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 /*
23 * Copyright (c) 1990, 2010, Oracle and/or its affiliates. All rights reserved.
24 * Copyright 2012 Garrett D'Amore <garrett@damore.org>. All rights reserved.
25 * Copyright (c) 2012 by Delphix. All rights reserved.
26 */
27
28 #ifndef _SYS_SUNDDI_H
29 #define _SYS_SUNDDI_H
30
31 /*
32 * Sun Specific DDI definitions
33 */
34
35 #include <sys/isa_defs.h>
36 #include <sys/dditypes.h>
37 #include <sys/ddipropdefs.h>
38 #include <sys/devops.h>
39 #include <sys/time.h>
40 #include <sys/cmn_err.h>
41 #include <sys/ddidevmap.h>
42 #include <sys/ddi_impldefs.h>
43 #include <sys/ddi_implfuncs.h>
44 #include <sys/ddi_isa.h>
45 #include <sys/model.h>
46 #include <sys/devctl.h>
47 #if defined(__i386) || defined(__amd64)
48 #include <sys/dma_engine.h>
49 #endif
50 #include <sys/sunpm.h>
51 #include <sys/nvpair.h>
52 #include <sys/sysevent.h>
53 #include <sys/thread.h>
54 #include <sys/stream.h>
55 #if defined(__GNUC__) && defined(_ASM_INLINES) && defined(_KERNEL)
56 #include <asm/sunddi.h>
57 #endif
58 #ifdef _KERNEL
59 #include <sys/ddi_obsolete.h>
60 #endif
61 #include <sys/u8_textprep.h>
62 #include <sys/kiconv.h>
63
64 #ifdef __cplusplus
65 extern "C" {
66 #endif
67
68 /*
69 * Generic Sun DDI definitions.
70 */
71
72 #define DDI_SUCCESS (0) /* successful return */
73 #define DDI_FAILURE (-1) /* unsuccessful return */
74 #define DDI_NOT_WELL_FORMED (-2) /* A dev_info node is not valid */
75 #define DDI_EAGAIN (-3) /* not enough interrupt resources */
76 #define DDI_EINVAL (-4) /* invalid request or arguments */
77 #define DDI_ENOTSUP (-5) /* operation is not supported */
78 #define DDI_EPENDING (-6) /* operation or an event is pending */
79 #define DDI_EALREADY (-7) /* operation already in progress */
80
81 /*
82 * General-purpose DDI error return value definitions
83 */
84 #define DDI_ENOMEM 1 /* memory not available */
85 #define DDI_EBUSY 2 /* busy */
86 #define DDI_ETRANSPORT 3 /* transport down */
87 #define DDI_ECONTEXT 4 /* context error */
88
89
90 /*
91 * General DDI sleep/nosleep allocation flags
92 */
93 #define DDI_SLEEP 0
94 #define DDI_NOSLEEP 1
95
96 /*
97 * The following special nodeid values are reserved for use when creating
98 * nodes ONLY. They specify the attributes of the DDI_NC_PSEUDO class node
99 * being created:
100 *
101 * o DEVI_PSEUDO_NODEID specifics a node without persistence.
102 * o DEVI_SID_NODEID specifies a node with persistence.
103 * o DEVI_SID_HIDDEN_NODEID specifies a hidden node with persistence.
104 *
105 * A node with the 'hidden' attribute will not show up in devinfo snapshots
106 * or in /devices file system.
107 *
108 * A node with the 'persistent' attribute will not be automatically removed by
109 * the framework in the current implementation - driver.conf nodes are without
110 * persistence.
111 *
112 * The actual nodeid value may be assigned by the framework and may be
113 * different than these special values. Drivers may not make assumptions
114 * about the nodeid value that is actually assigned to the node.
115 */
116
117 #define DEVI_PSEUDO_NODEID ((int)-1)
118 #define DEVI_SID_NODEID ((int)-2)
119 #define DEVI_SID_HIDDEN_NODEID ((int)-3)
120 #define DEVI_SID_HP_NODEID ((int)-4)
121 #define DEVI_SID_HP_HIDDEN_NODEID ((int)-5)
122
123 #define DEVI_PSEUDO_NEXNAME "pseudo"
124 #define DEVI_ISA_NEXNAME "isa"
125 #define DEVI_EISA_NEXNAME "eisa"
126
127 /*
128 * ddi_create_minor_node flags
129 */
130 #define CLONE_DEV 1 /* device is a clone device */
131 #define PRIVONLY_DEV 0x10 /* policy-based permissions only */
132
133 /*
134 * Historical values used for the flag field in ddi_create_minor_node.
135 * Future use of flag bits should avoid these fields to keep binary
136 * compatibility
137 * #define GLOBAL_DEV 0x2
138 * #define NODEBOUND_DEV 0x4
139 * #define NODESPECIFIC_DEV 0x6
140 * #define ENUMERATED_DEV 0x8
141 */
142
143 /*
144 * Device type defines which are used by the 'node_type' element of the
145 * ddi_minor_data structure
146 */
147 #define DDI_NT_SERIAL "ddi_serial" /* Serial port */
148 #define DDI_NT_SERIAL_MB "ddi_serial:mb" /* the 'built-in' serial */
149 /* ports (the old ttya, b */
150 /* (,c ,d)) */
151 #define DDI_NT_SERIAL_DO "ddi_serial:dialout" /* dialout ports */
152 #define DDI_NT_SERIAL_MB_DO "ddi_serial:dialout,mb" /* dialout for onboard */
153 /* ports */
154 #define DDI_NT_SERIAL_LOMCON "ddi_serial:lomcon" /* LOMlite2 console port */
155
156 /*
157 * *_CHAN disk type devices have channel numbers or target numbers.
158 * (i.e. ipi and scsi devices)
159 */
160 #define DDI_NT_BLOCK "ddi_block" /* hard disks */
161 /*
162 * The next define is for block type devices that can possible exist on
163 * a sub-bus like the scsi bus or the ipi channel. The 'disks' program
164 * will pick up on this and create logical names like c0t0d0s0 instead of
165 * c0d0s0
166 */
167 #define DDI_NT_BLOCK_CHAN "ddi_block:channel"
168 #define DDI_NT_BLOCK_WWN "ddi_block:wwn"
169 #define DDI_NT_CD "ddi_block:cdrom" /* rom drives (cd-rom) */
170 #define DDI_NT_CD_CHAN "ddi_block:cdrom:channel" /* rom drives (scsi type) */
171 #define DDI_NT_FD "ddi_block:diskette" /* floppy disks */
172
173 #define DDI_NT_ENCLOSURE "ddi_enclosure"
174 #define DDI_NT_SCSI_ENCLOSURE "ddi_enclosure:scsi"
175
176 #define DDI_NT_BLOCK_SAS "ddi_block:sas"
177
178 /*
179 * xVM virtual block devices
180 */
181 #define DDI_NT_BLOCK_XVMD "ddi_block:xvmd"
182 #define DDI_NT_CD_XVMD "ddi_block:cdrom:xvmd"
183
184
185 #define DDI_NT_TAPE "ddi_byte:tape" /* tape drives */
186
187 #define DDI_NT_NET "ddi_network" /* DLPI network devices */
188
189 #define DDI_NT_NET_WIFI "ddi_network:wifi" /* wifi devices */
190
191 #define DDI_NT_DISPLAY "ddi_display" /* display devices */
192
193 #define DDI_NT_DISPLAY_DRM "ddi_display:drm" /* drm display devices */
194
195 #define DDI_PSEUDO "ddi_pseudo" /* general pseudo devices */
196
197 #define DDI_NT_AUDIO "ddi_audio" /* audio device */
198
199 #define DDI_NT_MOUSE "ddi_mouse" /* mouse device */
200
201 #define DDI_NT_KEYBOARD "ddi_keyboard" /* keyboard device */
202
203 #define DDI_NT_PARALLEL "ddi_parallel" /* parallel port */
204
205 #define DDI_NT_PRINTER "ddi_printer" /* printer device */
206
207 #define DDI_NT_UGEN "ddi_generic:usb" /* USB generic drv */
208
209 #define DDI_NT_SMP "ddi_sas_smp" /* smp devcies */
210
211 #define DDI_NT_NEXUS "ddi_ctl:devctl" /* nexus drivers */
212
213 #define DDI_NT_SCSI_NEXUS "ddi_ctl:devctl:scsi" /* nexus drivers */
214
215 #define DDI_NT_SATA_NEXUS "ddi_ctl:devctl:sata" /* nexus drivers */
216
217 #define DDI_NT_IB_NEXUS "ddi_ctl:devctl:ib" /* nexus drivers */
218
219 #define DDI_NT_ATTACHMENT_POINT "ddi_ctl:attachment_point" /* attachment pt */
220
221 #define DDI_NT_SCSI_ATTACHMENT_POINT "ddi_ctl:attachment_point:scsi"
222 /* scsi attachment pt */
223
224 #define DDI_NT_SATA_ATTACHMENT_POINT "ddi_ctl:attachment_point:sata"
225 /* sata attachment pt */
226
227 #define DDI_NT_SDCARD_ATTACHMENT_POINT "ddi_ctl:attachment_point:sdcard"
228 /* sdcard attachment pt */
229
230 #define DDI_NT_PCI_ATTACHMENT_POINT "ddi_ctl:attachment_point:pci"
231 /* PCI attachment pt */
232 #define DDI_NT_SBD_ATTACHMENT_POINT "ddi_ctl:attachment_point:sbd"
233 /* generic bd attachment pt */
234 #define DDI_NT_FC_ATTACHMENT_POINT "ddi_ctl:attachment_point:fc"
235 /* FC attachment pt */
236 #define DDI_NT_USB_ATTACHMENT_POINT "ddi_ctl:attachment_point:usb"
237 /* USB devices */
238 #define DDI_NT_BLOCK_FABRIC "ddi_block:fabric"
239 /* Fabric Devices */
240 #define DDI_NT_IB_ATTACHMENT_POINT "ddi_ctl:attachment_point:ib"
241 /* IB devices */
242
243 #define DDI_NT_AV_ASYNC "ddi_av:async" /* asynchronous AV device */
244 #define DDI_NT_AV_ISOCH "ddi_av:isoch" /* isochronous AV device */
245
246 /* Device types used for agpgart driver related devices */
247 #define DDI_NT_AGP_PSEUDO "ddi_agp:pseudo" /* agpgart pseudo device */
248 #define DDI_NT_AGP_MASTER "ddi_agp:master" /* agp master device */
249 #define DDI_NT_AGP_TARGET "ddi_agp:target" /* agp target device */
250 #define DDI_NT_AGP_CPUGART "ddi_agp:cpugart" /* amd64 on-cpu gart device */
251
252 #define DDI_NT_REGACC "ddi_tool_reg" /* tool register access */
253 #define DDI_NT_INTRCTL "ddi_tool_intr" /* tool intr access */
254
255 /*
256 * DDI event definitions
257 */
258 #define EC_DEVFS "EC_devfs" /* Event class devfs */
259 #define EC_DDI "EC_ddi" /* Event class ddi */
260
261 /* Class devfs subclasses */
262 #define ESC_DEVFS_MINOR_CREATE "ESC_devfs_minor_create"
263 #define ESC_DEVFS_MINOR_REMOVE "ESC_devfs_minor_remove"
264 #define ESC_DEVFS_DEVI_ADD "ESC_devfs_devi_add"
265 #define ESC_DEVFS_DEVI_REMOVE "ESC_devfs_devi_remove"
266 #define ESC_DEVFS_INSTANCE_MOD "ESC_devfs_instance_mod"
267 #define ESC_DEVFS_BRANCH_ADD "ESC_devfs_branch_add"
268 #define ESC_DEVFS_BRANCH_REMOVE "ESC_devfs_branch_remove"
269 #define ESC_DEVFS_START "ESC_devfs_start"
270
271 /* Class ddi subclasses */
272 #define ESC_DDI_INITIATOR_REGISTER "ESC_ddi_initiator_register"
273 #define ESC_DDI_INITIATOR_UNREGISTER "ESC_ddi_initiator_unregister"
274
275 /* DDI/NDI event publisher */
276 #define EP_DDI SUNW_KERN_PUB"ddi"
277
278 /*
279 * devfs event class attributes
280 *
281 * The following attributes are private to EC_DEVFS event data.
282 */
283 #define DEVFS_DRIVER_NAME "di.driver"
284 #define DEVFS_INSTANCE "di.instance"
285 #define DEVFS_PATHNAME "di.path"
286 #define DEVFS_DEVI_CLASS "di.devi_class"
287 #define DEVFS_BRANCH_EVENT "di.branch_event"
288 #define DEVFS_MINOR_NAME "mi.name"
289 #define DEVFS_MINOR_NODETYPE "mi.nodetype"
290 #define DEVFS_MINOR_ISCLONE "mi.isclone"
291 #define DEVFS_MINOR_MAJNUM "mi.majorno"
292 #define DEVFS_MINOR_MINORNUM "mi.minorno"
293
294 /*
295 * ddi event class payload
296 *
297 * The following attributes are private to EC_DDI event data.
298 */
299 #define DDI_DRIVER_NAME "ddi.driver"
300 #define DDI_DRIVER_MAJOR "ddi.major"
301 #define DDI_INSTANCE "ddi.instance"
302 #define DDI_PATHNAME "ddi.path"
303 #define DDI_CLASS "ddi.class"
304
305 /*
306 * Fault-related definitions
307 *
308 * The specific numeric values have been chosen to be ordered, but
309 * not consecutive, to allow for future interpolation if required.
310 */
311 typedef enum {
312 DDI_SERVICE_LOST = -32,
313 DDI_SERVICE_DEGRADED = -16,
314 DDI_SERVICE_UNAFFECTED = 0,
315 DDI_SERVICE_RESTORED = 16
316 } ddi_fault_impact_t;
317
318 typedef enum {
319 DDI_DATAPATH_FAULT = -32,
320 DDI_DEVICE_FAULT = -16,
321 DDI_EXTERNAL_FAULT = 0
322 } ddi_fault_location_t;
323
324 typedef enum {
325 DDI_DEVSTATE_OFFLINE = -32,
326 DDI_DEVSTATE_DOWN = -16,
327 DDI_DEVSTATE_QUIESCED = 0,
328 DDI_DEVSTATE_DEGRADED = 16,
329 DDI_DEVSTATE_UP = 32
330 } ddi_devstate_t;
331
332 #ifdef _KERNEL
333
334 /*
335 * Common property definitions
336 */
337 #define DDI_FORCEATTACH "ddi-forceattach"
338 #define DDI_NO_AUTODETACH "ddi-no-autodetach"
339 #define DDI_VHCI_CLASS "ddi-vhci-class"
340 #define DDI_NO_ROOT_SUPPORT "ddi-no-root-support"
341 #define DDI_OPEN_RETURNS_EINTR "ddi-open-returns-eintr"
342 #define DDI_DEVID_REGISTRANT "ddi-devid-registrant"
343
344 /*
345 * Values that the function supplied to the dev_info
346 * tree traversal functions defined below must return.
347 */
348
349 /*
350 * Continue search, if appropriate.
351 */
352 #define DDI_WALK_CONTINUE 0
353
354 /*
355 * Terminate current depth of traversal. That is, terminate
356 * the current traversal of children nodes, but continue
357 * traversing sibling nodes and their children (if any).
358 */
359
360 #define DDI_WALK_PRUNECHILD -1
361
362 /*
363 * Terminate current width of traversal. That is, terminate
364 * the current traversal of sibling nodes, but continue with
365 * traversing children nodes and their siblings (if appropriate).
366 */
367
368 #define DDI_WALK_PRUNESIB -2
369
370 /*
371 * Terminate the entire search.
372 */
373
374 #define DDI_WALK_TERMINATE -3
375
376 /*
377 * Terminate the entire search because an error occurred in function
378 */
379 #define DDI_WALK_ERROR -4
380
381 /*
382 * Drivers that are prepared to support full driver layering
383 * should create and export a null-valued property of the following
384 * name.
385 *
386 * Such drivers should be prepared to be called with FKLYR in
387 * the 'flag' argument of their open(9E), close(9E) routines, and
388 * with FKIOCTL in the 'mode' argument of their ioctl(9E) routines.
389 *
390 * See ioctl(9E) and ddi_copyin(9F) for details.
391 */
392 #define DDI_KERNEL_IOCTL "ddi-kernel-ioctl"
393
394 /*
395 * Model definitions for ddi_mmap_get_model(9F) and ddi_model_convert_from(9F).
396 */
397 #define DDI_MODEL_MASK DATAMODEL_MASK /* Note: 0x0FF00000 */
398 #define DDI_MODEL_ILP32 DATAMODEL_ILP32
399 #define DDI_MODEL_LP64 DATAMODEL_LP64
400 #define DDI_MODEL_NATIVE DATAMODEL_NATIVE
401 #define DDI_MODEL_NONE DATAMODEL_NONE
402
403 /* if set to B_TRUE is DER_MODE is equivalent to DERE_PANIC */
404 extern boolean_t ddi_err_panic;
405
406 /*
407 * Defines for ddi_err().
408 */
409 typedef enum {
410 DER_INVALID = 0, /* must be 0 */
411 DER_CONT = 1,
412 DER_CONS,
413 DER_LOG,
414 DER_VERB,
415 DER_NOTE,
416 DER_WARN,
417 DER_PANIC,
418 DER_MODE,
419 DER_DEBUG
420 } ddi_err_t;
421
422 extern void ddi_err(ddi_err_t de, dev_info_t *rdip, const char *fmt, ...);
423
424
425 extern char *ddi_strdup(const char *str, int flag);
426 extern char *strdup(const char *str);
427 extern void strfree(char *str);
428
429 /*
430 * Functions and data references which really should be in <sys/ddi.h>
431 */
432
433 extern int maxphys;
434 extern void minphys(struct buf *);
435 extern int physio(int (*)(struct buf *), struct buf *, dev_t,
436 int, void (*)(struct buf *), struct uio *);
437 extern void disksort(struct diskhd *, struct buf *);
438
439 extern size_t strlen(const char *) __PURE;
440 extern size_t strnlen(const char *, size_t) __PURE;
441 extern char *strcpy(char *, const char *);
442 extern char *strncpy(char *, const char *, size_t);
443 /* Need to be consistent with <string.h> C++ definition for strchr() */
444 #if __cplusplus >= 199711L
445 extern const char *strchr(const char *, int);
446 #ifndef _STRCHR_INLINE
447 #define _STRCHR_INLINE
448 extern "C++" {
449 inline char *strchr(char *__s, int __c) {
450 return (char *)strchr((const char *)__s, __c);
451 }
452 }
453 #endif /* _STRCHR_INLINE */
454 #else
455 extern char *strchr(const char *, int);
456 #endif /* __cplusplus >= 199711L */
457 #define DDI_STRSAME(s1, s2) ((*(s1) == *(s2)) && (strcmp((s1), (s2)) == 0))
458 extern int strcmp(const char *, const char *) __PURE;
459 extern int strncmp(const char *, const char *, size_t) __PURE;
460 extern char *strncat(char *, const char *, size_t);
461 extern size_t strlcat(char *, const char *, size_t);
462 extern size_t strlcpy(char *, const char *, size_t);
463 extern size_t strspn(const char *, const char *);
464 extern size_t strcspn(const char *, const char *);
465 extern int bcmp(const void *, const void *, size_t) __PURE;
466 extern int stoi(char **);
467 extern void numtos(ulong_t, char *);
468 extern void bcopy(const void *, void *, size_t);
469 extern void bzero(void *, size_t);
470
471 extern void *memcpy(void *, const void *, size_t);
472 extern void *memset(void *, int, size_t);
473 extern void *memmove(void *, const void *, size_t);
474 extern int memcmp(const void *, const void *, size_t) __PURE;
475 /* Need to be consistent with <string.h> C++ definition for memchr() */
476 #if __cplusplus >= 199711L
477 extern const void *memchr(const void *, int, size_t);
478 #ifndef _MEMCHR_INLINE
479 #define _MEMCHR_INLINE
480 extern "C++" {
481 inline void *memchr(void * __s, int __c, size_t __n) {
482 return (void *)memchr((const void *)__s, __c, __n);
483 }
484 }
485 #endif /* _MEMCHR_INLINE */
486 #else
487 extern void *memchr(const void *, int, size_t);
488 #endif /* __cplusplus >= 199711L */
489
490 extern int ddi_strtol(const char *, char **, int, long *);
491 extern int ddi_strtoul(const char *, char **, int, unsigned long *);
492 extern int ddi_strtoll(const char *, char **, int, longlong_t *);
493 extern int ddi_strtoull(const char *, char **, int, u_longlong_t *);
494
495 /*
496 * kiconv functions and their macros.
497 */
498 #define KICONV_IGNORE_NULL (0x0001)
499 #define KICONV_REPLACE_INVALID (0x0002)
500
501 extern kiconv_t kiconv_open(const char *, const char *);
502 extern size_t kiconv(kiconv_t, char **, size_t *, char **, size_t *, int *);
503 extern int kiconv_close(kiconv_t);
504 extern size_t kiconvstr(const char *, const char *, char *, size_t *, char *,
505 size_t *, int, int *);
506
507 /*
508 * ddi_map_regs
509 *
510 * Map in the register set given by rnumber.
511 * The register number determine which register
512 * set will be mapped if more than one exists.
513 * The parent driver gets the information
514 * from parent private data and sets up the
515 * appropriate mappings and returns the kernel
516 * virtual address of the register set in *kaddrp.
517 * The offset specifies an offset into the register
518 * space to start from and len indicates the size
519 * of the area to map. If len and offset are 0 then
520 * the entire space is mapped. It returns DDI_SUCCESS on
521 * success or DDI_FAILURE otherwise.
522 *
523 */
524 int
525 ddi_map_regs(dev_info_t *dip, uint_t rnumber, caddr_t *kaddrp,
526 off_t offset, off_t len);
527
528 /*
529 * ddi_unmap_regs
530 *
531 * Undo mappings set up by ddi_map_regs.
532 * The register number determines which register
533 * set will be unmapped if more than one exists.
534 * This is provided for drivers preparing
535 * to detach themselves from the system to
536 * allow them to release allocated mappings.
537 *
538 * The kaddrp and len specify the area to be
539 * unmapped. *kaddrp was returned from ddi_map_regs
540 * and len should match what ddi_map_regs was called
541 * with.
542 */
543
544 void
545 ddi_unmap_regs(dev_info_t *dip, uint_t rnumber, caddr_t *kaddrp,
546 off_t offset, off_t len);
547
548 int
549 ddi_map(dev_info_t *dp, ddi_map_req_t *mp, off_t offset, off_t len,
550 caddr_t *addrp);
551
552 int
553 ddi_apply_range(dev_info_t *dip, dev_info_t *rdip, struct regspec *rp);
554
555 /*
556 * ddi_rnumber_to_regspec: Not for use by leaf drivers.
557 */
558 struct regspec *
559 ddi_rnumber_to_regspec(dev_info_t *dip, int rnumber);
560
561 int
562 ddi_bus_map(dev_info_t *dip, dev_info_t *rdip, ddi_map_req_t *mp, off_t offset,
563 off_t len, caddr_t *vaddrp);
564
565 int
566 nullbusmap(dev_info_t *dip, dev_info_t *rdip, ddi_map_req_t *mp, off_t offset,
567 off_t len, caddr_t *vaddrp);
568
569 int ddi_peek8(dev_info_t *dip, int8_t *addr, int8_t *val_p);
570 int ddi_peek16(dev_info_t *dip, int16_t *addr, int16_t *val_p);
571 int ddi_peek32(dev_info_t *dip, int32_t *addr, int32_t *val_p);
572 int ddi_peek64(dev_info_t *dip, int64_t *addr, int64_t *val_p);
573
574 int ddi_poke8(dev_info_t *dip, int8_t *addr, int8_t val);
575 int ddi_poke16(dev_info_t *dip, int16_t *addr, int16_t val);
576 int ddi_poke32(dev_info_t *dip, int32_t *addr, int32_t val);
577 int ddi_poke64(dev_info_t *dip, int64_t *addr, int64_t val);
578
579 /*
580 * Peek and poke to and from a uio structure in xfersize pieces,
581 * using the parent nexi.
582 */
583 int ddi_peekpokeio(dev_info_t *devi, struct uio *uio, enum uio_rw rw,
584 caddr_t addr, size_t len, uint_t xfersize);
585
586 /*
587 * Pagesize conversions using the parent nexi
588 */
589 unsigned long ddi_btop(dev_info_t *dip, unsigned long bytes);
590 unsigned long ddi_btopr(dev_info_t *dip, unsigned long bytes);
591 unsigned long ddi_ptob(dev_info_t *dip, unsigned long pages);
592
593 /*
594 * There are no more "block" interrupt functions, per se.
595 * All thread of control should be done with MP/MT lockings.
596 *
597 * However, there are certain times in which a driver needs
598 * absolutely a critical guaranteed non-preemptable time
599 * in which to execute a few instructions.
600 *
601 * The following pair of functions attempt to guarantee this,
602 * but they are dangerous to use. That is, use them with
603 * extreme care. They do not guarantee to stop other processors
604 * from executing, but they do guarantee that the caller
605 * of ddi_enter_critical will continue to run until the
606 * caller calls ddi_exit_critical. No intervening DDI functions
607 * may be called between an entry and an exit from a critical
608 * region.
609 *
610 * ddi_enter_critical returns an integer identifier which must
611 * be passed to ddi_exit_critical.
612 *
613 * Be very sparing in the use of these functions since it is
614 * likely that absolutely nothing else can occur in the system
615 * whilst in the critical region.
616 */
617
618 unsigned int
619 ddi_enter_critical(void);
620
621 void
622 ddi_exit_critical(unsigned int);
623
624 /*
625 * devmap functions
626 */
627 int
628 devmap_setup(dev_t dev, offset_t off, ddi_as_handle_t as, caddr_t *addrp,
629 size_t len, uint_t prot, uint_t maxprot, uint_t flags,
630 struct cred *cred);
631
632 int
633 ddi_devmap_segmap(dev_t dev, off_t off, ddi_as_handle_t as, caddr_t *addrp,
634 off_t len, uint_t prot, uint_t maxprot, uint_t flags,
635 struct cred *cred);
636
637 int
638 devmap_load(devmap_cookie_t dhp, offset_t offset, size_t len, uint_t type,
639 uint_t rw);
640
641 int
642 devmap_unload(devmap_cookie_t dhp, offset_t offset, size_t len);
643
644 int
645 devmap_devmem_setup(devmap_cookie_t dhp, dev_info_t *dip,
646 struct devmap_callback_ctl *callback_ops,
647 uint_t rnumber, offset_t roff, size_t len, uint_t maxprot,
648 uint_t flags, ddi_device_acc_attr_t *accattrp);
649
650 int
651 devmap_umem_setup(devmap_cookie_t dhp, dev_info_t *dip,
652 struct devmap_callback_ctl *callback_ops,
653 ddi_umem_cookie_t cookie, offset_t off, size_t len, uint_t maxprot,
654 uint_t flags, ddi_device_acc_attr_t *accattrp);
655
656 int
657 devmap_devmem_remap(devmap_cookie_t dhp, dev_info_t *dip,
658 uint_t rnumber, offset_t roff, size_t len, uint_t maxprot,
659 uint_t flags, ddi_device_acc_attr_t *accattrp);
660
661 int
662 devmap_umem_remap(devmap_cookie_t dhp, dev_info_t *dip,
663 ddi_umem_cookie_t cookie, offset_t off, size_t len, uint_t maxprot,
664 uint_t flags, ddi_device_acc_attr_t *accattrp);
665
666 void
667 devmap_set_ctx_timeout(devmap_cookie_t dhp, clock_t ticks);
668
669 int
670 devmap_default_access(devmap_cookie_t dhp, void *pvtp, offset_t off,
671 size_t len, uint_t type, uint_t rw);
672
673 int
674 devmap_do_ctxmgt(devmap_cookie_t dhp, void *pvtp, offset_t off, size_t len,
675 uint_t type, uint_t rw, int (*ctxmgt)(devmap_cookie_t, void *, offset_t,
676 size_t, uint_t, uint_t));
677
678
679 void *ddi_umem_alloc(size_t size, int flag, ddi_umem_cookie_t *cookiep);
680
681 void ddi_umem_free(ddi_umem_cookie_t cookie);
682
683 /*
684 * Functions to lock user memory and do repeated I/O or do devmap_umem_setup
685 */
686 int
687 ddi_umem_lock(caddr_t addr, size_t size, int flags, ddi_umem_cookie_t *cookie);
688
689 void
690 ddi_umem_unlock(ddi_umem_cookie_t cookie);
691
692 struct buf *
693 ddi_umem_iosetup(ddi_umem_cookie_t cookie, off_t off, size_t len, int direction,
694 dev_t dev, daddr_t blkno, int (*iodone)(struct buf *), int sleepflag);
695
696 /*
697 * Mapping functions
698 */
699 int
700 ddi_segmap(dev_t dev, off_t offset, struct as *asp, caddr_t *addrp, off_t len,
701 uint_t prot, uint_t maxprot, uint_t flags, cred_t *credp);
702
703 int
704 ddi_segmap_setup(dev_t dev, off_t offset, struct as *as, caddr_t *addrp,
705 off_t len, uint_t prot, uint_t maxprot, uint_t flags, cred_t *cred,
706 ddi_device_acc_attr_t *accattrp, uint_t rnumber);
707
708 int
709 ddi_map_fault(dev_info_t *dip, struct hat *hat, struct seg *seg, caddr_t addr,
710 struct devpage *dp, pfn_t pfn, uint_t prot, uint_t lock);
711
712 int
713 ddi_device_mapping_check(dev_t dev, ddi_device_acc_attr_t *accattrp,
714 uint_t rnumber, uint_t *hat_flags);
715
716 /*
717 * Property functions: See also, ddipropdefs.h.
718 * In general, the underlying driver MUST be held
719 * to call it's property functions.
720 */
721
722 /*
723 * Used to create, modify, and lookup integer properties
724 */
725 int ddi_prop_get_int(dev_t match_dev, dev_info_t *dip, uint_t flags,
726 char *name, int defvalue);
727 int64_t ddi_prop_get_int64(dev_t match_dev, dev_info_t *dip, uint_t flags,
728 char *name, int64_t defvalue);
729 int ddi_prop_lookup_int_array(dev_t match_dev, dev_info_t *dip, uint_t flags,
730 char *name, int **data, uint_t *nelements);
731 int ddi_prop_lookup_int64_array(dev_t match_dev, dev_info_t *dip, uint_t flags,
732 char *name, int64_t **data, uint_t *nelements);
733 int ddi_prop_update_int(dev_t match_dev, dev_info_t *dip,
734 char *name, int data);
735 int ddi_prop_update_int64(dev_t match_dev, dev_info_t *dip,
736 char *name, int64_t data);
737 int ddi_prop_update_int_array(dev_t match_dev, dev_info_t *dip,
738 char *name, int *data, uint_t nelements);
739 int ddi_prop_update_int64_array(dev_t match_dev, dev_info_t *dip,
740 char *name, int64_t *data, uint_t nelements);
741 /*
742 * Used to create, modify, and lookup string properties
743 */
744 int ddi_prop_lookup_string(dev_t match_dev, dev_info_t *dip, uint_t flags,
745 char *name, char **data);
746 int ddi_prop_lookup_string_array(dev_t match_dev, dev_info_t *dip, uint_t flags,
747 char *name, char ***data, uint_t *nelements);
748 int ddi_prop_update_string(dev_t match_dev, dev_info_t *dip,
749 char *name, char *data);
750 int ddi_prop_update_string_array(dev_t match_dev, dev_info_t *dip,
751 char *name, char **data, uint_t nelements);
752
753 /*
754 * Used to create, modify, and lookup byte properties
755 */
756 int ddi_prop_lookup_byte_array(dev_t match_dev, dev_info_t *dip, uint_t flags,
757 char *name, uchar_t **data, uint_t *nelements);
758 int ddi_prop_update_byte_array(dev_t match_dev, dev_info_t *dip,
759 char *name, uchar_t *data, uint_t nelements);
760
761 /*
762 * Used to verify the existence of a property or to see if a boolean
763 * property exists.
764 */
765 int ddi_prop_exists(dev_t match_dev, dev_info_t *dip, uint_t flags, char *name);
766
767 /*
768 * Used to free the data returned by the above property routines.
769 */
770 void ddi_prop_free(void *data);
771
772 /*
773 * nopropop: For internal use in `dummy' cb_prop_op functions only
774 */
775
776 int
777 nopropop(dev_t dev, dev_info_t *dip, ddi_prop_op_t prop_op, int mod_flags,
778 char *name, caddr_t valuep, int *lengthp);
779
780 /*
781 * ddi_prop_op: The basic property operator for drivers.
782 *
783 * In ddi_prop_op, the type of valuep is interpreted based on prop_op:
784 *
785 * prop_op valuep
786 * ------ ------
787 *
788 * PROP_LEN <unused>
789 *
790 * PROP_LEN_AND_VAL_BUF Pointer to callers buffer
791 *
792 * PROP_LEN_AND_VAL_ALLOC Address of callers pointer (will be set to
793 * address of allocated buffer, if successful)
794 */
795
796 int
797 ddi_prop_op(dev_t dev, dev_info_t *dip, ddi_prop_op_t prop_op, int mod_flags,
798 char *name, caddr_t valuep, int *lengthp);
799
800 /* ddi_prop_op_size: for drivers that implement size in bytes */
801 int
802 ddi_prop_op_size(dev_t dev, dev_info_t *dip, ddi_prop_op_t prop_op,
803 int mod_flags, char *name, caddr_t valuep, int *lengthp,
804 uint64_t size64);
805
806 /* ddi_prop_op_size_blksize: like ddi_prop_op_size, in blksize blocks */
807 int
808 ddi_prop_op_size_blksize(dev_t dev, dev_info_t *dip, ddi_prop_op_t prop_op,
809 int mod_flags, char *name, caddr_t valuep, int *lengthp,
810 uint64_t size64, uint_t blksize);
811
812 /* ddi_prop_op_nblocks: for drivers that implement size in DEV_BSIZE blocks */
813 int
814 ddi_prop_op_nblocks(dev_t dev, dev_info_t *dip, ddi_prop_op_t prop_op,
815 int mod_flags, char *name, caddr_t valuep, int *lengthp,
816 uint64_t nblocks64);
817
818 /* ddi_prop_op_nblocks_blksize: like ddi_prop_op_nblocks, in blksize blocks */
819 int
820 ddi_prop_op_nblocks_blksize(dev_t dev, dev_info_t *dip, ddi_prop_op_t prop_op,
821 int mod_flags, char *name, caddr_t valuep, int *lengthp,
822 uint64_t nblocks64, uint_t blksize);
823
824 /*
825 * Variable length props...
826 */
827
828 /*
829 * ddi_getlongprop: Get variable length property len+val into a buffer
830 * allocated by property provider via kmem_alloc. Requester
831 * is responsible for freeing returned property via kmem_free.
832 *
833 * Arguments:
834 *
835 * dev: Input: dev_t of property.
836 * dip: Input: dev_info_t pointer of child.
837 * flags: Input: Possible flag modifiers are:
838 * DDI_PROP_DONTPASS: Don't pass to parent if prop not found.
839 * DDI_PROP_CANSLEEP: Memory allocation may sleep.
840 * name: Input: name of property.
841 * valuep: Output: Addr of callers buffer pointer.
842 * lengthp:Output: *lengthp will contain prop length on exit.
843 *
844 * Possible Returns:
845 *
846 * DDI_PROP_SUCCESS: Prop found and returned.
847 * DDI_PROP_NOT_FOUND: Prop not found
848 * DDI_PROP_UNDEFINED: Prop explicitly undefined.
849 * DDI_PROP_NO_MEMORY: Prop found, but unable to alloc mem.
850 */
851
852 int
853 ddi_getlongprop(dev_t dev, dev_info_t *dip, int flags,
854 char *name, caddr_t valuep, int *lengthp);
855
856 /*
857 *
858 * ddi_getlongprop_buf: Get long prop into pre-allocated callers
859 * buffer. (no memory allocation by provider).
860 *
861 * dev: Input: dev_t of property.
862 * dip: Input: dev_info_t pointer of child.
863 * flags: Input: DDI_PROP_DONTPASS or NULL
864 * name: Input: name of property
865 * valuep: Input: ptr to callers buffer.
866 * lengthp:I/O: ptr to length of callers buffer on entry,
867 * actual length of property on exit.
868 *
869 * Possible returns:
870 *
871 * DDI_PROP_SUCCESS Prop found and returned
872 * DDI_PROP_NOT_FOUND Prop not found
873 * DDI_PROP_UNDEFINED Prop explicitly undefined.
874 * DDI_PROP_BUF_TOO_SMALL Prop found, callers buf too small,
875 * no value returned, but actual prop
876 * length returned in *lengthp
877 *
878 */
879
880 int
881 ddi_getlongprop_buf(dev_t dev, dev_info_t *dip, int flags,
882 char *name, caddr_t valuep, int *lengthp);
883
884 /*
885 * Integer/boolean sized props.
886 *
887 * Call is value only... returns found boolean or int sized prop value or
888 * defvalue if prop not found or is wrong length or is explicitly undefined.
889 * Only flag is DDI_PROP_DONTPASS...
890 *
891 * By convention, this interface returns boolean (0) sized properties
892 * as value (int)1.
893 */
894
895 int
896 ddi_getprop(dev_t dev, dev_info_t *dip, int flags, char *name, int defvalue);
897
898 /*
899 * Get prop length interface: flags are 0 or DDI_PROP_DONTPASS
900 * if returns DDI_PROP_SUCCESS, length returned in *lengthp.
901 */
902
903 int
904 ddi_getproplen(dev_t dev, dev_info_t *dip, int flags, char *name, int *lengthp);
905
906
907 /*
908 * Interface to create/modify a managed property on child's behalf...
909 * Only flag is DDI_PROP_CANSLEEP to allow memory allocation to sleep
910 * if no memory available for internal prop structure. Long property
911 * (non integer sized) value references are not copied.
912 *
913 * Define property with DDI_DEV_T_NONE dev_t for properties not associated
914 * with any particular dev_t. Use the same dev_t when modifying or undefining
915 * a property.
916 *
917 * No guarantee on order of property search, so don't mix the same
918 * property name with wildcard and non-wildcard dev_t's.
919 */
920
921 /*
922 * ddi_prop_create: Define a managed property:
923 */
924
925 int
926 ddi_prop_create(dev_t dev, dev_info_t *dip, int flag,
927 char *name, caddr_t value, int length);
928
929 /*
930 * ddi_prop_modify: Modify a managed property value
931 */
932
933 int
934 ddi_prop_modify(dev_t dev, dev_info_t *dip, int flag,
935 char *name, caddr_t value, int length);
936
937 /*
938 * ddi_prop_remove: Undefine a managed property:
939 */
940
941 int
942 ddi_prop_remove(dev_t dev, dev_info_t *dip, char *name);
943
944 /*
945 * ddi_prop_remove_all: Used before unloading a driver to remove
946 * all properties. (undefines all dev_t's props.)
947 * Also removes `undefined' prop defs.
948 */
949
950 void
951 ddi_prop_remove_all(dev_info_t *dip);
952
953
954 /*
955 * ddi_prop_undefine: Explicitly undefine a property. Property
956 * searches which match this property return
957 * the error code DDI_PROP_UNDEFINED.
958 *
959 * Use ddi_prop_remove to negate effect of
960 * ddi_prop_undefine
961 */
962
963 int
964 ddi_prop_undefine(dev_t dev, dev_info_t *dip, int flag, char *name);
965
966
967 /*
968 * ddi_prop_cache_invalidate
969 * Invalidate a property in the current cached
970 * devinfo snapshot - next cached snapshot will
971 * return the latest property value available.
972 */
973 void
974 ddi_prop_cache_invalidate(dev_t dev, dev_info_t *dip, char *name, int flags);
975
976 /*
977 * The default ddi_bus_prop_op wrapper...
978 */
979
980 int
981 ddi_bus_prop_op(dev_t dev, dev_info_t *dip, dev_info_t *ch_dip,
982 ddi_prop_op_t prop_op, int mod_flags,
983 char *name, caddr_t valuep, int *lengthp);
984
985
986 /*
987 * Routines to traverse the tree of dev_info nodes.
988 * The general idea of these functions is to provide
989 * various tree traversal utilities. For each node
990 * that the tree traversal function finds, a caller
991 * supplied function is called with arguments of
992 * the current node and a caller supplied argument.
993 * The caller supplied function should return one
994 * of the integer values defined below which will
995 * indicate to the tree traversal function whether
996 * the traversal should be continued, and if so, how,
997 * or whether the traversal should terminate.
998 */
999
1000 /*
1001 * This general-purpose routine traverses the tree of dev_info nodes,
1002 * starting from the given node, and calls the given function for each
1003 * node that it finds with the current node and the pointer arg (which
1004 * can point to a structure of information that the function
1005 * needs) as arguments.
1006 *
1007 * It does the walk a layer at a time, not depth-first.
1008 *
1009 * The given function must return one of the values defined above.
1010 *
1011 */
1012
1013 void
1014 ddi_walk_devs(dev_info_t *, int (*)(dev_info_t *, void *), void *);
1015
1016 /*
1017 * Routines to get at elements of the dev_info structure
1018 */
1019
1020 /*
1021 * ddi_node_name gets the device's 'name' from the device node.
1022 *
1023 * ddi_binding_name gets the string the OS used to bind the node to a driver,
1024 * in certain cases, the binding name may be different from the node name,
1025 * if the node name does not name a specific device driver.
1026 *
1027 * ddi_get_name is a synonym for ddi_binding_name().
1028 */
1029 char *
1030 ddi_get_name(dev_info_t *dip);
1031
1032 char *
1033 ddi_binding_name(dev_info_t *dip);
1034
1035 const char *
1036 ddi_driver_name(dev_info_t *dip);
1037
1038 major_t
1039 ddi_driver_major(dev_info_t *dip);
1040
1041 major_t
1042 ddi_compatible_driver_major(dev_info_t *dip, char **formp);
1043
1044 char *
1045 ddi_node_name(dev_info_t *dip);
1046
1047 int
1048 ddi_get_nodeid(dev_info_t *dip);
1049
1050 int
1051 ddi_get_instance(dev_info_t *dip);
1052
1053 struct dev_ops *
1054 ddi_get_driver(dev_info_t *dip);
1055
1056 void
1057 ddi_set_driver(dev_info_t *dip, struct dev_ops *devo);
1058
1059 void
1060 ddi_set_driver_private(dev_info_t *dip, void *data);
1061
1062 void *
1063 ddi_get_driver_private(dev_info_t *dip);
1064
1065 /*
1066 * ddi_dev_is_needed tells system that a device is about to use a
1067 * component. Returns when component is ready.
1068 */
1069 int
1070 ddi_dev_is_needed(dev_info_t *dip, int cmpt, int level);
1071
1072 /*
1073 * check if DDI_SUSPEND may result in power being removed from a device.
1074 */
1075 int
1076 ddi_removing_power(dev_info_t *dip);
1077
1078 /*
1079 * (Obsolete) power entry point
1080 */
1081 int
1082 ddi_power(dev_info_t *dip, int cmpt, int level);
1083
1084 /*
1085 * ddi_get_parent requires that the branch of the tree with the
1086 * node be held (ddi_hold_installed_driver) or that the devinfo tree
1087 * lock be held
1088 */
1089 dev_info_t *
1090 ddi_get_parent(dev_info_t *dip);
1091
1092 /*
1093 * ddi_get_child and ddi_get_next_sibling require that the devinfo
1094 * tree lock be held
1095 */
1096 dev_info_t *
1097 ddi_get_child(dev_info_t *dip);
1098
1099 dev_info_t *
1100 ddi_get_next_sibling(dev_info_t *dip);
1101
1102 dev_info_t *
1103 ddi_get_next(dev_info_t *dip);
1104
1105 void
1106 ddi_set_next(dev_info_t *dip, dev_info_t *nextdip);
1107
1108 /*
1109 * dev_info manipulation functions
1110 */
1111
1112 /*
1113 * Add and remove child devices. These are part of the system framework.
1114 *
1115 * ddi_add_child creates a dev_info structure with the passed name,
1116 * nodeid and instance arguments and makes it a child of pdip. Devices
1117 * that are known directly by the hardware have real nodeids; devices
1118 * that are software constructs use the defined DEVI_PSEUDO_NODEID
1119 * for the node id.
1120 *
1121 * ddi_remove_node removes the node from the tree. This fails if this
1122 * child has children. Parent and driver private data should already
1123 * be released (freed) prior to calling this function. If flag is
1124 * non-zero, the child is removed from it's linked list of instances.
1125 */
1126 dev_info_t *
1127 ddi_add_child(dev_info_t *pdip, char *name, uint_t nodeid, uint_t instance);
1128
1129 int
1130 ddi_remove_child(dev_info_t *dip, int flag);
1131
1132 /*
1133 * Given the major number for a driver, make sure that dev_info nodes
1134 * are created form the driver's hwconf file, the driver for the named
1135 * device is loaded and attached, as well as any drivers for parent devices.
1136 * Return a pointer to the driver's dev_ops struct with the dev_ops held.
1137 * Note - Callers must release the dev_ops with ddi_rele_driver.
1138 *
1139 * When a driver is held, the branch of the devinfo tree from any of the
1140 * drivers devinfos to the root node are automatically held. This only
1141 * applies to tree traversals up (and back down) the tree following the
1142 * parent pointers.
1143 *
1144 * Use of this interface is discouraged, it may be removed in a future release.
1145 */
1146 struct dev_ops *
1147 ddi_hold_installed_driver(major_t major);
1148
1149 void
1150 ddi_rele_driver(major_t major);
1151
1152 /*
1153 * Attach and hold the specified instance of a driver. The flags argument
1154 * should be zero.
1155 */
1156 dev_info_t *
1157 ddi_hold_devi_by_instance(major_t major, int instance, int flags);
1158
1159 void
1160 ddi_release_devi(dev_info_t *);
1161
1162 /*
1163 * Associate a streams queue with a devinfo node
1164 */
1165 void
1166 ddi_assoc_queue_with_devi(queue_t *, dev_info_t *);
1167
1168 /*
1169 * Given the identifier string passed, make sure that dev_info nodes
1170 * are created form the driver's hwconf file, the driver for the named
1171 * device is loaded and attached, as well as any drivers for parent devices.
1172 *
1173 * Note that the driver is not held and is subject to being removed the instant
1174 * this call completes. You probably really want ddi_hold_installed_driver.
1175 */
1176 int
1177 ddi_install_driver(char *idstring);
1178
1179 /*
1180 * Routines that return specific nodes
1181 */
1182
1183 dev_info_t *
1184 ddi_root_node(void);
1185
1186 /*
1187 * Given a name and an instance number, find and return the
1188 * dev_info from the current state of the device tree.
1189 *
1190 * If instance number is -1, return the first named instance.
1191 *
1192 * If attached is 1, exclude all nodes that are < DS_ATTACHED
1193 *
1194 * Requires that the devinfo tree be locked.
1195 * If attached is 1, the driver must be held.
1196 */
1197 dev_info_t *
1198 ddi_find_devinfo(char *name, int instance, int attached);
1199
1200 /*
1201 * Synchronization of I/O with respect to various
1202 * caches and system write buffers.
1203 *
1204 * Done at varying points during an I/O transfer (including at the
1205 * removal of an I/O mapping).
1206 *
1207 * Due to the support of systems with write buffers which may
1208 * not be able to be turned off, this function *must* used at
1209 * any point in which data consistency might be required.
1210 *
1211 * Generally this means that if a memory object has multiple mappings
1212 * (both for I/O, as described by the handle, and the IU, via, e.g.
1213 * a call to ddi_dma_kvaddrp), and one mapping may have been
1214 * used to modify the memory object, this function must be called
1215 * to ensure that the modification of the memory object is
1216 * complete, as well as possibly to inform other mappings of
1217 * the object that any cached references to the object are
1218 * now stale (and flush or invalidate these stale cache references
1219 * as necessary).
1220 *
1221 * The function ddi_dma_sync() provides the general interface with
1222 * respect to this capability. Generally, ddi_dma_free() (below) may
1223 * be used in preference to ddi_dma_sync() as ddi_dma_free() calls
1224 * ddi_dma_sync().
1225 *
1226 * Returns 0 if all caches that exist and are specified by cache_flags
1227 * are successfully operated on, else -1.
1228 *
1229 * The argument offset specifies an offset into the mapping of the mapped
1230 * object in which to perform the synchronization. It will be silently
1231 * truncated to the granularity of underlying cache line sizes as
1232 * appropriate.
1233 *
1234 * The argument len specifies a length starting from offset in which to
1235 * perform the synchronization. A value of (uint_t) -1 means that the length
1236 * proceeds from offset to the end of the mapping. The length argument
1237 * will silently rounded up to the granularity of underlying cache line
1238 * sizes as appropriate.
1239 *
1240 * The argument flags specifies what to synchronize (the device's view of
1241 * the object or the cpu's view of the object).
1242 *
1243 * Inquiring minds want to know when ddi_dma_sync should be used:
1244 *
1245 * + When an object is mapped for dma, assume that an
1246 * implicit ddi_dma_sync() is done for you.
1247 *
1248 * + When an object is unmapped (ddi_dma_free()), assume
1249 * that an implicit ddi_dma_sync() is done for you.
1250 *
1251 * + At any time between the two times above that the
1252 * memory object may have been modified by either
1253 * the DMA device or a processor and you wish that
1254 * the change be noticed by the master that didn't
1255 * do the modifying.
1256 *
1257 * Clearly, only the third case above requires the use of ddi_dma_sync.
1258 *
1259 * Inquiring minds also want to know which flag to use:
1260 *
1261 * + If you *modify* with a cpu the object, you use
1262 * ddi_dma_sync(...DDI_DMA_SYNC_FORDEV) (you are making sure
1263 * that the DMA device sees the changes you made).
1264 *
1265 * + If you are checking, with the processor, an area
1266 * of the object that the DMA device *may* have modified,
1267 * you use ddi_dma_sync(....DDI_DMA_SYNC_FORCPU) (you are
1268 * making sure that the processor(s) will see the changes
1269 * that the DMA device may have made).
1270 */
1271
1272 int
1273 ddi_dma_sync(ddi_dma_handle_t handle, off_t offset, size_t len, uint_t flags);
1274
1275 /*
1276 * Return the allowable DMA burst size for the object mapped by handle.
1277 * The burst sizes will returned in an integer that encodes power
1278 * of two burst sizes that are allowed in bit encoded format. For
1279 * example, a transfer that could allow 1, 2, 4, 8 and 32 byte bursts
1280 * would be encoded as 0x2f. A transfer that could be allowed as solely
1281 * a halfword (2 byte) transfers would be returned as 0x2.
1282 */
1283
1284 int
1285 ddi_dma_burstsizes(ddi_dma_handle_t handle);
1286
1287 /*
1288 * Merge DMA attributes
1289 */
1290
1291 void
1292 ddi_dma_attr_merge(ddi_dma_attr_t *attr, ddi_dma_attr_t *mod);
1293
1294 /*
1295 * Allocate a DMA handle
1296 */
1297
1298 int
1299 ddi_dma_alloc_handle(dev_info_t *dip, ddi_dma_attr_t *attr,
1300 int (*waitfp)(caddr_t), caddr_t arg,
1301 ddi_dma_handle_t *handlep);
1302
1303 /*
1304 * Free DMA handle
1305 */
1306
1307 void
1308 ddi_dma_free_handle(ddi_dma_handle_t *handlep);
1309
1310 /*
1311 * Allocate memory for DMA transfers
1312 */
1313
1314 int
1315 ddi_dma_mem_alloc(ddi_dma_handle_t handle, size_t length,
1316 ddi_device_acc_attr_t *accattrp, uint_t xfermodes,
1317 int (*waitfp)(caddr_t), caddr_t arg, caddr_t *kaddrp,
1318 size_t *real_length, ddi_acc_handle_t *handlep);
1319
1320 /*
1321 * Free DMA memory
1322 */
1323
1324 void
1325 ddi_dma_mem_free(ddi_acc_handle_t *hp);
1326
1327 /*
1328 * bind address to a DMA handle
1329 */
1330
1331 int
1332 ddi_dma_addr_bind_handle(ddi_dma_handle_t handle, struct as *as,
1333 caddr_t addr, size_t len, uint_t flags,
1334 int (*waitfp)(caddr_t), caddr_t arg,
1335 ddi_dma_cookie_t *cookiep, uint_t *ccountp);
1336
1337 /*
1338 * bind buffer to DMA handle
1339 */
1340
1341 int
1342 ddi_dma_buf_bind_handle(ddi_dma_handle_t handle, struct buf *bp,
1343 uint_t flags, int (*waitfp)(caddr_t), caddr_t arg,
1344 ddi_dma_cookie_t *cookiep, uint_t *ccountp);
1345
1346 /*
1347 * unbind mapping object to handle
1348 */
1349
1350 int
1351 ddi_dma_unbind_handle(ddi_dma_handle_t handle);
1352
1353 /*
1354 * get next DMA cookie
1355 */
1356
1357 void
1358 ddi_dma_nextcookie(ddi_dma_handle_t handle, ddi_dma_cookie_t *cookiep);
1359
1360 /*
1361 * get number of DMA windows
1362 */
1363
1364 int
1365 ddi_dma_numwin(ddi_dma_handle_t handle, uint_t *nwinp);
1366
1367 /*
1368 * get specific DMA window
1369 */
1370
1371 int
1372 ddi_dma_getwin(ddi_dma_handle_t handle, uint_t win, off_t *offp,
1373 size_t *lenp, ddi_dma_cookie_t *cookiep, uint_t *ccountp);
1374
1375 /*
1376 * activate 64 bit SBus support
1377 */
1378
1379 int
1380 ddi_dma_set_sbus64(ddi_dma_handle_t handle, ulong_t burstsizes);
1381
1382 /*
1383 * Miscellaneous functions
1384 */
1385
1386 /*
1387 * ddi_report_dev: Report a successful attach.
1388 */
1389
1390 void
1391 ddi_report_dev(dev_info_t *dev);
1392
1393 /*
1394 * ddi_dev_regsize
1395 *
1396 * If the device has h/w register(s), report
1397 * the size, in bytes, of the specified one into *resultp.
1398 *
1399 * Returns DDI_FAILURE if there are not registers,
1400 * or the specified register doesn't exist.
1401 */
1402
1403 int
1404 ddi_dev_regsize(dev_info_t *dev, uint_t rnumber, off_t *resultp);
1405
1406 /*
1407 * ddi_dev_nregs
1408 *
1409 * If the device has h/w register(s), report
1410 * how many of them that there are into resultp.
1411 * Return DDI_FAILURE if the device has no registers.
1412 */
1413
1414 int
1415 ddi_dev_nregs(dev_info_t *dev, int *resultp);
1416
1417 /*
1418 * ddi_dev_is_sid
1419 *
1420 * If the device is self-identifying, i.e.,
1421 * has already been probed by a smart PROM
1422 * (and thus registers are known to be valid)
1423 * return DDI_SUCCESS, else DDI_FAILURE.
1424 */
1425
1426
1427 int
1428 ddi_dev_is_sid(dev_info_t *dev);
1429
1430 /*
1431 * ddi_slaveonly
1432 *
1433 * If the device is on a bus that precludes
1434 * the device from being either a dma master or
1435 * a dma slave, return DDI_SUCCESS.
1436 */
1437
1438 int
1439 ddi_slaveonly(dev_info_t *);
1440
1441
1442 /*
1443 * ddi_dev_affinity
1444 *
1445 * Report, via DDI_SUCCESS, whether there exists
1446 * an 'affinity' between two dev_info_t's. An
1447 * affinity is defined to be either a parent-child,
1448 * or a sibling relationship such that the siblings
1449 * or in the same part of the bus they happen to be
1450 * on.
1451 */
1452
1453 int
1454 ddi_dev_affinity(dev_info_t *deva, dev_info_t *devb);
1455
1456
1457 /*
1458 * ddi_set_callback
1459 *
1460 * Set a function/arg pair into the callback list identified
1461 * by listid. *listid must always initially start out as zero.
1462 */
1463
1464 void
1465 ddi_set_callback(int (*funcp)(caddr_t), caddr_t arg, uintptr_t *listid);
1466
1467 /*
1468 * ddi_run_callback
1469 *
1470 * Run the callback list identified by listid.
1471 */
1472
1473 void
1474 ddi_run_callback(uintptr_t *listid);
1475
1476 /*
1477 * More miscellaneous
1478 */
1479
1480 int
1481 nochpoll(dev_t dev, short events, int anyyet, short *reventsp,
1482 struct pollhead **phpp);
1483
1484 dev_info_t *
1485 nodevinfo(dev_t dev, int otyp);
1486
1487 int
1488 ddi_no_info(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg, void **result);
1489
1490 int
1491 ddi_getinfo_1to1(dev_info_t *dip, ddi_info_cmd_t infocmd,
1492 void *arg, void **result);
1493
1494 int
1495 ddifail(dev_info_t *devi, ddi_attach_cmd_t cmd);
1496
1497 int
1498 ddi_no_dma_map(dev_info_t *dip, dev_info_t *rdip,
1499 struct ddi_dma_req *dmareqp, ddi_dma_handle_t *handlep);
1500
1501 int
1502 ddi_no_dma_allochdl(dev_info_t *dip, dev_info_t *rdip, ddi_dma_attr_t *attr,
1503 int (*waitfp)(caddr_t), caddr_t arg, ddi_dma_handle_t *handlep);
1504
1505 int
1506 ddi_no_dma_freehdl(dev_info_t *dip, dev_info_t *rdip,
1507 ddi_dma_handle_t handle);
1508
1509 int
1510 ddi_no_dma_bindhdl(dev_info_t *dip, dev_info_t *rdip,
1511 ddi_dma_handle_t handle, struct ddi_dma_req *dmareq,
1512 ddi_dma_cookie_t *cp, uint_t *ccountp);
1513
1514 int
1515 ddi_no_dma_unbindhdl(dev_info_t *dip, dev_info_t *rdip,
1516 ddi_dma_handle_t handle);
1517
1518 int
1519 ddi_no_dma_flush(dev_info_t *dip, dev_info_t *rdip,
1520 ddi_dma_handle_t handle, off_t off, size_t len,
1521 uint_t cache_flags);
1522
1523 int
1524 ddi_no_dma_win(dev_info_t *dip, dev_info_t *rdip,
1525 ddi_dma_handle_t handle, uint_t win, off_t *offp,
1526 size_t *lenp, ddi_dma_cookie_t *cookiep, uint_t *ccountp);
1527
1528 int
1529 ddi_no_dma_mctl(register dev_info_t *dip, dev_info_t *rdip,
1530 ddi_dma_handle_t handle, enum ddi_dma_ctlops request,
1531 off_t *offp, size_t *lenp, caddr_t *objp, uint_t flags);
1532
1533 void
1534 ddivoid();
1535
1536 cred_t *
1537 ddi_get_cred(void);
1538
1539 time_t
1540 ddi_get_time(void);
1541
1542 pid_t
1543 ddi_get_pid(void);
1544
1545 kt_did_t
1546 ddi_get_kt_did(void);
1547
1548 boolean_t
1549 ddi_can_receive_sig(void);
1550
1551 void
1552 swab(void *src, void *dst, size_t nbytes);
1553
1554 int
1555 ddi_create_minor_node(dev_info_t *dip, char *name, int spec_type,
1556 minor_t minor_num, char *node_type, int flag);
1557
1558 int
1559 ddi_create_priv_minor_node(dev_info_t *dip, char *name, int spec_type,
1560 minor_t minor_num, char *node_type, int flag,
1561 const char *rdpriv, const char *wrpriv, mode_t priv_mode);
1562
1563 void
1564 ddi_remove_minor_node(dev_info_t *dip, char *name);
1565
1566 int
1567 ddi_in_panic(void);
1568
1569 int
1570 ddi_streams_driver(dev_info_t *dip);
1571
1572 /*
1573 * DDI wrappers for ffs and fls
1574 */
1575 int
1576 ddi_ffs(long mask);
1577
1578 int
1579 ddi_fls(long mask);
1580
1581 /*
1582 * The ddi_soft_state* routines comprise generic storage management utilities
1583 * for driver soft state structures. Two types of soft_state indexes are
1584 * supported: 'integer index', and 'string index'.
1585 */
1586 typedef struct __ddi_soft_state_bystr ddi_soft_state_bystr;
1587
1588 /*
1589 * Initialize a soft_state set, establishing the 'size' of soft state objects
1590 * in the set.
1591 *
1592 * For an 'integer indexed' soft_state set, the initial set will accommodate
1593 * 'n_items' objects - 'n_items' is a hint (i.e. zero is allowed), allocations
1594 * that exceed 'n_items' have additional overhead.
1595 *
1596 * For a 'string indexed' soft_state set, 'n_items' should be the typical
1597 * number of soft state objects in the set - 'n_items' is a hint, there may
1598 * be additional overhead if the hint is too small (and wasted memory if the
1599 * hint is too big).
1600 */
1601 int
1602 ddi_soft_state_init(void **state_p, size_t size, size_t n_items);
1603 int
1604 ddi_soft_state_bystr_init(ddi_soft_state_bystr **state_p,
1605 size_t size, int n_items);
1606
1607 /*
1608 * Allocate a soft state object associated with either 'integer index' or
1609 * 'string index' from a soft_state set.
1610 */
1611 int
1612 ddi_soft_state_zalloc(void *state, int item);
1613 int
1614 ddi_soft_state_bystr_zalloc(ddi_soft_state_bystr *state, const char *str);
1615
1616 /*
1617 * Get the pointer to the allocated soft state object associated with
1618 * either 'integer index' or 'string index'.
1619 */
1620 void *
1621 ddi_get_soft_state(void *state, int item);
1622 void *
1623 ddi_soft_state_bystr_get(ddi_soft_state_bystr *state, const char *str);
1624
1625 /*
1626 * Free the soft state object associated with either 'integer index'
1627 * or 'string index'.
1628 */
1629 void
1630 ddi_soft_state_free(void *state, int item);
1631 void
1632 ddi_soft_state_bystr_free(ddi_soft_state_bystr *state, const char *str);
1633
1634 /*
1635 * Free the soft state set and any associated soft state objects.
1636 */
1637 void
1638 ddi_soft_state_fini(void **state_p);
1639 void
1640 ddi_soft_state_bystr_fini(ddi_soft_state_bystr **state_p);
1641
1642 /*
1643 * The ddi_strid_* routines provide string-to-index management utilities.
1644 */
1645 typedef struct __ddi_strid ddi_strid;
1646 int
1647 ddi_strid_init(ddi_strid **strid_p, int n_items);
1648 id_t
1649 ddi_strid_alloc(ddi_strid *strid, char *str);
1650 id_t
1651 ddi_strid_str2id(ddi_strid *strid, char *str);
1652 char *
1653 ddi_strid_id2str(ddi_strid *strid, id_t id);
1654 void
1655 ddi_strid_free(ddi_strid *strid, id_t id);
1656 void
1657 ddi_strid_fini(ddi_strid **strid_p);
1658
1659 /*
1660 * Set the addr field of the name in dip to name
1661 */
1662 void
1663 ddi_set_name_addr(dev_info_t *dip, char *name);
1664
1665 /*
1666 * Get the address part of the name.
1667 */
1668 char *
1669 ddi_get_name_addr(dev_info_t *dip);
1670
1671 void
1672 ddi_set_parent_data(dev_info_t *dip, void *pd);
1673
1674 void *
1675 ddi_get_parent_data(dev_info_t *dip);
1676
1677 int
1678 ddi_initchild(dev_info_t *parent, dev_info_t *proto);
1679
1680 int
1681 ddi_uninitchild(dev_info_t *dip);
1682
1683 major_t
1684 ddi_name_to_major(char *name);
1685
1686 char *
1687 ddi_major_to_name(major_t major);
1688
1689 char *
1690 ddi_deviname(dev_info_t *dip, char *name);
1691
1692 char *
1693 ddi_pathname(dev_info_t *dip, char *path);
1694
1695 char *
1696 ddi_pathname_minor(struct ddi_minor_data *dmdp, char *path);
1697
1698 char *
1699 ddi_pathname_obp(dev_info_t *dip, char *path);
1700
1701 int
1702 ddi_pathname_obp_set(dev_info_t *dip, char *component);
1703
1704 int
1705 ddi_dev_pathname(dev_t devt, int spec_type, char *name);
1706
1707 dev_t
1708 ddi_pathname_to_dev_t(char *pathname);
1709
1710 /*
1711 * High resolution system timer functions.
1712 *
1713 * These functions are already in the kernel (see sys/time.h).
1714 * The ddi supports the notion of a hrtime_t type and the
1715 * functions gethrtime, hrtadd, hrtsub and hrtcmp.
1716 */
1717
1718
1719 /*
1720 * Nexus wrapper functions
1721 *
1722 * These functions are for entries in a bus nexus driver's bus_ops
1723 * structure for when the driver doesn't have such a function and
1724 * doesn't wish to prohibit such a function from existing. They
1725 * may also be called to start passing a request up the dev_info
1726 * tree.
1727 */
1728
1729 /*
1730 * bus_ctl wrapper
1731 */
1732
1733 int
1734 ddi_ctlops(dev_info_t *d, dev_info_t *r, ddi_ctl_enum_t o, void *a, void *v);
1735
1736 /*
1737 * bus_dma_map wrapper
1738 */
1739
1740 int
1741 ddi_dma_allochdl(dev_info_t *dip, dev_info_t *rdip, ddi_dma_attr_t *attr,
1742 int (*waitfp)(caddr_t), caddr_t arg, ddi_dma_handle_t *handlep);
1743
1744 int
1745 ddi_dma_freehdl(dev_info_t *dip, dev_info_t *rdip,
1746 ddi_dma_handle_t handle);
1747
1748 int
1749 ddi_dma_bindhdl(dev_info_t *dip, dev_info_t *rdip,
1750 ddi_dma_handle_t handle, struct ddi_dma_req *dmareq,
1751 ddi_dma_cookie_t *cp, uint_t *ccountp);
1752
1753 int
1754 ddi_dma_unbindhdl(dev_info_t *dip, dev_info_t *rdip,
1755 ddi_dma_handle_t handle);
1756
1757 int
1758 ddi_dma_flush(dev_info_t *dip, dev_info_t *rdip,
1759 ddi_dma_handle_t handle, off_t off, size_t len,
1760 uint_t cache_flags);
1761
1762 int
1763 ddi_dma_win(dev_info_t *dip, dev_info_t *rdip,
1764 ddi_dma_handle_t handle, uint_t win, off_t *offp,
1765 size_t *lenp, ddi_dma_cookie_t *cookiep, uint_t *ccountp);
1766
1767 /*
1768 * bus_dma_ctl wrapper
1769 */
1770
1771 int
1772 ddi_dma_mctl(dev_info_t *dip, dev_info_t *rdip, ddi_dma_handle_t handle,
1773 enum ddi_dma_ctlops request, off_t *offp, size_t *lenp,
1774 caddr_t *objp, uint_t flags);
1775
1776 /*
1777 * dvma support for networking drivers
1778 */
1779
1780 unsigned long
1781 dvma_pagesize(dev_info_t *dip);
1782
1783 int
1784 dvma_reserve(dev_info_t *dip, ddi_dma_lim_t *limp, uint_t pages,
1785 ddi_dma_handle_t *handlep);
1786
1787 void
1788 dvma_release(ddi_dma_handle_t h);
1789
1790 void
1791 dvma_kaddr_load(ddi_dma_handle_t h, caddr_t a, uint_t len, uint_t index,
1792 ddi_dma_cookie_t *cp);
1793
1794 void
1795 dvma_unload(ddi_dma_handle_t h, uint_t objindex, uint_t type);
1796
1797 void
1798 dvma_sync(ddi_dma_handle_t h, uint_t objindex, uint_t type);
1799
1800 /*
1801 * Layered driver support
1802 */
1803
1804 extern int ddi_copyin(const void *, void *, size_t, int);
1805 extern int ddi_copyout(const void *, void *, size_t, int);
1806
1807 /*
1808 * Send signals to processes
1809 */
1810 extern void *proc_ref(void);
1811 extern void proc_unref(void *pref);
1812 extern int proc_signal(void *pref, int sig);
1813
1814 /* I/O port access routines */
1815 extern uint8_t inb(int port);
1816 extern uint16_t inw(int port);
1817 extern uint32_t inl(int port);
1818 extern void outb(int port, uint8_t value);
1819 extern void outw(int port, uint16_t value);
1820 extern void outl(int port, uint32_t value);
1821
1822 /*
1823 * Console bell routines
1824 */
1825 extern void ddi_ring_console_bell(clock_t duration);
1826 extern void ddi_set_console_bell(void (*bellfunc)(clock_t duration));
1827
1828 /*
1829 * Fault-related functions
1830 */
1831 extern int ddi_check_acc_handle(ddi_acc_handle_t);
1832 extern int ddi_check_dma_handle(ddi_dma_handle_t);
1833 extern void ddi_dev_report_fault(dev_info_t *, ddi_fault_impact_t,
1834 ddi_fault_location_t, const char *);
1835 extern ddi_devstate_t ddi_get_devstate(dev_info_t *);
1836
1837 /*
1838 * Miscellaneous redefines
1839 */
1840 #define uiophysio physio
1841
1842 /*
1843 * utilities - "reg" mapping and all common portable data access functions
1844 */
1845
1846 /*
1847 * error code from ddi_regs_map_setup
1848 */
1849
1850 #define DDI_REGS_ACC_CONFLICT (-10)
1851
1852 /*
1853 * Device address advance flags
1854 */
1855
1856 #define DDI_DEV_NO_AUTOINCR 0x0000
1857 #define DDI_DEV_AUTOINCR 0x0001
1858
1859 int
1860 ddi_regs_map_setup(dev_info_t *dip, uint_t rnumber, caddr_t *addrp,
1861 offset_t offset, offset_t len, ddi_device_acc_attr_t *accattrp,
1862 ddi_acc_handle_t *handle);
1863
1864 void
1865 ddi_regs_map_free(ddi_acc_handle_t *handle);
1866
1867 /*
1868 * these are the prototypes for the common portable data access functions
1869 */
1870
1871 uint8_t
1872 ddi_get8(ddi_acc_handle_t handle, uint8_t *addr);
1873
1874 uint16_t
1875 ddi_get16(ddi_acc_handle_t handle, uint16_t *addr);
1876
1877 uint32_t
1878 ddi_get32(ddi_acc_handle_t handle, uint32_t *addr);
1879
1880 uint64_t
1881 ddi_get64(ddi_acc_handle_t handle, uint64_t *addr);
1882
1883 void
1884 ddi_rep_get8(ddi_acc_handle_t handle, uint8_t *host_addr, uint8_t *dev_addr,
1885 size_t repcount, uint_t flags);
1886
1887 void
1888 ddi_rep_get16(ddi_acc_handle_t handle, uint16_t *host_addr, uint16_t *dev_addr,
1889 size_t repcount, uint_t flags);
1890
1891 void
1892 ddi_rep_get32(ddi_acc_handle_t handle, uint32_t *host_addr, uint32_t *dev_addr,
1893 size_t repcount, uint_t flags);
1894
1895 void
1896 ddi_rep_get64(ddi_acc_handle_t handle, uint64_t *host_addr, uint64_t *dev_addr,
1897 size_t repcount, uint_t flags);
1898
1899 void
1900 ddi_put8(ddi_acc_handle_t handle, uint8_t *addr, uint8_t value);
1901
1902 void
1903 ddi_put16(ddi_acc_handle_t handle, uint16_t *addr, uint16_t value);
1904
1905 void
1906 ddi_put32(ddi_acc_handle_t handle, uint32_t *addr, uint32_t value);
1907
1908 void
1909 ddi_put64(ddi_acc_handle_t handle, uint64_t *addr, uint64_t value);
1910
1911 void
1912 ddi_rep_put8(ddi_acc_handle_t handle, uint8_t *host_addr, uint8_t *dev_addr,
1913 size_t repcount, uint_t flags);
1914 void
1915 ddi_rep_put16(ddi_acc_handle_t handle, uint16_t *host_addr, uint16_t *dev_addr,
1916 size_t repcount, uint_t flags);
1917 void
1918 ddi_rep_put32(ddi_acc_handle_t handle, uint32_t *host_addr, uint32_t *dev_addr,
1919 size_t repcount, uint_t flags);
1920
1921 void
1922 ddi_rep_put64(ddi_acc_handle_t handle, uint64_t *host_addr, uint64_t *dev_addr,
1923 size_t repcount, uint_t flags);
1924
1925 /*
1926 * these are special device handling functions
1927 */
1928 int
1929 ddi_device_zero(ddi_acc_handle_t handle, caddr_t dev_addr,
1930 size_t bytecount, ssize_t dev_advcnt, uint_t dev_datasz);
1931
1932 int
1933 ddi_device_copy(
1934 ddi_acc_handle_t src_handle, caddr_t src_addr, ssize_t src_advcnt,
1935 ddi_acc_handle_t dest_handle, caddr_t dest_addr, ssize_t dest_advcnt,
1936 size_t bytecount, uint_t dev_datasz);
1937
1938 /*
1939 * these are software byte swapping functions
1940 */
1941 uint16_t
1942 ddi_swap16(uint16_t value);
1943
1944 uint32_t
1945 ddi_swap32(uint32_t value);
1946
1947 uint64_t
1948 ddi_swap64(uint64_t value);
1949
1950 /*
1951 * these are the prototypes for PCI local bus functions
1952 */
1953 /*
1954 * PCI power management capabilities reporting in addition to those
1955 * provided by the PCI Power Management Specification.
1956 */
1957 #define PCI_PM_IDLESPEED 0x1 /* clock for idle dev - cap */
1958 #define PCI_PM_IDLESPEED_ANY (void *)-1 /* any clock for idle dev */
1959 #define PCI_PM_IDLESPEED_NONE (void *)-2 /* regular clock for idle dev */
1960
1961 int
1962 pci_config_setup(dev_info_t *dip, ddi_acc_handle_t *handle);
1963
1964 void
1965 pci_config_teardown(ddi_acc_handle_t *handle);
1966
1967 uint8_t
1968 pci_config_get8(ddi_acc_handle_t handle, off_t offset);
1969
1970 uint16_t
1971 pci_config_get16(ddi_acc_handle_t handle, off_t offset);
1972
1973 uint32_t
1974 pci_config_get32(ddi_acc_handle_t handle, off_t offset);
1975
1976 uint64_t
1977 pci_config_get64(ddi_acc_handle_t handle, off_t offset);
1978
1979 void
1980 pci_config_put8(ddi_acc_handle_t handle, off_t offset, uint8_t value);
1981
1982 void
1983 pci_config_put16(ddi_acc_handle_t handle, off_t offset, uint16_t value);
1984
1985 void
1986 pci_config_put32(ddi_acc_handle_t handle, off_t offset, uint32_t value);
1987
1988 void
1989 pci_config_put64(ddi_acc_handle_t handle, off_t offset, uint64_t value);
1990
1991 int
1992 pci_report_pmcap(dev_info_t *dip, int cap, void *arg);
1993
1994 int
1995 pci_restore_config_regs(dev_info_t *dip);
1996
1997 int
1998 pci_save_config_regs(dev_info_t *dip);
1999
2000 void
2001 pci_ereport_setup(dev_info_t *dip);
2002
2003 void
2004 pci_ereport_teardown(dev_info_t *dip);
2005
2006 void
2007 pci_ereport_post(dev_info_t *dip, ddi_fm_error_t *derr, uint16_t *status);
2008
2009 #if defined(__i386) || defined(__amd64)
2010 int
2011 pci_peekpoke_check(dev_info_t *, dev_info_t *, ddi_ctl_enum_t, void *, void *,
2012 int (*handler)(dev_info_t *, dev_info_t *, ddi_ctl_enum_t, void *,
2013 void *), kmutex_t *, kmutex_t *,
2014 void (*scan)(dev_info_t *, ddi_fm_error_t *));
2015 #endif
2016
2017 void
2018 pci_target_enqueue(uint64_t, char *, char *, uint64_t);
2019
2020 void
2021 pci_targetq_init(void);
2022
2023 int
2024 pci_post_suspend(dev_info_t *dip);
2025
2026 int
2027 pci_pre_resume(dev_info_t *dip);
2028
2029 /*
2030 * the prototype for the C Language Type Model inquiry.
2031 */
2032 model_t ddi_mmap_get_model(void);
2033 model_t ddi_model_convert_from(model_t);
2034
2035 /*
2036 * these are the prototypes for device id functions.
2037 */
2038 int
2039 ddi_devid_valid(ddi_devid_t devid);
2040
2041 int
2042 ddi_devid_register(dev_info_t *dip, ddi_devid_t devid);
2043
2044 void
2045 ddi_devid_unregister(dev_info_t *dip);
2046
2047 int
2048 ddi_devid_init(dev_info_t *dip, ushort_t devid_type, ushort_t nbytes,
2049 void *id, ddi_devid_t *ret_devid);
2050
2051 int
2052 ddi_devid_get(dev_info_t *dip, ddi_devid_t *ret_devid);
2053
2054 size_t
2055 ddi_devid_sizeof(ddi_devid_t devid);
2056
2057 void
2058 ddi_devid_free(ddi_devid_t devid);
2059
2060 int
2061 ddi_devid_compare(ddi_devid_t id1, ddi_devid_t id2);
2062
2063 int
2064 ddi_devid_scsi_encode(int version, char *driver_name,
2065 uchar_t *inq, size_t inq_len, uchar_t *inq80, size_t inq80_len,
2066 uchar_t *inq83, size_t inq83_len, ddi_devid_t *ret_devid);
2067
2068 int
2069 ddi_devid_smp_encode(int version, char *driver_name,
2070 char *wwnstr, uchar_t *srmir_buf, size_t srmir_len,
2071 ddi_devid_t *ret_devid);
2072
2073 char
2074 *ddi_devid_to_guid(ddi_devid_t devid);
2075
2076 void
2077 ddi_devid_free_guid(char *guid);
2078
2079 int
2080 ddi_lyr_get_devid(dev_t dev, ddi_devid_t *ret_devid);
2081
2082 int
2083 ddi_lyr_get_minor_name(dev_t dev, int spec_type, char **minor_name);
2084
2085 int
2086 ddi_lyr_devid_to_devlist(ddi_devid_t devid, char *minor_name, int *retndevs,
2087 dev_t **retdevs);
2088
2089 void
2090 ddi_lyr_free_devlist(dev_t *devlist, int ndevs);
2091
2092 char *
2093 ddi_devid_str_encode(ddi_devid_t devid, char *minor_name);
2094
2095 int
2096 ddi_devid_str_decode(char *devidstr, ddi_devid_t *devidp, char **minor_namep);
2097
2098 void
2099 ddi_devid_str_free(char *devidstr);
2100
2101 int
2102 ddi_devid_str_compare(char *id1_str, char *id2_str);
2103
2104 /*
2105 * Event to post to when a devinfo node is removed.
2106 */
2107 #define DDI_DEVI_REMOVE_EVENT "DDI:DEVI_REMOVE"
2108 #define DDI_DEVI_INSERT_EVENT "DDI:DEVI_INSERT"
2109 #define DDI_DEVI_BUS_RESET_EVENT "DDI:DEVI_BUS_RESET"
2110 #define DDI_DEVI_DEVICE_RESET_EVENT "DDI:DEVI_DEVICE_RESET"
2111
2112 /*
2113 * Invoke bus nexus driver's implementation of the
2114 * (*bus_remove_eventcall)() interface to remove a registered
2115 * callback handler for "event".
2116 */
2117 int
2118 ddi_remove_event_handler(ddi_callback_id_t id);
2119
2120 /*
2121 * Invoke bus nexus driver's implementation of the
2122 * (*bus_add_eventcall)() interface to register a callback handler
2123 * for "event".
2124 */
2125 int
2126 ddi_add_event_handler(dev_info_t *dip, ddi_eventcookie_t event,
2127 void (*handler)(dev_info_t *, ddi_eventcookie_t, void *, void *),
2128 void *arg, ddi_callback_id_t *id);
2129
2130 /*
2131 * Return a handle for event "name" by calling up the device tree
2132 * hierarchy via (*bus_get_eventcookie)() interface until claimed
2133 * by a bus nexus or top of dev_info tree is reached.
2134 */
2135 int
2136 ddi_get_eventcookie(dev_info_t *dip, char *name,
2137 ddi_eventcookie_t *event_cookiep);
2138
2139 /*
2140 * log a system event
2141 */
2142 int
2143 ddi_log_sysevent(dev_info_t *dip, char *vendor, char *class_name,
2144 char *subclass_name, nvlist_t *attr_list, sysevent_id_t *eidp,
2145 int sleep_flag);
2146
2147 /*
2148 * ddi_log_sysevent() vendors
2149 */
2150 #define DDI_VENDOR_SUNW "SUNW"
2151
2152 /*
2153 * Opaque task queue handle.
2154 */
2155 typedef struct ddi_taskq ddi_taskq_t;
2156
2157 /*
2158 * Use default system priority.
2159 */
2160 #define TASKQ_DEFAULTPRI -1
2161
2162 /*
2163 * Create a task queue
2164 */
2165 ddi_taskq_t *ddi_taskq_create(dev_info_t *dip, const char *name,
2166 int nthreads, pri_t pri, uint_t cflags);
2167
2168 /*
2169 * destroy a task queue
2170 */
2171 void ddi_taskq_destroy(ddi_taskq_t *tq);
2172
2173 /*
2174 * Dispatch a task to a task queue
2175 */
2176 int ddi_taskq_dispatch(ddi_taskq_t *tq, void (* func)(void *),
2177 void *arg, uint_t dflags);
2178
2179 /*
2180 * Wait for all previously scheduled tasks to complete.
2181 */
2182 void ddi_taskq_wait(ddi_taskq_t *tq);
2183
2184 /*
2185 * Suspend all task execution.
2186 */
2187 void ddi_taskq_suspend(ddi_taskq_t *tq);
2188
2189 /*
2190 * Resume task execution.
2191 */
2192 void ddi_taskq_resume(ddi_taskq_t *tq);
2193
2194 /*
2195 * Is task queue suspended?
2196 */
2197 boolean_t ddi_taskq_suspended(ddi_taskq_t *tq);
2198
2199 /*
2200 * Parse an interface name of the form <alphanumeric>##<numeric> where
2201 * <numeric> is maximal.
2202 */
2203 int ddi_parse(const char *, char *, uint_t *);
2204
2205 /*
2206 * DDI interrupt priority level
2207 */
2208 #define DDI_IPL_0 (0) /* kernel context */
2209 #define DDI_IPL_1 (1) /* interrupt priority level 1 */
2210 #define DDI_IPL_2 (2) /* interrupt priority level 2 */
2211 #define DDI_IPL_3 (3) /* interrupt priority level 3 */
2212 #define DDI_IPL_4 (4) /* interrupt priority level 4 */
2213 #define DDI_IPL_5 (5) /* interrupt priority level 5 */
2214 #define DDI_IPL_6 (6) /* interrupt priority level 6 */
2215 #define DDI_IPL_7 (7) /* interrupt priority level 7 */
2216 #define DDI_IPL_8 (8) /* interrupt priority level 8 */
2217 #define DDI_IPL_9 (9) /* interrupt priority level 9 */
2218 #define DDI_IPL_10 (10) /* interrupt priority level 10 */
2219
2220 /*
2221 * DDI periodic timeout interface
2222 */
2223 ddi_periodic_t ddi_periodic_add(void (*)(void *), void *, hrtime_t, int);
2224 void ddi_periodic_delete(ddi_periodic_t);
2225
2226 /*
2227 * Default quiesce(9E) implementation for drivers that don't need to do
2228 * anything.
2229 */
2230 int ddi_quiesce_not_needed(dev_info_t *);
2231
2232 /*
2233 * Default quiesce(9E) initialization function for drivers that should
2234 * implement quiesce but haven't yet.
2235 */
2236 int ddi_quiesce_not_supported(dev_info_t *);
2237
2238 /*
2239 * DDI generic callback interface
2240 */
2241
2242 typedef struct __ddi_cb **ddi_cb_handle_t;
2243
2244 int ddi_cb_register(dev_info_t *dip, ddi_cb_flags_t flags,
2245 ddi_cb_func_t cbfunc, void *arg1, void *arg2,
2246 ddi_cb_handle_t *ret_hdlp);
2247 int ddi_cb_unregister(ddi_cb_handle_t hdl);
2248
2249 /* Notify DDI of memory added */
2250 void ddi_mem_update(uint64_t addr, uint64_t size);
2251
2252 /* Path alias interfaces */
2253 typedef struct plat_alias {
2254 char *pali_current;
2255 uint64_t pali_naliases;
2256 char **pali_aliases;
2257 } plat_alias_t;
2258
2259 typedef struct alias_pair {
2260 char *pair_alias;
2261 char *pair_curr;
2262 } alias_pair_t;
2263
2264 extern boolean_t ddi_aliases_present;
2265
2266 typedef struct ddi_alias {
2267 alias_pair_t *dali_alias_pairs;
2268 alias_pair_t *dali_curr_pairs;
2269 int dali_num_pairs;
2270 mod_hash_t *dali_alias_TLB;
2271 mod_hash_t *dali_curr_TLB;
2272 } ddi_alias_t;
2273
2274 extern ddi_alias_t ddi_aliases;
2275
2276 void ddi_register_aliases(plat_alias_t *pali, uint64_t npali);
2277 dev_info_t *ddi_alias_redirect(char *alias);
2278 char *ddi_curr_redirect(char *curr);
2279
2280 #endif /* _KERNEL */
2281
2282 #ifdef __cplusplus
2283 }
2284 #endif
2285
2286 #endif /* _SYS_SUNDDI_H */