xref: /titanic_50/usr/src/uts/i86pc/sys/dr.h (revision a31148363f598def767ac48c5d82e1572e44b935)
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 2010 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 /*
26  * Copyright (c) 2010, Intel Corporation.
27  * All rights reserved.
28  */
29 
30 #ifndef _SYS_DR_H
31 #define	_SYS_DR_H
32 #include <sys/types.h>
33 #include <sys/note.h>
34 #include <sys/processor.h>
35 #include <sys/obpdefs.h>
36 #include <sys/memlist.h>
37 #include <sys/mem_config.h>
38 #include <sys/param.h>			/* for MAXPATHLEN */
39 #include <sys/varargs.h>
40 #include <sys/sbd_ioctl.h>
41 #include <sys/dr_util.h>
42 #include <sys/drmach.h>
43 
44 #ifdef	__cplusplus
45 extern "C" {
46 #endif
47 
48 /*
49  * helper macros for constructing and reporting internal error messages.
50  * NOTE: each module which uses one or more this these macros is expected
51  * to supply a char *dr_ie_fmt string containing the SCCS filename
52  * expansion macro (percent M percent) and a sprintf %d to render the
53  * line number argument.
54  */
55 #define	DR_INTERNAL_ERROR(hp)				\
56 	drerr_new(1, ESBD_INTERNAL, dr_ie_fmt, __LINE__)
57 
58 #define	DR_OP_INTERNAL_ERROR(hp)			\
59 	drerr_set_c(CE_WARN, &(hp)->h_err,		\
60 		ESBD_INTERNAL, dr_ie_fmt, __LINE__)
61 
62 #define	DR_DEV_INTERNAL_ERROR(cp)			\
63 	drerr_set_c(CE_WARN, &(cp)->sbdev_error,	\
64 		ESBD_INTERNAL, dr_ie_fmt, __LINE__)
65 
66 /*
67  * Macros for keeping an error code and an associated list of integers.
68  */
69 #define	DR_MAX_ERR_INT		(32)
70 #define	DR_GET_E_CODE(sep)	((sep)->e_code)
71 #define	DR_SET_E_CODE(sep, en)	((sep)->e_code = (en))
72 #define	DR_GET_E_RSC(sep)	((sep)->e_rsc)
73 
74 /* Number of device node types. */
75 #define	DR_MAXNUM_NT		3
76 
77 /* used to map sbd_comp_type_t to array index */
78 #define	DEVSET_NIX(t)					\
79 	(((t) == SBD_COMP_CPU) ? 0 :			\
80 	((t) == SBD_COMP_MEM) ? 1 :			\
81 	((t) == SBD_COMP_IO) ? 2 :			\
82 	((t) == SBD_COMP_CMP) ? 0 : DR_MAXNUM_NT)
83 
84 /*
85  * Format of dr_devset_t bit masks:
86  *
87  * 64    56        48        40        32        24        16        8         0
88  *  |....|IIII|IIII|IIII|IIII|MMMM|MMMM|CCCC|CCCC|CCCC|CCCC|CCCC|CCCC|CCCC|CCCC|
89  *
90  * 1 = indicates respective component present/attached.
91  * I = I/O, M = Memory, C = CPU.
92  */
93 #define	DEVSET_CPU_OFFSET	0
94 #define	DEVSET_CPU_NUMBER	32
95 #define	DEVSET_MEM_OFFSET	(DEVSET_CPU_OFFSET + DEVSET_CPU_NUMBER)
96 #define	DEVSET_MEM_NUMBER	8
97 #define	DEVSET_IO_OFFSET	(DEVSET_MEM_OFFSET + DEVSET_MEM_NUMBER)
98 #define	DEVSET_IO_NUMBER	16
99 #define	DEVSET_MAX_BITS		(DEVSET_IO_OFFSET + DEVSET_IO_NUMBER)
100 
101 #define	DEVSET_BIX(t)					\
102 	(((t) == SBD_COMP_CPU) ? DEVSET_CPU_OFFSET :	\
103 	((t) == SBD_COMP_MEM) ? DEVSET_MEM_OFFSET :	\
104 	((t) == SBD_COMP_IO) ? DEVSET_IO_OFFSET :	\
105 	((t) == SBD_COMP_CMP) ? DEVSET_CPU_OFFSET : 0)
106 
107 #define	DEVSET_NT2DEVPOS(t, u)	(((t) == SBD_COMP_CMP) ?\
108 	(DEVSET_BIX(t) + (u) * MAX_CORES_PER_CMP) : DEVSET_BIX(t) + (u))
109 
110 #if (DEVSET_MAX_BITS <= 64)
111 typedef uint64_t		dr_devset_t;
112 
113 #define	DEVSET_ONEUNIT		((dr_devset_t)1)
114 #define	DEVSET_ANYUNIT		((dr_devset_t)(-1))
115 #define	DEVSET_CPU_NMASK	((dr_devset_t)((1ULL << DEVSET_CPU_NUMBER) - 1))
116 #define	DEVSET_MEM_NMASK	((dr_devset_t)((1ULL << DEVSET_MEM_NUMBER) - 1))
117 #define	DEVSET_IO_NMASK		((dr_devset_t)((1ULL << DEVSET_IO_NUMBER) - 1))
118 #define	DEVSET_CMP_NMASK	((dr_devset_t)((1ULL << MAX_CORES_PER_CMP) - 1))
119 
120 #define	DEVSET_NMASK(t)					\
121 	(((t) == SBD_COMP_CPU) ? DEVSET_CPU_NMASK :	\
122 	((t) == SBD_COMP_MEM) ? DEVSET_MEM_NMASK :	\
123 	((t) == SBD_COMP_IO) ? DEVSET_IO_NMASK :	\
124 	((t) == SBD_COMP_CMP) ? DEVSET_CPU_NMASK : 0)
125 
126 #define	DEVSET_MASK					\
127 	((DEVSET_CPU_NMASK << DEVSET_CPU_OFFSET) | 	\
128 	(DEVSET_MEM_NMASK << DEVSET_MEM_OFFSET) | 	\
129 	(DEVSET_IO_NMASK << DEVSET_IO_OFFSET))
130 
131 #define	DEVSET(t, u) \
132 	(((u) == DEVSET_ANYUNIT) ? \
133 		((DEVSET_NMASK(t) << DEVSET_NT2DEVPOS((t), 0)) & \
134 		DEVSET_MASK) : \
135 	((t) == SBD_COMP_CMP) ? \
136 		(DEVSET_CMP_NMASK << DEVSET_NT2DEVPOS((t), (u))) : \
137 		(DEVSET_ONEUNIT << DEVSET_NT2DEVPOS((t), (u))))
138 
139 #define	DEVSET_IS_NULL(ds)	((ds) == 0)
140 #define	DEVSET_IN_SET(ds, t, u)	(((ds) & DEVSET((t), (u))) != 0)
141 #define	DEVSET_ADD(ds, t, u)	((ds) |= DEVSET((t), (u)))
142 #define	DEVSET_DEL(ds, t, u)	((ds) &= ~DEVSET((t), (u)))
143 #define	DEVSET_AND(ds1, ds2)	((ds1) & (ds2))
144 #define	DEVSET_OR(ds1, ds2)	((ds1) | (ds2))
145 #define	DEVSET_NAND(ds1, ds2)	((ds1) & ~(ds2))
146 #define	DEVSET_GET_UNITSET(ds, t) \
147 	(((ds) & DEVSET((t), DEVSET_ANYUNIT)) >> DEVSET_NT2DEVPOS((t), 0))
148 #define	DEVSET_FMT_STR		"0x%" PRIx64 ""
149 #define	DEVSET_FMT_ARG(ds)	(ds)
150 #else	/* DEVSET_MAX_BITS <= 64 */
151 #error please implement devset with bitmap to support more 64 devices
152 #endif	/* DEVSET_MAX_BITS <= 64 */
153 
154 /*
155  * Ops for dr_board_t.b_dev_*
156  */
157 #define	DR_DEV_IS(ds, cp)	DEVSET_IN_SET( \
158 					(cp)->sbdev_bp->b_dev_##ds, \
159 					(cp)->sbdev_type, \
160 					(cp)->sbdev_unum)
161 
162 #define	DR_DEV_ADD(ds, cp)	DEVSET_ADD( \
163 					(cp)->sbdev_bp->b_dev_##ds, \
164 					(cp)->sbdev_type, \
165 					(cp)->sbdev_unum)
166 
167 #define	DR_DEV_DEL(ds, cp)	DEVSET_DEL( \
168 					(cp)->sbdev_bp->b_dev_##ds, \
169 					(cp)->sbdev_type, \
170 					(cp)->sbdev_unum)
171 
172 /*
173  * Ops for dr_board_t.b_dev_present
174  */
175 #define	DR_DEV_IS_PRESENT(cp)		DR_DEV_IS(present, cp)
176 #define	DR_DEV_SET_PRESENT(cp)		DR_DEV_ADD(present, cp)
177 #define	DR_DEV_CLR_PRESENT(cp)		DR_DEV_DEL(present, cp)
178 
179 /*
180  * Ops for dr_board_t.b_dev_attached
181  */
182 #define	DR_DEV_IS_ATTACHED(cp)		DR_DEV_IS(attached, cp)
183 #define	DR_DEV_SET_ATTACHED(cp)		DR_DEV_ADD(attached, cp)
184 #define	DR_DEV_CLR_ATTACHED(cp)		DR_DEV_DEL(attached, cp)
185 
186 /*
187  * Ops for dr_board_t.b_dev_released
188  */
189 #define	DR_DEV_IS_RELEASED(cp)		DR_DEV_IS(released, cp)
190 #define	DR_DEV_SET_RELEASED(cp)		DR_DEV_ADD(released, cp)
191 #define	DR_DEV_CLR_RELEASED(cp)		DR_DEV_DEL(released, cp)
192 
193 /*
194  * Ops for dr_board_t.b_dev_unreferenced
195  */
196 #define	DR_DEV_IS_UNREFERENCED(cp)	DR_DEV_IS(unreferenced, cp)
197 #define	DR_DEV_SET_UNREFERENCED(cp)	DR_DEV_ADD(unreferenced, cp)
198 #define	DR_DEV_CLR_UNREFERENCED(cp)	DR_DEV_DEL(unreferenced, cp)
199 
200 #define	DR_DEVS_PRESENT(bp) \
201 			((bp)->b_dev_present)
202 #define	DR_DEVS_ATTACHED(bp) \
203 			((bp)->b_dev_attached)
204 #define	DR_DEVS_RELEASED(bp) \
205 			((bp)->b_dev_released)
206 #define	DR_DEVS_UNREFERENCED(bp) \
207 			((bp)->b_dev_unreferenced)
208 #define	DR_DEVS_UNATTACHED(bp) \
209 			((bp)->b_dev_present & ~(bp)->b_dev_attached)
210 #define	DR_DEVS_CONFIGURE(bp, devs) \
211 			((bp)->b_dev_attached = (devs))
212 #define	DR_DEVS_DISCONNECT(bp, devs) \
213 			((bp)->b_dev_present &= ~(devs))
214 #define	DR_DEVS_CANCEL(bp, devs) \
215 			((bp)->b_dev_released &= ~(devs), \
216 			(bp)->b_dev_unreferenced &= ~(devs))
217 
218 /*
219  * CMP Specific Helpers
220  */
221 #define	DR_CMP_CORE_UNUM(cmp, core)	((cmp) * MAX_CORES_PER_CMP + (core))
222 
223 /*
224  * For CPU and CMP devices, DR_UNUM2SBD_UNUM is used to extract the physical
225  * CPU/CMP id from the device id.
226  */
227 #define	DR_UNUM2SBD_UNUM(n, d)		\
228 	((d) == SBD_COMP_CPU ? ((n) / MAX_CORES_PER_CMP) : \
229 	(d) == SBD_COMP_CMP ? ((n) / MAX_CORES_PER_CMP) : (n))
230 
231 /*
232  * Some stuff to assist in debug.
233  */
234 #ifdef DEBUG
235 #define	DRDBG_STATE	0x00000001
236 #define	DRDBG_QR	0x00000002
237 #define	DRDBG_CPU	0x00000004
238 #define	DRDBG_MEM	0x00000008
239 #define	DRDBG_IO	0x00000010
240 
241 #define	PR_ALL		if (dr_debug)			printf
242 #define	PR_STATE	if (dr_debug & DRDBG_STATE)	printf
243 #define	PR_QR		if (dr_debug & DRDBG_QR)	prom_printf
244 #define	PR_CPU		if (dr_debug & DRDBG_CPU)	printf
245 #define	PR_MEM		if (dr_debug & DRDBG_MEM)	printf
246 #define	PR_IO		if (dr_debug & DRDBG_IO)	printf
247 #define	PR_MEMLIST_DUMP	if (dr_debug & DRDBG_MEM)	MEMLIST_DUMP
248 
249 extern uint_t	dr_debug;
250 #else /* DEBUG */
251 #define	PR_ALL		_NOTE(CONSTANTCONDITION) if (0) printf
252 #define	PR_STATE	PR_ALL
253 #define	PR_QR		PR_ALL
254 #define	PR_CPU		PR_ALL
255 #define	PR_MEM		PR_ALL
256 #define	PR_IO		PR_ALL
257 #define	PR_MEMLIST_DUMP	_NOTE(CONSTANTCONDITION) if (0) MEMLIST_DUMP
258 
259 #endif /* DEBUG */
260 
261 /*
262  * dr_board_t b_sflags.
263  */
264 #define	DR_BSLOCK	0x01	/* for blocking status (protected by b_slock) */
265 
266 typedef const char	*fn_t;
267 
268 /*
269  * Unsafe devices based on dr.conf prop "unsupported-io-drivers"
270  */
271 typedef struct {
272 	char	**devnames;
273 	uint_t	ndevs;
274 } dr_unsafe_devs_t;
275 
276 /*
277  * Device states.
278  * PARTIAL state is really only relevant for board state.
279  */
280 typedef enum {
281 	DR_STATE_EMPTY = 0,
282 	DR_STATE_OCCUPIED,
283 	DR_STATE_CONNECTED,
284 	DR_STATE_UNCONFIGURED,
285 	DR_STATE_PARTIAL,		/* part connected, part configured */
286 	DR_STATE_CONFIGURED,
287 	DR_STATE_RELEASE,
288 	DR_STATE_UNREFERENCED,
289 	DR_STATE_FATAL,
290 	DR_STATE_MAX
291 } dr_state_t;
292 
293 typedef struct dr_handle {
294 	struct dr_board	*h_bd;
295 	sbd_error_t	*h_err;
296 	int		h_op_intr;	/* nz if op interrupted */
297 	dev_t		h_dev;		/* dev_t of opened device */
298 	int		h_cmd;		/* PIM ioctl argument */
299 	int		h_mode;		/* device open mode */
300 	sbd_cmd_t 	h_sbdcmd;	/* copied-in ioctl cmd struct */
301 	sbd_ioctl_arg_t	*h_iap;		/* ptr to caller-space cmd struct */
302 	dr_devset_t	h_devset;	/* based on h_dev */
303 	uint_t		h_ndi;
304 	drmach_opts_t	h_opts;		/* command-line platform options */
305 } dr_handle_t;
306 
307 typedef struct dr_common_unit {
308 	dr_state_t		sbdev_state;
309 	sbd_state_t		sbdev_ostate;
310 	sbd_cond_t		sbdev_cond;
311 	time_t			sbdev_time;
312 	int			sbdev_busy;
313 	struct dr_board		*sbdev_bp;
314 	int			sbdev_unum;
315 	sbd_comp_type_t		sbdev_type;
316 	drmachid_t		sbdev_id;
317 	char			sbdev_path[MAXNAMELEN];
318 	sbd_error_t		*sbdev_error;
319 } dr_common_unit_t;
320 
321 typedef struct dr_mem_unit {
322 	dr_common_unit_t	sbm_cm;		/* mem-unit state */
323 	uint_t			sbm_flags;
324 	pfn_t			sbm_basepfn;
325 	pgcnt_t			sbm_npages;
326 	pgcnt_t			sbm_pageslost;
327 	struct memlist		*sbm_dyn_segs;	/* kphysm_add_dynamic segs */
328 	/*
329 	 * The following fields are used during
330 	 * the memory detach process only. sbm_mlist
331 	 * will be used to store the board memlist
332 	 * following a detach.  The memlist will be
333 	 * used to re-attach the board when configuring
334 	 * the unit directly after an unconfigure.
335 	 */
336 	struct dr_mem_unit	*sbm_peer;
337 	struct memlist		*sbm_mlist;
338 	struct memlist		*sbm_del_mlist;
339 	memhandle_t		sbm_memhandle;
340 	uint64_t		sbm_alignment_mask;
341 	uint64_t		sbm_slice_base;
342 	uint64_t		sbm_slice_top;
343 	uint64_t		sbm_slice_size;
344 } dr_mem_unit_t;
345 
346 /*
347  * Currently only maintain state information for individual
348  * components.
349  */
350 typedef struct dr_cpu_unit {
351 	dr_common_unit_t	sbc_cm;		/* cpu-unit state */
352 	processorid_t		sbc_cpu_id;
353 	cpu_flag_t		sbc_cpu_flags;	/* snapshot of CPU flags */
354 	ushort_t		sbc_pad1;	/* padded for compatibility */
355 	int			sbc_speed;
356 	int			sbc_ecache;
357 	int			sbc_cpu_impl;
358 } dr_cpu_unit_t;
359 
360 typedef struct dr_io_unit {
361 	dr_common_unit_t	sbi_cm;		/* io-unit state */
362 } dr_io_unit_t;
363 
364 typedef union {
365 	dr_common_unit_t	du_common;
366 	dr_mem_unit_t		du_mem;
367 	dr_cpu_unit_t		du_cpu;
368 	dr_io_unit_t		du_io;
369 } dr_dev_unit_t;
370 
371 typedef struct dr_board {
372 	kmutex_t	b_lock;		/* lock for this board struct */
373 	kmutex_t	b_slock;	/* lock for status on the board */
374 	kcondvar_t	b_scv;		/* condvar for status on the board */
375 	int		b_sflags;	/* for serializing status */
376 	sbd_state_t	b_rstate;	/* board's cfgadm receptacle state */
377 	sbd_state_t	b_ostate;	/* board's cfgadm occupant state */
378 	sbd_cond_t	b_cond;		/* cfgadm condition */
379 	int		b_busy;
380 	int		b_assigned;
381 	time_t		b_time;		/* time of last board operation */
382 	char		b_type[MAXNAMELEN];
383 	drmachid_t	b_id;
384 	int		b_num;			/* board number */
385 	int		b_ndev;			/* # of devices on board */
386 	dev_info_t	*b_dip;			/* dip for make-nodes */
387 	dr_state_t	b_state;		/* board DR state */
388 	dr_devset_t	b_dev_present;		/* present mask */
389 	dr_devset_t	b_dev_attached;		/* attached mask */
390 	dr_devset_t	b_dev_released;		/* released mask */
391 	dr_devset_t	b_dev_unreferenced;	/* unreferenced mask */
392 	char		b_path[MAXNAMELEN];
393 	dr_dev_unit_t	*b_dev[DR_MAXNUM_NT];
394 } dr_board_t;
395 
396 /*
397  * dr_quiesce.c interfaces
398  */
399 struct dr_sr_handle;
400 typedef struct dr_sr_handle dr_sr_handle_t;
401 
402 extern dr_sr_handle_t	*dr_get_sr_handle(dr_handle_t *handle);
403 extern void		dr_release_sr_handle(dr_sr_handle_t *srh);
404 extern int		dr_suspend(dr_sr_handle_t *srh);
405 extern void		dr_resume(dr_sr_handle_t *srh);
406 extern void		dr_check_devices(dev_info_t *dip, int *refcount,
407 			    dr_handle_t *handle, uint64_t *arr, int *idx,
408 			    int len, int *refcount_non_gldv3);
409 extern int		dr_pt_test_suspend(dr_handle_t *hp);
410 
411 /*
412  * dr_cpu.c interface
413  */
414 extern void		dr_init_cpu_unit(dr_cpu_unit_t *cp);
415 extern int		dr_pre_attach_cpu(dr_handle_t *hp,
416 				dr_common_unit_t **devlist, int devnum);
417 extern void		dr_attach_cpu(dr_handle_t *hp, dr_common_unit_t *cp);
418 extern int		dr_post_attach_cpu(dr_handle_t *hp,
419 				dr_common_unit_t **devlist, int devnum);
420 extern int		dr_pre_release_cpu(dr_handle_t *hp,
421 				dr_common_unit_t **devlist, int devnum);
422 extern int		dr_pre_detach_cpu(dr_handle_t *hp,
423 				dr_common_unit_t **devlist, int devnum);
424 extern void		dr_detach_cpu(dr_handle_t *hp, dr_common_unit_t *cp);
425 extern int		dr_post_detach_cpu(dr_handle_t *hp,
426 				dr_common_unit_t **devlist, int devnum);
427 extern int		dr_cpu_status(dr_handle_t *hp, dr_devset_t devset,
428 					sbd_dev_stat_t *dsp);
429 extern int		dr_cancel_cpu(dr_cpu_unit_t *cp);
430 extern int		dr_disconnect_cpu(dr_cpu_unit_t *cp);
431 
432 
433 /*
434  * dr_mem.c interface
435  */
436 extern void		dr_init_mem_unit(dr_mem_unit_t *mp);
437 extern int		dr_pre_attach_mem(dr_handle_t *hp,
438 				dr_common_unit_t **devlist, int devnum);
439 extern void		dr_attach_mem(dr_handle_t *hp, dr_common_unit_t *cp);
440 extern int		dr_post_attach_mem(dr_handle_t *hp,
441 				dr_common_unit_t **devlist, int devnum);
442 extern int		dr_pre_release_mem(dr_handle_t *hp,
443 				dr_common_unit_t **devlist, int devnum);
444 extern void		dr_release_mem(dr_common_unit_t *cp);
445 extern void		dr_release_mem_done(dr_common_unit_t *cp);
446 extern int		dr_pre_detach_mem(dr_handle_t *hp,
447 				dr_common_unit_t **devlist, int devnum);
448 extern void		dr_detach_mem(dr_handle_t *, dr_common_unit_t *);
449 extern int		dr_post_detach_mem(dr_handle_t *hp,
450 				dr_common_unit_t **devlist, int devnum);
451 extern int		dr_mem_status(dr_handle_t *hp, dr_devset_t devset,
452 					sbd_dev_stat_t *dsp);
453 extern int		dr_cancel_mem(dr_mem_unit_t *mp);
454 extern int		dr_disconnect_mem(dr_mem_unit_t *mp);
455 
456 /*
457  * dr_io.c interface
458  */
459 extern void		dr_init_io_unit(dr_io_unit_t *io);
460 extern int		dr_pre_attach_io(dr_handle_t *hp,
461 				dr_common_unit_t **devlist, int devnum);
462 extern void		dr_attach_io(dr_handle_t *hp, dr_common_unit_t *cp);
463 extern int		dr_post_attach_io(dr_handle_t *hp,
464 				dr_common_unit_t **devlist, int devnum);
465 extern int		dr_pre_release_io(dr_handle_t *hp,
466 				dr_common_unit_t **devlist, int devnum);
467 extern int		dr_pre_detach_io(dr_handle_t *hp,
468 				dr_common_unit_t **devlist, int devnum);
469 extern void		dr_detach_io(dr_handle_t *hp, dr_common_unit_t *cp);
470 extern int		dr_post_detach_io(dr_handle_t *hp,
471 				dr_common_unit_t **devlist, int devnum);
472 extern int		dr_io_status(dr_handle_t *hp, dr_devset_t devset,
473 					sbd_dev_stat_t *dsp);
474 extern int		dr_disconnect_io(dr_io_unit_t *ip);
475 
476 
477 /*
478  * dr.c interface
479  */
480 extern void dr_op_err(int ce, dr_handle_t *hp, int code, char *fmt, ...);
481 extern void dr_dev_err(int ce, dr_common_unit_t *cp, int code);
482 
483 extern dr_cpu_unit_t	*dr_get_cpu_unit(dr_board_t *bp, int unit_num);
484 extern dr_mem_unit_t	*dr_get_mem_unit(dr_board_t *bp, int unit_num);
485 extern dr_io_unit_t	*dr_get_io_unit(dr_board_t *bp, int unit_num);
486 
487 extern dr_board_t	*dr_lookup_board(int board_num);
488 extern int		dr_release_dev_done(dr_common_unit_t *cp);
489 extern char		*dr_nt_to_dev_type(int type);
490 extern void		dr_device_transition(dr_common_unit_t *cp,
491 				dr_state_t new_state);
492 extern void		dr_lock_status(dr_board_t *bp);
493 extern void		dr_unlock_status(dr_board_t *bp);
494 extern int		dr_cmd_flags(dr_handle_t *hp);
495 
496 #ifdef	__cplusplus
497 }
498 #endif
499 
500 #endif /* _SYS_DR_H */
501