1 /*
2 * CDDL HEADER START
3 *
4 * The contents of this file are subject to the terms of the
5 * Common Development and Distribution License (the "License").
6 * You may not use this file except in compliance with the License.
7 *
8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9 * or http://www.opensolaris.org/os/licensing.
10 * See the License for the specific language governing permissions
11 * and limitations under the License.
12 *
13 * When distributing Covered Code, include this CDDL HEADER in each
14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15 * If applicable, add the following below this CDDL HEADER, with the
16 * fields enclosed by brackets "[]" replaced with your own identifying
17 * information: Portions Copyright [yyyy] [name of copyright owner]
18 *
19 * CDDL HEADER END
20 */
21 /*
22 * Copyright 2008 Sun Microsystems, Inc. All rights reserved.
23 * Use is subject to license terms.
24 */
25 /*
26 * Copyright 2012 Garrett D'Amore <garrett@damore.org>. All rights reserved.
27 */
28
29
30 /*
31 * Floppy Disk Controller Driver
32 *
33 * for the standard PC architecture using the Intel 8272A fdc.
34 * Note that motor control and drive select use a latch external
35 * to the fdc.
36 *
37 * This driver is EISA capable, and uses DMA buffer chaining if available.
38 * If this driver is attached to the ISA bus nexus (or if the EISA bus driver
39 * does not support DMA buffer chaining), then the bus driver must ensure
40 * that dma mapping (breakup) and dma engine requests are properly degraded.
41 */
42
43 /*
44 * hack for bugid 1160621:
45 * workaround compiler optimization bug by turning on DEBUG
46 */
47 #ifndef DEBUG
48 #define DEBUG 1
49 #endif
50
51 #include <sys/param.h>
52 #include <sys/buf.h>
53 #include <sys/ioctl.h>
54 #include <sys/uio.h>
55 #include <sys/open.h>
56 #include <sys/conf.h>
57 #include <sys/file.h>
58 #include <sys/cmn_err.h>
59 #include <sys/note.h>
60 #include <sys/debug.h>
61 #include <sys/kmem.h>
62 #include <sys/stat.h>
63
64 #include <sys/autoconf.h>
65 #include <sys/dkio.h>
66 #include <sys/vtoc.h>
67 #include <sys/kstat.h>
68
69 #include <sys/fdio.h>
70 #include <sys/fdc.h>
71 #include <sys/i8272A.h>
72 #include <sys/fd_debug.h>
73 #include <sys/promif.h>
74 #include <sys/ddi.h>
75 #include <sys/sunddi.h>
76
77 /*
78 * bss (uninitialized data)
79 */
80 static void *fdc_state_head; /* opaque handle top of state structs */
81 static ddi_dma_attr_t fdc_dma_attr;
82 static ddi_device_acc_attr_t fdc_accattr = {DDI_DEVICE_ATTR_V0,
83 DDI_STRUCTURE_LE_ACC, DDI_STRICTORDER_ACC};
84
85 /*
86 * Local static data
87 */
88 #define OURUN_TRIES 12
89 static uchar_t rwretry = 4;
90 static uchar_t skretry = 3;
91 static uchar_t configurecmd[4] = {FO_CNFG, 0, 0x0F, 0};
92 static uchar_t recalcmd[2] = {FO_RECAL, 0};
93 static uchar_t senseintcmd = FO_SINT;
94
95 /*
96 * error handling
97 *
98 * for debugging, set rwretry and skretry = 1
99 * set fcerrlevel to 1
100 * set fcerrmask to 224 or 644
101 *
102 * after debug, set rwretry to 4, skretry to 3, and fcerrlevel to 5
103 * set fcerrmask to FDEM_ALL
104 * or remove the define DEBUG
105 */
106 static uint_t fcerrmask = FDEM_ALL;
107 static int fcerrlevel = 6;
108
109 #define KIOIP KSTAT_INTR_PTR(fcp->c_intrstat)
110
111
112 static xlate_tbl_t drate_mfm[] = {
113 { 250, 2},
114 { 300, 1},
115 { 417, 0},
116 { 500, 0},
117 { 1000, 3},
118 { 0, 0}
119 };
120
121 static xlate_tbl_t sector_size[] = {
122 { 256, 1},
123 { 512, 2},
124 { 1024, 3},
125 { 0, 2}
126 };
127
128 static xlate_tbl_t motor_onbits[] = {
129 { 0, 0x10},
130 { 1, 0x20},
131 { 2, 0x40},
132 { 3, 0x80},
133 { 0, 0x80}
134 };
135
136 static xlate_tbl_t step_rate[] = {
137 { 10, 0xF0}, /* for 500K data rate */
138 { 20, 0xE0},
139 { 30, 0xD0},
140 { 40, 0xC0},
141 { 50, 0xB0},
142 { 60, 0xA0},
143 { 70, 0x90},
144 { 80, 0x80},
145 { 90, 0x70},
146 { 100, 0x60},
147 { 110, 0x50},
148 { 120, 0x40},
149 { 130, 0x30},
150 { 140, 0x20},
151 { 150, 0x10},
152 { 160, 0x00},
153 { 0, 0x00}
154 };
155
156 #ifdef notdef
157 static xlate_tbl_t head_unld[] = {
158 { 16, 0x1}, /* for 500K data rate */
159 { 32, 0x2},
160 { 48, 0x3},
161 { 64, 0x4},
162 { 80, 0x5},
163 { 96, 0x6},
164 { 112, 0x7},
165 { 128, 0x8},
166 { 144, 0x9},
167 { 160, 0xA},
168 { 176, 0xB},
169 { 192, 0xC},
170 { 208, 0xD},
171 { 224, 0xE},
172 { 240, 0xF},
173 { 256, 0x0},
174 { 0, 0x0}
175 };
176 #endif
177
178 static struct fdcmdinfo {
179 char *cmdname; /* command name */
180 uchar_t ncmdbytes; /* number of bytes of command */
181 uchar_t nrsltbytes; /* number of bytes in result */
182 uchar_t cmdtype; /* characteristics */
183 } fdcmds[] = {
184 "", 0, 0, 0, /* - */
185 "", 0, 0, 0, /* - */
186 "read_track", 9, 7, 1, /* 2 */
187 "specify", 3, 0, 3, /* 3 */
188 "sense_drv_status", 2, 1, 3, /* 4 */
189 "write", 9, 7, 1, /* 5 */
190 "read", 9, 7, 1, /* 6 */
191 "recalibrate", 2, 0, 2, /* 7 */
192 "sense_int_status", 1, 2, 3, /* 8 */
193 "write_del", 9, 7, 1, /* 9 */
194 "read_id", 2, 7, 2, /* A */
195 "", 0, 0, 0, /* - */
196 "read_del", 9, 7, 1, /* C */
197 "format_track", 10, 7, 1, /* D */
198 "dump_reg", 1, 10, 4, /* E */
199 "seek", 3, 0, 2, /* F */
200 "version", 1, 1, 3, /* 10 */
201 "", 0, 0, 0, /* - */
202 "perp_mode", 2, 0, 3, /* 12 */
203 "configure", 4, 0, 4, /* 13 */
204 /* relative seek */
205 };
206
207
208 static int
209 fdc_bus_ctl(dev_info_t *, dev_info_t *, ddi_ctl_enum_t, void *, void *);
210 static int get_ioaddr(dev_info_t *dip, int *ioaddr);
211 static int get_unit(dev_info_t *dip, int *cntrl_num);
212
213 struct bus_ops fdc_bus_ops = {
214 BUSO_REV,
215 nullbusmap,
216 0, /* ddi_intrspec_t (*bus_get_intrspec)(); */
217 0, /* int (*bus_add_intrspec)(); */
218 0, /* void (*bus_remove_intrspec)(); */
219 i_ddi_map_fault,
220 0,
221 ddi_dma_allochdl,
222 ddi_dma_freehdl,
223 ddi_dma_bindhdl,
224 ddi_dma_unbindhdl,
225 ddi_dma_flush,
226 ddi_dma_win,
227 ddi_dma_mctl,
228 fdc_bus_ctl,
229 ddi_bus_prop_op,
230 };
231
232 static int fdc_getinfo(dev_info_t *, ddi_info_cmd_t, void *, void **);
233 static int fdc_probe(dev_info_t *);
234 static int fdc_attach(dev_info_t *, ddi_attach_cmd_t);
235 static int fdc_detach(dev_info_t *, ddi_detach_cmd_t);
236 static int fdc_quiesce(dev_info_t *);
237 static int fdc_enhance_probe(struct fdcntlr *fcp);
238
239 struct dev_ops fdc_ops = {
240 DEVO_REV, /* devo_rev, */
241 0, /* refcnt */
242 fdc_getinfo, /* getinfo */
243 nulldev, /* identify */
244 fdc_probe, /* probe */
245 fdc_attach, /* attach */
246 fdc_detach, /* detach */
247 nodev, /* reset */
248 (struct cb_ops *)0, /* driver operations */
249 &fdc_bus_ops, /* bus operations */
250 NULL, /* power */
251 fdc_quiesce, /* quiesce */
252 };
253
254 /*
255 * This is the loadable module wrapper.
256 */
257 #include <sys/modctl.h>
258
259 extern struct mod_ops mod_driverops;
260
261 static struct modldrv modldrv = {
262 &mod_driverops, /* Type of module. This one is a driver */
263 "Floppy Controller", /* Name of the module. */
264 &fdc_ops, /* Driver ops vector */
265 };
266
267 static struct modlinkage modlinkage = {
268 MODREV_1, (void *)&modldrv, NULL
269 };
270
271 int
_init(void)272 _init(void)
273 {
274 int retval;
275
276 if ((retval = ddi_soft_state_init(&fdc_state_head,
277 sizeof (struct fdcntlr) + NFDUN * sizeof (struct fcu_obj), 0)) != 0)
278 return (retval);
279
280 if ((retval = mod_install(&modlinkage)) != 0)
281 ddi_soft_state_fini(&fdc_state_head);
282 return (retval);
283 }
284
285 int
_fini(void)286 _fini(void)
287 {
288 int retval;
289
290 if ((retval = mod_remove(&modlinkage)) != 0)
291 return (retval);
292 ddi_soft_state_fini(&fdc_state_head);
293 return (retval);
294 }
295
296 int
_info(struct modinfo * modinfop)297 _info(struct modinfo *modinfop)
298 {
299 return (mod_info(&modlinkage, modinfop));
300 }
301
302
303 int fdc_abort(struct fcu_obj *);
304 int fdc_dkinfo(struct fcu_obj *, struct dk_cinfo *);
305 int fdc_select(struct fcu_obj *, int, int);
306 int fdgetchng(struct fcu_obj *, int);
307 int fdresetchng(struct fcu_obj *, int);
308 int fdrecalseek(struct fcu_obj *, int, int, int);
309 int fdrw(struct fcu_obj *, int, int, int, int, int, caddr_t, uint_t);
310 int fdtrkformat(struct fcu_obj *, int, int, int, int);
311 int fdrawioctl(struct fcu_obj *, int, caddr_t);
312
313 static struct fcobjops fdc_iops = {
314 fdc_abort, /* controller abort */
315 fdc_dkinfo, /* get disk controller info */
316
317 fdc_select, /* select / deselect unit */
318 fdgetchng, /* get media change */
319 fdresetchng, /* reset media change */
320 fdrecalseek, /* recal / seek */
321 NULL, /* read /write request (UNUSED) */
322 fdrw, /* read /write sector */
323 fdtrkformat, /* format track */
324 fdrawioctl /* raw ioctl */
325 };
326
327
328 /*
329 * Function prototypes
330 */
331 void encode(xlate_tbl_t *tablep, int val, uchar_t *rcode);
332 int decode(xlate_tbl_t *, int, int *);
333 static int fdc_propinit1(struct fdcntlr *, int);
334 static void fdc_propinit2(struct fdcntlr *);
335 void fdcquiesce(struct fdcntlr *);
336 int fdcsense_chng(struct fdcntlr *, int);
337 int fdcsense_drv(struct fdcntlr *, int);
338 int fdcsense_int(struct fdcntlr *, int *, int *);
339 int fdcspecify(struct fdcntlr *, int, int, int);
340 int fdcspdchange(struct fdcntlr *, struct fcu_obj *, int);
341 static int fdc_exec(struct fdcntlr *, int, int);
342 int fdcheckdisk(struct fdcntlr *, int);
343 static uint_t fdc_intr(caddr_t arg);
344 static void fdwatch(void *arg);
345 static void fdmotort(void *arg);
346 static int fdrecover(struct fdcntlr *);
347 static int fdc_motorsm(struct fcu_obj *, int, int);
348 static int fdc_statemach(struct fdcntlr *);
349 int fdc_docmd(struct fdcntlr *, uchar_t *, uchar_t);
350 int fdc_result(struct fdcntlr *, uchar_t *, uchar_t);
351
352
353 static int
fdc_bus_ctl(dev_info_t * dip,dev_info_t * rdip,ddi_ctl_enum_t ctlop,void * arg,void * result)354 fdc_bus_ctl(dev_info_t *dip, dev_info_t *rdip, ddi_ctl_enum_t ctlop,
355 void *arg, void *result)
356 {
357 struct fdcntlr *fcp;
358 struct fcu_obj *fjp;
359
360 _NOTE(ARGUNUSED(result));
361
362 FCERRPRINT(FDEP_L0, FDEM_ATTA,
363 (CE_CONT, "fdc_bus_ctl: cmd= %x\n", ctlop));
364
365 if ((fcp = ddi_get_driver_private(dip)) == NULL)
366 return (DDI_FAILURE);
367
368 switch (ctlop) {
369
370 case DDI_CTLOPS_REPORTDEV:
371 cmn_err(CE_CONT, "?%s%d at %s%d\n",
372 ddi_get_name(rdip), ddi_get_instance(rdip),
373 ddi_get_name(dip), ddi_get_instance(dip));
374 FCERRPRINT(FDEP_L3, FDEM_ATTA,
375 (CE_WARN, "fdc_bus_ctl: report %s%d at %s%d",
376 ddi_get_name(rdip), ddi_get_instance(rdip),
377 ddi_get_name(dip), ddi_get_instance(dip)));
378 return (DDI_SUCCESS);
379
380 case DDI_CTLOPS_INITCHILD:
381 {
382 dev_info_t *udip = (dev_info_t *)arg;
383 int cntlr;
384 int len;
385 int unit;
386 char name[MAXNAMELEN];
387
388 FCERRPRINT(FDEP_L3, FDEM_ATTA,
389 (CE_WARN, "fdc_bus_ctl: init child 0x%p", (void*)udip));
390 cntlr = fcp->c_number;
391
392 len = sizeof (unit);
393 if (ddi_prop_op(DDI_DEV_T_ANY, udip, PROP_LEN_AND_VAL_BUF,
394 DDI_PROP_DONTPASS, "unit", (caddr_t)&unit, &len)
395 != DDI_PROP_SUCCESS ||
396 cntlr != FDCTLR(unit) ||
397 (fcp->c_unit[FDUNIT(unit)])->fj_dip)
398 return (DDI_NOT_WELL_FORMED);
399
400 (void) sprintf(name, "%d,%d", cntlr, FDUNIT(unit));
401 ddi_set_name_addr(udip, name);
402
403 fjp = fcp->c_unit[FDUNIT(unit)];
404 fjp->fj_unit = unit;
405 fjp->fj_dip = udip;
406 fjp->fj_ops = &fdc_iops;
407 fjp->fj_fdc = fcp;
408 fjp->fj_iblock = &fcp->c_iblock;
409
410 ddi_set_driver_private(udip, fjp);
411
412 return (DDI_SUCCESS);
413 }
414 case DDI_CTLOPS_UNINITCHILD:
415 {
416 dev_info_t *udip = (dev_info_t *)arg;
417
418 FCERRPRINT(FDEP_L3, FDEM_ATTA,
419 (CE_WARN, "fdc_bus_ctl: uninit child 0x%p", (void *)udip));
420 fjp = ddi_get_driver_private(udip);
421 ddi_set_driver_private(udip, NULL);
422 fjp->fj_dip = NULL;
423 ddi_set_name_addr(udip, NULL);
424 return (DDI_SUCCESS);
425 }
426 default:
427 return (DDI_FAILURE);
428 }
429 }
430
431 static int
fdc_getinfo(dev_info_t * dip,ddi_info_cmd_t cmd,void * arg,void ** result)432 fdc_getinfo(dev_info_t *dip, ddi_info_cmd_t cmd, void *arg, void **result)
433 {
434 struct fdcntlr *fcp;
435 int rval;
436
437 _NOTE(ARGUNUSED(dip));
438
439 switch (cmd) {
440 case DDI_INFO_DEVT2DEVINFO:
441 if (fcp = ddi_get_soft_state(fdc_state_head, (dev_t)arg)) {
442 *result = fcp->c_dip;
443 rval = DDI_SUCCESS;
444 break;
445 } else {
446 rval = DDI_FAILURE;
447 break;
448 }
449 case DDI_INFO_DEVT2INSTANCE:
450 *result = (void *)(uintptr_t)getminor((dev_t)arg);
451 rval = DDI_SUCCESS;
452 break;
453 default:
454 rval = DDI_FAILURE;
455 }
456 return (rval);
457 }
458
459 static int
fdc_probe(dev_info_t * dip)460 fdc_probe(dev_info_t *dip)
461 {
462 int debug[2];
463 int ioaddr;
464 int len;
465 uchar_t stat;
466
467 len = sizeof (debug);
468 if (ddi_prop_op(DDI_DEV_T_ANY, dip, PROP_LEN_AND_VAL_BUF,
469 DDI_PROP_DONTPASS, "debug", (caddr_t)debug, &len) ==
470 DDI_PROP_SUCCESS) {
471 fcerrlevel = debug[0];
472 fcerrmask = (uint_t)debug[1];
473 }
474
475 FCERRPRINT(FDEP_L3, FDEM_ATTA, (CE_WARN, "fdc_probe: dip %p",
476 (void*)dip));
477
478 if (get_ioaddr(dip, &ioaddr) != DDI_SUCCESS)
479 return (DDI_PROBE_FAILURE);
480
481 stat = inb(ioaddr + FCR_MSR);
482 if ((stat & (MS_RQM | MS_DIO | MS_CB)) != MS_RQM &&
483 (stat & ~MS_DIO) != MS_CB)
484 return (DDI_PROBE_FAILURE);
485
486 return (DDI_PROBE_SUCCESS);
487 }
488
489 static int
fdc_attach(dev_info_t * dip,ddi_attach_cmd_t cmd)490 fdc_attach(dev_info_t *dip, ddi_attach_cmd_t cmd)
491 {
492 struct fdcntlr *fcp;
493 struct fcu_obj *fjp;
494 int cntlr_num, ctlr, unit;
495 int intr_set = 0;
496 int len;
497 char name[MAXNAMELEN];
498
499 FCERRPRINT(FDEP_L3, FDEM_ATTA, (CE_WARN, "fdc_attach: dip %p",
500 (void*)dip));
501
502 switch (cmd) {
503 case DDI_ATTACH:
504 if (ddi_getprop
505 (DDI_DEV_T_ANY, dip, 0, "ignore-hardware-nodes", 0)) {
506 len = sizeof (cntlr_num);
507 if (ddi_prop_op(DDI_DEV_T_ANY, dip,
508 PROP_LEN_AND_VAL_BUF, DDI_PROP_DONTPASS, "unit",
509 (caddr_t)&cntlr_num, &len) != DDI_PROP_SUCCESS) {
510 FCERRPRINT(FDEP_L3, FDEM_ATTA, (CE_WARN,
511 "fdc_attach failed: dip %p", (void*)dip));
512 return (DDI_FAILURE);
513 }
514 } else {
515 if (get_unit(dip, &cntlr_num) != DDI_SUCCESS)
516 return (DDI_FAILURE);
517 }
518
519 ctlr = ddi_get_instance(dip);
520 if (ddi_soft_state_zalloc(fdc_state_head, ctlr) != 0)
521 return (DDI_FAILURE);
522 fcp = ddi_get_soft_state(fdc_state_head, ctlr);
523
524 for (unit = 0, fjp = (struct fcu_obj *)(fcp+1);
525 unit < NFDUN; unit++) {
526 fcp->c_unit[unit] = fjp++;
527 }
528 fcp->c_dip = dip;
529
530 if (fdc_propinit1(fcp, cntlr_num) != DDI_SUCCESS)
531 goto no_attach;
532
533 /* get iblock cookie to initialize mutex used in the ISR */
534 if (ddi_get_iblock_cookie(dip, (uint_t)0, &fcp->c_iblock) !=
535 DDI_SUCCESS) {
536 cmn_err(CE_WARN,
537 "fdc_attach: cannot get iblock cookie");
538 goto no_attach;
539 }
540 mutex_init(&fcp->c_lock, NULL, MUTEX_DRIVER, fcp->c_iblock);
541 intr_set = 1;
542
543 /* setup interrupt handler */
544 if (ddi_add_intr(dip, (uint_t)0, NULL,
545 (ddi_idevice_cookie_t *)0, fdc_intr, (caddr_t)fcp) !=
546 DDI_SUCCESS) {
547 cmn_err(CE_WARN, "fdc: cannot add intr");
548 goto no_attach;
549 }
550 intr_set++;
551
552 /*
553 * acquire the DMA channel
554 * this assumes that the chnl is not shared; else allocate
555 * and free the chnl with each fdc request
556 */
557 if (ddi_dmae_alloc(dip, fcp->c_dmachan, DDI_DMA_DONTWAIT, NULL)
558 != DDI_SUCCESS) {
559 cmn_err(CE_WARN, "fdc: cannot acquire dma%d",
560 fcp->c_dmachan);
561 goto no_attach;
562 }
563 (void) ddi_dmae_getattr(dip, &fdc_dma_attr);
564 fdc_dma_attr.dma_attr_align = MMU_PAGESIZE;
565
566 mutex_init(&fcp->c_dorlock, NULL, MUTEX_DRIVER, fcp->c_iblock);
567 cv_init(&fcp->c_iocv, NULL, CV_DRIVER, fcp->c_iblock);
568 sema_init(&fcp->c_selsem, 1, NULL, SEMA_DRIVER, NULL);
569
570 (void) sprintf(name, "fdc%d", ctlr);
571 fcp->c_intrstat = kstat_create("fdc", ctlr, name,
572 "controller", KSTAT_TYPE_INTR, 1, KSTAT_FLAG_PERSISTENT);
573 if (fcp->c_intrstat) {
574 kstat_install(fcp->c_intrstat);
575 }
576
577 ddi_set_driver_private(dip, fcp);
578
579 /*
580 * reset the controller
581 */
582 sema_p(&fcp->c_selsem);
583 mutex_enter(&fcp->c_lock);
584 fcp->c_csb.csb_xstate = FXS_RESET;
585 fcp->c_flags |= FCFLG_WAITING;
586 fdcquiesce(fcp);
587
588 /* first test for mode == Model 30 */
589 fcp->c_mode = (inb(fcp->c_regbase + FCR_SRB) & 0x1c) ?
590 FDCMODE_AT : FDCMODE_30;
591
592 while (fcp->c_flags & FCFLG_WAITING) {
593 cv_wait(&fcp->c_iocv, &fcp->c_lock);
594 }
595 mutex_exit(&fcp->c_lock);
596 sema_v(&fcp->c_selsem);
597
598 fdc_propinit2(fcp);
599
600 ddi_report_dev(dip);
601 return (DDI_SUCCESS);
602
603 case DDI_RESUME:
604
605 fcp = ddi_get_driver_private(dip);
606
607 mutex_enter(&fcp->c_lock);
608 fcp->c_suspended = B_FALSE;
609 fcp->c_csb.csb_xstate = FXS_RESET;
610 fcp->c_flags |= FCFLG_WAITING;
611 fdcquiesce(fcp);
612
613 while (fcp->c_flags & FCFLG_WAITING) {
614 cv_wait(&fcp->c_iocv, &fcp->c_lock);
615 }
616 mutex_exit(&fcp->c_lock);
617
618 /* should be good to go now */
619 sema_v(&fcp->c_selsem);
620
621 return (DDI_SUCCESS);
622 /* break; */
623
624 default:
625 return (DDI_FAILURE);
626 }
627
628 no_attach:
629 if (intr_set) {
630 if (intr_set > 1)
631 ddi_remove_intr(dip, 0, fcp->c_iblock);
632 mutex_destroy(&fcp->c_lock);
633 }
634 ddi_soft_state_free(fdc_state_head, cntlr_num);
635 return (DDI_FAILURE);
636 }
637
638 static int
fdc_propinit1(struct fdcntlr * fcp,int cntlr)639 fdc_propinit1(struct fdcntlr *fcp, int cntlr)
640 {
641 dev_info_t *dip;
642 int len;
643 int value;
644
645 dip = fcp->c_dip;
646 len = sizeof (value);
647
648 if (get_ioaddr(dip, &value) != DDI_SUCCESS)
649 return (DDI_FAILURE);
650
651 fcp->c_regbase = (ushort_t)value;
652
653 if (ddi_prop_op(DDI_DEV_T_ANY, dip, PROP_LEN_AND_VAL_BUF,
654 DDI_PROP_DONTPASS, "dma-channels", (caddr_t)&value, &len)
655 != DDI_PROP_SUCCESS) {
656 cmn_err(CE_WARN,
657 "fdc_attach: Error, could not find a dma channel");
658 return (DDI_FAILURE);
659 }
660 fcp->c_dmachan = (ushort_t)value;
661 fcp->c_number = cntlr;
662 return (DDI_SUCCESS);
663 }
664
665 static void
fdc_propinit2(struct fdcntlr * fcp)666 fdc_propinit2(struct fdcntlr *fcp)
667 {
668 dev_info_t *dip;
669 int ccr;
670 int len;
671 int value;
672
673 dip = fcp->c_dip;
674 len = sizeof (value);
675
676 if (ddi_prop_op(DDI_DEV_T_ANY, dip, PROP_LEN_AND_VAL_BUF,
677 DDI_PROP_DONTPASS, "chip", (caddr_t)&value, &len)
678 == DDI_PROP_SUCCESS)
679 fcp->c_chip = value;
680 else {
681 static uchar_t perpindcmd[2] = {FO_PERP, 0};
682 static uchar_t versioncmd = FO_VRSN;
683 uchar_t result;
684
685 fcp->c_chip = i8272A;
686 (void) fdc_docmd(fcp, &versioncmd, 1);
687 /*
688 * Ignored return. If failed, warning was issued by fdc_docmd.
689 * fdc_results retrieves the controller/drive status
690 */
691 if (!fdc_result(fcp, &result, 1) && result == 0x90) {
692 /*
693 * try a perpendicular_mode cmd to ensure
694 * that we really have an enhanced controller
695 */
696 if (fdc_docmd(fcp, perpindcmd, 2) ||
697 fdc_docmd(fcp, configurecmd, 4))
698 /*
699 * perpindicular_mode will be rejected by
700 * older controllers; make sure we don't hang.
701 */
702 (void) fdc_result(fcp, &result, 1);
703 /*
704 * Ignored return. If failed, warning was
705 * issued by fdc_result.
706 */
707 else
708 /* enhanced type controller */
709
710 if ((fcp->c_chip = fdc_enhance_probe(fcp)) == 0)
711 /* default enhanced cntlr */
712 fcp->c_chip = i82077;
713 }
714 (void) ddi_prop_update_int(DDI_DEV_T_NONE, dip,
715 "chip", fcp->c_chip);
716 /*
717 * Ignoring return value because, for passed arguments, only
718 * DDI_SUCCESS is returned.
719 */
720 }
721 if (fcp->c_chip >= i82077 && fcp->c_mode == FDCMODE_30 &&
722 (inb(fcp->c_regbase + FCR_DIR) & 0x70) == 0)
723 for (ccr = 0; ccr <= (FCC_NOPREC | FCC_DRATE); ccr++) {
724 /*
725 * run through all the combinations of NOPREC and
726 * datarate selection, and see if they show up in the
727 * Model 30 DIR
728 */
729 outb(fcp->c_regbase + FCR_CCR, ccr);
730 drv_usecwait(5);
731 if ((inb(fcp->c_regbase + FCR_DIR) &
732 (FCC_NOPREC | FCC_DRATE)) != ccr) {
733 fcp->c_mode = FDCMODE_AT;
734 break;
735 }
736 }
737 else
738 fcp->c_mode = FDCMODE_AT;
739 outb(fcp->c_regbase + FCR_CCR, 0);
740 }
741
742 static int
fdc_enhance_probe(struct fdcntlr * fcp)743 fdc_enhance_probe(struct fdcntlr *fcp)
744 {
745 static uchar_t nsccmd = FO_NSC;
746 uint_t ddic;
747 int retcode = 0;
748 uchar_t result;
749 uchar_t save;
750
751 /*
752 * Try to identify the enhanced floppy controller.
753 * This is required so that we can program the DENSEL output to
754 * control 3D mode (1.0 MB, 1.6 MB and 2.0 MB unformatted capacity,
755 * 720 KB, 1.2 MB, and 1.44 MB formatted capacity) 3.5" dual-speed
756 * floppy drives. Refer to bugid 1195155.
757 */
758
759 (void) fdc_docmd(fcp, &nsccmd, 1);
760 /*
761 * Ignored return. If failed, warning was issued by fdc_docmd.
762 * fdc_results retrieves the controller/drive status
763 */
764 if (!fdc_result(fcp, &result, 1) && result != S0_IVCMD) {
765 /*
766 * only enhanced National Semi PC8477 core
767 * should respond to this command
768 */
769 if ((result & 0xf0) == 0x70) {
770 /* low 4 bits may change */
771 fcp->c_flags |= FCFLG_3DMODE;
772 retcode = PC87322;
773 } else
774 cmn_err(CE_CONT,
775 "?fdc: unidentified, enhanced, National Semiconductor cntlr %x\n", result);
776 } else {
777 save = inb(fcp->c_regbase + FCR_SRA);
778
779 do {
780 /* probe for motherboard version of SMC cntlr */
781
782 /* try to enable configuration mode */
783 ddic = ddi_enter_critical();
784 outb(fcp->c_regbase + FCR_SRA, FSA_ENA5);
785 outb(fcp->c_regbase + FCR_SRA, FSA_ENA5);
786 ddi_exit_critical(ddic);
787
788 outb(fcp->c_regbase + FCR_SRA, 0x0F);
789 if (inb(fcp->c_regbase + FCR_SRB) != 0x00)
790 /* always expect 0 from config reg F */
791 break;
792 outb(fcp->c_regbase + FCR_SRA, 0x0D);
793 if (inb(fcp->c_regbase + FCR_SRB) != 0x65)
794 /* expect 0x65 from config reg D */
795 break;
796 outb(fcp->c_regbase + FCR_SRA, 0x0E);
797 result = inb(fcp->c_regbase + FCR_SRB);
798 if (result != 0x02) {
799 /* expect revision level 2 from config reg E */
800 cmn_err(CE_CONT,
801 "?fdc: unidentified, enhanced, SMC cntlr revision %x\n", result);
802 /* break; */
803 }
804 fcp->c_flags |= FCFLG_3DMODE;
805 retcode = FDC37C665;
806 } while (retcode == 0);
807 outb(fcp->c_regbase + FCR_SRA, FSA_DISB);
808
809 while (retcode == 0) {
810 /* probe for adapter version of SMC cntlr */
811 ddic = ddi_enter_critical();
812 outb(fcp->c_regbase + FCR_SRA, FSA_ENA6);
813 outb(fcp->c_regbase + FCR_SRA, FSA_ENA6);
814 ddi_exit_critical(ddic);
815
816 outb(fcp->c_regbase + FCR_SRA, 0x0F);
817 if (inb(fcp->c_regbase + FCR_SRB) != 0x00)
818 /* always expect 0 from config reg F */
819 break;
820 outb(fcp->c_regbase + FCR_SRA, 0x0D);
821 if (inb(fcp->c_regbase + FCR_SRB) != 0x66)
822 /* expect 0x66 from config reg D */
823 break;
824 outb(fcp->c_regbase + FCR_SRA, 0x0E);
825 result = inb(fcp->c_regbase + FCR_SRB);
826 if (result != 0x02) {
827 /* expect revision level 2 from config reg E */
828 cmn_err(CE_CONT,
829 "?fdc: unidentified, enhanced, SMC cntlr revision %x\n", result);
830 /* break; */
831 }
832 fcp->c_flags |= FCFLG_3DMODE;
833 retcode = FDC37C666;
834 }
835 outb(fcp->c_regbase + FCR_SRA, FSA_DISB);
836
837 drv_usecwait(10);
838 outb(fcp->c_regbase + FCR_SRA, save);
839 }
840 return (retcode);
841 }
842
843 static int
fdc_detach(dev_info_t * dip,ddi_detach_cmd_t cmd)844 fdc_detach(dev_info_t *dip, ddi_detach_cmd_t cmd)
845 {
846 struct fdcntlr *fcp;
847 int unit;
848 int rval = 0;
849
850 FCERRPRINT(FDEP_L3, FDEM_ATTA, (CE_WARN, "fdc_detach: dip %p",
851 (void*)dip));
852
853 fcp = ddi_get_driver_private(dip);
854
855 switch (cmd) {
856 case DDI_DETACH:
857 for (unit = 0; unit < NFDUN; unit++)
858 if ((fcp->c_unit[unit])->fj_dip) {
859 rval = EBUSY;
860 break;
861 }
862 kstat_delete(fcp->c_intrstat);
863 fcp->c_intrstat = NULL;
864 ddi_remove_intr(fcp->c_dip, 0, fcp->c_iblock);
865 if (ddi_dmae_release(fcp->c_dip, fcp->c_dmachan) !=
866 DDI_SUCCESS)
867 cmn_err(CE_WARN, "fdc_detach: dma release failed, "
868 "dip %p, dmachan %x",
869 (void*)fcp->c_dip, fcp->c_dmachan);
870 ddi_prop_remove_all(fcp->c_dip);
871 ddi_set_driver_private(fcp->c_dip, NULL);
872
873 mutex_destroy(&fcp->c_lock);
874 mutex_destroy(&fcp->c_dorlock);
875 cv_destroy(&fcp->c_iocv);
876 sema_destroy(&fcp->c_selsem);
877 ddi_soft_state_free(fdc_state_head, ddi_get_instance(dip));
878 break;
879
880 case DDI_SUSPEND:
881 /*
882 * For suspend, we just use the semaphore to
883 * keep any child devices from accessing any of our
884 * hardware routines, and then shutdown the hardware.
885 *
886 * On resume, we'll reinit the hardware and release the
887 * semaphore.
888 */
889 sema_p(&fcp->c_selsem);
890
891 if (ddi_dmae_disable(fcp->c_dip, fcp->c_dmachan) !=
892 DDI_SUCCESS) {
893 cmn_err(CE_WARN, "fdc_suspend: dma disable failed, "
894 "dip %p, dmachan %x", (void *)fcp->c_dip,
895 fcp->c_dmachan);
896 /* give it back on failure */
897 sema_v(&fcp->c_selsem);
898 return (DDI_FAILURE);
899 }
900
901 mutex_enter(&fcp->c_lock);
902 fcp->c_suspended = B_TRUE;
903 mutex_exit(&fcp->c_lock);
904
905 rval = DDI_SUCCESS;
906 break;
907
908 default:
909 rval = EINVAL;
910 break;
911 }
912 return (rval);
913 }
914
915
916 int
fdc_abort(struct fcu_obj * fjp)917 fdc_abort(struct fcu_obj *fjp)
918 {
919 struct fdcntlr *fcp = fjp->fj_fdc;
920 int unit = fjp->fj_unit & 3;
921
922 FCERRPRINT(FDEP_L3, FDEM_RESE, (CE_WARN, "fdc_abort"));
923 if (fcp->c_curunit == unit) {
924 mutex_enter(&fcp->c_lock);
925 if (fcp->c_flags & FCFLG_WAITING) {
926 /*
927 * this can cause data corruption !
928 */
929 fdcquiesce(fcp);
930 fcp->c_csb.csb_xstate = FXS_RESET;
931 fcp->c_flags |= FCFLG_TIMEOUT;
932 if (ddi_dmae_stop(fcp->c_dip, fcp->c_dmachan) !=
933 DDI_SUCCESS)
934 cmn_err(CE_WARN,
935 "fdc_detach: dma release failed, "
936 "dip %p, dmachan %x",
937 (void*)fcp->c_dip, fcp->c_dmachan);
938 }
939 mutex_exit(&fcp->c_lock);
940 drv_usecwait(500);
941 return (DDI_SUCCESS);
942 }
943 return (DDI_FAILURE);
944 }
945
946 int
fdc_dkinfo(struct fcu_obj * fjp,struct dk_cinfo * dcp)947 fdc_dkinfo(struct fcu_obj *fjp, struct dk_cinfo *dcp)
948 {
949 struct fdcntlr *fcp = fjp->fj_fdc;
950
951 (void) strncpy((char *)&dcp->dki_cname, ddi_get_name(fcp->c_dip),
952 DK_DEVLEN);
953 dcp->dki_ctype = DKC_UNKNOWN; /* no code for generic PC/AT fdc */
954 dcp->dki_flags = DKI_FMTTRK;
955 dcp->dki_addr = fcp->c_regbase;
956 dcp->dki_space = 0;
957 dcp->dki_prio = fcp->c_intprio;
958 dcp->dki_vec = fcp->c_intvec;
959 (void) strncpy((char *)&dcp->dki_dname, ddi_driver_name(fjp->fj_dip),
960 DK_DEVLEN);
961 dcp->dki_slave = fjp->fj_unit & 3;
962 dcp->dki_maxtransfer = maxphys / DEV_BSIZE;
963 return (DDI_SUCCESS);
964 }
965
966 /*
967 * on=> non-zero = select, 0 = de-select
968 */
969 int
fdc_select(struct fcu_obj * fjp,int funit,int on)970 fdc_select(struct fcu_obj *fjp, int funit, int on)
971 {
972 struct fdcntlr *fcp = fjp->fj_fdc;
973 int unit = funit & 3;
974
975 if (on) {
976 /* possess controller */
977 sema_p(&fcp->c_selsem);
978 FCERRPRINT(FDEP_L2, FDEM_DSEL,
979 (CE_NOTE, "fdc_select unit %d: on", funit));
980
981 if (fcp->c_curunit != unit || !(fjp->fj_flags & FUNIT_CHAROK)) {
982 fcp->c_curunit = unit;
983 fjp->fj_flags |= FUNIT_CHAROK;
984 if (fdcspecify(fcp,
985 fjp->fj_chars->fdc_transfer_rate,
986 fjp->fj_drive->fdd_steprate, 40))
987 cmn_err(CE_WARN,
988 "fdc_select: controller setup rejected "
989 "fdcntrl %p transfer rate %x step rate %x"
990 " head load time 40", (void*)fcp,
991 fjp->fj_chars->fdc_transfer_rate,
992 fjp->fj_drive->fdd_steprate);
993 }
994
995 mutex_enter(&fcp->c_dorlock);
996
997 /* make sure drive is not selected in case we change speed */
998 fcp->c_digout = (fcp->c_digout & ~FD_DRSEL) |
999 (~unit & FD_DRSEL);
1000 outb(fcp->c_regbase + FCR_DOR, fcp->c_digout);
1001
1002 (void) fdc_motorsm(fjp, FMI_STARTCMD,
1003 fjp->fj_drive->fdd_motoron);
1004 /*
1005 * Return value ignored - fdcmotort deals with failure.
1006 */
1007 if (fdcspdchange(fcp, fjp, fjp->fj_attr->fda_rotatespd)) {
1008 /* 3D drive requires 500 ms for speed change */
1009 (void) fdc_motorsm(fjp, FMI_RSTARTCMD, 5);
1010 /*
1011 * Return value ignored - fdcmotort deals with failure.
1012 */
1013 }
1014
1015 fcp->c_digout = (fcp->c_digout & ~FD_DRSEL) | (unit & FD_DRSEL);
1016 outb(fcp->c_regbase + FCR_DOR, fcp->c_digout);
1017
1018 mutex_exit(&fcp->c_dorlock);
1019 fcp->c_csb.csb_drive = (uchar_t)unit;
1020 } else {
1021 FCERRPRINT(FDEP_L2, FDEM_DSEL,
1022 (CE_NOTE, "fdc_select unit %d: off", funit));
1023
1024 mutex_enter(&fcp->c_dorlock);
1025
1026 fcp->c_digout |= FD_DRSEL;
1027 outb(fcp->c_regbase + FCR_DOR, fcp->c_digout);
1028 (void) fdc_motorsm(fjp, FMI_IDLECMD,
1029 fjp->fj_drive->fdd_motoroff);
1030 /*
1031 * Return value ignored - fdcmotort deals with failure.
1032 */
1033
1034 mutex_exit(&fcp->c_dorlock);
1035
1036 /* give up controller */
1037 sema_v(&fcp->c_selsem);
1038 }
1039 return (0);
1040 }
1041
1042
1043 int
fdgetchng(struct fcu_obj * fjp,int funit)1044 fdgetchng(struct fcu_obj *fjp, int funit)
1045 {
1046 if (fdcsense_drv(fjp->fj_fdc, funit & 3))
1047 cmn_err(CE_WARN, "fdgetchng: write protect check failed");
1048 return (fdcsense_chng(fjp->fj_fdc, funit & 3));
1049 }
1050
1051
1052 int
fdresetchng(struct fcu_obj * fjp,int funit)1053 fdresetchng(struct fcu_obj *fjp, int funit)
1054 {
1055 struct fdcntlr *fcp = fjp->fj_fdc;
1056 int unit = funit & 3;
1057 int newcyl; /* where to seek for reset of DSKCHG */
1058
1059 FCERRPRINT(FDEP_L2, FDEM_CHEK, (CE_NOTE, "fdmediachng unit %d", funit));
1060
1061 if (fcp->c_curpcyl[unit])
1062 newcyl = fcp->c_curpcyl[unit] - 1;
1063 else
1064 newcyl = 1;
1065 return (fdrecalseek(fjp, funit, newcyl, 0));
1066 }
1067
1068
1069 /*
1070 * fdrecalseek
1071 */
1072 int
fdrecalseek(struct fcu_obj * fjp,int funit,int arg,int execflg)1073 fdrecalseek(struct fcu_obj *fjp, int funit, int arg, int execflg)
1074 {
1075 struct fdcntlr *fcp = fjp->fj_fdc;
1076 struct fdcsb *csb;
1077 int unit = funit & 3;
1078 int rval;
1079
1080 FCERRPRINT(FDEP_L2, FDEM_RECA, (CE_NOTE, "fdrecalseek unit %d to %d",
1081 funit, arg));
1082
1083 csb = &fcp->c_csb;
1084 csb->csb_cmd[1] = (uchar_t)unit;
1085 if (arg < 0) { /* is recal... */
1086 *csb->csb_cmd = FO_RECAL;
1087 csb->csb_ncmds = 2;
1088 csb->csb_timer = 28;
1089 } else {
1090 *csb->csb_cmd = FO_SEEK;
1091 csb->csb_cmd[2] = (uchar_t)arg;
1092 csb->csb_ncmds = 3;
1093 csb->csb_timer = 10;
1094 }
1095 csb->csb_nrslts = 2; /* 2 for SENSE INTERRUPTS */
1096 csb->csb_opflags = CSB_OFINRPT;
1097 csb->csb_maxretry = skretry;
1098 csb->csb_dmahandle = NULL;
1099 csb->csb_handle_bound = 0;
1100 csb->csb_dmacookiecnt = 0;
1101 csb->csb_dmacurrcookie = 0;
1102 csb->csb_dmawincnt = 0;
1103 csb->csb_dmacurrwin = 0;
1104
1105 /* send cmd off to fdc_exec */
1106 if (rval = fdc_exec(fcp, 1, execflg))
1107 goto out;
1108
1109 if (!(*csb->csb_rslt & S0_SEKEND) ||
1110 (*csb->csb_rslt & S0_ICMASK) ||
1111 ((*csb->csb_rslt & S0_ECHK) && arg < 0) ||
1112 csb->csb_cmdstat)
1113 rval = ENODEV;
1114
1115 if (fdcsense_drv(fcp, unit))
1116 cmn_err(CE_WARN, "fdgetchng: write protect check failed");
1117 out:
1118 return (rval);
1119 }
1120
1121
1122 /*
1123 * fdrw- used only for read/writing sectors into/from kernel buffers.
1124 */
1125 int
fdrw(struct fcu_obj * fjp,int funit,int rw,int cyl,int head,int sector,caddr_t bufp,uint_t len)1126 fdrw(struct fcu_obj *fjp, int funit, int rw, int cyl, int head,
1127 int sector, caddr_t bufp, uint_t len)
1128 {
1129 struct fdcntlr *fcp = fjp->fj_fdc;
1130 struct fdcsb *csb;
1131 uint_t dmar_flags = 0;
1132 int unit = funit & 3;
1133 int rval;
1134 ddi_acc_handle_t mem_handle = NULL;
1135 caddr_t aligned_buf;
1136 size_t real_size;
1137
1138 FCERRPRINT(FDEP_L1, FDEM_RW, (CE_CONT, "fdrw unit %d\n", funit));
1139
1140 csb = &fcp->c_csb;
1141 if (rw) {
1142 dmar_flags = DDI_DMA_READ;
1143 csb->csb_opflags = CSB_OFDMARD | CSB_OFINRPT;
1144 *csb->csb_cmd = FO_MT | FO_MFM | FO_SK | FO_RDDAT;
1145 } else { /* write */
1146 dmar_flags = DDI_DMA_WRITE;
1147 csb->csb_opflags = CSB_OFDMAWT | CSB_OFINRPT;
1148 *csb->csb_cmd = FO_MT | FO_MFM | FO_WRDAT;
1149 }
1150 csb->csb_cmd[1] = (uchar_t)(unit | ((head & 0x1) << 2));
1151 csb->csb_cmd[2] = (uchar_t)cyl;
1152 csb->csb_cmd[3] = (uchar_t)head;
1153 csb->csb_cmd[4] = (uchar_t)sector;
1154 encode(sector_size, fjp->fj_chars->fdc_sec_size,
1155 &csb->csb_cmd[5]);
1156 csb->csb_cmd[6] = (uchar_t)max(fjp->fj_chars->fdc_secptrack, sector);
1157 csb->csb_cmd[7] = fjp->fj_attr->fda_gapl;
1158 csb->csb_cmd[8] = 0xFF;
1159
1160 csb->csb_ncmds = 9;
1161 csb->csb_nrslts = 7;
1162 csb->csb_timer = 36;
1163 if (rw == FDRDONE)
1164 csb->csb_maxretry = 1;
1165 else
1166 csb->csb_maxretry = rwretry;
1167
1168 csb->csb_dmahandle = NULL;
1169 csb->csb_handle_bound = 0;
1170 csb->csb_dmacookiecnt = 0;
1171 csb->csb_dmacurrcookie = 0;
1172 csb->csb_dmawincnt = 0;
1173 csb->csb_dmacurrwin = 0;
1174 dmar_flags |= (DDI_DMA_STREAMING | DDI_DMA_PARTIAL);
1175
1176 if (ddi_dma_alloc_handle(fcp->c_dip, &fdc_dma_attr, DDI_DMA_SLEEP,
1177 0, &csb->csb_dmahandle) != DDI_SUCCESS) {
1178 rval = EINVAL;
1179 goto out;
1180 }
1181
1182 /*
1183 * allocate a page aligned buffer to dma to/from. This way we can
1184 * ensure the cookie is a whole multiple of granularity and avoids
1185 * any alignment issues.
1186 */
1187 rval = ddi_dma_mem_alloc(csb->csb_dmahandle, len, &fdc_accattr,
1188 DDI_DMA_CONSISTENT, DDI_DMA_SLEEP, NULL, &aligned_buf,
1189 &real_size, &mem_handle);
1190 if (rval != DDI_SUCCESS) {
1191 rval = EINVAL;
1192 goto out;
1193 }
1194
1195 if (dmar_flags & DDI_DMA_WRITE) {
1196 bcopy(bufp, aligned_buf, len);
1197 }
1198
1199 rval = ddi_dma_addr_bind_handle(csb->csb_dmahandle, NULL, aligned_buf,
1200 len, dmar_flags, DDI_DMA_SLEEP, 0, &csb->csb_dmacookie,
1201 &csb->csb_dmacookiecnt);
1202
1203 if (rval == DDI_DMA_MAPPED) {
1204 csb->csb_dmawincnt = 1;
1205 csb->csb_handle_bound = 1;
1206 } else if (rval == DDI_DMA_PARTIAL_MAP) {
1207 csb->csb_handle_bound = 1;
1208 if (ddi_dma_numwin(csb->csb_dmahandle, &csb->csb_dmawincnt) !=
1209 DDI_SUCCESS) {
1210 cmn_err(CE_WARN, "fdrw: dma numwin failed");
1211 rval = EINVAL;
1212 goto out;
1213 }
1214 } else {
1215 cmn_err(CE_WARN,
1216 "fdrw: dma addr bind handle failed, rval = %d", rval);
1217 rval = EINVAL;
1218 goto out;
1219 }
1220 rval = fdc_exec(fcp, 1, 1);
1221
1222 if (dmar_flags & DDI_DMA_READ) {
1223 bcopy(aligned_buf, bufp, len);
1224 }
1225
1226 out:
1227 if (csb->csb_dmahandle) {
1228 if (csb->csb_handle_bound) {
1229 if (ddi_dma_unbind_handle(csb->csb_dmahandle) !=
1230 DDI_SUCCESS)
1231 cmn_err(CE_WARN, "fdrw: "
1232 "dma unbind handle failed");
1233 csb->csb_handle_bound = 0;
1234 }
1235 if (mem_handle != NULL) {
1236 ddi_dma_mem_free(&mem_handle);
1237 }
1238 ddi_dma_free_handle(&csb->csb_dmahandle);
1239 csb->csb_dmahandle = NULL;
1240 }
1241 return (rval);
1242 }
1243
1244
1245 int
fdtrkformat(struct fcu_obj * fjp,int funit,int cyl,int head,int filldata)1246 fdtrkformat(struct fcu_obj *fjp, int funit, int cyl, int head, int filldata)
1247 {
1248 struct fdcntlr *fcp = fjp->fj_fdc;
1249 struct fdcsb *csb;
1250 int unit = funit & 3;
1251 int fmdatlen, lsector, lstart;
1252 int interleave, numsctr, offset, psector;
1253 uchar_t *dp;
1254 int rval;
1255 ddi_acc_handle_t mem_handle = NULL;
1256 caddr_t aligned_buf;
1257 size_t real_size;
1258
1259 FCERRPRINT(FDEP_L2, FDEM_FORM,
1260 (CE_NOTE, "fdformattrk unit %d cyl=%d, hd=%d", funit, cyl, head));
1261
1262 csb = &fcp->c_csb;
1263
1264 csb->csb_opflags = CSB_OFDMAWT | CSB_OFINRPT;
1265
1266 *csb->csb_cmd = FO_FRMT | FO_MFM;
1267 csb->csb_cmd[1] = (head << 2) | unit;
1268 encode(sector_size, fjp->fj_chars->fdc_sec_size,
1269 &csb->csb_cmd[2]);
1270 csb->csb_cmd[3] = numsctr = fjp->fj_chars->fdc_secptrack;
1271 csb->csb_cmd[4] = fjp->fj_attr->fda_gapf;
1272 csb->csb_cmd[5] = (uchar_t)filldata;
1273
1274 csb->csb_npcyl = (uchar_t)(cyl * fjp->fj_chars->fdc_steps);
1275
1276 csb->csb_dmahandle = NULL;
1277 csb->csb_handle_bound = 0;
1278 csb->csb_dmacookiecnt = 0;
1279 csb->csb_dmacurrcookie = 0;
1280 csb->csb_dmawincnt = 0;
1281 csb->csb_dmacurrwin = 0;
1282 csb->csb_ncmds = 6;
1283 csb->csb_nrslts = 7;
1284 csb->csb_timer = 32;
1285 csb->csb_maxretry = rwretry;
1286
1287 /*
1288 * alloc space for format track cmd
1289 */
1290 /*
1291 * NOTE: have to add size of fifo also - for dummy format action
1292 */
1293 fmdatlen = 4 * numsctr;
1294
1295 if (ddi_dma_alloc_handle(fcp->c_dip, &fdc_dma_attr, DDI_DMA_SLEEP,
1296 0, &csb->csb_dmahandle) != DDI_SUCCESS) {
1297 rval = EINVAL;
1298 goto out;
1299 }
1300
1301 /*
1302 * allocate a page aligned buffer to dma to/from. This way we can
1303 * ensure the cookie is a whole multiple of granularity and avoids
1304 * any alignment issues.
1305 */
1306 rval = ddi_dma_mem_alloc(csb->csb_dmahandle, fmdatlen, &fdc_accattr,
1307 DDI_DMA_CONSISTENT, DDI_DMA_SLEEP, NULL, &aligned_buf,
1308 &real_size, &mem_handle);
1309 if (rval != DDI_SUCCESS) {
1310 rval = EINVAL;
1311 goto out;
1312 }
1313 dp = (uchar_t *)aligned_buf;
1314
1315 interleave = fjp->fj_attr->fda_intrlv;
1316 offset = (numsctr + interleave - 1) / interleave;
1317 for (psector = lstart = 1;
1318 psector <= numsctr; psector += interleave, lstart++) {
1319 for (lsector = lstart; lsector <= numsctr; lsector += offset) {
1320 *dp++ = (uchar_t)cyl;
1321 *dp++ = (uchar_t)head;
1322 *dp++ = (uchar_t)lsector;
1323 *dp++ = csb->csb_cmd[2];
1324 }
1325 }
1326
1327 rval = ddi_dma_addr_bind_handle(csb->csb_dmahandle, NULL, aligned_buf,
1328 fmdatlen, DDI_DMA_WRITE | DDI_DMA_STREAMING | DDI_DMA_PARTIAL,
1329 DDI_DMA_SLEEP, 0, &csb->csb_dmacookie, &csb->csb_dmacookiecnt);
1330
1331 if (rval == DDI_DMA_MAPPED) {
1332 csb->csb_dmawincnt = 1;
1333 csb->csb_handle_bound = 1;
1334 } else if (rval == DDI_DMA_PARTIAL_MAP) {
1335 csb->csb_handle_bound = 1;
1336 if (ddi_dma_numwin(csb->csb_dmahandle, &csb->csb_dmawincnt) !=
1337 DDI_SUCCESS) {
1338 cmn_err(CE_WARN, "fdtrkformat: dma numwin failed");
1339 rval = EINVAL;
1340 goto out;
1341 }
1342 } else {
1343 cmn_err(CE_WARN,
1344 "fdtrkformat: dma buf bind handle failed, rval = %d",
1345 rval);
1346 rval = EINVAL;
1347 goto out;
1348 }
1349
1350 rval = fdc_exec(fcp, 1, 1);
1351 out:
1352 if (csb->csb_dmahandle) {
1353 if (csb->csb_handle_bound) {
1354 if (ddi_dma_unbind_handle(csb->csb_dmahandle) !=
1355 DDI_SUCCESS)
1356 cmn_err(CE_WARN, "fdtrkformat: "
1357 "dma unbind handle failed");
1358 csb->csb_handle_bound = 0;
1359 }
1360 if (mem_handle != NULL) {
1361 ddi_dma_mem_free(&mem_handle);
1362 }
1363 ddi_dma_free_handle(&csb->csb_dmahandle);
1364 csb->csb_dmahandle = NULL;
1365 }
1366 return (rval);
1367 }
1368
1369 int
fdrawioctl(struct fcu_obj * fjp,int funit,caddr_t arg)1370 fdrawioctl(struct fcu_obj *fjp, int funit, caddr_t arg)
1371 {
1372 struct fdcntlr *fcp = fjp->fj_fdc;
1373 struct fd_raw *fdrp = (struct fd_raw *)arg;
1374 struct fdcsb *csb;
1375 uint_t dmar_flags = 0;
1376 int i;
1377 int change = 1;
1378 int sleep = 1;
1379 int rval = 0;
1380 int rval_exec = 0;
1381 ddi_acc_handle_t mem_handle = NULL;
1382 caddr_t aligned_buf;
1383 size_t real_size;
1384
1385 _NOTE(ARGUNUSED(funit));
1386
1387 FCERRPRINT(FDEP_L2, FDEM_RAWI,
1388 (CE_NOTE, "fdrawioctl: cmd[0]=0x%x", fdrp->fdr_cmd[0]));
1389
1390 csb = &fcp->c_csb;
1391
1392 /* copy cmd bytes into csb */
1393 for (i = 0; i <= fdrp->fdr_cnum; i++)
1394 csb->csb_cmd[i] = fdrp->fdr_cmd[i];
1395 csb->csb_ncmds = (uchar_t)fdrp->fdr_cnum;
1396
1397 csb->csb_maxretry = 0; /* let the application deal with errors */
1398 csb->csb_opflags = CSB_OFRAWIOCTL;
1399 csb->csb_nrslts = 0;
1400 csb->csb_timer = 50;
1401
1402 switch (fdrp->fdr_cmd[0] & 0x0f) {
1403
1404 case FO_SEEK:
1405 change = 0;
1406 /* FALLTHROUGH */
1407 case FO_RECAL:
1408 csb->csb_opflags |= CSB_OFINRPT;
1409 break;
1410
1411 case FO_FRMT:
1412 csb->csb_npcyl = *(uchar_t *)(fdrp->fdr_addr) *
1413 fjp->fj_chars->fdc_steps;
1414 /* FALLTHROUGH */
1415 case FO_WRDAT:
1416 case FO_WRDEL:
1417 csb->csb_opflags |= CSB_OFDMAWT | CSB_OFRESLT | CSB_OFINRPT;
1418 csb->csb_nrslts = 7;
1419 if (fdrp->fdr_nbytes == 0)
1420 return (EINVAL);
1421 dmar_flags = DDI_DMA_WRITE;
1422 break;
1423
1424 case FO_RDDAT:
1425 case FO_RDDEL:
1426 case FO_RDTRK:
1427 csb->csb_opflags |= CSB_OFDMARD | CSB_OFRESLT | CSB_OFINRPT;
1428 csb->csb_nrslts = 7;
1429 dmar_flags = DDI_DMA_READ;
1430 break;
1431
1432 case FO_RDID:
1433 csb->csb_opflags |= CSB_OFRESLT | CSB_OFINRPT;
1434 csb->csb_nrslts = 7;
1435 break;
1436
1437 case FO_SDRV:
1438 sleep = 0;
1439 csb->csb_nrslts = 1;
1440 break;
1441
1442 case FO_SINT:
1443 sleep = 0;
1444 change = 0;
1445 csb->csb_nrslts = 2;
1446 break;
1447
1448 case FO_SPEC:
1449 sleep = 0;
1450 change = 0;
1451 break;
1452
1453 default:
1454 return (EINVAL);
1455 }
1456
1457 csb->csb_dmahandle = NULL;
1458 csb->csb_handle_bound = 0;
1459 csb->csb_dmacookiecnt = 0;
1460 csb->csb_dmacurrcookie = 0;
1461 csb->csb_dmawincnt = 0;
1462 csb->csb_dmacurrwin = 0;
1463
1464 if (csb->csb_opflags & (CSB_OFDMARD | CSB_OFDMAWT)) {
1465 if (ddi_dma_alloc_handle(fcp->c_dip, &fdc_dma_attr,
1466 DDI_DMA_SLEEP, 0, &csb->csb_dmahandle) != DDI_SUCCESS) {
1467 rval = EINVAL;
1468 goto out;
1469 }
1470
1471 /*
1472 * allocate a page aligned buffer to dma to/from. This way we
1473 * can ensure the cookie is a whole multiple of granularity and
1474 * avoids any alignment issues.
1475 */
1476 rval = ddi_dma_mem_alloc(csb->csb_dmahandle,
1477 (uint_t)fdrp->fdr_nbytes, &fdc_accattr, DDI_DMA_CONSISTENT,
1478 DDI_DMA_SLEEP, NULL, &aligned_buf, &real_size, &mem_handle);
1479 if (rval != DDI_SUCCESS) {
1480 rval = EINVAL;
1481 goto out;
1482 }
1483
1484 if (dmar_flags & DDI_DMA_WRITE) {
1485 bcopy(fdrp->fdr_addr, aligned_buf,
1486 (uint_t)fdrp->fdr_nbytes);
1487 }
1488
1489 dmar_flags |= (DDI_DMA_STREAMING | DDI_DMA_PARTIAL);
1490 rval = ddi_dma_addr_bind_handle(csb->csb_dmahandle, NULL,
1491 aligned_buf, (uint_t)fdrp->fdr_nbytes, dmar_flags,
1492 DDI_DMA_SLEEP, 0, &csb->csb_dmacookie,
1493 &csb->csb_dmacookiecnt);
1494
1495 if (rval == DDI_DMA_MAPPED) {
1496 csb->csb_dmawincnt = 1;
1497 csb->csb_handle_bound = 1;
1498 } else if (rval == DDI_DMA_PARTIAL_MAP) {
1499 csb->csb_handle_bound = 1;
1500 if (ddi_dma_numwin(csb->csb_dmahandle,
1501 &csb->csb_dmawincnt) != DDI_SUCCESS) {
1502 cmn_err(CE_WARN,
1503 "fdrawioctl: dma numwin failed");
1504 rval = EINVAL;
1505 goto out;
1506 }
1507 } else {
1508 cmn_err(CE_WARN, "fdrawioctl: "
1509 "dma buf bind handle failed, rval = %d", rval);
1510 rval = EINVAL;
1511 goto out;
1512 }
1513 }
1514
1515 FCERRPRINT(FDEP_L1, FDEM_RAWI,
1516 (CE_CONT, "cmd: %x %x %x %x %x %x %x %x %x %x\n", csb->csb_cmd[0],
1517 csb->csb_cmd[1], csb->csb_cmd[2], csb->csb_cmd[3],
1518 csb->csb_cmd[4], csb->csb_cmd[5], csb->csb_cmd[6],
1519 csb->csb_cmd[7], csb->csb_cmd[8], csb->csb_cmd[9]));
1520 FCERRPRINT(FDEP_L1, FDEM_RAWI,
1521 (CE_CONT, "nbytes: %x, opflags: %x, addr: %p, len: %x\n",
1522 csb->csb_ncmds, csb->csb_opflags, (void *)fdrp->fdr_addr,
1523 fdrp->fdr_nbytes));
1524
1525 /*
1526 * Note that we ignore any error returns from fdexec.
1527 * This is the way the driver has been, and it may be
1528 * that the raw ioctl senders simply don't want to
1529 * see any errors returned in this fashion.
1530 */
1531
1532 /*
1533 * VP/ix sense drive ioctl call checks for the error return.
1534 */
1535
1536 rval_exec = fdc_exec(fcp, sleep, change);
1537
1538 if (dmar_flags & DDI_DMA_READ) {
1539 bcopy(aligned_buf, fdrp->fdr_addr, (uint_t)fdrp->fdr_nbytes);
1540 }
1541
1542 FCERRPRINT(FDEP_L1, FDEM_RAWI,
1543 (CE_CONT, "rslt: %x %x %x %x %x %x %x %x %x %x\n", csb->csb_rslt[0],
1544 csb->csb_rslt[1], csb->csb_rslt[2], csb->csb_rslt[3],
1545 csb->csb_rslt[4], csb->csb_rslt[5], csb->csb_rslt[6],
1546 csb->csb_rslt[7], csb->csb_rslt[8], csb->csb_rslt[9]));
1547
1548 /* copy results into fdr */
1549 for (i = 0; i <= (int)csb->csb_nrslts; i++)
1550 fdrp->fdr_result[i] = csb->csb_rslt[i];
1551 /* fdrp->fdr_nbytes = fdc->c_csb.csb_rlen; return resid */
1552
1553 out:
1554 if (csb->csb_dmahandle) {
1555 if (csb->csb_handle_bound) {
1556 if (ddi_dma_unbind_handle(csb->csb_dmahandle) !=
1557 DDI_SUCCESS)
1558 cmn_err(CE_WARN, "fdrawioctl: "
1559 "dma unbind handle failed");
1560 csb->csb_handle_bound = 0;
1561 }
1562 if (mem_handle != NULL) {
1563 ddi_dma_mem_free(&mem_handle);
1564 }
1565 ddi_dma_free_handle(&csb->csb_dmahandle);
1566 csb->csb_dmahandle = NULL;
1567 }
1568 if ((fdrp->fdr_cmd[0] & 0x0f) == FO_SDRV) {
1569 return (rval_exec);
1570 }
1571 return (rval);
1572 }
1573
1574 void
encode(xlate_tbl_t * tablep,int val,uchar_t * rcode)1575 encode(xlate_tbl_t *tablep, int val, uchar_t *rcode)
1576 {
1577 do {
1578 if (tablep->value >= val) {
1579 *rcode = tablep->code;
1580 return;
1581 }
1582 } while ((++tablep)->value);
1583 *rcode = tablep->code;
1584 cmn_err(CE_WARN, "fdc encode failed, table %p val %x code %x",
1585 (void *)tablep, val, (uint_t)*rcode);
1586 }
1587
1588 int
decode(xlate_tbl_t * tablep,int kode,int * rvalue)1589 decode(xlate_tbl_t *tablep, int kode, int *rvalue)
1590 {
1591 do {
1592 if (tablep->code == kode) {
1593 *rvalue = tablep->value;
1594 return (0);
1595 }
1596 } while ((++tablep)->value);
1597 return (-1);
1598 }
1599
1600 /*
1601 * quiesce(9E) entry point.
1602 *
1603 * This function is called when the system is single-threaded at high
1604 * PIL with preemption disabled. Therefore, this function must not be
1605 * blocked.
1606 *
1607 * This function returns DDI_SUCCESS on success, or DDI_FAILURE on failure.
1608 * DDI_FAILURE indicates an error condition and should almost never happen.
1609 */
1610 int
fdc_quiesce(dev_info_t * dip)1611 fdc_quiesce(dev_info_t *dip)
1612 {
1613 struct fdcntlr *fcp;
1614 int ctlr = ddi_get_instance(dip);
1615 int unit;
1616
1617 fcp = ddi_get_soft_state(fdc_state_head, ctlr);
1618
1619 if (fcp == NULL)
1620 return (DDI_FAILURE);
1621
1622 /*
1623 * If no FD units are attached, there is no need to quiesce.
1624 */
1625 for (unit = 0; unit < NFDUN; unit++) {
1626 struct fcu_obj *fjp = fcp->c_unit[unit];
1627 if (fjp->fj_flags & FUNIT_DRVATCH) {
1628 break;
1629 }
1630 }
1631
1632 if (unit == NFDUN)
1633 return (DDI_SUCCESS);
1634
1635 (void) ddi_dmae_disable(fcp->c_dip, fcp->c_dmachan);
1636
1637 fcp->c_digout = (fcp->c_digout & (FD_DMTREN | FD_DRSEL)) | FD_ENABLE;
1638 outb(fcp->c_regbase + FCR_DOR, fcp->c_digout);
1639 drv_usecwait(20);
1640 fcp->c_digout |= FD_RSETZ;
1641 outb(fcp->c_regbase + FCR_DOR, fcp->c_digout);
1642
1643 if (fcp->c_chip >= i82077) {
1644 int count = 4;
1645 uchar_t *oplistp = configurecmd;
1646 do {
1647 int ntries = FDC_RQM_RETRY;
1648 do {
1649 if ((inb(fcp->c_regbase + FCR_MSR) &
1650 (MS_RQM|MS_DIO)) == MS_RQM)
1651 break;
1652 else
1653 drv_usecwait(1);
1654 } while (--ntries);
1655 if (ntries == 0) {
1656 break;
1657 }
1658 outb(fcp->c_regbase + FCR_DATA, *oplistp++);
1659 drv_usecwait(16); /* See comment in fdc_result() */
1660 } while (--count);
1661 }
1662
1663 return (DDI_SUCCESS);
1664 }
1665
1666 void
fdcquiesce(struct fdcntlr * fcp)1667 fdcquiesce(struct fdcntlr *fcp)
1668 {
1669 int unit;
1670
1671 FCERRPRINT(FDEP_L2, FDEM_RESE, (CE_NOTE, "fdcquiesce fcp %p",
1672 (void*)fcp));
1673
1674 ASSERT(MUTEX_HELD(&fcp->c_lock));
1675 mutex_enter(&fcp->c_dorlock);
1676
1677 if (ddi_dmae_stop(fcp->c_dip, fcp->c_dmachan) != DDI_SUCCESS)
1678 cmn_err(CE_WARN, "fdcquiesce: dmae stop failed, "
1679 "dip %p, dmachan %x",
1680 (void*)fcp->c_dip, fcp->c_dmachan);
1681
1682 fcp->c_digout = (fcp->c_digout & (FD_DMTREN | FD_DRSEL)) | FD_ENABLE;
1683 outb(fcp->c_regbase + FCR_DOR, fcp->c_digout);
1684 drv_usecwait(20);
1685 fcp->c_digout |= FD_RSETZ;
1686 outb(fcp->c_regbase + FCR_DOR, fcp->c_digout);
1687
1688 mutex_exit(&fcp->c_dorlock);
1689
1690 /* count resets */
1691 fcp->fdstats.reset++;
1692 fcp->c_curunit = -1;
1693 for (unit = 0; unit < NFDUN; unit++)
1694 fcp->c_curpcyl[unit] = -1;
1695
1696 if (fcp->c_chip >= i82077) {
1697 (void) fdc_docmd(fcp, configurecmd, 4);
1698 /*
1699 * Ignored return. If failed, warning was issued by fdc_docmd.
1700 */
1701 }
1702 }
1703
1704 void
fdcreadid(struct fdcntlr * fcp,struct fdcsb * csb)1705 fdcreadid(struct fdcntlr *fcp, struct fdcsb *csb)
1706 {
1707 static uchar_t readidcmd[2] = {FO_RDID | FO_MFM, 0};
1708
1709 readidcmd[1] = csb->csb_cmd[1];
1710 (void) fdc_docmd(fcp, readidcmd, 2);
1711 }
1712
1713 int
fdcseek(struct fdcntlr * fcp,int unit,int cyl)1714 fdcseek(struct fdcntlr *fcp, int unit, int cyl)
1715 {
1716 static uchar_t seekabscmd[3] = {FO_SEEK, 0, 0};
1717
1718 FCERRPRINT(FDEP_L0, FDEM_RECA, (CE_CONT, "fdcseek unit %d to cyl %d\n",
1719 unit, cyl));
1720 seekabscmd[1] = (uchar_t)unit;
1721 seekabscmd[2] = (uchar_t)cyl;
1722 return (fdc_docmd(fcp, seekabscmd, 3));
1723 }
1724
1725 /*
1726 * Returns status of disk change line of selected drive.
1727 * = 0 means diskette is present
1728 * != 0 means diskette was removed and current state is unknown
1729 */
1730 int
fdcsense_chng(struct fdcntlr * fcp,int unit)1731 fdcsense_chng(struct fdcntlr *fcp, int unit)
1732 {
1733 int digital_input;
1734
1735 FCERRPRINT(FDEP_L0, FDEM_SCHG,
1736 (CE_CONT, "fdcsense_chng unit %d\n", unit));
1737 digital_input = inb(fcp->c_regbase + FCR_DIR);
1738 if (fcp->c_mode == FDCMODE_30)
1739 digital_input ^= FDI_DKCHG;
1740 return (digital_input & FDI_DKCHG);
1741 }
1742
1743 int
fdcsense_drv(struct fdcntlr * fcp,int unit)1744 fdcsense_drv(struct fdcntlr *fcp, int unit)
1745 {
1746 static uchar_t sensedrvcmd[2] = {FO_SDRV, 0};
1747 uchar_t senser;
1748 int rval;
1749
1750 sensedrvcmd[1] = (uchar_t)unit;
1751 (void) fdc_docmd(fcp, sensedrvcmd, 2);
1752 /*
1753 * Ignored return. If failed, warning was issued by fdc_docmd.
1754 * fdc_results retrieves the controller/drive status
1755 */
1756 if (rval = fdc_result(fcp, &senser, 1))
1757 goto done;
1758 if (senser & S3_WPROT)
1759 fcp->c_unit[unit]->fj_flags |= FUNIT_WPROT;
1760 else
1761 fcp->c_unit[unit]->fj_flags &= ~FUNIT_WPROT;
1762 done:
1763 return (rval);
1764 }
1765
1766 int
fdcsense_int(struct fdcntlr * fcp,int * unitp,int * cylp)1767 fdcsense_int(struct fdcntlr *fcp, int *unitp, int *cylp)
1768 {
1769 uchar_t senser[2];
1770 int rval;
1771
1772 (void) fdc_docmd(fcp, &senseintcmd, 1);
1773 /*
1774 * Ignored return. If failed, warning was issued by fdc_docmd.
1775 * fdc_results retrieves the controller/drive status
1776 */
1777
1778 if (!(rval = fdc_result(fcp, senser, 2))) {
1779 if ((*senser & (S0_IVCMD | S0_SEKEND | S0_ECHK)) != S0_SEKEND)
1780 rval = 1;
1781 if (unitp)
1782 *unitp = *senser & 3;
1783 if (cylp)
1784 *cylp = senser[1];
1785 }
1786 return (rval);
1787 }
1788
1789 int
fdcspecify(struct fdcntlr * fcp,int xferrate,int steprate,int hlt)1790 fdcspecify(struct fdcntlr *fcp, int xferrate, int steprate, int hlt)
1791 {
1792 static uchar_t perpindcmd[2] = {FO_PERP, 0};
1793 static uchar_t specifycmd[3] = {FO_SPEC, 0, 0};
1794
1795 encode(drate_mfm, xferrate, &fcp->c_config);
1796 outb(fcp->c_regbase + FCR_CCR, fcp->c_config);
1797
1798 if (fcp->c_chip >= i82077) {
1799 /*
1800 * Use old style perpendicular mode command of 82077.
1801 */
1802 if (xferrate == 1000) {
1803 /* Set GAP and WGATE */
1804 perpindcmd[1] = 3;
1805 /* double step rate because xlate table is for 500Kb */
1806 steprate <<= 1;
1807 hlt <<= 1;
1808 } else
1809 perpindcmd[1] = 0;
1810 (void) fdc_docmd(fcp, perpindcmd, 2);
1811 /*
1812 * Ignored return. If failed, warning was issued by fdc_docmd.
1813 */
1814 }
1815 encode(step_rate, steprate, &fcp->c_hutsrt);
1816 specifycmd[1] = fcp->c_hutsrt |= 0x0F; /* use max head unload time */
1817 hlt = (hlt >= 256) ? 0 : (hlt >> 1); /* encode head load time */
1818 specifycmd[2] = fcp->c_hlt = hlt << 1; /* make room for DMA bit */
1819 return (fdc_docmd(fcp, specifycmd, 3));
1820 }
1821
1822 int
fdcspdchange(struct fdcntlr * fcp,struct fcu_obj * fjp,int rpm)1823 fdcspdchange(struct fdcntlr *fcp, struct fcu_obj *fjp, int rpm)
1824 {
1825 int retcode = 0;
1826 uint_t ddic;
1827 uchar_t deselect = 0;
1828 uchar_t ds_code;
1829 uchar_t enable_code;
1830 uchar_t save;
1831
1832 if (((fcp->c_flags & FCFLG_DSOUT) == 0 && rpm <= fjp->fj_rotspd) ||
1833 ((fcp->c_flags & FCFLG_DSOUT) && (fjp->fj_flags & FUNIT_3DMODE) &&
1834 rpm > fjp->fj_rotspd)) {
1835 return (0);
1836 }
1837
1838 FCERRPRINT(FDEP_L1, FDEM_SCHG,
1839 (CE_CONT, "fdcspdchange: %d rpm\n", rpm));
1840 ASSERT(MUTEX_HELD(&fcp->c_dorlock));
1841
1842 switch (fcp->c_chip) {
1843 default:
1844 break;
1845 case i82077:
1846 break;
1847
1848 case PC87322:
1849 {
1850 uchar_t nscmodecmd[5] = {FO_MODE, 0x02, 0x00, 0xC8, 0x00};
1851
1852 if (rpm > fjp->fj_rotspd) {
1853 nscmodecmd[3] ^= 0xC0;
1854 retcode = (fcp->c_flags ^ FCFLG_DSOUT) ||
1855 (fjp->fj_flags ^ FUNIT_3DMODE);
1856 fcp->c_flags |= FCFLG_DSOUT;
1857 fjp->fj_flags |= FUNIT_3DMODE;
1858 } else {
1859 /* program DENSEL to default output */
1860 fcp->c_flags &= ~FCFLG_DSOUT;
1861 retcode = fjp->fj_flags & FUNIT_3DMODE;
1862 fjp->fj_flags &= ~FUNIT_3DMODE;
1863 }
1864 if (retcode && (fcp->c_digout & FD_DRSEL) == fcp->c_curunit) {
1865 /* de-select drive while changing speed */
1866 deselect = fcp->c_digout ^ FD_DRSEL;
1867 outb(fcp->c_regbase + FCR_DOR, deselect);
1868 }
1869
1870 (void) fdc_docmd(fcp, nscmodecmd, 5);
1871 /*
1872 * Ignored return. If failed, warning was issued by fdc_docmd.
1873 */
1874 break;
1875 }
1876
1877 case FDC37C665:
1878 enable_code = FSA_ENA5;
1879 goto SMC_config;
1880
1881 case FDC37C666:
1882 enable_code = FSA_ENA6;
1883 SMC_config:
1884 if (rpm > fjp->fj_rotspd) {
1885 /* force DENSEL output to active LOW */
1886 ds_code = FSB_DSHI;
1887 retcode = (fcp->c_flags ^ FCFLG_DSOUT) ||
1888 (fjp->fj_flags ^ FUNIT_3DMODE);
1889 fcp->c_flags |= FCFLG_DSOUT;
1890 fjp->fj_flags |= FUNIT_3DMODE;
1891 } else {
1892 /* program DENSEL to default output */
1893 ds_code = 0;
1894 fcp->c_flags &= ~FCFLG_DSOUT;
1895 retcode = fjp->fj_flags & FUNIT_3DMODE;
1896 fjp->fj_flags &= ~FUNIT_3DMODE;
1897 }
1898 if (retcode && (fcp->c_digout & FD_DRSEL) == fcp->c_curunit) {
1899 /* de-select drive while changing speed */
1900 deselect = fcp->c_digout ^ FD_DRSEL;
1901 outb(fcp->c_regbase + FCR_DOR, deselect);
1902 }
1903 save = inb(fcp->c_regbase + FCR_SRA);
1904
1905 /* enter configuration mode */
1906 ddic = ddi_enter_critical();
1907 outb(fcp->c_regbase + FCR_SRA, enable_code);
1908 outb(fcp->c_regbase + FCR_SRA, enable_code);
1909 ddi_exit_critical(ddic);
1910
1911 outb(fcp->c_regbase + FCR_SRA, FSA_CR5);
1912 enable_code = inb(fcp->c_regbase + FCR_SRB) & FSB_DSDEF;
1913 /* update DENSEL mode bits */
1914 outb(fcp->c_regbase + FCR_SRB, enable_code | ds_code);
1915
1916 /* exit configuration mode */
1917 outb(fcp->c_regbase + FCR_SRA, FSA_DISB);
1918 drv_usecwait(10);
1919 outb(fcp->c_regbase + FCR_SRA, save);
1920 break;
1921 }
1922 if (deselect)
1923 /* reselect drive */
1924 outb(fcp->c_regbase + FCR_DOR, fcp->c_digout);
1925 return (retcode);
1926 }
1927
1928 static int
fdc_motorsm(struct fcu_obj * fjp,int input,int timeval)1929 fdc_motorsm(struct fcu_obj *fjp, int input, int timeval)
1930 {
1931 struct fdcntlr *fcp = fjp->fj_fdc;
1932 int unit = fjp->fj_unit & 3;
1933 int old_mstate;
1934 int rval = 0;
1935 uchar_t motorbit;
1936
1937 ASSERT(MUTEX_HELD(&fcp->c_dorlock));
1938 old_mstate = fcp->c_mtrstate[unit];
1939 encode(motor_onbits, unit, &motorbit);
1940
1941 switch (input) {
1942 case FMI_TIMER: /* timer expired */
1943 fcp->c_motort[unit] = 0;
1944 switch (old_mstate) {
1945 case FMS_START:
1946 case FMS_DELAY:
1947 fcp->c_mtrstate[unit] = FMS_ON;
1948 break;
1949 case FMS_KILLST:
1950 fcp->c_motort[unit] = timeout(fdmotort, (void *)fjp,
1951 drv_usectohz(1000000));
1952 fcp->c_mtrstate[unit] = FMS_IDLE;
1953 break;
1954 case FMS_IDLE:
1955 fcp->c_digout &= ~motorbit;
1956 outb(fcp->c_regbase + FCR_DOR, fcp->c_digout);
1957 fcp->c_mtrstate[unit] = FMS_OFF;
1958 fjp->fj_flags &= ~FUNIT_3DMODE;
1959 break;
1960 case 86:
1961 rval = -1;
1962 break;
1963 case FMS_OFF:
1964 case FMS_ON:
1965 default:
1966 rval = -2;
1967 }
1968 break;
1969
1970 case FMI_STARTCMD: /* start command */
1971 switch (old_mstate) {
1972 case FMS_IDLE:
1973 fcp->c_mtrstate[unit] = 86;
1974 mutex_exit(&fcp->c_dorlock);
1975 (void) untimeout(fcp->c_motort[unit]);
1976 mutex_enter(&fcp->c_dorlock);
1977 fcp->c_motort[unit] = 0;
1978 fcp->c_mtrstate[unit] = FMS_ON;
1979 break;
1980 case FMS_OFF:
1981 fcp->c_digout |= motorbit;
1982 outb(fcp->c_regbase + FCR_DOR, fcp->c_digout);
1983
1984 /* start motor_spinup_timer */
1985 ASSERT(timeval > 0);
1986 fcp->c_motort[unit] = timeout(fdmotort, (void *)fjp,
1987 drv_usectohz(100000 * timeval));
1988 /* FALLTHROUGH */
1989 case FMS_KILLST:
1990 fcp->c_mtrstate[unit] = FMS_START;
1991 break;
1992 default:
1993 rval = -2;
1994 }
1995 break;
1996
1997 case FMI_RSTARTCMD: /* restart command */
1998 if (fcp->c_motort[unit] != 0) {
1999 fcp->c_mtrstate[unit] = 86;
2000 mutex_exit(&fcp->c_dorlock);
2001 (void) untimeout(fcp->c_motort[unit]);
2002 mutex_enter(&fcp->c_dorlock);
2003 }
2004 ASSERT(timeval > 0);
2005 fcp->c_motort[unit] = timeout(fdmotort, (void *)fjp,
2006 drv_usectohz(100000 * timeval));
2007 fcp->c_mtrstate[unit] = FMS_START;
2008 break;
2009
2010 case FMI_DELAYCMD: /* delay command */
2011 if (fcp->c_motort[unit] == 0)
2012 fcp->c_motort[unit] = timeout(fdmotort, (void *)fjp,
2013 drv_usectohz(15000));
2014 fcp->c_mtrstate[unit] = FMS_DELAY;
2015 break;
2016
2017 case FMI_IDLECMD: /* idle command */
2018 switch (old_mstate) {
2019 case FMS_DELAY:
2020 fcp->c_mtrstate[unit] = 86;
2021 mutex_exit(&fcp->c_dorlock);
2022 (void) untimeout(fcp->c_motort[unit]);
2023 mutex_enter(&fcp->c_dorlock);
2024 /* FALLTHROUGH */
2025 case FMS_ON:
2026 ASSERT(timeval > 0);
2027 fcp->c_motort[unit] = timeout(fdmotort, (void *)fjp,
2028 drv_usectohz(100000 * timeval));
2029 fcp->c_mtrstate[unit] = FMS_IDLE;
2030 break;
2031 case FMS_START:
2032 fcp->c_mtrstate[unit] = FMS_KILLST;
2033 break;
2034 default:
2035 rval = -2;
2036 }
2037 break;
2038
2039 default:
2040 rval = -3;
2041 }
2042 if (rval) {
2043 FCERRPRINT(FDEP_L4, FDEM_EXEC, (CE_WARN,
2044 "fdc_motorsm: unit %d bad input %d or bad state %d",
2045 (int)fjp->fj_unit, input, old_mstate));
2046 #if 0
2047 cmn_err(CE_WARN,
2048 "fdc_motorsm: unit %d bad input %d or bad state %d",
2049 (int)fjp->fj_unit, input, old_mstate);
2050 fcp->c_mtrstate[unit] = FMS_OFF;
2051 if (fcp->c_motort[unit] != 0) {
2052 mutex_exit(&fcp->c_dorlock);
2053 (void) untimeout(fcp->c_motort[unit]);
2054 mutex_enter(&fcp->c_dorlock);
2055 fcp->c_motort[unit] = 0;
2056 }
2057 #endif
2058 } else
2059 FCERRPRINT(FDEP_L0, FDEM_EXEC,
2060 (CE_CONT, "fdc_motorsm unit %d: input %d, %d -> %d\n",
2061 (int)fjp->fj_unit, input, old_mstate,
2062 fcp->c_mtrstate[unit]));
2063 return (rval);
2064 }
2065
2066 /*
2067 * fdmotort
2068 * is called from timeout() when a motor timer has expired.
2069 */
2070 static void
fdmotort(void * arg)2071 fdmotort(void *arg)
2072 {
2073 struct fcu_obj *fjp = (struct fcu_obj *)arg;
2074 struct fdcntlr *fcp = fjp->fj_fdc;
2075 struct fdcsb *csb = &fcp->c_csb;
2076 int unit = fjp->fj_unit & 3;
2077 int mval;
2078 int newxstate = 0;
2079
2080 mutex_enter(&fcp->c_dorlock);
2081 mval = fdc_motorsm(fjp, FMI_TIMER, 0);
2082 mutex_exit(&fcp->c_dorlock);
2083 if (mval < 0)
2084 return;
2085
2086 mutex_enter(&fcp->c_lock);
2087
2088 if ((fcp->c_flags & FCFLG_WAITING) &&
2089 fcp->c_mtrstate[unit] == FMS_ON &&
2090 (csb->csb_xstate == FXS_MTRON || csb->csb_xstate == FXS_HDST ||
2091 csb->csb_xstate == FXS_DKCHGX))
2092 newxstate = fdc_statemach(fcp);
2093 if (newxstate == -1) {
2094 FCERRPRINT(FDEP_L3, FDEM_EXEC,
2095 (CE_WARN,
2096 "fdc_motort unit %d: motor ready but bad xstate",
2097 (int)fjp->fj_unit));
2098 fcp->c_csb.csb_cmdstat = EIO;
2099 }
2100 if (newxstate == -1 || newxstate == FXS_END) {
2101 fcp->c_flags ^= FCFLG_WAITING;
2102 cv_signal(&fcp->c_iocv);
2103 }
2104 mutex_exit(&fcp->c_lock);
2105 }
2106
2107 /*
2108 * DMA interrupt service routine
2109 *
2110 * Called by EISA dma interrupt service routine when buffer chaining
2111 * is required.
2112 */
2113
2114 ddi_dma_cookie_t *
fdc_dmae_isr(struct fdcntlr * fcp)2115 fdc_dmae_isr(struct fdcntlr *fcp)
2116 {
2117 struct fdcsb *csb = &fcp->c_csb;
2118 off_t off;
2119 size_t len;
2120
2121 if (csb->csb_dmahandle && !csb->csb_cmdstat) {
2122 if (++csb->csb_dmacurrcookie < csb->csb_dmacookiecnt) {
2123 ddi_dma_nextcookie(csb->csb_dmahandle,
2124 &csb->csb_dmacookie);
2125 return (&csb->csb_dmacookie);
2126 } else if (++csb->csb_dmacurrwin < csb->csb_dmawincnt) {
2127 if (ddi_dma_getwin(csb->csb_dmahandle,
2128 csb->csb_dmacurrwin, &off, &len,
2129 &csb->csb_dmacookie,
2130 &csb->csb_dmacookiecnt) != DDI_SUCCESS) {
2131 return (NULL);
2132 }
2133 csb->csb_dmacurrcookie = 0;
2134 return (&csb->csb_dmacookie);
2135 }
2136 } else
2137 cmn_err(CE_WARN, "fdc: unsolicited DMA interrupt");
2138 return (NULL);
2139 }
2140
2141
2142 /*
2143 * returns:
2144 * 0 if all ok,
2145 * ENXIO - diskette not in drive
2146 * ETIMEDOUT - for immediate operations that timed out
2147 * EBUSY - if stupid chip is locked busy???
2148 * ENOEXEC - for timeout during sending cmds to chip
2149 *
2150 * to sleep: set sleep
2151 * to check for disk changed: set change
2152 */
2153 static int
fdc_exec(struct fdcntlr * fcp,int sleep,int change)2154 fdc_exec(struct fdcntlr *fcp, int sleep, int change)
2155 {
2156 struct ddi_dmae_req dmaereq;
2157 struct fcu_obj *fjp;
2158 struct fdcsb *csb;
2159 off_t off;
2160 size_t len;
2161 int unit;
2162
2163 mutex_enter(&fcp->c_lock);
2164 FCERRPRINT(FDEP_L0, FDEM_EXEC,
2165 (CE_CONT, "fdc_exec: sleep %x change %x\n", sleep, change));
2166 csb = &fcp->c_csb;
2167 unit = csb->csb_drive;
2168 fjp = fcp->c_unit[unit];
2169
2170 if (csb->csb_opflags & CSB_OFINRPT) {
2171 if (*csb->csb_cmd == FO_RECAL)
2172 csb->csb_npcyl = 0;
2173 else if ((*csb->csb_cmd & ~FO_MFM) != FO_FRMT)
2174 csb->csb_npcyl =
2175 csb->csb_cmd[2] * fjp->fj_chars->fdc_steps;
2176 csb->csb_xstate = FXS_START;
2177 } else
2178 csb->csb_xstate = FXS_DOIT;
2179 csb->csb_retrys = 0;
2180 csb->csb_ourtrys = 0;
2181
2182 if (csb->csb_dmahandle) {
2183 /* ensure that entire format xfer is in one cookie */
2184 /*
2185 * The change from ddi_dma_buf/addr_setup() to
2186 * ddi_dma_buf/addr_bind_handle() has already loaded
2187 * the first DMA window and cookie.
2188 */
2189 if ((*csb->csb_cmd & ~FO_MFM) == FO_FRMT &&
2190 (4 * csb->csb_cmd[3]) != csb->csb_dmacookie.dmac_size) {
2191 mutex_exit(&fcp->c_lock);
2192 return (EINVAL);
2193 }
2194 }
2195
2196 retry:
2197 if (fcp->c_curunit != unit || !(fjp->fj_flags & FUNIT_CHAROK)) {
2198 fcp->c_curunit = unit;
2199 fjp->fj_flags |= FUNIT_CHAROK;
2200 if (fjp->fj_chars->fdc_transfer_rate == 417) {
2201 /* XXX hack for fdformat */
2202 /* fjp->fj_chars->fdc_transfer_rate == 500; */
2203 fjp->fj_attr->fda_rotatespd = 360;
2204 }
2205 if (fdcspecify(fcp, fjp->fj_chars->fdc_transfer_rate,
2206 fjp->fj_drive->fdd_steprate, 40))
2207 cmn_err(CE_WARN,
2208 "fdc_select: controller setup rejected "
2209 "fdcntrl %p transfer rate %x step rate %x "
2210 "head load time 40", (void*)fcp,
2211 fjp->fj_chars->fdc_transfer_rate,
2212 fjp->fj_drive->fdd_steprate);
2213
2214 mutex_enter(&fcp->c_dorlock);
2215 if (fdcspdchange(fcp, fjp, fjp->fj_attr->fda_rotatespd)) {
2216 /* 3D drive requires 500 ms for speed change */
2217 (void) fdc_motorsm(fjp, FMI_RSTARTCMD, 5);
2218 /*
2219 * Return value ignored - fdcmotort deals with failure.
2220 */
2221 }
2222 mutex_exit(&fcp->c_dorlock);
2223 }
2224
2225 /*
2226 * If checking for disk_change is enabled
2227 * (i.e. not seeking in fdresetchng),
2228 * we sample the DSKCHG line to see if the diskette has wandered away.
2229 */
2230 if (change && fdcsense_chng(fcp, unit)) {
2231 FCERRPRINT(FDEP_L3, FDEM_EXEC,
2232 (CE_WARN, "diskette %d changed!!!", csb->csb_drive));
2233 fcp->c_unit[unit]->fj_flags |= FUNIT_CHANGED;
2234 /*
2235 * If the diskette is still gone... so are we, adios!
2236 */
2237 if (fdcheckdisk(fcp, unit)) {
2238 mutex_exit(&fcp->c_lock);
2239
2240 /* VP/ix expects an EBUSY return here */
2241 if (*csb->csb_cmd == FO_SDRV) {
2242 return (EBUSY);
2243 }
2244 return (ENXIO);
2245 }
2246 /*
2247 * delay to ensure that new diskette is up to speed
2248 */
2249 mutex_enter(&fcp->c_dorlock);
2250 (void) fdc_motorsm(fjp, FMI_RSTARTCMD,
2251 fjp->fj_drive->fdd_motoron);
2252 /*
2253 * Return value ignored - fdcmotort deals with failure.
2254 */
2255 mutex_exit(&fcp->c_dorlock);
2256 }
2257
2258 /*
2259 * gather some statistics
2260 */
2261 switch (csb->csb_cmd[0] & 0x1f) {
2262 case FO_RDDAT:
2263 fcp->fdstats.rd++;
2264 break;
2265 case FO_WRDAT:
2266 fcp->fdstats.wr++;
2267 break;
2268 case FO_RECAL:
2269 fcp->fdstats.recal++;
2270 break;
2271 case FO_FRMT:
2272 fcp->fdstats.form++;
2273 break;
2274 default:
2275 fcp->fdstats.other++;
2276 break;
2277 }
2278
2279 bzero(csb->csb_rslt, 10);
2280 csb->csb_cmdstat = 0;
2281
2282 if (csb->csb_dmahandle) {
2283 bzero(&dmaereq, sizeof (struct ddi_dmae_req));
2284 dmaereq.der_command = (csb->csb_opflags & CSB_OFDMAWT) ?
2285 DMAE_CMD_WRITE : DMAE_CMD_READ;
2286 /*
2287 * setup for dma buffer chaining regardless of bus capability
2288 */
2289 dmaereq.der_bufprocess = DMAE_BUF_CHAIN;
2290 dmaereq.proc = fdc_dmae_isr;
2291 dmaereq.procparms = (void *)fcp;
2292 if (ddi_dmae_prog(fcp->c_dip, &dmaereq, &csb->csb_dmacookie,
2293 fcp->c_dmachan) != DDI_SUCCESS)
2294 cmn_err(CE_WARN, "fdc_exec: dmae prog failed, "
2295 "dip %p, dmachan %x",
2296 (void*)fcp->c_dip, fcp->c_dmachan);
2297 }
2298
2299 if ((fdc_statemach(fcp) == FXS_DOWT) && !sleep) {
2300 /*
2301 * If the operation has no results - then just return
2302 */
2303 if (!csb->csb_nrslts) {
2304 mutex_exit(&fcp->c_lock);
2305 return (0);
2306 }
2307 /*
2308 * this operation has no interrupt and an immediate result
2309 * so wait for the results and stuff them into the csb
2310 */
2311 if (fdc_statemach(fcp) == -1) {
2312 mutex_exit(&fcp->c_lock);
2313 return (EIO);
2314 }
2315 } else {
2316 fcp->c_flags |= FCFLG_WAITING;
2317 /*
2318 * wait for completion interrupt
2319 */
2320 while (fcp->c_flags & FCFLG_WAITING) {
2321 cv_wait(&fcp->c_iocv, &fcp->c_lock);
2322 }
2323 }
2324
2325 /*
2326 * See if there was an error detected, if so, fdrecover()
2327 * will check it out and say what to do.
2328 *
2329 * Don't do this, though, if this was the Sense Drive Status
2330 * or the Dump Registers command.
2331 */
2332 if (csb->csb_cmdstat && *csb->csb_cmd != FO_SDRV) {
2333 /* if it can restarted OK, then do so, else return error */
2334 if (fdrecover(fcp)) {
2335 mutex_exit(&fcp->c_lock);
2336 return (EIO);
2337 }
2338 /* ASSUMES that cmd is still intact in csb */
2339 if (csb->csb_xstate == FXS_END)
2340 csb->csb_xstate = FXS_START;
2341 if (fdc_dma_attr.dma_attr_sgllen > 1 && csb->csb_dmahandle) {
2342 /*
2343 * restarted read/write operation requires
2344 * first DMA cookie of current window
2345 */
2346 if (ddi_dma_getwin(csb->csb_dmahandle,
2347 csb->csb_dmacurrwin, &off, &len,
2348 &csb->csb_dmacookie,
2349 &csb->csb_dmacookiecnt) != DDI_SUCCESS) {
2350
2351 mutex_exit(&fcp->c_lock);
2352 return (EIO);
2353 }
2354 csb->csb_dmacurrcookie = 0;
2355 }
2356 goto retry;
2357 }
2358 /* things went ok */
2359 mutex_exit(&fcp->c_lock);
2360 return (0);
2361 }
2362
2363 /*
2364 * fdcheckdisk
2365 * called by fdc_exec to check if the disk is still there - do a seek
2366 * then see if DSKCHG line went away; if so, diskette is in; else
2367 * it's (still) out.
2368 */
2369 int
fdcheckdisk(struct fdcntlr * fcp,int unit)2370 fdcheckdisk(struct fdcntlr *fcp, int unit)
2371 {
2372 struct fdcsb *csb = &fcp->c_csb;
2373 int newcyl; /* where to seek for reset of DSKCHG */
2374 int rval;
2375 enum fxstate save_xstate;
2376 uchar_t save_cmd, save_cd1, save_npcyl;
2377
2378 ASSERT(MUTEX_HELD(&fcp->c_lock));
2379 FCERRPRINT(FDEP_L1, FDEM_CHEK,
2380 (CE_CONT, "fdcheckdisk unit %d\n", unit));
2381
2382 if (fcp->c_curpcyl[unit])
2383 newcyl = fcp->c_curpcyl[unit] - 1;
2384 else
2385 newcyl = 1;
2386
2387 save_cmd = *csb->csb_cmd;
2388 save_cd1 = csb->csb_cmd[1];
2389 save_npcyl = csb->csb_npcyl;
2390 save_xstate = csb->csb_xstate;
2391
2392 *csb->csb_cmd = FO_SEEK;
2393 csb->csb_cmd[1] = (uchar_t)unit;
2394 csb->csb_npcyl = (uchar_t)newcyl;
2395 fcp->c_flags |= FCFLG_WAITING;
2396
2397 if (fcp->c_mtrstate[unit] != FMS_ON && fcp->c_motort[unit] != 0)
2398 /*
2399 * wait for motor to get up to speed,
2400 * and let motor_timer issue seek cmd
2401 */
2402 csb->csb_xstate = FXS_DKCHGX;
2403 else {
2404 /*
2405 * motor is up to speed; issue seek cmd now
2406 */
2407 csb->csb_xstate = FXS_SEEK;
2408 if (rval = fdcseek(fcp, unit, newcyl)) {
2409 /*
2410 * any recal/seek errors are too serious to attend to
2411 */
2412 FCERRPRINT(FDEP_L3, FDEM_CHEK,
2413 (CE_WARN, "fdcheckdisk err %d", rval));
2414 fcp->c_flags ^= FCFLG_WAITING;
2415 }
2416 }
2417 /*
2418 * wait for completion interrupt
2419 * XXX This should be backed up with a watchdog timer!
2420 */
2421 while (fcp->c_flags & FCFLG_WAITING) {
2422 cv_wait(&fcp->c_iocv, &fcp->c_lock);
2423 }
2424
2425 /*
2426 * if disk change still asserted, no diskette in drive!
2427 */
2428 if (rval = fdcsense_chng(fcp, unit)) {
2429 FCERRPRINT(FDEP_L3, FDEM_CHEK,
2430 (CE_WARN, "fdcheckdisk no disk %d", unit));
2431 }
2432
2433 *csb->csb_cmd = save_cmd;
2434 csb->csb_cmd[1] = save_cd1;
2435 csb->csb_npcyl = save_npcyl;
2436 csb->csb_xstate = save_xstate;
2437 return (rval);
2438 }
2439
2440 static int
fdrecover(struct fdcntlr * fcp)2441 fdrecover(struct fdcntlr *fcp)
2442 {
2443 struct fcu_obj *fjp;
2444 struct fdcsb *csb = &fcp->c_csb;
2445 int residual;
2446 int unit;
2447 char *failure;
2448
2449 FCERRPRINT(FDEP_L2, FDEM_RECO,
2450 (CE_NOTE, "fdrecover unit %d", csb->csb_drive));
2451
2452 unit = csb->csb_drive;
2453 fjp = fcp->c_unit[unit];
2454 if (fcp->c_flags & FCFLG_TIMEOUT) {
2455 fcp->c_flags ^= FCFLG_TIMEOUT;
2456 csb->csb_rslt[1] |= 0x08;
2457 FCERRPRINT(FDEP_L3, FDEM_RECO,
2458 (CE_WARN, "fd unit %d: %s timed out", csb->csb_drive,
2459 fdcmds[*csb->csb_cmd & 0x1f].cmdname));
2460 }
2461
2462 if (csb->csb_status & S0_SEKEND)
2463 fcp->c_curpcyl[unit] = -1;
2464
2465 switch (csb->csb_oldxs) {
2466 case FXS_RCAL: /* recalibrate */
2467 case FXS_SEEK: /* seek */
2468 case FXS_RESET: /* cntlr reset */
2469 FCERRPRINT(FDEP_L4, FDEM_RECO, (CE_WARN,
2470 "fd unit %d: %s error: st0=0x%x pcn=%d", csb->csb_drive,
2471 fdcmds[*csb->csb_cmd & 0x1f].cmdname,
2472 *csb->csb_rslt, csb->csb_rslt[1]));
2473 if (csb->csb_retrys++ < skretry &&
2474 !(csb->csb_opflags & CSB_OFRAWIOCTL))
2475 return (0);
2476 break;
2477
2478 case FXS_RDID: /* read ID */
2479 if (!(csb->csb_status & S0_SEKEND))
2480 csb->csb_xstate = FXS_HDST;
2481 /* FALLTHROUGH */
2482 case FXS_DOIT: /* original operation */
2483 case FXS_DOWT: /* waiting on operation */
2484 if (csb->csb_opflags & (CSB_OFDMARD | CSB_OFDMAWT)) {
2485 if (ddi_dmae_getcnt(fcp->c_dip, fcp->c_dmachan,
2486 &residual) != DDI_SUCCESS)
2487 cmn_err(CE_WARN,
2488 "fdc_recover: dmae getcnt failed, "
2489 "dip %p dmachan %x residual %x",
2490 (void*)fcp->c_dip, fcp->c_dmachan,
2491 residual);
2492 FCERRPRINT(FDEP_L2, FDEM_RECO,
2493 (CE_NOTE,
2494 "fd unit %d: %s error: "
2495 "dma count=0x%lx residual=0x%x",
2496 csb->csb_drive,
2497 fdcmds[*csb->csb_cmd & 0x1f].cmdname,
2498 csb->csb_dmacookie.dmac_size, residual));
2499 }
2500 if (csb->csb_rslt[1] == S1_OVRUN)
2501 /*
2502 * handle retries of over/underrun
2503 * with a secondary retry counter
2504 */
2505 if (++csb->csb_ourtrys <= OURUN_TRIES) {
2506 FCERRPRINT(FDEP_L2, FDEM_RECO,
2507 (CE_NOTE,
2508 "fd unit %d: %s error: over/under-run",
2509 csb->csb_drive,
2510 fdcmds[*csb->csb_cmd & 0x1f].cmdname));
2511 return (0);
2512 } else
2513 /*
2514 * count 1 set of over/underruns
2515 * as 1 primary retry effort
2516 */
2517 csb->csb_ourtrys = 0;
2518
2519 if ((fjp->fj_flags & (FUNIT_UNLABELED | FUNIT_LABELOK)) &&
2520 !(csb->csb_opflags & CSB_OFRAWIOCTL)) {
2521 /*
2522 * device is open so keep trying and
2523 * gather statistics on errors
2524 */
2525 if (csb->csb_rslt[1] & S1_CRCER)
2526 fcp->fdstats.de++;
2527 if (csb->csb_rslt[1] & S1_OVRUN)
2528 fcp->fdstats.run++;
2529 if (csb->csb_rslt[1] & (S1_NODATA | S1_MADMK))
2530 fcp->fdstats.bfmt++;
2531 if (csb->csb_rslt[1] & 0x08)
2532 fcp->fdstats.to++;
2533
2534 /*
2535 * if we have not run out of retries, return 0
2536 */
2537 if (csb->csb_retrys++ < csb->csb_maxretry &&
2538 (*csb->csb_cmd & ~FO_MFM) != FO_FRMT) {
2539 if (csb->csb_opflags &
2540 (CSB_OFDMARD | CSB_OFDMAWT)) {
2541 FCERRPRINT(FDEP_L4, FDEM_RECO,
2542 (CE_WARN,
2543 "fd unit %d: %s error: "
2544 "st0=0x%x st1=0x%x st2=0x%x",
2545 csb->csb_drive,
2546 fdcmds[*csb->csb_cmd &
2547 0x1f].cmdname,
2548 *csb->csb_rslt, csb->csb_rslt[1],
2549 csb->csb_rslt[2]));
2550 }
2551 if ((csb->csb_retrys & 1) &&
2552 csb->csb_xstate == FXS_END)
2553 csb->csb_xstate = FXS_DOIT;
2554 else if (csb->csb_retrys == 3)
2555 csb->csb_xstate = FXS_RESTART;
2556 return (0);
2557 }
2558 if (csb->csb_rslt[1] & S1_CRCER)
2559 failure = "crc error";
2560 else if (csb->csb_rslt[1] & S1_OVRUN)
2561 failure = "over/under-run";
2562 else if (csb->csb_rslt[1] & (S1_NODATA | S1_MADMK))
2563 failure = "bad format";
2564 else if (csb->csb_rslt[1] & 0x08)
2565 failure = "timeout";
2566 else
2567 failure = "failed";
2568 cmn_err(CE_NOTE, "!fd unit %d: %s %s (%x %x %x)",
2569 csb->csb_drive,
2570 fdcmds[*csb->csb_cmd & 0x1f].cmdname, failure,
2571 *csb->csb_rslt, csb->csb_rslt[1], csb->csb_rslt[2]);
2572 } else {
2573 FCERRPRINT(FDEP_L2, FDEM_RECO,
2574 (CE_NOTE, "fd unit %d: %s failed (%x %x %x)",
2575 csb->csb_drive,
2576 fdcmds[*csb->csb_cmd & 0x1f].cmdname,
2577 *csb->csb_rslt, csb->csb_rslt[1],
2578 csb->csb_rslt[2]));
2579 }
2580 break;
2581
2582 default:
2583 FCERRPRINT(FDEP_L4, FDEM_RECO, (CE_WARN,
2584 "fd unit %d: %s failed: st0=0x%x st1=0x%x st2=0x%x",
2585 csb->csb_drive, fdcmds[*csb->csb_cmd & 0x1f].cmdname,
2586 *csb->csb_rslt, csb->csb_rslt[1], csb->csb_rslt[2]));
2587 break;
2588 }
2589 return (1);
2590 }
2591
2592
2593 /* Autovector Interrupt Entry Point */
2594 static uint_t
fdc_intr(caddr_t arg)2595 fdc_intr(caddr_t arg)
2596 {
2597 struct fdcntlr *fcp = (struct fdcntlr *)arg;
2598 struct fdcsb *csb;
2599 off_t off;
2600 size_t blklen;
2601 int drive;
2602 int newstate;
2603 int pendstate;
2604 int rval = DDI_DMA_DONE;
2605 int state;
2606 int maxspin = 10;
2607
2608 csb = &fcp->c_csb;
2609
2610 mutex_enter(&fcp->c_lock);
2611 if (fcp->c_suspended) {
2612 mutex_exit(&fcp->c_lock);
2613 return (DDI_INTR_UNCLAIMED);
2614 }
2615
2616 /*
2617 * Wait for the RQM bit to be set, or until we've tested it
2618 * a bunch of times (which may imply this isn't our interrupt).
2619 */
2620 state = inb(fcp->c_regbase + FCR_MSR);
2621 pendstate = state & (MS_RQM | MS_DIO | MS_CB);
2622 while (((pendstate & MS_RQM) == 0) && (maxspin-- > 0)) {
2623 /* Small pause in between reading the status port */
2624 drv_usecwait(10);
2625 /* Reread the status port */
2626 state = inb(fcp->c_regbase + FCR_MSR);
2627 pendstate = state & (MS_RQM | MS_DIO | MS_CB);
2628 }
2629 FCERRPRINT(FDEP_L0, FDEM_INTR,
2630 (CE_CONT, "fdc_intr unit %d: xstate=%d MSR=0x%x\n",
2631 csb->csb_drive, csb->csb_xstate, state));
2632
2633 /*
2634 * If there is an operation outstanding AND the controller is ready
2635 * to receive a command or send us the result of a command (OR if the
2636 * controller is ready to accept a new command), AND if
2637 * someone has been waiting for a command to finish AND (if no unit
2638 * is BUSY OR if the unit that we're waiting for is BUSY (i.e. it's in
2639 * the middle of a seek/recalibrate)) then this interrupt is for us.
2640 */
2641 if ((pendstate == (MS_RQM | MS_DIO | MS_CB) || pendstate == MS_RQM) &&
2642 (fcp->c_flags & FCFLG_WAITING) &&
2643 (!(state & 0x0f) || ((1 << csb->csb_drive) & state))) {
2644 /*
2645 * Remove one of the conditions for entering this code.
2646 * The state_machine will release the c_lock if it
2647 * calls untimeout()
2648 */
2649 fcp->c_flags ^= FCFLG_WAITING;
2650
2651 if ((newstate = fdc_statemach(fcp)) == -1) {
2652 /* restore waiting flag */
2653 fcp->c_flags |= FCFLG_WAITING;
2654 mutex_exit(&fcp->c_lock);
2655 return (DDI_INTR_CLAIMED);
2656 }
2657
2658 if (fcp->c_intrstat)
2659 KIOIP->intrs[KSTAT_INTR_HARD]++;
2660 if (newstate == FXS_END) {
2661
2662 if (csb->csb_dmahandle && !csb->csb_cmdstat &&
2663 /*
2664 * read/write operation may have multiple DMA
2665 * cookies: process next one
2666 */
2667 ((csb->csb_dmacurrcookie <
2668 (csb->csb_dmacookiecnt - 1)) ||
2669 (csb->csb_dmacurrwin) < (csb->csb_dmawincnt - 1))) {
2670 /*
2671 * read/write operation requires another
2672 * DMA cookie: process next one
2673 */
2674
2675 if (++csb->csb_dmacurrcookie <
2676 csb->csb_dmacookiecnt) {
2677 ddi_dma_nextcookie(csb->csb_dmahandle,
2678 &csb->csb_dmacookie);
2679 } else if (++csb->csb_dmacurrwin <
2680 csb->csb_dmawincnt) {
2681 if (ddi_dma_getwin(csb->csb_dmahandle,
2682 csb->csb_dmacurrwin, &off, &blklen,
2683 &csb->csb_dmacookie,
2684 &csb->csb_dmacookiecnt) !=
2685 DDI_SUCCESS) {
2686 cmn_err(CE_WARN,
2687 "fdc_intr: "
2688 "dma getwin failed");
2689 }
2690 csb->csb_dmacurrcookie = 0;
2691 }
2692
2693 if (ddi_dmae_prog(fcp->c_dip, NULL,
2694 &csb->csb_dmacookie, fcp->c_dmachan) !=
2695 DDI_SUCCESS)
2696 cmn_err(CE_WARN,
2697 "fdc_intr: dmae prog failed, "
2698 "dip %p dmachannel %x",
2699 (void*)fcp->c_dip,
2700 fcp->c_dmachan);
2701
2702 /*
2703 * status of last operation has disk
2704 * address for continuation
2705 */
2706 csb->csb_cmd[2] = csb->csb_rslt[3];
2707 csb->csb_cmd[3] = csb->csb_rslt[4];
2708 csb->csb_cmd[4] = csb->csb_rslt[5];
2709 csb->csb_cmd[1] = (csb->csb_cmd[1] & ~0x04) |
2710 (csb->csb_cmd[3] << 2);
2711
2712 csb->csb_xstate = FXS_START;
2713 (void) fdc_statemach(fcp);
2714 /*
2715 * Ignored return. If failed, warning already
2716 * posted. Returned state irrelevant.
2717 */
2718 /* restore waiting flag */
2719 fcp->c_flags |= FCFLG_WAITING;
2720 goto fi_exit;
2721 }
2722 if (rval != DDI_DMA_DONE)
2723 csb->csb_cmdstat = EIO;
2724 /*
2725 * somebody's waiting for completion of fdcntlr/csb,
2726 * wake them
2727 */
2728 cv_signal(&fcp->c_iocv);
2729 }
2730 else
2731 /* restore waiting flag */
2732 fcp->c_flags |= FCFLG_WAITING;
2733 fi_exit:
2734 mutex_exit(&fcp->c_lock);
2735 return (DDI_INTR_CLAIMED);
2736 }
2737
2738 if (state & MS_RQM) {
2739 (void) fdcsense_int(fcp, &drive, NULL);
2740 /*
2741 * Ignored return - senser state already saved
2742 */
2743 FCERRPRINT(FDEP_L4, FDEM_INTR,
2744 (CE_WARN, "fdc_intr unit %d: nobody sleeping 0x%x",
2745 drive, state));
2746 } else {
2747 FCERRPRINT(FDEP_L4, FDEM_INTR,
2748 (CE_WARN, "fdc_intr: nobody sleeping on %d 0x%x",
2749 csb->csb_drive, state));
2750 }
2751 /*
2752 * This should probably be protected, but, what the
2753 * heck...the cost isn't worth the accuracy for this
2754 * statistic.
2755 */
2756 if (fcp->c_intrstat)
2757 KIOIP->intrs[KSTAT_INTR_SPURIOUS]++;
2758 mutex_exit(&fcp->c_lock);
2759 return (DDI_INTR_UNCLAIMED);
2760 }
2761
2762 /*
2763 * fdwatch
2764 * is called from timeout() when a floppy operation timer has expired.
2765 */
2766 static void
fdwatch(void * arg)2767 fdwatch(void *arg)
2768 {
2769 struct fdcntlr *fcp = (struct fdcntlr *)arg;
2770 struct fdcsb *csb;
2771
2772 mutex_enter(&fcp->c_lock);
2773
2774 if (fcp->c_timeid == 0) {
2775 /*
2776 * fdc_intr got here first, ergo, no timeout condition..
2777 */
2778 mutex_exit(&fcp->c_lock);
2779 return;
2780 }
2781
2782 if (fcp->c_flags & FCFLG_WAITING) {
2783 if (ddi_dmae_stop(fcp->c_dip, fcp->c_dmachan) != DDI_SUCCESS)
2784 cmn_err(CE_WARN, "fdwatch: dmae stop failed, "
2785 "dip %p, dmachan %x",
2786 (void*)fcp->c_dip, fcp->c_dmachan);
2787 csb = &fcp->c_csb;
2788 FCERRPRINT(FDEP_L3, FDEM_WATC,
2789 (CE_WARN, "fdcwatch unit %d: xstate = %d",
2790 csb->csb_drive, csb->csb_xstate));
2791 drv_usecwait(50);
2792
2793 if (inb(fcp->c_regbase + FCR_MSR) != MS_RQM) {
2794 /*
2795 * cntlr is still busy, so reset it
2796 */
2797 csb->csb_xstate = FXS_KILL;
2798 (void) fdc_statemach(fcp);
2799 /*
2800 * Ignored return. If failed, warning already
2801 * posted. Returned state irrelevant.
2802 */
2803 } else {
2804 csb->csb_xstate = FXS_END;
2805 fcp->c_timeid = 0;
2806 fcp->c_flags ^= FCFLG_WAITING;
2807 cv_signal(&fcp->c_iocv);
2808 }
2809 csb->csb_cmdstat = EIO;
2810 fcp->c_flags |= FCFLG_TIMEOUT;
2811 } else {
2812 FCERRPRINT(FDEP_L4, FDEM_INTR,
2813 (CE_WARN, "fdcwatch: not sleeping for unit %d",
2814 fcp->c_csb.csb_drive));
2815 }
2816 if (fcp->c_intrstat)
2817 KIOIP->intrs[KSTAT_INTR_WATCHDOG]++;
2818 mutex_exit(&fcp->c_lock);
2819 }
2820
2821
2822 static int
fdc_statemach(struct fdcntlr * fcp)2823 fdc_statemach(struct fdcntlr *fcp)
2824 {
2825 struct fcu_obj *fjp;
2826 struct fdcsb *csb = &fcp->c_csb;
2827 int backoff;
2828 clock_t time;
2829 int unit;
2830
2831 ASSERT(MUTEX_HELD(&fcp->c_lock));
2832
2833 unit = csb->csb_drive;
2834 fjp = fcp->c_unit[unit];
2835
2836 csb->csb_oldxs = csb->csb_xstate;
2837 switch (csb->csb_xstate) {
2838
2839 case FXS_START: /* start of operation */
2840 ASSERT(fcp->c_timeid == 0);
2841 time = drv_usectohz(100000 * (unsigned int)csb->csb_timer);
2842 if (time == 0)
2843 time = drv_usectohz(2000000);
2844 fcp->c_timeid = timeout(fdwatch, (void *)fcp, time);
2845
2846 if (fcp->c_mtrstate[unit] == FMS_START) {
2847 /*
2848 * wait for motor to get up to speed
2849 */
2850 csb->csb_xstate = FXS_MTRON;
2851 break;
2852 }
2853 /* FALLTHROUGH */
2854
2855 case FXS_MTRON: /* motor is at speed */
2856 if (fcp->c_mtrstate[unit] != FMS_ON) {
2857 /* how did we get here ?? */
2858 cmn_err(CE_WARN, "fdc: selected but motor off");
2859 return (-1);
2860 }
2861 if (fcp->c_curpcyl[unit] != -1 && *csb->csb_cmd != FO_RECAL)
2862 goto nxs_seek;
2863 recalcmd[1] = (uchar_t)unit;
2864 if (fdc_docmd(fcp, recalcmd, 2) == -1) {
2865 /* cntlr did not accept command bytes */
2866 fdcquiesce(fcp);
2867 csb->csb_cmdstat = EIO;
2868 csb->csb_xstate = FXS_RESET;
2869 break;
2870 }
2871 fcp->c_sekdir[unit] = 0;
2872 csb->csb_xstate = FXS_RCAL;
2873 break;
2874
2875 case FXS_RCAL: /* forced recalibrate is complete */
2876 #if 0 /* #ifdef _VPIX */
2877 /* WARNING: this code breaks SPARC compatibility */
2878 if (csb->csb_opflags & CSB_OFRAWIOCTL &&
2879 *csb->csb_cmd == FO_RECAL) {
2880 fcp->c_curpcyl[unit] = 0;
2881 csb->csb_status = 0;
2882 goto nxs_cmpl;
2883 }
2884 #endif
2885 (void) fdc_docmd(fcp, &senseintcmd, 1);
2886 /*
2887 * Ignored return. If failed, warning was issued by fdc_docmd.
2888 * fdc_results retrieves the controller/drive status
2889 */
2890 (void) fdc_result(fcp, csb->csb_rslt, 2);
2891 /*
2892 * Ignored return. If failed, warning was issued by fdc_result.
2893 * Actual results checked below
2894 */
2895 if ((csb->csb_status = ((*csb->csb_rslt ^ S0_SEKEND) &
2896 (S0_ICMASK | S0_SEKEND | S0_ECHK | S0_NOTRDY))) != 0) {
2897 FCERRPRINT(FDEP_L3, FDEM_EXEC,
2898 (CE_WARN, "fdc_statemach unit %d: recal result %x",
2899 csb->csb_drive, *csb->csb_rslt));
2900 fdcquiesce(fcp);
2901 csb->csb_cmdstat = EIO;
2902 csb->csb_xstate = FXS_RESET;
2903 break;
2904 }
2905 if (unit != (*csb->csb_rslt & 3) || csb->csb_rslt[1]) {
2906 csb->csb_status = S0_SEKEND;
2907 goto nxs_cmpl;
2908 }
2909 fcp->c_curpcyl[unit] = csb->csb_rslt[1];
2910 if (*csb->csb_cmd == FO_RECAL)
2911 goto nxs_cmpl;
2912 nxs_seek:
2913 if (*csb->csb_cmd != FO_SEEK &&
2914 csb->csb_npcyl == fcp->c_curpcyl[unit])
2915 goto nxs_doit;
2916 fcp->c_sekdir[unit] = csb->csb_npcyl - fcp->c_curpcyl[unit];
2917 /* FALLTHROUGH */
2918
2919 case FXS_DKCHGX: /* reset Disk-Change latch */
2920 (void) fdcseek(fcp, csb->csb_cmd[1], csb->csb_npcyl);
2921 /*
2922 * Ignored return. If command rejected, warnig already posted
2923 * by fdc_docmd().
2924 */
2925 csb->csb_xstate = FXS_SEEK;
2926 break;
2927
2928 case FXS_RESTART: /* special restart of read/write operation */
2929 ASSERT(fcp->c_timeid == 0);
2930 time = drv_usectohz(100000 * csb->csb_timer);
2931 if (time == 0)
2932 time = drv_usectohz(2000000);
2933 fcp->c_timeid = timeout(fdwatch, (void *)fcp, time);
2934
2935 if (fcp->c_mtrstate[unit] != FMS_ON) {
2936 cmn_err(CE_WARN, "fdc: selected but motor off");
2937 return (-1);
2938 }
2939 if ((csb->csb_npcyl == 0 || fcp->c_sekdir[unit] >= 0) &&
2940 (int)csb->csb_cmd[2] < (fjp->fj_chars->fdc_ncyl - 1))
2941 backoff = csb->csb_npcyl + 1;
2942 else
2943 backoff = csb->csb_npcyl - 1;
2944 (void) fdcseek(fcp, csb->csb_cmd[1], backoff);
2945 /*
2946 * Ignored return. If command rejected, warnig already posted
2947 * by fdc_docmd().
2948 */
2949 csb->csb_xstate = FXS_RESEEK;
2950 break;
2951
2952 case FXS_RESEEK: /* seek to backoff-cyl complete */
2953 (void) fdc_docmd(fcp, &senseintcmd, 1);
2954 /*
2955 * Ignored return. If failed, warning was issued by fdc_docmd.
2956 * fdc_results retrieves the controller/drive status
2957 */
2958 (void) fdc_result(fcp, csb->csb_rslt, 2);
2959 /*
2960 * Ignored return. If failed, warning was issued by fdc_result.
2961 * Actual results checked below
2962 */
2963 if ((csb->csb_status = ((*csb->csb_rslt ^ S0_SEKEND) &
2964 (S0_ICMASK | S0_SEKEND | S0_ECHK | S0_NOTRDY))) != 0)
2965 goto nxs_cmpl;
2966 (void) fdcseek(fcp, csb->csb_cmd[1], csb->csb_npcyl);
2967 /*
2968 * Ignored return. If command rejected, warnig already posted
2969 * by fdc_docmd().
2970 */
2971 csb->csb_xstate = FXS_SEEK;
2972 break;
2973
2974 case FXS_SEEK: /* seek complete */
2975 #if 0 /* #ifdef _VPIX */
2976 /* WARNING: this code breaks SPARC compatibility and */
2977 /* rawioctls in fdformat */
2978 if (csb->csb_opflags & CSB_OFRAWIOCTL) {
2979 fcp->c_curpcyl[unit] = csb->csb_npcyl;
2980 csb->csb_status = 0;
2981 goto nxs_cmpl;
2982 }
2983 #endif
2984 (void) fdc_docmd(fcp, &senseintcmd, 1);
2985 /*
2986 * Ignored return. If failed, warning was issued by fdc_docmd.
2987 * fdc_results retrieves the controller/drive status
2988 */
2989 (void) fdc_result(fcp, csb->csb_rslt, 2);
2990 /*
2991 * Ignored return. If failed, warning was issued by fdc_result.
2992 * Actual results checked below
2993 */
2994 if ((csb->csb_status = ((*csb->csb_rslt ^ S0_SEKEND) &
2995 (S0_ICMASK | S0_SEKEND | S0_ECHK | S0_NOTRDY))) != 0)
2996 goto nxs_cmpl;
2997 if (unit != (*csb->csb_rslt & 3) ||
2998 csb->csb_rslt[1] != csb->csb_npcyl) {
2999 csb->csb_status = S0_SEKEND;
3000 goto nxs_cmpl;
3001 };
3002 fcp->c_curpcyl[unit] = csb->csb_rslt[1];
3003 /* use motor_timer to delay for head settle */
3004 mutex_enter(&fcp->c_dorlock);
3005 (void) fdc_motorsm(fjp, FMI_DELAYCMD,
3006 fjp->fj_drive->fdd_headsettle / 1000);
3007 /*
3008 * Return value ignored - fdcmotort deals with failure.
3009 */
3010 mutex_exit(&fcp->c_dorlock);
3011 csb->csb_xstate = FXS_HDST;
3012 break;
3013
3014 case FXS_HDST: /* head settle */
3015 if (*csb->csb_cmd == FO_SEEK)
3016 goto nxs_cmpl;
3017 if ((*csb->csb_cmd & ~FO_MFM) == FO_FRMT)
3018 goto nxs_doit;
3019 fdcreadid(fcp, csb);
3020 csb->csb_xstate = FXS_RDID;
3021 break;
3022
3023 case FXS_RDID: /* read ID complete */
3024 (void) fdc_result(fcp, csb->csb_rslt, 7);
3025 /*
3026 * Ignored return. If failed, warning was issued by fdc_result.
3027 * Actual results checked below
3028 */
3029 if ((csb->csb_status = (*csb->csb_rslt &
3030 (S0_ICMASK | S0_ECHK | S0_NOTRDY))) != 0)
3031 goto nxs_cmpl;
3032 if (csb->csb_cmd[2] != csb->csb_rslt[3]) {
3033 /* at wrong logical cylinder */
3034 csb->csb_status = S0_SEKEND;
3035 goto nxs_cmpl;
3036 };
3037 goto nxs_doit;
3038
3039 case FXS_DOIT: /* do original operation */
3040 ASSERT(fcp->c_timeid == 0);
3041 time = drv_usectohz(100000 * csb->csb_timer);
3042 if (time == 0)
3043 time = drv_usectohz(2000000);
3044 fcp->c_timeid = timeout(fdwatch, (void *)fcp, time);
3045 nxs_doit:
3046 if (fdc_docmd(fcp, csb->csb_cmd, csb->csb_ncmds) == -1) {
3047 /* cntlr did not accept command bytes */
3048 fdcquiesce(fcp);
3049 csb->csb_xstate = FXS_RESET;
3050 csb->csb_cmdstat = EIO;
3051 break;
3052 }
3053 csb->csb_xstate = FXS_DOWT;
3054 break;
3055
3056 case FXS_DOWT: /* operation complete */
3057 (void) fdc_result(fcp, csb->csb_rslt, csb->csb_nrslts);
3058 /*
3059 * Ignored return. If failed, warning was issued by fdc_result.
3060 * Actual results checked below.
3061 */
3062 if (*csb->csb_cmd == FO_SDRV) {
3063 csb->csb_status =
3064 (*csb->csb_rslt ^ (S3_DRRDY | S3_2SIDE)) &
3065 ~(S3_HEAD | S3_UNIT);
3066 } else {
3067 csb->csb_status = *csb->csb_rslt &
3068 (S0_ICMASK | S0_ECHK | S0_NOTRDY);
3069 }
3070 nxs_cmpl:
3071 if (csb->csb_status)
3072 csb->csb_cmdstat = EIO;
3073 csb->csb_xstate = FXS_END;
3074
3075 /* remove watchdog timer if armed and not already triggered */
3076 if (fcp->c_timeid != 0) {
3077 timeout_id_t timeid;
3078 timeid = fcp->c_timeid;
3079 fcp->c_timeid = 0;
3080 mutex_exit(&fcp->c_lock);
3081 (void) untimeout(timeid);
3082 mutex_enter(&fcp->c_lock);
3083 }
3084 break;
3085
3086 case FXS_KILL: /* quiesce cntlr by reset */
3087 fdcquiesce(fcp);
3088 fcp->c_timeid = timeout(fdwatch, (void *)fcp,
3089 drv_usectohz(2000000));
3090 csb->csb_xstate = FXS_RESET;
3091 break;
3092
3093 case FXS_RESET: /* int from reset */
3094 for (unit = 0; unit < NFDUN; unit++) {
3095 (void) fdcsense_int(fcp, NULL, NULL);
3096 fcp->c_curpcyl[unit] = -1;
3097 }
3098 if (fcp->c_timeid != 0) {
3099 timeout_id_t timeid;
3100 timeid = fcp->c_timeid;
3101 fcp->c_timeid = 0;
3102 mutex_exit(&fcp->c_lock);
3103 (void) untimeout(timeid);
3104 mutex_enter(&fcp->c_lock);
3105 }
3106 csb->csb_xstate = FXS_END;
3107 break;
3108
3109 default:
3110 cmn_err(CE_WARN, "fdc: statemach, unknown state");
3111 return (-1);
3112 }
3113 FCERRPRINT(FDEP_L1, FDEM_EXEC,
3114 (CE_CONT, "fdc_statemach unit %d: %d -> %d\n",
3115 csb->csb_drive, csb->csb_oldxs, csb->csb_xstate));
3116 return (csb->csb_xstate);
3117 }
3118
3119
3120 /*
3121 * routine to program a command into the floppy disk controller.
3122 */
3123 int
fdc_docmd(struct fdcntlr * fcp,uchar_t * oplistp,uchar_t count)3124 fdc_docmd(struct fdcntlr *fcp, uchar_t *oplistp, uchar_t count)
3125 {
3126 int ntries;
3127
3128 ASSERT(count >= 1);
3129 FCERRPRINT(FDEP_L0, FDEM_EXEC,
3130 (CE_CONT, "fdc_docmd: %x %x %x %x %x %x %x %x %x\n",
3131 oplistp[0], oplistp[1], oplistp[2], oplistp[3], oplistp[4],
3132 oplistp[5], oplistp[6], oplistp[7], oplistp[8]));
3133
3134 do {
3135 ntries = FDC_RQM_RETRY;
3136 do {
3137 if ((inb(fcp->c_regbase + FCR_MSR) & (MS_RQM|MS_DIO))
3138 == MS_RQM)
3139 break;
3140 else
3141 drv_usecwait(1);
3142 } while (--ntries);
3143 if (ntries == 0) {
3144 FCERRPRINT(FDEP_L3, FDEM_EXEC,
3145 (CE_WARN, "fdc_docmd: ctlr not ready"));
3146 return (-1);
3147 }
3148 outb(fcp->c_regbase + FCR_DATA, *oplistp++);
3149 drv_usecwait(16); /* See comment in fdc_result() */
3150 } while (--count);
3151 return (0);
3152 }
3153
3154
3155 /*
3156 * Routine to return controller/drive status information.
3157 * The diskette-controller data-register is read the
3158 * requested number of times and the results are placed in
3159 * consecutive memory locations starting at the passed
3160 * address.
3161 */
3162 int
fdc_result(struct fdcntlr * fcp,uchar_t * rsltp,uchar_t rcount)3163 fdc_result(struct fdcntlr *fcp, uchar_t *rsltp, uchar_t rcount)
3164 {
3165 int ntries;
3166 uchar_t *abresultp = rsltp;
3167 uchar_t stat;
3168 int laxative = 7;
3169
3170 ntries = 10 * FDC_RQM_RETRY;
3171 do {
3172 do {
3173 if ((inb(fcp->c_regbase + FCR_MSR) &
3174 (MS_RQM | MS_DIO)) == (MS_RQM | MS_DIO))
3175 break;
3176 else
3177 drv_usecwait(10);
3178 } while (--ntries);
3179 if (!ntries) {
3180 FCERRPRINT(FDEP_L3, FDEM_EXEC,
3181 (CE_WARN, "fdc_result: ctlr not ready"));
3182 return (-2);
3183 }
3184 *rsltp++ = inb(fcp->c_regbase + FCR_DATA);
3185
3186 /*
3187 * The PRM suggests waiting for 14.5 us.
3188 * Adding a bit more to cover the case of bad calibration
3189 * of drv_usecwait().
3190 */
3191 drv_usecwait(16);
3192 ntries = FDC_RQM_RETRY;
3193 } while (--rcount);
3194 while ((inb(fcp->c_regbase + FCR_MSR) & MS_CB) && laxative--) {
3195 FCERRPRINT(FDEP_L3, FDEM_EXEC,
3196 (CE_WARN, "fdc_result: ctlr still busy"));
3197 /*
3198 * try to complete Result phase by purging
3199 * result bytes queued for reading
3200 */
3201 *abresultp = S0_IVCMD;
3202 do {
3203 stat = inb(fcp->c_regbase + FCR_MSR) &
3204 (MS_RQM | MS_DIO);
3205 if (stat == MS_RQM) {
3206 /*
3207 * Result phase is complete
3208 * but did we get the results corresponding to
3209 * the command we think we executed?
3210 */
3211 return (-1);
3212 }
3213 if (stat == (MS_RQM | MS_DIO))
3214 break;
3215 else
3216 drv_usecwait(10);
3217 } while (--ntries);
3218 if (!ntries || !laxative) {
3219 FCERRPRINT(FDEP_L3, FDEM_EXEC,
3220 (CE_WARN,
3221 "fdc_result: ctlr still busy and not ready"));
3222 return (-3);
3223 }
3224 (void) inb(fcp->c_regbase + FCR_DATA);
3225
3226 drv_usecwait(16); /* See comment above */
3227 ntries = FDC_RQM_RETRY;
3228 }
3229 return (0);
3230 }
3231
3232 /*
3233 * Function: get_unit()
3234 *
3235 * Assumptions: ioaddr is either 0x3f0 or 0x370
3236 */
3237 static int
get_unit(dev_info_t * dip,int * cntrl_num)3238 get_unit(dev_info_t *dip, int *cntrl_num)
3239 {
3240 int ioaddr;
3241
3242 if (get_ioaddr(dip, &ioaddr) != DDI_SUCCESS)
3243 return (DDI_FAILURE);
3244
3245 switch (ioaddr) {
3246 case 0x3f0:
3247 *cntrl_num = 0;
3248 break;
3249
3250 case 0x370:
3251 *cntrl_num = 1;
3252 break;
3253
3254 default:
3255 return (DDI_FAILURE);
3256 }
3257 return (DDI_SUCCESS);
3258 }
3259
3260 static int
get_ioaddr(dev_info_t * dip,int * ioaddr)3261 get_ioaddr(dev_info_t *dip, int *ioaddr)
3262 {
3263 int reglen, nregs, i;
3264 int status = DDI_FAILURE;
3265 struct {
3266 int bustype;
3267 int base;
3268 int size;
3269 } *reglist;
3270
3271 if (ddi_getlongprop(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS,
3272 "reg", (caddr_t)®list, ®len) != DDI_PROP_SUCCESS) {
3273 cmn_err(CE_WARN, "fdc: reg property not found");
3274 return (DDI_FAILURE);
3275 }
3276
3277 nregs = reglen / sizeof (*reglist);
3278 for (i = 0; i < nregs; i++) {
3279 if (reglist[i].bustype == 1) {
3280 *ioaddr = reglist[i].base;
3281 status = DDI_SUCCESS;
3282 break;
3283 }
3284 }
3285 kmem_free(reglist, reglen);
3286
3287 if (status == DDI_SUCCESS) {
3288 if (*ioaddr == 0x3f2 || *ioaddr == 0x372) {
3289 /*
3290 * Some BIOS's (ASUS is one) don't include first
3291 * two IO ports in the floppy controller resources.
3292 */
3293
3294 *ioaddr -= 2; /* step back to 0x3f0 or 0x370 */
3295
3296 /*
3297 * It would be nice to update the regs property as well
3298 * so device pathname contains 3f0 instead of 3f2, but
3299 * updating the regs now won't have this effect as that
3300 * component of the device pathname has already been
3301 * constructed by the ISA nexus driver.
3302 *
3303 * reglist[i].base -= 2;
3304 * reglist[i].size += 2;
3305 * dev = makedevice(ddi_driver_major(dip), 0);
3306 * ddi_prop_update_int_array(dev, dip, "reg",
3307 * (int *)reglist, reglen / sizeof (int));
3308 */
3309 }
3310 }
3311
3312 return (status);
3313 }
3314