ((bus_space_read_2(rfc_sc->sc_iot, rfc_sc->sc_ioh, 770 1.4 ragge RX2CS) & RX2CS_ERR) != 0) { 771 1.4 ragge /* should do more verbose error reporting */ 772 1.4 ragge printf("rfc_intr: Error while DMA: %x\n", 773 1.4 ragge bus_space_read_2(rfc_sc->sc_iot, 774 1.4 ragge rfc_sc->sc_ioh, RX2ES)); 775 1.15 ad rfc_sc->sc_curbuf->b_error = EIO; 776 1.4 ragge break; 777 1.4 ragge } 778 1.4 ragge if (rfc_sc->sc_bytesleft > i) { 779 1.4 ragge rfc_sc->sc_bytesleft -= i; 780 1.14 he rfc_sc->sc_bufidx = 781 1.14 he (char *)rfc_sc->sc_bufidx + i; 782 1.1 ragge } else { 783 1.4 ragge biodone(rfc_sc->sc_curbuf); 784 1.4 ragge rf_sc = get_new_buf( rfc_sc); 785 1.4 ragge if (rf_sc == NULL) 786 1.1 ragge return; 787 1.1 ragge } 788 1.4 ragge RFS_SETCMD(rf_sc->sc_state, 789 1.4 ragge (rfc_sc->sc_curbuf->b_flags & B_READ) != 0 790 1.4 ragge ? RFS_RSEC : RFS_FBUF); 791 1.4 ragge break; 792 1.4 ragge case RFS_NOTINIT: /* Device is not open */ 793 1.4 ragge case RFS_SMD: /* Set Media Density */ 794 1.4 ragge case RFS_RSTAT: /* Read Status */ 795 1.4 ragge case RFS_WDDS: /* Write Deleted Data Sector */ 796 1.4 ragge case RFS_REC: /* Read Error Code */ 797 1.4 ragge default: 798 1.20 jkunz panic("Impossible state in rfc_intr(1): 0x%x\n", 799 1.20 jkunz rf_sc->sc_state & RFS_CMDS); 800 1.1 ragge } 801 1.1 ragge 802 1.15 ad if (rfc_sc->sc_curbuf->b_error != 0) { 803 1.8 simonb /* 804 1.8 simonb * An error occurred while processing this buffer. 805 1.4 ragge * Finish it and try to get a new buffer to process. 806 1.4 ragge * Return if there are no buffers in the queues. 807 1.4 ragge * This loops until the queues are empty or a new 808 1.4 ragge * action was successfully scheduled. 809 1.4 ragge */ 810 1.4 ragge rfc_sc->sc_curbuf->b_resid = rfc_sc->sc_bytesleft; 811 1.4 ragge rfc_sc->sc_curbuf->b_error = EIO; 812 1.4 ragge biodone(rfc_sc->sc_curbuf); 813 1.4 ragge rf_sc = get_new_buf( rfc_sc); 814 1.4 ragge if (rf_sc == NULL) 815 1.4 ragge return; 816 1.4 ragge continue; 817 1.4 ragge } 818 1.1 ragge 819 1.4 ragge /* 820 1.4 ragge * ... then initiate next command. 821 1.4 ragge */ 822 1.4 ragge switch (rf_sc->sc_state & RFS_CMDS) { 823 1.4 ragge case RFS_EBUF: /* Empty Buffer */ 824 1.4 ragge i = bus_dmamap_load(rfc_sc->sc_dmat, rfc_sc->sc_dmam, 825 1.4 ragge rfc_sc->sc_bufidx, (rf_sc->sc_state & RFS_DENS) == 0 826 1.8 simonb ? RX2_BYTE_SD : RX2_BYTE_DD, 827 1.4 ragge rfc_sc->sc_curbuf->b_proc, BUS_DMA_NOWAIT); 828 1.4 ragge if (i != 0) { 829 1.4 ragge printf("rfc_intr: Error loading dmamap: %d\n", 830 1.4 ragge i); 831 1.15 ad rfc_sc->sc_curbuf->b_error = EIO; 832 1.4 ragge break; 833 1.4 ragge } 834 1.4 ragge disk_busy(&rf_sc->sc_disk); 835 1.4 ragge if (rfc_sendcmd(rfc_sc, RX2CS_EBUF | RX2CS_IE 836 1.4 ragge | ((rf_sc->sc_state & RFS_DENS) == 0 ? 0 : RX2CS_DD) 837 1.4 ragge | (rf_sc->sc_dnum == 0 ? 0 : RX2CS_US) 838 1.8 simonb | ((rfc_sc->sc_dmam->dm_segs[0].ds_addr 839 1.4 ragge & 0x30000) >>4), ((rf_sc->sc_state & RFS_DENS) == 0 840 1.4 ragge ? RX2_BYTE_SD : RX2_BYTE_DD) / 2, 841 1.4 ragge rfc_sc->sc_dmam->dm_segs[0].ds_addr & 0xffff) < 0) { 842 1.4 ragge disk_unbusy(&rf_sc->sc_disk, 0, 1); 843 1.15 ad rfc_sc->sc_curbuf->b_error = EIO; 844 1.8 simonb bus_dmamap_unload(rfc_sc->sc_dmat, 845 1.4 ragge rfc_sc->sc_dmam); 846 1.4 ragge } 847 1.4 ragge break; 848 1.4 ragge case RFS_FBUF: /* Fill Buffer */ 849 1.4 ragge i = bus_dmamap_load(rfc_sc->sc_dmat, rfc_sc->sc_dmam, 850 1.4 ragge rfc_sc->sc_bufidx, (rf_sc->sc_state & RFS_DENS) == 0 851 1.4 ragge ? RX2_BYTE_SD : RX2_BYTE_DD, 852 1.4 ragge rfc_sc->sc_curbuf->b_proc, BUS_DMA_NOWAIT); 853 1.4 ragge if (i != 0) { 854 1.8 simonb printf("rfc_intr: Error loading dmamap: %d\n", 855 1.4 ragge i); 856 1.15 ad rfc_sc->sc_curbuf->b_error = EIO; 857 1.4 ragge break; 858 1.4 ragge } 859 1.4 ragge disk_busy(&rf_sc->sc_disk); 860 1.4 ragge if (rfc_sendcmd(rfc_sc, RX2CS_FBUF | RX2CS_IE 861 1.4 ragge | ((rf_sc->sc_state & RFS_DENS) == 0 ? 0 : RX2CS_DD) 862 1.4 ragge | (rf_sc->sc_dnum == 0 ? 0 : RX2CS_US) 863 1.8 simonb | ((rfc_sc->sc_dmam->dm_segs[0].ds_addr 864 1.4 ragge & 0x30000)>>4), ((rf_sc->sc_state & RFS_DENS) == 0 865 1.4 ragge ? RX2_BYTE_SD : RX2_BYTE_DD) / 2, 866 1.4 ragge rfc_sc->sc_dmam->dm_segs[0].ds_addr & 0xffff) < 0) { 867 1.4 ragge disk_unbusy(&rf_sc->sc_disk, 0, 0); 868 1.15 ad rfc_sc->sc_curbuf->b_error = EIO; 869 1.8 simonb bus_dmamap_unload(rfc_sc->sc_dmat, 870 1.4 ragge rfc_sc->sc_dmam); 871 1.4 ragge } 872 1.4 ragge break; 873 1.4 ragge case RFS_WSEC: /* Write Sector */ 874 1.4 ragge i = (rfc_sc->sc_curbuf->b_bcount - rfc_sc->sc_bytesleft 875 1.4 ragge + rfc_sc->sc_curbuf->b_blkno * DEV_BSIZE) / 876 1.4 ragge ((rf_sc->sc_state & RFS_DENS) == 0 877 1.4 ragge ? RX2_BYTE_SD : RX2_BYTE_DD); 878 1.4 ragge if (i > RX2_TRACKS * RX2_SECTORS) { 879 1.15 ad rfc_sc->sc_curbuf->b_error = EIO; 880 1.4 ragge break; 881 1.4 ragge } 882 1.4 ragge disk_busy(&rf_sc->sc_disk); 883 1.4 ragge if (rfc_sendcmd(rfc_sc, RX2CS_WSEC | RX2CS_IE 884 1.4 ragge | (rf_sc->sc_dnum == 0 ? 0 : RX2CS_US) 885 1.4 ragge | ((rf_sc->sc_state& RFS_DENS) == 0 ? 0 : RX2CS_DD), 886 1.4 ragge i % RX2_SECTORS + 1, i / RX2_SECTORS) < 0) { 887 1.4 ragge disk_unbusy(&rf_sc->sc_disk, 0, 0); 888 1.15 ad rfc_sc->sc_curbuf->b_error = EIO; 889 1.4 ragge } 890 1.1 ragge break; 891 1.4 ragge case RFS_RSEC: /* Read Sector */ 892 1.4 ragge i = (rfc_sc->sc_curbuf->b_bcount - rfc_sc->sc_bytesleft 893 1.4 ragge + rfc_sc->sc_curbuf->b_blkno * DEV_BSIZE) / 894 1.4 ragge ((rf_sc->sc_state & RFS_DENS) == 0 895 1.4 ragge ? RX2_BYTE_SD : RX2_BYTE_DD); 896 1.4 ragge if (i > RX2_TRACKS * RX2_SECTORS) { 897 1.15 ad rfc_sc->sc_curbuf->b_error = EIO; 898 1.4 ragge break; 899 1.4 ragge } 900 1.4 ragge disk_busy(&rf_sc->sc_disk); 901 1.4 ragge if (rfc_sendcmd(rfc_sc, RX2CS_RSEC | RX2CS_IE 902 1.4 ragge | (rf_sc->sc_dnum == 0 ? 0 : RX2CS_US) 903 1.4 ragge | ((rf_sc->sc_state& RFS_DENS) == 0 ? 0 : RX2CS_DD), 904 1.4 ragge i % RX2_SECTORS + 1, i / RX2_SECTORS) < 0) { 905 1.4 ragge disk_unbusy(&rf_sc->sc_disk, 0, 1); 906 1.15 ad rfc_sc->sc_curbuf->b_error = EIO; 907 1.4 ragge } 908 1.1 ragge break; 909 1.4 ragge case RFS_NOTINIT: /* Device is not open */ 910 1.4 ragge case RFS_PROBING: /* density detect / verify started */ 911 1.4 ragge case RFS_IDLE: /* controller is idle */ 912 1.4 ragge case RFS_SMD: /* Set Media Density */ 913 1.4 ragge case RFS_RSTAT: /* Read Status */ 914 1.4 ragge case RFS_WDDS: /* Write Deleted Data Sector */ 915 1.4 ragge case RFS_REC: /* Read Error Code */ 916 1.4 ragge default: 917 1.20 jkunz panic("Impossible state in rfc_intr(2): 0x%x\n", 918 1.20 jkunz rf_sc->sc_state & RFS_CMDS); 919 1.1 ragge } 920 1.4 ragge 921 1.15 ad if (rfc_sc->sc_curbuf->b_error != 0) { 922 1.8 simonb /* 923 1.8 simonb * An error occurred while processing this buffer. 924 1.4 ragge * Finish it and try to get a new buffer to process. 925 1.4 ragge * Return if there are no buffers in the queues. 926 1.4 ragge * This loops until the queues are empty or a new 927 1.4 ragge * action was successfully scheduled. 928 1.4 ragge */ 929 1.1 ragge rfc_sc->sc_curbuf->b_resid = rfc_sc->sc_bytesleft; 930 1.4 ragge rfc_sc->sc_curbuf->b_error = EIO; 931 1.4 ragge biodone(rfc_sc->sc_curbuf); 932 1.4 ragge rf_sc = get_new_buf( rfc_sc); 933 1.4 ragge if (rf_sc == NULL) 934 1.4 ragge return; 935 1.4 ragge continue; 936 1.1 ragge } 937 1.21 dsl break; 938 1.21 dsl } 939 1.1 ragge return; 940 1.1 ragge } 941 1.1 ragge 942 1.1 ragge 943 1.1 ragge 944 1.1 ragge int 945 1.13 christos rfdump(dev_t dev, daddr_t blkno, void *va, size_t size) 946 1.1 ragge { 947 1.1 ragge 948 1.1 ragge /* A 0.5MB floppy is much to small to take a system dump... */ 949 1.1 ragge return(ENXIO); 950 1.1 ragge } 951 1.1 ragge 952 1.1 ragge 953 1.1 ragge 954 1.1 ragge int 955 1.1 ragge rfsize(dev_t dev) 956 1.1 ragge { 957 1.1 ragge 958 1.1 ragge return(-1); 959 1.1 ragge } 960 1.1 ragge 961 1.1 ragge 962 1.1 ragge 963 1.1 ragge int 964 1.10 christos rfopen(dev_t dev, int oflags, int devtype, struct lwp *l) 965 1.1 ragge { 966 1.1 ragge struct rf_softc *rf_sc; 967 1.1 ragge struct rfc_softc *rfc_sc; 968 1.1 ragge struct disklabel *dl; 969 1.1 ragge 970 1.19 matt if ((rf_sc = device_lookup_private(&rf_cd, DISKUNIT(dev))) == NULL) 971 1.19 matt return ENXIO; 972 1.19 matt 973 1.19 matt rfc_sc = rf_sc->sc_rfc; 974 1.1 ragge dl = rf_sc->sc_disk.dk_label; 975 1.1 ragge switch (DISKPART(dev)) { 976 1.1 ragge case 0: /* Part. a is single density. */ 977 1.6 wiz /* opening in single and double density is senseless */ 978 1.8 simonb if ((rf_sc->sc_state & RFS_OPEN_B) != 0 ) 979 1.4 ragge return(ENXIO); 980 1.1 ragge rf_sc->sc_state &= ~RFS_DENS; 981 1.1 ragge rf_sc->sc_state &= ~RFS_AD; 982 1.4 ragge rf_sc->sc_state |= RFS_OPEN_A; 983 1.1 ragge break; 984 1.1 ragge case 1: /* Part. b is double density. */ 985 1.1 ragge /* 986 1.8 simonb * Opening a single density only drive in double 987 1.8 simonb * density or simultaneous opening in single and 988 1.6 wiz * double density is senseless. 989 1.1 ragge */ 990 1.8 simonb if (rfc_sc->type == 1 991 1.8 simonb || (rf_sc->sc_state & RFS_OPEN_A) != 0 ) 992 1.8 simonb return(ENXIO); 993 1.1 ragge rf_sc->sc_state |= RFS_DENS; 994 1.1 ragge rf_sc->sc_state &= ~RFS_AD; 995 1.4 ragge rf_sc->sc_state |= RFS_OPEN_B; 996 1.1 ragge break; 997 1.1 ragge case 2: /* Part. c is auto density. */ 998 1.1 ragge rf_sc->sc_state |= RFS_AD; 999 1.4 ragge rf_sc->sc_state |= RFS_OPEN_C; 1000 1.1 ragge break; 1001 1.1 ragge default: 1002 1.1 ragge return(ENXIO); 1003 1.1 ragge break; 1004 1.1 ragge } 1005 1.1 ragge if ((rf_sc->sc_state & RFS_CMDS) == RFS_NOTINIT) { 1006 1.1 ragge rfc_sc->sc_curchild = rf_sc->sc_dnum; 1007 1.1 ragge /* 1008 1.1 ragge * Controller is idle and density is not detected. 1009 1.1 ragge * Start a density probe by issuing a read sector command 1010 1.1 ragge * and sleep until the density probe finished. 1011 1.6 wiz * Due to this it is imposible to open unformatted media. 1012 1.1 ragge * As the RX02/02 is not able to format its own media, 1013 1.6 wiz * media must be purchased preformatted. fsck DEC makreting! 1014 1.1 ragge */ 1015 1.1 ragge RFS_SETCMD(rf_sc->sc_state, RFS_PROBING); 1016 1.1 ragge disk_busy(&rf_sc->sc_disk); 1017 1.1 ragge if (rfc_sendcmd(rfc_sc, RX2CS_RSEC | RX2CS_IE 1018 1.1 ragge | (rf_sc->sc_dnum == 0 ? 0 : RX2CS_US) 1019 1.1 ragge | ((rf_sc->sc_state & RFS_DENS) == 0 ? 0 : RX2CS_DD), 1020 1.1 ragge 1, 1) < 0) { 1021 1.1 ragge rf_sc->sc_state = 0; 1022 1.1 ragge return(ENXIO); 1023 1.1 ragge } 1024 1.1 ragge /* wait max. 2 sec for density probe to finish */ 1025 1.1 ragge if (tsleep(rf_sc, PRIBIO | PCATCH, "density probe", 2 * hz) 1026 1.1 ragge != 0 || (rf_sc->sc_state & RFS_CMDS) == RFS_NOTINIT) { 1027 1.6 wiz /* timeout elapsed and / or something went wrong */ 1028 1.1 ragge rf_sc->sc_state = 0; 1029 1.1 ragge return(ENXIO); 1030 1.1 ragge } 1031 1.1 ragge } 1032 1.1 ragge /* disklabel. We use different fake geometries for SD and DD. */ 1033 1.1 ragge if ((rf_sc->sc_state & RFS_DENS) == 0) { 1034 1.1 ragge dl->d_nsectors = 10; /* sectors per track */ 1035 1.1 ragge dl->d_secpercyl = 10; /* sectors per cylinder */ 1036 1.1 ragge dl->d_ncylinders = 50; /* cylinders per unit */ 1037 1.1 ragge dl->d_secperunit = 501; /* sectors per unit */ 1038 1.1 ragge /* number of sectors in partition */ 1039 1.1 ragge dl->d_partitions[2].p_size = 500; 1040 1.1 ragge } else { 1041 1.1 ragge dl->d_nsectors = RX2_SECTORS / 2; /* sectors per track */ 1042 1.1 ragge dl->d_secpercyl = RX2_SECTORS / 2; /* sectors per cylinder */ 1043 1.8 simonb dl->d_ncylinders = RX2_TRACKS; /* cylinders per unit */ 1044 1.1 ragge /* sectors per unit */ 1045 1.1 ragge dl->d_secperunit = RX2_SECTORS * RX2_TRACKS / 2; 1046 1.1 ragge /* number of sectors in partition */ 1047 1.1 ragge dl->d_partitions[2].p_size = RX2_SECTORS * RX2_TRACKS / 2; 1048 1.1 ragge } 1049 1.1 ragge return(0); 1050 1.1 ragge } 1051 1.1 ragge 1052 1.1 ragge 1053 1.1 ragge 1054 1.1 ragge int 1055 1.10 christos rfclose(dev_t dev, int fflag, int devtype, struct lwp *l) 1056 1.1 ragge { 1057 1.20 jkunz struct rf_softc *rf_sc = device_lookup_private(&rf_cd, DISKUNIT(dev)); 1058 1.1 ragge 1059 1.4 ragge if ((rf_sc->sc_state & 1 << (DISKPART(dev) + RFS_OPEN_SHIFT)) == 0) 1060 1.6 wiz panic("rfclose: can not close non-open drive %s " 1061 1.24 cegger "partition %"PRIu32, device_xname(rf_sc->sc_dev), DISKPART(dev)); 1062 1.8 simonb else 1063 1.4 ragge rf_sc->sc_state &= ~(1 << (DISKPART(dev) + RFS_OPEN_SHIFT)); 1064 1.4 ragge if ((rf_sc->sc_state & RFS_OPEN_MASK) == 0) 1065 1.4 ragge rf_sc->sc_state = 0; 1066 1.1 ragge return(0); 1067 1.1 ragge } 1068 1.1 ragge 1069 1.1 ragge 1070 1.1 ragge 1071 1.1 ragge int 1072 1.1 ragge rfread(dev_t dev, struct uio *uio, int ioflag) 1073 1.1 ragge { 1074 1.1 ragge 1075 1.1 ragge return(physio(rfstrategy, NULL, dev, B_READ, minphys, uio)); 1076 1.1 ragge } 1077 1.1 ragge 1078 1.1 ragge 1079 1.1 ragge 1080 1.1 ragge int 1081 1.1 ragge rfwrite(dev_t dev, struct uio *uio, int ioflag) 1082 1.1 ragge { 1083 1.1 ragge 1084 1.1 ragge return(physio(rfstrategy, NULL, dev, B_WRITE, minphys, uio)); 1085 1.1 ragge } 1086 1.1 ragge 1087 1.1 ragge 1088 1.1 ragge 1089 1.1 ragge int 1090 1.13 christos rfioctl(dev_t dev, u_long cmd, void *data, int fflag, struct lwp *l) 1091 1.1 ragge { 1092 1.20 jkunz struct rf_softc *rf_sc = device_lookup_private(&rf_cd, DISKUNIT(dev)); 1093 1.29.4.1 skrll int error; 1094 1.1 ragge 1095 1.6 wiz /* We are going to operate on a non-open dev? PANIC! */ 1096 1.4 ragge if ((rf_sc->sc_state & 1 << (DISKPART(dev) + RFS_OPEN_SHIFT)) == 0) 1097 1.4 ragge panic("rfioctl: can not operate on non-open drive %s " 1098 1.24 cegger "partition %"PRIu32, device_xname(rf_sc->sc_dev), DISKPART(dev)); 1099 1.29.4.1 skrll error = disk_ioctl(&rf_sc->sc_disk, dev, cmd, data, fflag, l); 1100 1.29.4.1 skrll if (error != EPASSTHROUGH) 1101 1.29.4.1 skrll return error; 1102 1.29.4.1 skrll 1103 1.1 ragge switch (cmd) { 1104 1.29.4.3 skrll /* get and set disklabel; DIOCGPARTINFO used internally */ 1105 1.1 ragge case DIOCSDINFO: /* set */ 1106 1.1 ragge return(0); 1107 1.1 ragge case DIOCWDINFO: /* set, update disk */ 1108 1.1 ragge return(0); 1109 1.1 ragge /* do format operation, read or write */ 1110 1.1 ragge case DIOCRFORMAT: 1111 1.1 ragge break; 1112 1.1 ragge case DIOCWFORMAT: 1113 1.1 ragge break; 1114 1.1 ragge 1115 1.1 ragge case DIOCSSTEP: /* set step rate */ 1116 1.1 ragge break; 1117 1.1 ragge case DIOCSRETRIES: /* set # of retries */ 1118 1.1 ragge break; 1119 1.1 ragge case DIOCKLABEL: /* keep/drop label on close? */ 1120 1.1 ragge break; 1121 1.1 ragge case DIOCWLABEL: /* write en/disable label */ 1122 1.1 ragge break; 1123 1.1 ragge 1124 1.1 ragge /* case DIOCSBAD: / * set kernel dkbad */ 1125 1.1 ragge break; /* */ 1126 1.1 ragge case DIOCEJECT: /* eject removable disk */ 1127 1.1 ragge break; 1128 1.1 ragge case ODIOCEJECT: /* eject removable disk */ 1129 1.1 ragge break; 1130 1.1 ragge case DIOCLOCK: /* lock/unlock pack */ 1131 1.1 ragge break; 1132 1.1 ragge 1133 1.1 ragge /* get default label, clear label */ 1134 1.1 ragge case DIOCGDEFLABEL: 1135 1.1 ragge break; 1136 1.1 ragge case DIOCCLRLABEL: 1137 1.1 ragge break; 1138 1.1 ragge default: 1139 1.1 ragge return(ENOTTY); 1140 1.1 ragge } 1141 1.1 ragge 1142 1.1 ragge return(ENOTTY); 1143 1.1 ragge } 1144
Indexes created Wed Oct 22 13:09:56 GMT 2025