xref: /illumos-gate/usr/src/uts/common/io/1394/s1394_dev_disc.c (revision 78801af7286cd73dbc996d470f789e75993cf15d)
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, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 /*
28  * Copyright 2019 Joyent, Inc.
29  */
30 
31 /*
32  * s1394_dev_disc.c
33  *    1394 Services Layer Device Discovery Routines
34  *    This file contains the bus reset thread code, bus manager routines and
35  *    various routines that are used to implement remote Config ROM reading.
36  *
37  *    FUTURE:
38  *    Rescan the bus if invalid nodes are seen.
39  *    Investigate taskq for reading phase2 config rom reads.
40  *    If we are reading the entire bus info blk, we should attempt
41  *    a block read and fallback to quad reads if this fails.
42  */
43 
44 #include <sys/conf.h>
45 #include <sys/sysmacros.h>
46 #include <sys/ddi.h>
47 #include <sys/sunddi.h>
48 #include <sys/cmn_err.h>
49 #include <sys/sunndi.h>
50 #include <sys/modctl.h>
51 #include <sys/ddi_impldefs.h>
52 #include <sys/types.h>
53 #include <sys/kmem.h>
54 #include <sys/kstat.h>
55 #include <sys/varargs.h>
56 
57 #include <sys/tnf_probe.h>
58 
59 #include <sys/1394/t1394.h>
60 #include <sys/1394/s1394.h>
61 #include <sys/1394/h1394.h>
62 #include <sys/1394/ieee1394.h>
63 #include <sys/1394/ieee1212.h>
64 
65 /* hcmd_ret_t */
66 typedef enum {
67 	S1394_HCMD_INVALID,
68 	S1394_HCMD_NODE_DONE,
69 	S1394_HCMD_NODE_EXPECT_MORE,
70 	S1394_HCMD_LOCK_FAILED
71 } hcmd_ret_t;
72 
73 #define	QUAD_TO_CFGROM_ADDR(b, n, q, addr) {			\
74 	uint64_t bl = (b);					\
75 	uint64_t nl = (n);					\
76 	addr = ((bl) << IEEE1394_ADDR_BUS_ID_SHIFT) |		\
77 		((nl) << IEEE1394_ADDR_PHY_ID_SHIFT);		\
78 	addr += IEEE1394_CONFIG_ROM_ADDR + ((q) << 2);		\
79 }
80 
81 #define	CFGROM_READ_PAUSE(d)						\
82 	((s1394_cfgrom_read_delay_ms == 0) ? (void) 0 :			\
83 	delay(drv_usectohz((d) * 1000)))
84 
85 #define	BUMP_CFGROM_READ_DELAY(n)					\
86 	(n)->cfgrom_read_delay += s1394_cfgrom_read_delay_incr
87 
88 #define	CFGROM_GET_READ_DELAY(n, d)					\
89 	((d) = (n)->cfgrom_read_delay)
90 
91 #define	SETUP_QUAD_READ(n, reset_fails, quadlet, cnt)			\
92 {									\
93 	int i = (reset_fails);						\
94 	if (i != 0) {							\
95 		(n)->cfgrom_read_fails = 0;				\
96 		(n)->cfgrom_read_delay = (uchar_t)s1394_cfgrom_read_delay_ms; \
97 	}								\
98 	(n)->cfgrom_quad_to_read = (quadlet);				\
99 	(n)->cfgrom_quad_read_cnt = (cnt);				\
100 }
101 
102 static void s1394_wait_for_events(s1394_hal_t *hal, int firsttime);
103 
104 static int s1394_wait_for_cfgrom_callbacks(s1394_hal_t *hal, uint_t wait_gen,
105     hcmd_ret_t(*handle_cmd_fn)(s1394_hal_t *hal, cmd1394_cmd_t *cmd));
106 
107 static void s1394_flush_cmplq(s1394_hal_t *hal);
108 
109 static void s1394_br_thread_exit(s1394_hal_t *hal);
110 
111 static void s1394_target_bus_reset_notifies(s1394_hal_t *hal,
112     t1394_localinfo_t *localinfo);
113 
114 static int s1394_alloc_cfgrom(s1394_hal_t *hal, s1394_node_t *node,
115     s1394_status_t *status);
116 
117 static int s1394_cfgrom_scan_phase1(s1394_hal_t *hal);
118 
119 static hcmd_ret_t s1394_br_thread_handle_cmd_phase1(s1394_hal_t *hal,
120     cmd1394_cmd_t *cmd);
121 
122 static int s1394_cfgrom_scan_phase2(s1394_hal_t *hal);
123 
124 static hcmd_ret_t s1394_br_thread_handle_cmd_phase2(s1394_hal_t *hal,
125     cmd1394_cmd_t *cmd);
126 
127 static int s1394_read_config_quadlet(s1394_hal_t *hal, cmd1394_cmd_t *cmd,
128     s1394_status_t *status);
129 
130 static void s1394_cfgrom_read_callback(cmd1394_cmd_t *cmd);
131 
132 static void s1394_get_quad_info(cmd1394_cmd_t *cmd, uint32_t *node_num,
133     uint32_t *quadlet, uint32_t *data);
134 
135 static int s1394_match_GUID(s1394_hal_t *hal, s1394_node_t *nnode);
136 
137 static int s1394_match_all_GUIDs(s1394_hal_t *hal);
138 
139 static void s1394_become_bus_mgr(void *arg);
140 
141 static void s1394_become_bus_mgr_callback(cmd1394_cmd_t *cmd);
142 
143 static int s1394_bus_mgr_processing(s1394_hal_t *hal);
144 
145 static int s1394_do_bus_mgr_processing(s1394_hal_t *hal);
146 
147 static void s1394_bus_mgr_timers_stop(s1394_hal_t *hal,
148     timeout_id_t *bus_mgr_query_tid, timeout_id_t *bus_mgr_tid);
149 
150 static void s1394_bus_mgr_timers_start(s1394_hal_t *hal,
151     timeout_id_t *bus_mgr_query_tid, timeout_id_t *bus_mgr_tid);
152 
153 static int s1394_cycle_master_capable(s1394_hal_t *hal);
154 
155 static int s1394_do_phy_config_pkt(s1394_hal_t *hal, int new_root,
156     int new_gap_cnt, uint32_t IRM_flags);
157 
158 static void s1394_phy_config_callback(cmd1394_cmd_t *cmd);
159 
160 static int s1394_calc_next_quad(s1394_hal_t *hal, s1394_node_t *node,
161     uint32_t quadlet, uint32_t *nextquadp);
162 
163 static int s1394_cfgrom_read_retry_cnt = 3;	/* 1 + 3 retries */
164 static int s1394_cfgrom_read_delay_ms = 20;	/* start with 20ms */
165 static int s1394_cfgrom_read_delay_incr = 10;	/* 10ms increments */
166 static int s1394_enable_crc_validation = 0;
167 static int s1394_turn_off_dir_stack = 0;
168 static int s1394_crcsz_is_cfgsz = 0;
169 static int s1394_enable_rio_pass1_workarounds = 0;
170 
171 /*
172  * s1394_br_thread()
173  *    is the bus reset thread. Its sole purpose is to read/reread config roms
174  *    as appropriate and do bus reset time things (bus manager processing,
175  *    isoch resource reallocation etc.).
176  */
177 void
178 s1394_br_thread(s1394_hal_t *hal)
179 {
180 	TNF_PROBE_0_DEBUG(s1394_br_thread_enter, S1394_TNF_SL_HOTPLUG_STACK,
181 	    "");
182 
183 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
184 
185 	/* Initialize the Bus Mgr timers */
186 	hal->bus_mgr_timeout_id = 0;
187 	hal->bus_mgr_query_timeout_id = 0;
188 
189 	/* Initialize the cmpletion Q */
190 	mutex_enter(&hal->br_cmplq_mutex);
191 	hal->br_cmplq_head = hal->br_cmplq_tail = NULL;
192 	mutex_exit(&hal->br_cmplq_mutex);
193 
194 	s1394_wait_for_events(hal, 1);
195 
196 	for (;;) {
197 		ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
198 
199 		TNF_PROBE_0_DEBUG(s1394_br_thread_wait,
200 		    S1394_TNF_SL_HOTPLUG_STACK, "");
201 
202 		s1394_wait_for_events(hal, 0);
203 
204 		ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
205 
206 		TNF_PROBE_1_DEBUG(s1394_br_thread_restart,
207 		    S1394_TNF_SL_HOTPLUG_STACK, "",
208 		    tnf_int, hal_instance, ddi_get_instance(hal->halinfo.dip));
209 
210 		/* stop bus manager timeouts, if needed */
211 		s1394_bus_mgr_timers_stop(hal, &hal->bus_mgr_query_timeout_id,
212 		    &hal->bus_mgr_timeout_id);
213 
214 		s1394_flush_cmplq(hal);
215 
216 		/* start timers for checking bus manager, if needed */
217 		s1394_bus_mgr_timers_start(hal, &hal->bus_mgr_query_timeout_id,
218 		    &hal->bus_mgr_timeout_id);
219 
220 		/* Try to reallocate all isoch resources */
221 		s1394_isoch_rsrc_realloc(hal);
222 
223 		if (s1394_cfgrom_scan_phase1(hal) != DDI_SUCCESS) {
224 			TNF_PROBE_0_DEBUG(br_thread_phase1_restart,
225 			    S1394_TNF_SL_HOTPLUG_STACK, "");
226 			continue;
227 		}
228 
229 		TNF_PROBE_1_DEBUG(s1394_br_thread_phase1_done,
230 		    S1394_TNF_SL_HOTPLUG_STACK, "",
231 		    tnf_int, hal_instance, ddi_get_instance(hal->halinfo.dip));
232 
233 		if (s1394_bus_mgr_processing(hal) != DDI_SUCCESS) {
234 			TNF_PROBE_0_DEBUG(br_thread_bus_mgr_restart,
235 			    S1394_TNF_SL_HOTPLUG_STACK, "");
236 			continue;
237 		}
238 
239 		TNF_PROBE_1_DEBUG(s1394_br_thread_bus_mgr_proc_done,
240 		    S1394_TNF_SL_HOTPLUG_STACK, "",
241 		    tnf_int, hal_instance, ddi_get_instance(hal->halinfo.dip));
242 
243 		ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
244 
245 		if (s1394_cfgrom_scan_phase2(hal) != DDI_SUCCESS) {
246 			TNF_PROBE_0_DEBUG(br_thread_phase2_restart,
247 			    S1394_TNF_SL_HOTPLUG_STACK, "");
248 			continue;
249 		}
250 
251 		TNF_PROBE_1_DEBUG(s1394_br_thread_done,
252 		    S1394_TNF_SL_HOTPLUG_STACK, "",
253 		    tnf_int, hal_instance, ddi_get_instance(hal->halinfo.dip));
254 
255 		ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
256 	}
257 }
258 
259 /*
260  * s1394_wait_for_events()
261  *    blocks waiting for a cv_signal on the bus reset condition variable.
262  *    Used by the bus reset thread for synchronizing with the bus reset/
263  *    self id interrupt callback from the hal. Does CPR initialization
264  *    first time it is called. If services layer sees a valid self id
265  *    buffer, it builds the topology tree and signals the bus reset thread
266  *    to read the config roms as appropriate (indicated by BR_THR_CFGROM_SCAN).
267  *    If the services layer wishes to kill the bus reset thread, it signals
268  *    this by signaling a BR_THR_GO_AWAY event.
269  */
270 static void
271 s1394_wait_for_events(s1394_hal_t *hal, int firsttime)
272 {
273 	uint_t event;
274 
275 	TNF_PROBE_0_DEBUG(s1394_wait_for_events_enter,
276 	    S1394_TNF_SL_HOTPLUG_STACK, "");
277 
278 	ASSERT(MUTEX_NOT_HELD(&hal->br_thread_mutex));
279 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
280 
281 	if (firsttime)
282 		CALLB_CPR_INIT(&hal->hal_cprinfo, &hal->br_thread_mutex,
283 		    callb_generic_cpr, "s1394_br_thread");
284 
285 	/* Check and wait for a BUS RESET */
286 	mutex_enter(&hal->br_thread_mutex);
287 	while ((event = hal->br_thread_ev_type) == 0) {
288 		CALLB_CPR_SAFE_BEGIN(&hal->hal_cprinfo);
289 		cv_wait(&hal->br_thread_cv, &hal->br_thread_mutex);
290 		CALLB_CPR_SAFE_END(&hal->hal_cprinfo, &hal->br_thread_mutex);
291 	}
292 
293 	if (event & BR_THR_GO_AWAY) {
294 		TNF_PROBE_1(s1394_wait_for_events, S1394_TNF_SL_HOTPLUG_STACK,
295 		    "", tnf_string, msg, "Go away set");
296 		s1394_br_thread_exit(hal);
297 		TNF_PROBE_0_DEBUG(s1394_wait_for_events_exit,
298 		    S1394_TNF_SL_HOTPLUG_STACK, "");
299 		/*NOTREACHED*/
300 		return;
301 	}
302 
303 	if (firsttime) {
304 		TNF_PROBE_0_DEBUG(s1394_wait_for_events_exit,
305 		    S1394_TNF_SL_HOTPLUG_STACK, "");
306 		mutex_exit(&hal->br_thread_mutex);
307 		return;
308 	}
309 
310 	mutex_enter(&hal->topology_tree_mutex);
311 	if (event & BR_THR_CFGROM_SCAN) {
312 		TNF_PROBE_2_DEBUG(s1394_wait_for_events_scan,
313 		    S1394_TNF_SL_HOTPLUG_STACK, "",
314 		    tnf_int, br_thread_gen, hal->br_cfgrom_read_gen,
315 		    tnf_int, hal_generation, hal->generation_count);
316 	}
317 	hal->br_cfgrom_read_gen = hal->generation_count;
318 
319 	hal->br_thread_ev_type &= ~BR_THR_CFGROM_SCAN;
320 	mutex_exit(&hal->topology_tree_mutex);
321 	mutex_exit(&hal->br_thread_mutex);
322 
323 	TNF_PROBE_0_DEBUG(s1394_wait_for_events_exit,
324 	    S1394_TNF_SL_HOTPLUG_STACK, "");
325 }
326 
327 /*
328  * s1394_wait_for_cfgrom_callbacks()
329  *    Waits for completed config rom reads. Takes each completion off the
330  *    completion queue and passes it to the "completion handler" function
331  *    that was passed in as an argument. Further processing of the completion
332  *    queue depends on the return status of the completion handler. If there
333  *    is a bus reset while waiting for completions or if the services layer
334  *    signals BR_THR_GO_AWAY, quits waiting for completions and returns
335  *    non-zero. Also returns non-zero if completion handler returns
336  *    S1394_HCMD_LOCK_FAILED.  Returns 0 if config roms for all nodes have
337  *    been dealt with.
338  */
339 static int
340 s1394_wait_for_cfgrom_callbacks(s1394_hal_t *hal, uint_t wait_gen,
341     hcmd_ret_t(*handle_cmd_fn)(s1394_hal_t *hal, cmd1394_cmd_t *cmd))
342 {
343 	cmd1394_cmd_t *cmd;
344 	s1394_cmd_priv_t *s_priv;
345 	int ret, done = 0;
346 	hcmd_ret_t cmdret;
347 
348 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
349 
350 	TNF_PROBE_1_DEBUG(s1394_wait_for_cfgrom_callbacks_enter,
351 	    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_uint, wait_gen, wait_gen);
352 
353 	ret = DDI_SUCCESS;
354 
355 	while (!done) {
356 		mutex_enter(&hal->br_cmplq_mutex);
357 		mutex_enter(&hal->topology_tree_mutex);
358 		while (wait_gen == hal->generation_count &&
359 		    (hal->br_thread_ev_type & BR_THR_GO_AWAY) == 0 &&
360 		    hal->br_cmplq_head == NULL) {
361 			mutex_exit(&hal->topology_tree_mutex);
362 			cv_wait(&hal->br_cmplq_cv, &hal->br_cmplq_mutex);
363 			mutex_enter(&hal->topology_tree_mutex);
364 		}
365 		ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
366 		if (wait_gen != hal->generation_count ||
367 		    (hal->br_thread_ev_type & BR_THR_GO_AWAY) != 0) {
368 
369 #if !defined(NPROBE) && defined(TNF_DEBUG)
370 			int hal_gen = hal->generation_count;
371 #endif
372 
373 			mutex_exit(&hal->topology_tree_mutex);
374 			mutex_exit(&hal->br_cmplq_mutex);
375 			s1394_flush_cmplq(hal);
376 			TNF_PROBE_1_DEBUG(s1394_wait_for_cfgrom_callbacks_exit,
377 			    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_int, hal_gen,
378 			    hal_gen);
379 			return (DDI_FAILURE);
380 		}
381 		mutex_exit(&hal->topology_tree_mutex);
382 
383 		if ((cmd = hal->br_cmplq_head) != NULL) {
384 			s_priv = S1394_GET_CMD_PRIV(cmd);
385 
386 			hal->br_cmplq_head = s_priv->cmd_priv_next;
387 		}
388 		if (cmd == hal->br_cmplq_tail)
389 			hal->br_cmplq_tail = NULL;
390 		mutex_exit(&hal->br_cmplq_mutex);
391 
392 		if (cmd != NULL) {
393 			if (cmd->bus_generation != wait_gen) {
394 				TNF_PROBE_3(
395 				    s1394_wait_for_cfgrom_callbacks,
396 				    S1394_TNF_SL_HOTPLUG_STACK, "",
397 				    tnf_string, msg, "command gen != wait_gen",
398 				    tnf_uint, cmd_gen, cmd->bus_generation,
399 				    tnf_uint, wait_gen, wait_gen);
400 				(void) s1394_free_cmd(hal, &cmd);
401 				continue;
402 			}
403 			cmdret = (*handle_cmd_fn)(hal, cmd);
404 			TNF_PROBE_2_DEBUG(s1394_wait_for_cfgrom_callbacks,
405 			    S1394_TNF_SL_HOTPLUG_STACK, "",
406 			    tnf_opaque, cmd, cmd, tnf_int, cmdret, cmdret);
407 			ASSERT(cmdret != S1394_HCMD_INVALID);
408 			if (cmdret == S1394_HCMD_LOCK_FAILED) {
409 				/* flush completion queue */
410 				ret = DDI_FAILURE;
411 				s1394_flush_cmplq(hal);
412 				break;
413 			} else if (cmdret == S1394_HCMD_NODE_DONE) {
414 				if (--hal->cfgroms_being_read == 0) {
415 					/* All done */
416 					break;
417 				}
418 			} else {
419 				ASSERT(cmdret == S1394_HCMD_NODE_EXPECT_MORE);
420 				done = 0;
421 			}
422 		}
423 	}
424 
425 	TNF_PROBE_0_DEBUG(s1394_wait_for_cfgrom_callbacks_exit,
426 	    S1394_TNF_SL_HOTPLUG_STACK, "");
427 
428 	return (ret);
429 }
430 
431 /*
432  * s1394_flush_cmplq()
433  *    Frees all cmds on the completion queue.
434  */
435 static void
436 s1394_flush_cmplq(s1394_hal_t *hal)
437 {
438 	s1394_cmd_priv_t *s_priv;
439 	cmd1394_cmd_t *cmd, *tcmd;
440 
441 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
442 
443 	TNF_PROBE_0_DEBUG(s1394_flush_cmplq_enter, S1394_TNF_SL_HOTPLUG_STACK,
444 	    "");
445 
446 	cmd = NULL;
447 
448 	do {
449 		mutex_enter(&hal->br_cmplq_mutex);
450 		cmd = hal->br_cmplq_head;
451 		hal->br_cmplq_head = hal->br_cmplq_tail = NULL;
452 		mutex_exit(&hal->br_cmplq_mutex);
453 
454 		while (cmd != NULL) {
455 			s_priv = S1394_GET_CMD_PRIV(cmd);
456 
457 			tcmd = s_priv->cmd_priv_next;
458 			TNF_PROBE_2_DEBUG(s1394_flush_cmplq,
459 			    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_opaque, cmd,
460 			    cmd, tnf_uint, cmd_gen, cmd->bus_generation);
461 			(void) s1394_free_cmd(hal, &cmd);
462 			cmd = tcmd;
463 		}
464 
465 		mutex_enter(&hal->br_cmplq_mutex);
466 		cmd = hal->br_cmplq_head;
467 		mutex_exit(&hal->br_cmplq_mutex);
468 
469 	} while (cmd != NULL);
470 
471 	TNF_PROBE_0_DEBUG(s1394_flush_cmplq_exit, S1394_TNF_SL_HOTPLUG_STACK,
472 	    "");
473 
474 }
475 
476 /*
477  * s1394_br_thread_exit()
478  *    Flushes the completion queue and calls thread_exit() (which effectively
479  *    kills the bus reset thread).
480  */
481 static void
482 s1394_br_thread_exit(s1394_hal_t *hal)
483 {
484 	ASSERT(MUTEX_HELD(&hal->br_thread_mutex));
485 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
486 	TNF_PROBE_0(s1394_br_thread_exit_enter, S1394_TNF_SL_HOTPLUG_STACK, "");
487 	s1394_flush_cmplq(hal);
488 #ifndef	__lock_lint
489 	CALLB_CPR_EXIT(&hal->hal_cprinfo);
490 #endif
491 	hal->br_thread_ev_type &= ~BR_THR_GO_AWAY;
492 	thread_exit();
493 	/*NOTREACHED*/
494 }
495 
496 /*
497  * s1394_target_bus_reset_notifies()
498  *    tells the ndi event framework to invoke any callbacks registered for
499  *    "bus reset event".
500  */
501 static void
502 s1394_target_bus_reset_notifies(s1394_hal_t *hal, t1394_localinfo_t *localinfo)
503 {
504 	ddi_eventcookie_t cookie;
505 
506 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
507 
508 	TNF_PROBE_2_DEBUG(s1394_target_bus_reset_notifies_enter,
509 	    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_uint, bus_gen,
510 	    localinfo->bus_generation, tnf_uint, node_id,
511 	    localinfo->local_nodeID);
512 
513 	if (ndi_event_retrieve_cookie(hal->hal_ndi_event_hdl, NULL,
514 	    DDI_DEVI_BUS_RESET_EVENT, &cookie, NDI_EVENT_NOPASS) ==
515 	    NDI_SUCCESS) {
516 		(void) ndi_event_run_callbacks(hal->hal_ndi_event_hdl, NULL,
517 		    cookie, localinfo);
518 	}
519 	TNF_PROBE_0_DEBUG(s1394_target_bus_reset_notifies_exit,
520 	    S1394_TNF_SL_HOTPLUG_STACK, "");
521 }
522 
523 /*
524  * s1394_alloc_cfgrom()
525  *    Allocates config rom for the node. Sets CFGROM_NEW_ALLOC bit in the
526  *    node cfgrom state. Drops topology_tree_mutex around the calls to
527  *    kmem_zalloc(). If re-locking fails, returns DDI_FAILURE, else returns
528  *    DDI_SUCCESS.
529  */
530 static int
531 s1394_alloc_cfgrom(s1394_hal_t *hal, s1394_node_t *node, s1394_status_t *status)
532 {
533 	uint32_t *cfgrom;
534 
535 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
536 
537 	TNF_PROBE_0_DEBUG(s1394_alloc_cfgrom_enter, S1394_TNF_SL_HOTPLUG_STACK,
538 	    "");
539 
540 	*status = S1394_NOSTATUS;
541 
542 	/*
543 	 * if cfgrom is non-NULL, this has to be generation changed
544 	 * case (where we allocate cfgrom again to reread the cfgrom)
545 	 */
546 	ASSERT(node->cfgrom == NULL || (node->cfgrom != NULL &&
547 	    CFGROM_GEN_CHANGED(node) == B_TRUE));
548 
549 	/*
550 	 * if node matched, either cfgrom has to be NULL or link should be
551 	 * off in the last matched node or config rom generations changed.
552 	 */
553 	ASSERT(NODE_MATCHED(node) == B_FALSE || (NODE_MATCHED(node) == B_TRUE &&
554 	    (node->cfgrom == NULL || LINK_ACTIVE(node->old_node) == B_FALSE) ||
555 	    CFGROM_GEN_CHANGED(node) == B_TRUE));
556 
557 	s1394_unlock_tree(hal);
558 	cfgrom = (uint32_t *)kmem_zalloc(IEEE1394_CONFIG_ROM_SZ, KM_SLEEP);
559 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
560 		kmem_free(cfgrom, IEEE1394_CONFIG_ROM_SZ);
561 		*status |= S1394_LOCK_FAILED;
562 		TNF_PROBE_1(s1394_alloc_cfgrom, S1394_TNF_SL_HOTPLUG_ERROR,
563 		    "", tnf_string, msg, "cannot relock the tree");
564 		TNF_PROBE_0_DEBUG(s1394_alloc_cfgrom_exit,
565 		    S1394_TNF_SL_HOTPLUG_STACK, "");
566 		return (DDI_FAILURE);
567 	}
568 	node->cfgrom = cfgrom;
569 	node->cfgrom_size = IEEE1394_CONFIG_ROM_QUAD_SZ;
570 	SET_CFGROM_NEW_ALLOC(node);
571 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
572 	TNF_PROBE_3(s1394_alloc_cfgrom_exit, S1394_TNF_SL_HOTPLUG_STACK,
573 	    "cfgrom alloc", tnf_uint, hal_gen, hal->generation_count, tnf_uint,
574 	    node_num, node->node_num, tnf_opaque, cfgrom, cfgrom);
575 	return (DDI_SUCCESS);
576 }
577 
578 /*
579  * s1394_free_cfgrom()
580  *    Marks the config rom invalid and frees up the config based on otpions.
581  */
582 void
583 s1394_free_cfgrom(s1394_hal_t *hal, s1394_node_t *node,
584     s1394_free_cfgrom_t options)
585 {
586 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
587 	ASSERT(node->cfgrom != NULL);
588 
589 	TNF_PROBE_0_DEBUG(s1394_free_cfgrom_enter, S1394_TNF_SL_HOTPLUG_STACK,
590 	    "");
591 
592 	if (options == S1394_FREE_CFGROM_BOTH) {
593 		/*
594 		 * free in both old and new trees; will be called with
595 		 * new node.
596 		 */
597 		s1394_node_t *onode = node->old_node;
598 
599 		if (NODE_MATCHED(node) == B_TRUE && onode->cfgrom != NULL)
600 			ASSERT(onode->cfgrom == node->cfgrom);
601 
602 		TNF_PROBE_4(s1394_free_cfgrom_both,
603 		    S1394_TNF_SL_HOTPLUG_STACK, "cfgrom free", tnf_uint,
604 		    hal_gen, hal->generation_count, tnf_int, node_num,
605 		    node->node_num, tnf_opaque, old_cfgrom, onode->cfgrom,
606 		    tnf_opaque, cfgrom, node->cfgrom);
607 
608 		if (onode != NULL && onode->cfgrom != NULL && onode->cfgrom !=
609 		    node->cfgrom)
610 			kmem_free(onode->cfgrom, IEEE1394_CONFIG_ROM_SZ);
611 
612 		kmem_free(node->cfgrom, IEEE1394_CONFIG_ROM_SZ);
613 		onode->cfgrom = NULL;
614 		node->cfgrom = NULL;
615 
616 		CLEAR_CFGROM_STATE(onode);
617 		CLEAR_CFGROM_STATE(node);
618 
619 	} else if (options == S1394_FREE_CFGROM_NEW) {
620 
621 		TNF_PROBE_2(s1394_free_cfgrom_new,
622 		    S1394_TNF_SL_HOTPLUG_STACK, "cfgrom free",
623 		    tnf_int, node_num, node->node_num,
624 		    tnf_opaque, cfgrom, node->cfgrom);
625 
626 		ASSERT(CFGROM_NEW_ALLOC(node) == B_TRUE);
627 		kmem_free(node->cfgrom, IEEE1394_CONFIG_ROM_SZ);
628 		CLEAR_CFGROM_NEW_ALLOC(node);
629 		node->cfgrom = NULL;
630 		CLEAR_CFGROM_STATE(node);
631 
632 	} else if (options == S1394_FREE_CFGROM_OLD) {
633 
634 		/* freeing in old tree */
635 		TNF_PROBE_2_DEBUG(s1394_free_cfgrom_old,
636 		    S1394_TNF_SL_HOTPLUG_STACK, "cfgrom free",
637 		    tnf_int, node_num, node->node_num,
638 		    tnf_opaque, cfgrom, node->cfgrom);
639 		kmem_free(node->cfgrom, IEEE1394_CONFIG_ROM_SZ);
640 		node->cfgrom = NULL;
641 		CLEAR_CFGROM_STATE(node);
642 	}
643 
644 	TNF_PROBE_0_DEBUG(s1394_free_cfgrom_exit, S1394_TNF_SL_HOTPLUG_STACK,
645 	    "");
646 }
647 
648 /*
649  * s1394_copy_cfgrom()
650  *    Copies config rom info from "from" node to "to" node. Clears
651  *    CFGROM_NEW_ALLOC bit in cfgrom state in bothe nodes. (CFGROM_NEW_ALLOC
652  *    acts as a reference count. If set, only the node in the current tree
653  *    has a pointer to it; if clear, both the node in the current tree as
654  *    well as the corresponding node in the old tree point to the same memory).
655  */
656 void
657 s1394_copy_cfgrom(s1394_node_t *to, s1394_node_t *from)
658 {
659 	TNF_PROBE_3_DEBUG(s1394_copy_cfgrom_enter, S1394_TNF_SL_HOTPLUG_STACK,
660 	    "", tnf_int, to_node, to->node_num, tnf_int,
661 	    from_node, from->node_num, tnf_opaque, from_cfgrom, from->cfgrom);
662 
663 	ASSERT(to->cfgrom == NULL);
664 
665 	to->cfgrom = from->cfgrom;
666 	to->cfgrom_state = from->cfgrom_state;
667 	to->cfgrom_valid_size = from->cfgrom_valid_size;
668 	to->cfgrom_size = from->cfgrom_size;
669 	to->node_state = from->node_state;
670 
671 	bcopy(from->dir_stack, to->dir_stack,
672 	    offsetof(s1394_node_t, cfgrom_quad_to_read) -
673 	    offsetof(s1394_node_t, dir_stack));
674 
675 	to->cfgrom_quad_to_read = from->cfgrom_quad_to_read;
676 
677 	CLEAR_CFGROM_NEW_ALLOC(to);
678 	CLEAR_CFGROM_NEW_ALLOC(from);
679 
680 	/*
681 	 * old link off, new link on => handled in s1394_cfgrom_scan_phase1
682 	 * old link on, new link off => handled in s1394_process_old_tree
683 	 */
684 	if (LINK_ACTIVE(from) == B_FALSE) {
685 		/*
686 		 * if last time around, link was off, there wouldn't
687 		 * have been config rom allocated.
688 		 */
689 		ASSERT(from->cfgrom == NULL);
690 		TNF_PROBE_0_DEBUG(s1394_copy_cfgrom_exit,
691 		    S1394_TNF_SL_HOTPLUG_STACK, "");
692 		return;
693 	} else {
694 		s1394_selfid_pkt_t *selfid_pkt = to->selfid_packet;
695 
696 		if (IEEE1394_SELFID_ISLINKON(selfid_pkt))
697 			SET_LINK_ACTIVE(to);
698 	}
699 
700 	TNF_PROBE_0_DEBUG(s1394_copy_cfgrom_exit,
701 	    S1394_TNF_SL_HOTPLUG_STACK, "");
702 }
703 
704 /*
705  * s1394_read_bus_info_blk()
706  *    Attempts to kick off reading IEEE1212_NODE_CAP_QUAD quad or quad 0.
707  *    Increments cfgroms_being_read by 1. Returns DDI_SUCCESS command was
708  *    issued, else sets status to the failure reason and returns DDI_FAILURE.
709  */
710 static int
711 s1394_read_bus_info_blk(s1394_hal_t *hal, s1394_node_t *node,
712     s1394_status_t *status)
713 {
714 	uint32_t quadlet;
715 	cmd1394_cmd_t *cmd;
716 	uchar_t node_num;
717 
718 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
719 	ASSERT(LINK_ACTIVE(node) == B_TRUE);
720 
721 	node_num = node->node_num;
722 
723 	TNF_PROBE_2_DEBUG(s1394_read_bus_info_blk_enter,
724 	    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_uint, hal_gen,
725 	    hal->generation_count, tnf_int, node_num, node_num);
726 
727 	/*
728 	 * drop the topology lock around command allocation. Return failure
729 	 * if either command allocation fails or cannot reacquire the lock
730 	 */
731 	s1394_unlock_tree(hal);
732 	*status = S1394_NOSTATUS;
733 
734 	if (s1394_alloc_cmd(hal, 0, &cmd) != DDI_SUCCESS) {
735 		TNF_PROBE_1(s1394_read_bus_info_blk, S1394_TNF_SL_HOTPLUG_ERROR,
736 		    "", tnf_string, msg, "command allocation failed");
737 		*status |= S1394_CMD_ALLOC_FAILED;
738 	}
739 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
740 		*status |= S1394_LOCK_FAILED;
741 		TNF_PROBE_1(s1394_read_bus_info_blk, S1394_TNF_SL_HOTPLUG_ERROR,
742 		    "", tnf_string, msg, "unable to relock the tree");
743 		/* free the cmd allocated above */
744 		if (((*status) & S1394_CMD_ALLOC_FAILED) != 0)
745 			(void) s1394_free_cmd(hal, (cmd1394_cmd_t **)&cmd);
746 	}
747 	if (((*status) & (S1394_CMD_ALLOC_FAILED | S1394_LOCK_FAILED)) != 0) {
748 		TNF_PROBE_0_DEBUG(s1394_read_bus_info_blk_exit,
749 		    S1394_TNF_SL_HOTPLUG_STACK, "");
750 		return (DDI_FAILURE);
751 	}
752 
753 	/* allocate cfgrom if needed */
754 	if (node->cfgrom == NULL && s1394_alloc_cfgrom(hal, node, status) !=
755 	    DDI_SUCCESS) {
756 		ASSERT(((*status) & S1394_LOCK_FAILED) != 0);
757 		(void) s1394_free_cmd(hal, (cmd1394_cmd_t **)&cmd);
758 		ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
759 		TNF_PROBE_1(s1394_read_bus_info_blk, S1394_TNF_SL_HOTPLUG_ERROR,
760 		    "", tnf_string, msg, "config rom allocation failed");
761 		TNF_PROBE_0_DEBUG(s1394_read_bus_info_blk_exit,
762 		    S1394_TNF_SL_HOTPLUG_STACK, "");
763 		return (DDI_FAILURE);
764 	}
765 
766 	/*
767 	 * if this is a matched node, read quad 2 (node capabilities) to
768 	 * see if the generation count changed.
769 	 */
770 	quadlet = CFGROM_BIB_READ(node) ? IEEE1212_NODE_CAP_QUAD : 0;
771 
772 	/*
773 	 * read bus info block at 100Mbit. This will help us with the cases
774 	 * where LINK is slower than PHY; s1394 uses PHY speed till speed map
775 	 * is updated.
776 	 */
777 	cmd->completion_callback = s1394_cfgrom_read_callback;
778 	cmd->bus_generation = hal->generation_count;
779 	cmd->cmd_options = (CMD1394_CANCEL_ON_BUS_RESET |
780 	    CMD1394_OVERRIDE_ADDR | CMD1394_OVERRIDE_SPEED);
781 	cmd->cmd_speed = IEEE1394_S100;
782 	cmd->cmd_type = CMD1394_ASYNCH_RD_QUAD;
783 
784 	QUAD_TO_CFGROM_ADDR(IEEE1394_LOCAL_BUS, node_num,
785 	    quadlet, cmd->cmd_addr);
786 
787 	TNF_PROBE_3_DEBUG(s1394_read_bus_info_blk,
788 	    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_uint, hal_gen,
789 	    hal->generation_count, tnf_int, node_num, node_num, tnf_uint,
790 	    quadlet, quadlet);
791 
792 	TNF_PROBE_5_DEBUG(s1394_read_bus_info_blk,
793 	    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_int,
794 	    node_num, node_num, tnf_int, parsed, CFGROM_PARSED(node), tnf_int,
795 	    matched, NODE_MATCHED(node), tnf_int, visited,
796 	    NODE_VISITED(node), tnf_int, generation_changed,
797 	    CFGROM_GEN_CHANGED(node));
798 
799 	SETUP_QUAD_READ(node, 1, quadlet, 1);
800 	if (s1394_read_config_quadlet(hal, cmd, status) != DDI_SUCCESS) {
801 		TNF_PROBE_1(s1394_read_bus_info_blk, S1394_TNF_SL_HOTPLUG_ERROR,
802 		    "", tnf_string, msg, "Unable to start read");
803 		/* free the command if it wasn't handed over to the HAL */
804 		if (((*status) & S1394_CMD_INFLIGHT) == 0) {
805 			(void) s1394_free_cmd(hal, (cmd1394_cmd_t **)&cmd);
806 		}
807 		if (((*status) & S1394_LOCK_FAILED) != 0) {
808 			ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
809 		}
810 		TNF_PROBE_0_DEBUG(s1394_read_bus_info_blk_exit,
811 		    S1394_TNF_SL_HOTPLUG_STACK, "");
812 		return (DDI_FAILURE);
813 	}
814 
815 	hal->cfgroms_being_read++;
816 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
817 
818 	TNF_PROBE_1_DEBUG(s1394_read_bus_info_blk_exit,
819 	    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_int, cfgrom_read_cnt,
820 	    hal->cfgroms_being_read);
821 
822 	return (DDI_SUCCESS);
823 }
824 
825 /*
826  * s1394_read_rest_of_cfgrom()
827  *    Attempts to start reading node->cfgrom_quad_to_read quadlet. Increments
828  *    cfgroms_being_read by 1 and returns DDI_SUCCESS if command was issued,
829  *    else sets status to the failure reason and returns DDI_FAILURE.
830  */
831 int
832 s1394_read_rest_of_cfgrom(s1394_hal_t *hal, s1394_node_t *node,
833     s1394_status_t *status)
834 {
835 	cmd1394_cmd_t *cmd;
836 	uchar_t node_num = node->node_num;
837 
838 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
839 	ASSERT(LINK_ACTIVE(node) == B_TRUE);
840 
841 	TNF_PROBE_2_DEBUG(s1394_read_rest_of_cfgrom_enter,
842 	    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_uint, hal_gen,
843 	    hal->generation_count, tnf_int, node_num, node_num);
844 
845 	/*
846 	 * drop the topology lock around command allocation. Return failure
847 	 * if either command allocation fails or cannot reacquire the lock
848 	 */
849 	s1394_unlock_tree(hal);
850 	*status = S1394_NOSTATUS;
851 
852 	if (s1394_alloc_cmd(hal, 0, &cmd) != DDI_SUCCESS) {
853 		*status |= S1394_CMD_ALLOC_FAILED;
854 		TNF_PROBE_1(s1394_read_rest_of_cfgrom,
855 		    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
856 		    "command allocation failed");
857 	}
858 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
859 		*status |= S1394_LOCK_FAILED;
860 		/* free if we allocated a cmd above */
861 		if (((*status) & S1394_CMD_ALLOC_FAILED) == 0)
862 			(void) s1394_free_cmd(hal, (cmd1394_cmd_t **)&cmd);
863 		TNF_PROBE_1(s1394_read_rest_of_cfgrom,
864 		    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
865 		    "unable to relock the tree");
866 	}
867 	if (((*status) & (S1394_CMD_ALLOC_FAILED | S1394_LOCK_FAILED)) != 0) {
868 		TNF_PROBE_0_DEBUG(s1394_read_rest_of_cfgrom_exit,
869 		    S1394_TNF_SL_HOTPLUG_STACK, "");
870 		return (DDI_FAILURE);
871 	}
872 
873 	cmd->completion_callback = s1394_cfgrom_read_callback;
874 	cmd->bus_generation = hal->generation_count;
875 	cmd->cmd_options = (CMD1394_CANCEL_ON_BUS_RESET |
876 	    CMD1394_OVERRIDE_ADDR);
877 	cmd->cmd_type = CMD1394_ASYNCH_RD_QUAD;
878 
879 	TNF_PROBE_2_DEBUG(s1394_read_rest_of_cfgrom, S1394_TNF_SL_HOTPLUG_STACK,
880 	    "", tnf_uint, hal_gen, hal->generation_count, tnf_int, node_num,
881 	    node->node_num);
882 
883 	QUAD_TO_CFGROM_ADDR(IEEE1394_LOCAL_BUS, node_num,
884 	    node->cfgrom_quad_to_read, cmd->cmd_addr);
885 	SETUP_QUAD_READ(node, 1, node->cfgrom_quad_to_read, 1);
886 	if (s1394_read_config_quadlet(hal, cmd, status) != DDI_SUCCESS) {
887 		TNF_PROBE_1(s1394_read_rest_of_cfgrom_exit,
888 		    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
889 		    "unable to start read");
890 		/* free the command if it wasn't handed over to the HAL */
891 		if (((*status) & S1394_CMD_INFLIGHT) == 0) {
892 			(void) s1394_free_cmd(hal, (cmd1394_cmd_t **)&cmd);
893 		}
894 		if (((*status) & S1394_LOCK_FAILED) != 0) {
895 			ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
896 		}
897 		TNF_PROBE_0_DEBUG(s1394_read_rest_of_cfgrom_exit,
898 		    S1394_TNF_SL_HOTPLUG_STACK, "");
899 		return (DDI_FAILURE);
900 	}
901 
902 	hal->cfgroms_being_read++;
903 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
904 
905 	TNF_PROBE_1_DEBUG(s1394_read_rest_of_cfgrom_exit,
906 	    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_int, cfgrom_read_cnt,
907 	    hal->cfgroms_being_read);
908 
909 	return (DDI_SUCCESS);
910 }
911 
912 /*
913  * s1394_cfgrom_scan_phase1()
914  *    Attempts to read bus info blocks for nodes as needed. Returns DDI_FAILURE
915  *    if bus reset generations changed (as indicated by s1394_lock_tree()
916  *    return status) or if any of the callees return failure, else returns
917  *    DDI_SUCCESS.
918  */
919 static int
920 s1394_cfgrom_scan_phase1(s1394_hal_t *hal)
921 {
922 	uint32_t number_of_nodes;
923 	int ret;
924 	int node;
925 	int wait_in_gen;
926 	int wait_for_cbs;
927 	uint_t hal_node_num;
928 	uint_t hal_node_num_old;
929 	s1394_node_t *nnode, *onode;
930 	s1394_selfid_pkt_t *selfid_pkt;
931 	s1394_status_t status;
932 
933 	TNF_PROBE_0_DEBUG(s1394_cfgrom_scan_phase1_enter,
934 	    S1394_TNF_SL_HOTPLUG_STACK, "");
935 
936 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
937 
938 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
939 		TNF_PROBE_0_DEBUG(s1394_cfgrom_scan_phase1_exit,
940 		    S1394_TNF_SL_HOTPLUG_STACK, "");
941 		return (DDI_FAILURE);
942 	}
943 	wait_for_cbs = 0;
944 	number_of_nodes = hal->number_of_nodes;
945 	hal->cfgroms_being_read = 0;
946 	hal_node_num = IEEE1394_NODE_NUM(hal->node_id);
947 	hal_node_num_old = IEEE1394_NODE_NUM(hal->old_node_id);
948 	s1394_unlock_tree(hal);
949 
950 	ret = DDI_SUCCESS;
951 
952 	/* Send requests for all new node config ROM 0 */
953 	for (node = 0; node < number_of_nodes; node++) {
954 
955 		status = S1394_UNKNOWN;
956 
957 		if (s1394_lock_tree(hal) != DDI_SUCCESS) {
958 			status = S1394_LOCK_FAILED;
959 			break;
960 		}
961 
962 		nnode = &hal->topology_tree[node];
963 		onode = nnode->old_node;
964 		/* if node matched, onode should be non NULL */
965 		ASSERT(NODE_MATCHED(nnode) == B_FALSE || (NODE_MATCHED(nnode) ==
966 		    B_TRUE && onode != NULL));
967 
968 		/*
969 		 * Read bus info block if it is a brand new node (MATCHED is 0)
970 		 * or if matched but link was off in previous generations or
971 		 * or if matched but had invalid cfgrom in last generation
972 		 * or if matched but config rom generation > 1 (this is to
973 		 * check if config rom generation changed between bus resets).
974 		 */
975 		if ((node != hal_node_num) &&
976 		    ((NODE_MATCHED(nnode) == B_FALSE) ||
977 		    (NODE_MATCHED(nnode) == B_TRUE && LINK_ACTIVE(onode) ==
978 		    B_FALSE) || (NODE_MATCHED(nnode) == B_TRUE &&
979 		    (onode->cfgrom == NULL || CFGROM_VALID(onode) ==
980 		    B_FALSE)) || (NODE_MATCHED(nnode) == B_TRUE &&
981 		    nnode->cfgrom != NULL && CONFIG_ROM_GEN(nnode->cfgrom) >
982 		    1))) {
983 
984 			SET_NODE_VISITED(nnode);
985 			selfid_pkt = nnode->selfid_packet;
986 			if (IEEE1394_SELFID_ISLINKON(selfid_pkt)) {
987 
988 				SET_LINK_ACTIVE(nnode);
989 
990 				status = S1394_UNKNOWN;
991 
992 				if (s1394_read_bus_info_blk(hal, nnode,
993 				    &status) != DDI_SUCCESS) {
994 					if ((status & S1394_LOCK_FAILED) != 0)
995 						break;
996 				} else {
997 					wait_for_cbs++;
998 					wait_in_gen = hal->br_cfgrom_read_gen;
999 				}
1000 			} else {
1001 				/*
1002 				 * Special case: if link was active last
1003 				 * time around, this should be treated as
1004 				 * node going away.
1005 				 */
1006 				CLEAR_LINK_ACTIVE(nnode);
1007 				if (NODE_MATCHED(nnode) == B_TRUE &&
1008 				    LINK_ACTIVE(onode) == B_TRUE) {
1009 					CLEAR_CFGROM_STATE(nnode);
1010 					TNF_PROBE_3(s1394_cfgrom_scan_phase1,
1011 					    S1394_TNF_SL_HOTPLUG_ERROR,
1012 					    "", tnf_string, msg,
1013 					    "link lost power", tnf_int, node,
1014 					    node, tnf_int, onode,
1015 					    onode->node_num);
1016 				}
1017 			}
1018 		} else {
1019 			if (node == hal_node_num) {
1020 				onode = &hal->old_tree[hal_node_num_old];
1021 				/* Set up the local matched nodes */
1022 				if (onode) {
1023 					nnode->old_node = onode;
1024 					SET_NODE_MATCHED(nnode);
1025 					SET_NODE_MATCHED(onode);
1026 					s1394_copy_cfgrom(nnode, onode);
1027 				}
1028 			}
1029 		}
1030 		s1394_unlock_tree(hal);
1031 	}
1032 
1033 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
1034 
1035 	if ((status & S1394_LOCK_FAILED) != 0) {
1036 		TNF_PROBE_1(s1394_cfrom_scan_phase1_exit,
1037 		    S1394_TNF_SL_HOTPLUG_STACK, "",
1038 		    tnf_string, msg, "Generations changed");
1039 		return (DDI_FAILURE);
1040 	}
1041 
1042 	/*
1043 	 * If we started any reads, wait for completion callbacks
1044 	 */
1045 	if (wait_for_cbs != 0) {
1046 		ret = s1394_wait_for_cfgrom_callbacks(hal, wait_in_gen,
1047 		    s1394_br_thread_handle_cmd_phase1);
1048 	}
1049 
1050 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
1051 
1052 	TNF_PROBE_0_DEBUG(s1394_cfrom_scan_phase1_exit,
1053 	    S1394_TNF_SL_HOTPLUG_STACK, "");
1054 
1055 	return (ret);
1056 }
1057 
1058 /*
1059  * s1394_br_thread_handle_cmd_phase1()
1060  *    Process the cmd completion for phase 1 config rom reads. If we
1061  *    successfully read IEEE1212_NODE_CAP_QUAD quadlet and config rom gen
1062  *    did not change, move targets hanging off the old node to the current
1063  *    node. If config rom generations change, alloc new config rom and start
1064  *    re-reading the new config rom. If all of bus info block is read (as
1065  *    required), mark the node as CFGROM_BIB_READ. If config rom read fails
1066  *    retry if not too many failures. Topology tree mutex is dropped and
1067  *    reacquired in this routine. If reacquiring fails, returns
1068  *    S1394_HCMD_LOCK_FAILED. If the entire bus info block is read, returns
1069  *    S1394_HCMD_NODE_DONE, else returns S1394_HCMD_NODE_EXPECT_MORE (to
1070  *    indicate not done with the node yet).
1071  *
1072  *    If we cannot read any of the quadlets in the bus info block, cfgrom
1073  *    is marked invalid in this generation (a side effect of calling
1074  *    s1394_free_cfgrom()). We free cfgrom in this routine only if the failure
1075  *    is not due to bus generations changing.
1076  */
1077 static hcmd_ret_t
1078 s1394_br_thread_handle_cmd_phase1(s1394_hal_t *hal, cmd1394_cmd_t *cmd)
1079 {
1080 	s1394_target_t *t;
1081 	s1394_node_t *node, *onode;
1082 	uint32_t node_num, quadlet, data;
1083 	int freecmd, done, locked;
1084 	hcmd_ret_t cmdret;
1085 	uchar_t readdelay;
1086 	s1394_status_t status;
1087 
1088 	s1394_get_quad_info(cmd, &node_num, &quadlet, &data);
1089 	ASSERT(quadlet == 0 || quadlet < IEEE1394_BIB_QUAD_SZ);
1090 
1091 	TNF_PROBE_0_DEBUG(s1394_br_thread_handle_cmd_phase1_enter,
1092 	    S1394_TNF_SL_HOTPLUG_STACK, "");
1093 
1094 	cmdret = S1394_HCMD_NODE_EXPECT_MORE;
1095 
1096 	locked = 1;
1097 	freecmd = 1;
1098 
1099 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
1100 		TNF_PROBE_1(s1394_br_thread_handle_cmd_phase1,
1101 		    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string, msg,
1102 		    "unable to lock tree");
1103 		locked = 0;
1104 		goto bail;
1105 	}
1106 
1107 	node = &hal->topology_tree[node_num];
1108 
1109 	if (cmd->cmd_result == CMD1394_CMDSUCCESS) {
1110 
1111 		int reread = 0;
1112 
1113 		done = 0;
1114 
1115 		if (quadlet == IEEE1212_NODE_CAP_QUAD &&
1116 		    CFGROM_BIB_READ(node)) {
1117 
1118 			int cur_gen = ((data & IEEE1394_BIB_GEN_MASK) >>
1119 			    IEEE1394_BIB_GEN_SHIFT);
1120 
1121 			/*
1122 			 * node->old_node can be NULL if this is a new node &
1123 			 * we are doing a rescan
1124 			 */
1125 			onode = node->old_node;
1126 			if (CONFIG_ROM_GEN(node->cfgrom) == cur_gen) {
1127 
1128 				if (CFGROM_PARSED(node) == B_TRUE) {
1129 					rw_enter(&hal->target_list_rwlock,
1130 					    RW_WRITER);
1131 					/* Update the target list, if any */
1132 					if (onode != NULL &&
1133 					    (t = onode->target_list) != NULL) {
1134 						node->target_list = t;
1135 						while (t != NULL) {
1136 							t->on_node = node;
1137 							t = t->target_sibling;
1138 						}
1139 					}
1140 					rw_exit(&hal->target_list_rwlock);
1141 				}
1142 				SET_NODE_MATCHED(node);
1143 				if (onode)
1144 					SET_NODE_MATCHED(onode);
1145 				node->cfgrom_quad_to_read =
1146 				    IEEE1394_BIB_QUAD_SZ;
1147 				done++;
1148 			} else {
1149 
1150 				TNF_PROBE_4(s1394_br_thread_handle_cmd_phase1,
1151 				    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string,
1152 				    msg, "config rom generation changed",
1153 				    tnf_int, node_num, node_num,
1154 				    tnf_int, cur_gen, cur_gen, tnf_int, old_gen,
1155 				    CONFIG_ROM_GEN(node->cfgrom));
1156 
1157 				SET_CFGROM_GEN_CHANGED(node);
1158 				if (onode != NULL)
1159 					SET_CFGROM_GEN_CHANGED(onode);
1160 				/*
1161 				 * Reset BIB_READ flag and start reading entire
1162 				 * config rom.
1163 				 */
1164 				CLEAR_CFGROM_BIB_READ(node);
1165 				reread = 1;
1166 
1167 				/*
1168 				 * if generations changed, allocate cfgrom for
1169 				 * the new generation. s1394_match_GUID() will
1170 				 * free up the cfgrom from the old generation.
1171 				 */
1172 				if (s1394_alloc_cfgrom(hal, node, &status) !=
1173 				    DDI_SUCCESS) {
1174 					ASSERT((status & S1394_LOCK_FAILED) !=
1175 					    0);
1176 					ASSERT(MUTEX_NOT_HELD(&hal->
1177 					    topology_tree_mutex));
1178 					locked = 0;
1179 					/* we failed to relock the tree */
1180 					goto bail;
1181 				}
1182 			}
1183 		}
1184 
1185 		/*
1186 		 * we end up here if we don't have bus_info_blk for this
1187 		 * node or if config rom generation changed.
1188 		 */
1189 
1190 		/*
1191 		 * Pass1 Rio bug workaround. Due to this bug, if we read
1192 		 * past quadlet 5 of the config rom, the PCI bus gets wedged.
1193 		 * Avoid the hang by not reading past quadlet 5.
1194 		 * We identify a remote Rio by the node vendor id part of
1195 		 * quad 3 (which is == SUNW == S1394_SUNW_OUI (0x80020)).
1196 		 */
1197 		if (s1394_enable_rio_pass1_workarounds != 0) {
1198 			if ((quadlet == 3) && ((data >> 8) == S1394_SUNW_OUI)) {
1199 				node->cfgrom_size = IEEE1394_BIB_QUAD_SZ;
1200 				node->cfgrom_valid_size = IEEE1394_BIB_QUAD_SZ;
1201 			}
1202 		}
1203 
1204 		if (!done) {
1205 
1206 			if (reread)
1207 				quadlet = 0;
1208 			else
1209 				node->cfgrom[quadlet++] = data;
1210 
1211 			/* if we don't have the entire bus_info_blk... */
1212 			if (quadlet < IEEE1394_BIB_QUAD_SZ) {
1213 
1214 				CFGROM_GET_READ_DELAY(node, readdelay);
1215 				SETUP_QUAD_READ(node, 1, quadlet, 1);
1216 				s1394_unlock_tree(hal);
1217 				CFGROM_READ_PAUSE(readdelay);
1218 				/* get next quadlet */
1219 				if (s1394_lock_tree(hal) != DDI_SUCCESS) {
1220 					TNF_PROBE_3(
1221 					    s1394_br_thread_handle_cmd_phase1,
1222 					    S1394_TNF_SL_HOTPLUG_STACK, "",
1223 					    tnf_string, msg,
1224 					    "unable to relock tree", tnf_uint,
1225 					    node_num, node_num, tnf_int,
1226 					    quad_to_read, quadlet);
1227 					locked = 0;
1228 				} else if (s1394_read_config_quadlet(hal, cmd,
1229 				    &status) != DDI_SUCCESS) {
1230 					/*
1231 					 * Failed to get going. If command was
1232 					 * successfully handed over to the HAL,
1233 					 * don't free it (it will get freed
1234 					 * later in the callback).
1235 					 */
1236 					TNF_PROBE_3(
1237 					    s1394_br_thread_handle_cmd_phase1,
1238 					    S1394_TNF_SL_HOTPLUG_STACK, "",
1239 					    tnf_string, msg,
1240 					    "unable to read", tnf_uint,
1241 					    node_num, node_num, tnf_int,
1242 					    quad_to_read, quadlet);
1243 					if ((status & S1394_CMD_INFLIGHT) !=
1244 					    0) {
1245 						freecmd = 0;
1246 					}
1247 					if ((status & S1394_LOCK_FAILED) != 0) {
1248 						locked = 0;
1249 					} else {
1250 						if (CFGROM_NEW_ALLOC(node) ==
1251 						    B_TRUE) {
1252 							s1394_free_cfgrom(hal,
1253 							    node,
1254 							S1394_FREE_CFGROM_NEW);
1255 						} else {
1256 							CLEAR_CFGROM_STATE(
1257 							    node);
1258 						}
1259 					}
1260 					done++;
1261 				} else {
1262 					freecmd = 0;
1263 				}
1264 			} else {
1265 				/* got all of bus_info_blk */
1266 				SET_CFGROM_BIB_READ(node);
1267 				if (node->cfgrom_size == IEEE1394_BIB_QUAD_SZ)
1268 				    SET_CFGROM_ALL_READ(node);
1269 				node->cfgrom_quad_to_read = quadlet;
1270 				done++;
1271 				TNF_PROBE_3_DEBUG(
1272 				    s1394_br_thread_handle_cmd_phase1,
1273 				    S1394_TNF_SL_HOTPLUG_STACK,
1274 				    "", tnf_string, msg, "read bus info blk",
1275 				    tnf_int, node_num, node->node_num,
1276 				    tnf_opaque, cfgrom, node->cfgrom);
1277 			}
1278 		}
1279 	} else {
1280 		done = 1;
1281 		node->cfgrom_read_fails++;
1282 		BUMP_CFGROM_READ_DELAY(node);
1283 
1284 		/* retry if not too many failures */
1285 		if (node->cfgrom_read_fails < s1394_cfgrom_read_retry_cnt) {
1286 			CFGROM_GET_READ_DELAY(node, readdelay);
1287 			SETUP_QUAD_READ(node, 0, quadlet, 1);
1288 			s1394_unlock_tree(hal);
1289 			CFGROM_READ_PAUSE(readdelay);
1290 			if (s1394_lock_tree(hal) != DDI_SUCCESS) {
1291 				TNF_PROBE_3(
1292 				    s1394_br_thread_handle_cmd_phase1,
1293 				    S1394_TNF_SL_HOTPLUG_ERROR, "",
1294 				    tnf_string, msg,
1295 				    "unable to relock tree", tnf_uint,
1296 				    node_num, node_num, tnf_int,
1297 				    quad_to_read, quadlet);
1298 				locked = 0;
1299 			} else if (s1394_read_config_quadlet(hal, cmd,
1300 			    &status) != DDI_SUCCESS) {
1301 				/*
1302 				 * Failed to get going. If command was
1303 				 * successfully handed over to the HAL,
1304 				 * don't free it (it will get freed
1305 				 * later in the callback).
1306 				 */
1307 				TNF_PROBE_3(
1308 				    s1394_br_thread_handle_cmd_phase1,
1309 				    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string,
1310 				    msg, "unable to re-read", tnf_uint,
1311 				    node_num, node_num, tnf_int, quad_to_read,
1312 				    quadlet);
1313 				if ((status & S1394_CMD_INFLIGHT) != 0) {
1314 					freecmd = 0;
1315 				}
1316 				if ((status & S1394_LOCK_FAILED) != 0) {
1317 					locked = 0;
1318 				} else {
1319 					if (CFGROM_NEW_ALLOC(node) == B_TRUE) {
1320 						s1394_free_cfgrom(hal, node,
1321 						    S1394_FREE_CFGROM_NEW);
1322 					} else {
1323 						CLEAR_CFGROM_STATE(node);
1324 					}
1325 				}
1326 			} else {
1327 				done = 0;
1328 				freecmd = 0;
1329 			}
1330 		} else {
1331 			TNF_PROBE_4(s1394_br_thread_handle_cmd_phase1,
1332 			    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string, msg,
1333 			    "retries exceeded", tnf_int, node_num, node_num,
1334 			    tnf_int, quadlet, quadlet, tnf_opaque, cfgrom,
1335 			    node->cfgrom);
1336 			if (CFGROM_NEW_ALLOC(node) == B_TRUE) {
1337 				s1394_free_cfgrom(hal, node,
1338 				    S1394_FREE_CFGROM_NEW);
1339 			} else {
1340 				CLEAR_CFGROM_STATE(node);
1341 			}
1342 		}
1343 	}
1344 bail:
1345 	if (freecmd) {
1346 		(void) s1394_free_cmd(hal, &cmd);
1347 	}
1348 
1349 	if (done) {
1350 		cmdret = S1394_HCMD_NODE_DONE;
1351 		TNF_PROBE_2_DEBUG(s1394_br_thread_handle_cmd_phase1,
1352 		    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string, msg,
1353 		    "done with node", tnf_int, node_num, node_num);
1354 	}
1355 
1356 	/* if we are bailing out because locking failed, locked == 0 */
1357 	if (locked == 0)
1358 		cmdret = S1394_HCMD_LOCK_FAILED;
1359 	else
1360 		s1394_unlock_tree(hal);
1361 
1362 	TNF_PROBE_0_DEBUG(s1394_br_thread_handle_cmd_phase1_exit,
1363 	    S1394_TNF_SL_HOTPLUG_STACK, "");
1364 
1365 	return (cmdret);
1366 }
1367 
1368 /*
1369  * s1394_cfgrom_scan_phase2()
1370  *    Handles phase 2 of bus reset processing. Matches GUIDs between old
1371  *    and new topology trees to identify which node moved where. Processes
1372  *    the old topology tree (involves offlining any nodes that got unplugged
1373  *    between the last generation and the current generation). Updates speed
1374  *    map, sets up physical AR request filer and does isoch resource
1375  *    realloc failure notification and bus reset notifications. Then resends
1376  *    any commands that were issued by targets while the reset was being
1377  *    processed. Finally, the current topology tree is processed. This involves
1378  *    reading config rom past the bus info block for new nodes and parsing
1379  *    the config rom, creating a devinfo for each unit directory found in the
1380  *    config rom.
1381  *    Returns DDI_FAILURE if there was bus reset during any of the function
1382  *    calls (as indicated by lock failures) or if any of the routines callees
1383  *    return failure, else returns DDI_SUCCESS.
1384  */
1385 static int
1386 s1394_cfgrom_scan_phase2(s1394_hal_t *hal)
1387 {
1388 	int ret;
1389 	uint_t wait_gen;
1390 	int wait_for_cbs = 0;
1391 	t1394_localinfo_t localinfo;
1392 
1393 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
1394 
1395 	TNF_PROBE_0_DEBUG(s1394_cfgrom_scan_phase2_enter,
1396 	    S1394_TNF_SL_HOTPLUG_STACK, "");
1397 
1398 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
1399 		TNF_PROBE_0_DEBUG(s1394_cfgrom_scan_phase2_exit,
1400 		    S1394_TNF_SL_HOTPLUG_STACK, "");
1401 		return (DDI_FAILURE);
1402 	}
1403 
1404 	if (s1394_match_all_GUIDs(hal) == DDI_SUCCESS) {
1405 		s1394_unlock_tree(hal);
1406 	}
1407 
1408 	if (s1394_process_old_tree(hal) != DDI_SUCCESS) {
1409 		ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
1410 		TNF_PROBE_1(s1394_cfgrom_scan_phase2,
1411 		    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
1412 		    "non-success return from process_old_tree");
1413 		TNF_PROBE_0_DEBUG(s1394_cfgrom_scan_phase2_exit,
1414 		    S1394_TNF_SL_HOTPLUG_STACK, "");
1415 		return (DDI_FAILURE);
1416 	}
1417 
1418 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
1419 		TNF_PROBE_1(s1394_cfgrom_scan_phase2,
1420 		    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
1421 		    "unable to relock the tree");
1422 		TNF_PROBE_0_DEBUG(s1394_cfgrom_scan_phase2_exit,
1423 		    S1394_TNF_SL_HOTPLUG_STACK, "");
1424 		return (DDI_FAILURE);
1425 	}
1426 
1427 	s1394_update_speed_map_link_speeds(hal);
1428 	s1394_unlock_tree(hal);
1429 
1430 	/* Setup physical AR request filters */
1431 	s1394_physical_arreq_setup_all(hal);
1432 
1433 	/* Notify targets of isoch resource realloc failures */
1434 	s1394_isoch_rsrc_realloc_notify(hal);
1435 
1436 	/* Notify targets of the end of bus reset processing */
1437 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
1438 		TNF_PROBE_1(s1394_cfgrom_scan_phase2,
1439 		    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
1440 		    "unable to relock the tree after isoch notify");
1441 		TNF_PROBE_0_DEBUG(s1394_cfgrom_scan_phase2_exit,
1442 		    S1394_TNF_SL_HOTPLUG_STACK, "");
1443 		return (DDI_FAILURE);
1444 	}
1445 
1446 	localinfo.bus_generation = hal->generation_count;
1447 	localinfo.local_nodeID = hal->node_id;
1448 
1449 	s1394_unlock_tree(hal);
1450 	s1394_target_bus_reset_notifies(hal, &localinfo);
1451 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
1452 		TNF_PROBE_1(s1394_cfgrom_scan_phase2,
1453 		    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
1454 		    "unable to relock the tree after reset notify");
1455 		TNF_PROBE_0_DEBUG(s1394_cfgrom_scan_phase2_exit,
1456 		    S1394_TNF_SL_HOTPLUG_STACK, "");
1457 		return (DDI_FAILURE);
1458 	}
1459 
1460 	/* Set HAL state to normal */
1461 	if (hal->disable_requests_bit == 0)
1462 		hal->hal_state = S1394_HAL_NORMAL;
1463 	else
1464 		hal->hal_state = S1394_HAL_DREQ;
1465 
1466 	s1394_unlock_tree(hal);
1467 
1468 	/* Flush the pending Q */
1469 	s1394_resend_pending_cmds(hal);
1470 
1471 	if (s1394_process_topology_tree(hal, &wait_for_cbs, &wait_gen)) {
1472 		TNF_PROBE_1(s1394_cfgrom_scan_phase2,
1473 		    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
1474 		    "non-success return from process_topology_tree");
1475 		TNF_PROBE_0_DEBUG(s1394_cfgrom_scan_phase2_exit,
1476 		    S1394_TNF_SL_HOTPLUG_STACK, "");
1477 		ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
1478 		return (DDI_FAILURE);
1479 	}
1480 
1481 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
1482 		TNF_PROBE_1(s1394_cfgrom_scan_phase2,
1483 		    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
1484 		    "unable to relock after processing topology tree");
1485 		TNF_PROBE_0_DEBUG(s1394_cfgrom_scan_phase2_exit,
1486 		    S1394_TNF_SL_HOTPLUG_STACK, "");
1487 		return (DDI_FAILURE);
1488 	}
1489 
1490 	s1394_print_node_info(hal);
1491 
1492 	s1394_unlock_tree(hal);
1493 
1494 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
1495 
1496 	ret = DDI_SUCCESS;
1497 
1498 	/*
1499 	 * If we started any reads, wait for completion callbacks
1500 	 */
1501 	if (wait_for_cbs != 0) {
1502 		ret = s1394_wait_for_cfgrom_callbacks(hal, wait_gen,
1503 		    s1394_br_thread_handle_cmd_phase2);
1504 
1505 		TNF_PROBE_2_DEBUG(s1394_cfgrom_scan_phase2,
1506 		    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string, msg,
1507 		    "returned from waiting for cfgrom callbacks", tnf_int, ret,
1508 		    ret);
1509 	}
1510 
1511 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
1512 
1513 	TNF_PROBE_0_DEBUG(s1394_cfgrom_scan_phase2_exit,
1514 	    S1394_TNF_SL_HOTPLUG_STACK, "");
1515 
1516 	return (ret);
1517 }
1518 
1519 /*
1520  * s1394_br_thread_handle_cmd_phase2()
1521  *    Process the cmd completion for phase 2 config rom reads. If all the
1522  *    needed quads are read, validates the config rom; if config rom is
1523  *    invalid (crc failures), frees the config rom, else marks the config rom
1524  *    valid and calls s1394_update_devinfo_tree() to parse the config rom.
1525  *    If need to get more quadlets, attempts to kick off the read and returns
1526  *    S1394_HCMD_NODE_EXPECT_MORE if successfully started the read. If a bus
1527  *    reset is seen while in this routine, returns S1394_HCMD_LOCK_FAILED. If
1528  *    done with the node (with or withoug crc errors), returns
1529  *    S1394_HCMD_NODE_DONE, else returns S1394_HCMD_NODE_EXPECT_MORE (to
1530  *    indicate not done with the node yet).
1531  */
1532 static hcmd_ret_t
1533 s1394_br_thread_handle_cmd_phase2(s1394_hal_t *hal, cmd1394_cmd_t *cmd)
1534 {
1535 	s1394_node_t *node;
1536 	uint32_t node_num, quadlet, data;
1537 	int update_devinfo, locked, freecmd, done;
1538 	hcmd_ret_t cmdret;
1539 	uchar_t readdelay;
1540 	s1394_status_t status;
1541 
1542 	TNF_PROBE_0_DEBUG(s1394_br_thread_handle_cmd_phase2_enter,
1543 	    S1394_TNF_SL_HOTPLUG_STACK, "");
1544 
1545 	/*
1546 	 * we end up here if this is a brand new node or if it is a known node
1547 	 * but the config ROM changed (and triggered a re-read).
1548 	 */
1549 	s1394_get_quad_info(cmd, &node_num, &quadlet, &data);
1550 	ASSERT(quadlet == IEEE1394_BIB_QUAD_SZ || quadlet <
1551 	    IEEE1394_CONFIG_ROM_QUAD_SZ);
1552 
1553 	locked = freecmd = done = 1;
1554 	cmdret = S1394_HCMD_NODE_EXPECT_MORE;
1555 
1556 	update_devinfo = 0;
1557 
1558 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
1559 		TNF_PROBE_3(s1394_br_thread_handle_cmd_phase2,
1560 		    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
1561 		    "unable to lock tree", tnf_int, node_num, node_num,
1562 		    tnf_int, quadlet, quadlet);
1563 		locked = 0;
1564 		goto bail;
1565 	}
1566 
1567 	node = &hal->topology_tree[node_num];
1568 
1569 	if (cmd->cmd_result == CMD1394_CMDSUCCESS) {
1570 
1571 		ASSERT(CFGROM_BIB_READ(node) == B_TRUE);
1572 
1573 		node->cfgrom[quadlet] = data;
1574 
1575 		if (s1394_calc_next_quad(hal, node, quadlet, &quadlet) != 0) {
1576 			/*
1577 			 * Done with this node. Mark config rom valid and
1578 			 * update the devinfo tree for this node.
1579 			 */
1580 			TNF_PROBE_4_DEBUG(s1394_br_thread_handle_cmd_phase2,
1581 			    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string, msg,
1582 			    "all read", tnf_int, node_num, node->node_num,
1583 			    tnf_opaque, cfgrom, node->cfgrom, tnf_int, quadlet,
1584 			    quadlet);
1585 
1586 			node->cfgrom_valid_size = quadlet + 1;
1587 			if (s1394_valid_cfgrom(hal, node) == B_TRUE) {
1588 				SET_CFGROM_ALL_READ(node);
1589 				update_devinfo++;
1590 			} else {
1591 				s1394_free_cfgrom(hal, node,
1592 				    S1394_FREE_CFGROM_BOTH);
1593 			}
1594 		} else {
1595 			CFGROM_GET_READ_DELAY(node, readdelay);
1596 			SETUP_QUAD_READ(node, 1, quadlet, 1);
1597 			s1394_unlock_tree(hal);
1598 			CFGROM_READ_PAUSE(readdelay);
1599 			if (s1394_lock_tree(hal) != DDI_SUCCESS) {
1600 				locked = 0;
1601 				TNF_PROBE_3(s1394_br_thread_handle_cmd_phase2,
1602 				    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string,
1603 				    msg, "unable to relock the tree",
1604 				    tnf_int, node_num, node->node_num,
1605 				    tnf_int, quadlet, quadlet);
1606 			} else if (s1394_read_config_quadlet(hal, cmd,
1607 			    &status) != DDI_SUCCESS) {
1608 				/* give up on this guy */
1609 				TNF_PROBE_3(s1394_br_thread_handle_cmd_phase2,
1610 				    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string,
1611 				    msg, "cannot start quadlet read", tnf_int,
1612 				    node_num, node_num, tnf_int, quadlet,
1613 				    quadlet);
1614 
1615 				if ((status & S1394_CMD_INFLIGHT) != 0) {
1616 					freecmd = 0;
1617 				}
1618 				if ((status & S1394_LOCK_FAILED) != 0) {
1619 					locked = 0;
1620 				} else {
1621 					node->cfgrom_valid_size = quadlet;
1622 					if (s1394_valid_cfgrom(hal, node) ==
1623 					    B_TRUE) {
1624 						SET_CFGROM_ALL_READ(node);
1625 						update_devinfo++;
1626 					} else {
1627 						s1394_free_cfgrom(hal, node,
1628 						    S1394_FREE_CFGROM_BOTH);
1629 					}
1630 				}
1631 			} else {
1632 				/* successfully started next read */
1633 				done = 0;
1634 				freecmd = 0;
1635 			}
1636 		}
1637 	} else {
1638 		node->cfgrom_read_fails++;
1639 		BUMP_CFGROM_READ_DELAY(node);
1640 
1641 		/* retry if not too many failures */
1642 		if (node->cfgrom_read_fails < s1394_cfgrom_read_retry_cnt) {
1643 			CFGROM_GET_READ_DELAY(node, readdelay);
1644 			s1394_unlock_tree(hal);
1645 			SETUP_QUAD_READ(node, 0, quadlet, 1);
1646 			CFGROM_READ_PAUSE(readdelay);
1647 			if (s1394_lock_tree(hal) != DDI_SUCCESS) {
1648 				locked = 0;
1649 				TNF_PROBE_3(s1394_br_thread_handle_cmd_phase2,
1650 				    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string,
1651 				    msg, "unable to relock for reread",
1652 				    tnf_int, node_num, node->node_num,
1653 				    tnf_int, quadlet, quadlet);
1654 			} else if (s1394_read_config_quadlet(hal, cmd,
1655 			    &status) != DDI_SUCCESS) {
1656 				if ((status & S1394_CMD_INFLIGHT) != 0) {
1657 					freecmd = 0;
1658 				}
1659 				if ((status & S1394_LOCK_FAILED) != 0) {
1660 					locked = 0;
1661 				} else {
1662 					/* stop further reads */
1663 					TNF_PROBE_4(
1664 					    s1394_br_thread_handle_cmd_phase2,
1665 					    S1394_TNF_SL_HOTPLUG_ERROR, "",
1666 					    tnf_string, msg, "unable to retry",
1667 					    tnf_int, node_num, node->node_num,
1668 					    tnf_int, quadlet, quadlet,
1669 					    tnf_opaque, cfgrom, node->cfgrom);
1670 					node->cfgrom_valid_size = quadlet + 1;
1671 					if (s1394_valid_cfgrom(hal, node) ==
1672 					    B_TRUE) {
1673 						SET_CFGROM_ALL_READ(node);
1674 						update_devinfo++;
1675 					} else {
1676 						s1394_free_cfgrom(hal, node,
1677 						    S1394_FREE_CFGROM_BOTH);
1678 					}
1679 				}
1680 			} else {
1681 				/* successfully started next read */
1682 				done = 0;
1683 				freecmd = 0;
1684 			}
1685 		} else {
1686 
1687 			TNF_PROBE_4(s1394_br_thread_handle_cmd_phase2,
1688 			    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
1689 			    "retries exceeded", tnf_int, node_num, node_num,
1690 			    tnf_int, quadlet, quadlet, tnf_opaque, cfgrom,
1691 			    node->cfgrom);
1692 
1693 			node->cfgrom_valid_size = quadlet + 1;
1694 			if (s1394_valid_cfgrom(hal, node) == B_TRUE) {
1695 				SET_CFGROM_ALL_READ(node);
1696 				update_devinfo++;
1697 			} else {
1698 				s1394_free_cfgrom(hal, node,
1699 				    S1394_FREE_CFGROM_BOTH);
1700 			}
1701 		}
1702 	}
1703 bail:
1704 	if (freecmd) {
1705 		(void) s1394_free_cmd(hal, &cmd);
1706 	}
1707 
1708 	if (done) {
1709 		cmdret = S1394_HCMD_NODE_DONE;
1710 		TNF_PROBE_2_DEBUG(s1394_br_thread_handle_cmd_phase2,
1711 		    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string, msg,
1712 		    "done with a node", tnf_int, node_num, node_num);
1713 	}
1714 
1715 	if (update_devinfo) {
1716 		ASSERT(locked);
1717 		/*
1718 		 * s1394_update_devinfo_tree() drops and reacquires the
1719 		 * topology_tree_mutex. If tree lock fails, it returns
1720 		 * a DDI_FAILURE. Set locked to 0 so in this case so that
1721 		 * we will return S1394_HCMD_LOCK_FAILED below
1722 		 */
1723 		if (s1394_update_devinfo_tree(hal, node) != DDI_SUCCESS) {
1724 			ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
1725 			locked = 0;
1726 			TNF_PROBE_2(s1394_br_thread_handle_cmd_phase2,
1727 			    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
1728 			    "update devinfo returned failure", tnf_int,
1729 			    node_num, node_num);
1730 		}
1731 	}
1732 
1733 	/* if we are bailing out because locking failed, locked == 0 */
1734 	if (locked == 0)
1735 		cmdret = S1394_HCMD_LOCK_FAILED;
1736 	else
1737 		s1394_unlock_tree(hal);
1738 
1739 	TNF_PROBE_1_DEBUG(s1394_br_thread_handle_cmd_phase2_exit,
1740 	    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_int, cmdret, (int)cmdret);
1741 
1742 	return (cmdret);
1743 }
1744 
1745 /*
1746  * s1394_read_config_quadlet()
1747  *    Starts the reads of a config quadlet (deduced cmd_addr).  Returns
1748  *    DDI_SUCCESS if the read was started with no errors, else DDI_FAILURE
1749  *    is returned, with status indicating the reason for the failure(s).
1750  */
1751 static int
1752 s1394_read_config_quadlet(s1394_hal_t *hal, cmd1394_cmd_t *cmd,
1753     s1394_status_t *status)
1754 {
1755 	s1394_node_t *node;
1756 	int ret, err, node_num, quadlet;
1757 
1758 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
1759 	node_num = IEEE1394_ADDR_PHY_ID(cmd->cmd_addr);
1760 	node = &hal->topology_tree[node_num];
1761 	quadlet = node->cfgrom_quad_to_read;
1762 
1763 	TNF_PROBE_2_DEBUG(s1394_read_config_quadlet_enter,
1764 	    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_uint, node_num, node_num,
1765 	    tnf_uint, quadlet, quadlet);
1766 
1767 	/* Calculate the 64-bit address */
1768 	QUAD_TO_CFGROM_ADDR(IEEE1394_LOCAL_BUS, node_num, quadlet,
1769 	    cmd->cmd_addr);
1770 
1771 	*status = S1394_NOSTATUS;
1772 
1773 	ret = s1394_setup_asynch_command(hal, NULL, cmd, S1394_CMD_READ, &err);
1774 
1775 	if (ret != DDI_SUCCESS) {
1776 		*status |= S1394_UNKNOWN;
1777 		ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
1778 		TNF_PROBE_3(s1394_read_config_quadlet,
1779 		    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
1780 		    "failure from setup asynch command", tnf_uint, node_num,
1781 		    node_num, tnf_uint, quadlet, quadlet);
1782 		TNF_PROBE_0_DEBUG(s1394_read_config_quadlet_exit,
1783 		    S1394_TNF_SL_HOTPLUG_STACK, "");
1784 		return (DDI_FAILURE);
1785 	}
1786 
1787 	s1394_unlock_tree(hal);
1788 	ret = DDI_SUCCESS;
1789 	/* Send the command out */
1790 	if (s1394_xfer_asynch_command(hal, cmd, &err) == DDI_SUCCESS) {
1791 		/* Callers can expect a callback now */
1792 		*status |= S1394_CMD_INFLIGHT;
1793 	} else {
1794 
1795 		s1394_cmd_priv_t *s_priv;
1796 
1797 		TNF_PROBE_3(s1394_read_config_quadlet,
1798 		    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
1799 		    "failure from xfer asynch command",
1800 		    tnf_int, quadlet, quadlet, tnf_int, node_num, node_num);
1801 
1802 		/* Remove from queue */
1803 		s1394_remove_q_asynch_cmd(hal, cmd);
1804 		s_priv = S1394_GET_CMD_PRIV(cmd);
1805 
1806 		s_priv->cmd_in_use = B_FALSE;
1807 
1808 		*status |= S1394_XFER_FAILED;
1809 		ret = DDI_FAILURE;
1810 	}
1811 
1812 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
1813 		*status |= S1394_LOCK_FAILED;
1814 		ret = DDI_FAILURE;
1815 		TNF_PROBE_1(s1394_read_config_quadlet,
1816 		    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
1817 		    "unable to relock the tree");
1818 	}
1819 
1820 	TNF_PROBE_0_DEBUG(s1394_read_config_quadlet_exit,
1821 	    S1394_TNF_SL_HOTPLUG_STACK, "");
1822 
1823 	return (ret);
1824 }
1825 
1826 /*
1827  * s1394_cfgrom_read_callback()
1828  *    callback routine for config rom reads. Frees the command if it failed
1829  *    due to bus reset else appends the command to the completion queue
1830  *    and signals the completion queue cv.
1831  */
1832 static void
1833 s1394_cfgrom_read_callback(cmd1394_cmd_t *cmd)
1834 {
1835 	cmd1394_cmd_t *tcmd;
1836 	s1394_cmd_priv_t *s_priv;
1837 	s1394_hal_t *hal;
1838 
1839 #if defined(DEBUG)
1840 	uint32_t node_num, quadlet, data;
1841 #endif
1842 
1843 	TNF_PROBE_0_DEBUG(s1394_cfgrom_read_callback_enter,
1844 	    S1394_TNF_SL_HOTPLUG_STACK, "");
1845 
1846 	/* Get the Services Layer private area */
1847 	s_priv = S1394_GET_CMD_PRIV(cmd);
1848 
1849 	hal = (s1394_hal_t *)s_priv->sent_on_hal;
1850 
1851 #if defined(DEBUG)
1852 
1853 	s1394_get_quad_info(cmd, &node_num, &quadlet, &data);
1854 
1855 	TNF_PROBE_5_DEBUG(s1394_cfgrom_read_callback,
1856 	    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_uint, gen, cmd->bus_generation,
1857 	    tnf_int, quadlet, quadlet,
1858 	    tnf_int, node_num, node_num,
1859 	    tnf_int, data, data, tnf_int, result, cmd->cmd_result);
1860 #endif
1861 
1862 	if (cmd->cmd_result == CMD1394_EBUSRESET) {
1863 		(void) s1394_free_cmd(hal, (cmd1394_cmd_t **)&cmd);
1864 	} else {
1865 		mutex_enter(&hal->br_cmplq_mutex);
1866 
1867 		/* Put the command on completion queue */
1868 		s_priv->cmd_priv_next = NULL;
1869 		if ((tcmd = hal->br_cmplq_tail) != NULL) {
1870 			s_priv = S1394_GET_CMD_PRIV(tcmd);
1871 
1872 			s_priv->cmd_priv_next = cmd;
1873 		}
1874 
1875 		hal->br_cmplq_tail = cmd;
1876 
1877 		if (hal->br_cmplq_head == NULL)
1878 			hal->br_cmplq_head = cmd;
1879 
1880 		cv_signal(&hal->br_cmplq_cv);
1881 		mutex_exit(&hal->br_cmplq_mutex);
1882 	}
1883 
1884 	TNF_PROBE_0_DEBUG(s1394_cfgrom_read_callback_exit,
1885 	    S1394_TNF_SL_HOTPLUG_STACK, "");
1886 }
1887 
1888 /*
1889  * s1394_cfgrom_parse_unit_dir()
1890  *    Parses the unit directory passed in and returns reg[2...5] of reg
1891  *    property (see 1275 binding for reg property defintion). Currently,
1892  *    returns 0 for all the values since none of the existing devices implement
1893  *    this and future devices, per P1212r, need a binding change.
1894  */
1895 /* ARGSUSED */
1896 void
1897 s1394_cfgrom_parse_unit_dir(uint32_t *unit_dir, uint32_t *addr_hi,
1898     uint32_t *addr_lo, uint32_t *size_hi, uint32_t *size_lo)
1899 {
1900 	TNF_PROBE_0_DEBUG(s1394_cfgrom_parse_unit_dir_enter,
1901 	    S1394_TNF_SL_HOTPLUG_STACK, "");
1902 	*addr_hi = *addr_lo = *size_hi = *size_lo = 0;
1903 	TNF_PROBE_0_DEBUG(s1394_cfgrom_parse_unit_dir_exit,
1904 	    S1394_TNF_SL_HOTPLUG_STACK, "");
1905 }
1906 
1907 /*
1908  * s1394_get_quad_info()
1909  *    Helper routine that picks apart the various fields of a 1394 address
1910  */
1911 static void
1912 s1394_get_quad_info(cmd1394_cmd_t *cmd, uint32_t *node_num, uint32_t *quadlet,
1913     uint32_t *data)
1914 {
1915 	uint64_t addr;
1916 
1917 	TNF_PROBE_0_DEBUG(s1394_get_quad_info_enter,
1918 	    S1394_TNF_SL_HOTPLUG_STACK, "");
1919 
1920 	addr = cmd->cmd_addr;
1921 	*node_num = IEEE1394_ADDR_PHY_ID(addr);
1922 	*quadlet = ((addr & IEEE1394_ADDR_OFFSET_MASK) -
1923 	    IEEE1394_CONFIG_ROM_ADDR);
1924 	*quadlet = (*quadlet >> 2);
1925 	*data = T1394_DATA32(cmd->cmd_u.q.quadlet_data);
1926 
1927 	TNF_PROBE_0_DEBUG(s1394_get_quad_info_exit,
1928 	    S1394_TNF_SL_HOTPLUG_STACK, "");
1929 }
1930 
1931 /*
1932  * s1394_match_GUID()
1933  *    attempts to match nnode (which is in the current topology tree) with
1934  *    a node in the old topology tree by comparing GUIDs. If a match is found
1935  *    the old_node field of the current node and cur_node field of the old
1936  *    are set point to each other. Also, this routine makes both the nodes
1937  *    point at the same config rom.  If unable to relock the tree, returns
1938  *    DDI_FAILURE, else returns DDI_SUCCESS.
1939  */
1940 static int
1941 s1394_match_GUID(s1394_hal_t *hal, s1394_node_t *nnode)
1942 {
1943 	int old_node;
1944 	int gen_changed;
1945 	uint32_t old_a, old_b;
1946 	uint32_t new_a, new_b;
1947 	s1394_node_t *onode;
1948 	s1394_target_t *t;
1949 	int	ret = DDI_SUCCESS;
1950 
1951 	TNF_PROBE_0_DEBUG(s1394_match_GUID_enter, S1394_TNF_SL_HOTPLUG_STACK,
1952 	    "");
1953 
1954 	ASSERT(nnode->cfgrom != NULL);
1955 	ASSERT(CFGROM_BIB_READ(nnode));
1956 
1957 	new_a = nnode->node_guid_hi;
1958 	new_b = nnode->node_guid_lo;
1959 
1960 	for (old_node = 0; old_node < hal->old_number_of_nodes; old_node++) {
1961 
1962 		onode = &hal->old_tree[old_node];
1963 		if (onode->cfgrom == NULL || CFGROM_BIB_READ(onode) == B_FALSE)
1964 			continue;
1965 
1966 		old_a = onode->node_guid_hi;
1967 		old_b = onode->node_guid_lo;
1968 
1969 		if ((old_a == new_a) && (old_b == new_b)) {
1970 
1971 			if (NODE_MATCHED(onode) == B_TRUE) {
1972 				TNF_PROBE_4(s1394_match_GUID_duplicate,
1973 				    S1394_TNF_SL_HOTPLUG_ERROR, "",
1974 				    tnf_uint, guid_hi, old_a,
1975 				    tnf_uint, guid_lo, old_b,
1976 				    tnf_uint, old_node_num, old_node,
1977 				    tnf_uint, node_num, nnode->node_num);
1978 				cmn_err(CE_NOTE, "!Duplicate GUIDs: %08x%08x",
1979 				    old_a, old_b);
1980 				/* offline the new node that last matched */
1981 				ret = s1394_offline_node(hal, onode->cur_node);
1982 				/* and make the current new node invalid */
1983 				ASSERT(CFGROM_NEW_ALLOC(nnode) == B_TRUE);
1984 				s1394_free_cfgrom(hal, nnode,
1985 				    S1394_FREE_CFGROM_NEW);
1986 				break;
1987 			}
1988 
1989 			/*
1990 			 * If there is indeed a cfgrom gen change,
1991 			 * CFGROM_GEN_CHANGED() will be set iff we are matching
1992 			 * tree nodes. Otherwise, CONFIG_ROM_GEN(old) !=
1993 			 * CONFIG_ROM_GEN(new).
1994 			 */
1995 			if (CFGROM_GEN_CHANGED(nnode) == B_TRUE ||
1996 			    (CONFIG_ROM_GEN(onode->cfgrom) !=
1997 			    CONFIG_ROM_GEN(nnode->cfgrom))) {
1998 				gen_changed = 1;
1999 				TNF_PROBE_4_DEBUG(s1394_match_GUID_gen_change,
2000 				    S1394_TNF_SL_HOTPLUG_STACK, "",
2001 				    tnf_opaque, old_cfgrom, onode->cfgrom,
2002 				    tnf_int, old_gen,
2003 				    CONFIG_ROM_GEN(onode->cfgrom), tnf_opaque,
2004 				    cfgrom, nnode->cfgrom, tnf_int, new_gen,
2005 				    CONFIG_ROM_GEN(nnode->cfgrom));
2006 			} else {
2007 				gen_changed = 0;
2008 			}
2009 
2010 			onode->cur_node = nnode;
2011 			nnode->old_node = onode;
2012 			nnode->node_state = onode->node_state;
2013 			SET_NODE_VISITED(onode);
2014 			SET_NODE_MATCHED(onode);
2015 			SET_NODE_MATCHED(nnode);
2016 			/*
2017 			 * If generations changed, need to offline any targets
2018 			 * hanging off the old node, prior to freeing up old
2019 			 * cfgrom. If the generations didn't change, we can
2020 			 * free up the new config rom and copy all info from
2021 			 * the old node (this helps in picking up further
2022 			 * reads from where the last generation left off).
2023 			 */
2024 			if (gen_changed == 1) {
2025 				if (s1394_offline_node(hal, onode)) {
2026 					ret = DDI_FAILURE;
2027 					break;
2028 				}
2029 				TNF_PROBE_2(s1394_match_GUID_gen_freecfg,
2030 				    S1394_TNF_SL_HOTPLUG_STACK, "",
2031 				    tnf_opaque, old_cfgrom, onode->cfgrom,
2032 				    tnf_opaque, new_cfgrom, nnode->cfgrom);
2033 				s1394_free_cfgrom(hal, onode,
2034 				    S1394_FREE_CFGROM_OLD);
2035 				CLEAR_CFGROM_PARSED(nnode);
2036 				CLEAR_CFGROM_NEW_ALLOC(nnode);
2037 				CLEAR_CFGROM_NEW_ALLOC(onode);
2038 				onode->cfgrom = nnode->cfgrom;
2039 				/* done */
2040 				break;
2041 			}
2042 
2043 			/*
2044 			 * Free up cfgrom memory in the new_node and
2045 			 * point it at the same config rom as the old one.
2046 			 */
2047 			if (onode->cfgrom != nnode->cfgrom) {
2048 
2049 				TNF_PROBE_5_DEBUG(s1394_match_GUID,
2050 				    S1394_TNF_SL_HOTPLUG_STACK, "",
2051 				    tnf_int, node_num, nnode->node_num,
2052 				    tnf_opaque, cfgrom, nnode->cfgrom,
2053 				    tnf_int, old_node_num, old_node,
2054 				    tnf_opaque, old_cfgrom, onode->cfgrom,
2055 				    tnf_uint, cfgrom_state,
2056 				    nnode->cfgrom_state);
2057 
2058 				ASSERT(CFGROM_NEW_ALLOC(nnode) == B_TRUE);
2059 				s1394_free_cfgrom(hal, nnode,
2060 				    S1394_FREE_CFGROM_NEW);
2061 			}
2062 			nnode->cfgrom = onode->cfgrom;
2063 			nnode->cfgrom_state = onode->cfgrom_state;
2064 			nnode->cfgrom_valid_size = onode->cfgrom_valid_size;
2065 			nnode->cfgrom_size = onode->cfgrom_size;
2066 			nnode->cfgrom_quad_to_read = onode->cfgrom_quad_to_read;
2067 			bcopy(onode->dir_stack, nnode->dir_stack,
2068 			    offsetof(s1394_node_t, cfgrom_quad_to_read) -
2069 			    offsetof(s1394_node_t, dir_stack));
2070 			CLEAR_CFGROM_NEW_ALLOC(nnode);
2071 			CLEAR_CFGROM_NEW_ALLOC(onode);
2072 
2073 			if (CFGROM_PARSED(nnode) == B_TRUE) {
2074 				rw_enter(&hal->target_list_rwlock, RW_WRITER);
2075 				/* Update the target list */
2076 				if ((t = onode->target_list) != NULL) {
2077 					nnode->target_list = t;
2078 					while (t != NULL) {
2079 						t->on_node = nnode;
2080 						t = t->target_sibling;
2081 					}
2082 				}
2083 				rw_exit(&hal->target_list_rwlock);
2084 			}
2085 			break;
2086 		}
2087 	}
2088 
2089 	TNF_PROBE_0_DEBUG(s1394_match_GUID_exit, S1394_TNF_SL_HOTPLUG_STACK,
2090 	    "");
2091 
2092 	return (ret);
2093 }
2094 
2095 /*
2096  * s1394_match_all_GUIDs()
2097  *    attempt to match each node in the current topology tree with the a
2098  *    node in the old topology tree.  If unable to relock the tree, returns
2099  *    DDI_FAILURE, else returns DDI_SUCCESS.
2100  */
2101 static int
2102 s1394_match_all_GUIDs(s1394_hal_t *hal)
2103 {
2104 	int node;
2105 	int ret = DDI_SUCCESS;
2106 	s1394_node_t *nnode;
2107 
2108 	TNF_PROBE_0_DEBUG(s1394_match_all_GUIDs_enter,
2109 	    S1394_TNF_SL_HOTPLUG_STACK, "");
2110 
2111 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
2112 
2113 	for (node = 0; node < hal->number_of_nodes; node++) {
2114 		nnode = &hal->topology_tree[node];
2115 		if (LINK_ACTIVE(nnode) == B_FALSE || CFGROM_BIB_READ(nnode) ==
2116 		    B_FALSE)
2117 			continue;
2118 		if (NODE_MATCHED(nnode)) {
2119 			/*
2120 			 * Skip if node matched. If config rom generations
2121 			 * changed, we want to call s1394_match_GUID() even
2122 			 * if the nodes matched.
2123 			 */
2124 			int gen_changed;
2125 			s1394_node_t *onode = nnode->old_node;
2126 
2127 			gen_changed = (onode && onode->cfgrom &&
2128 			    CONFIG_ROM_GEN(onode->cfgrom) != CONFIG_ROM_GEN(
2129 			    nnode->cfgrom)) ? 1 : 0;
2130 
2131 			if (CFGROM_GEN_CHANGED(nnode) == 0 && gen_changed == 0)
2132 				continue;
2133 		}
2134 
2135 		if (s1394_match_GUID(hal, nnode) == DDI_FAILURE) {
2136 			ret = DDI_FAILURE;
2137 		}
2138 	}
2139 
2140 	TNF_PROBE_0_DEBUG(s1394_match_all_GUIDs_exit,
2141 	    S1394_TNF_SL_HOTPLUG_STACK, "");
2142 
2143 	return (ret);
2144 }
2145 
2146 /*
2147  * s1394_valid_cfgrom()
2148  *    Performs crc check on the config rom. Returns B_TRUE if config rom has
2149  *    good CRC else returns B_FALSE.
2150  */
2151 /* ARGSUSED */
2152 boolean_t
2153 s1394_valid_cfgrom(s1394_hal_t *hal, s1394_node_t *node)
2154 {
2155 	uint32_t crc_len, crc_value, CRC, CRC_old, quad0;
2156 
2157 	TNF_PROBE_0_DEBUG(s1394_valid_cfgrom_enter, S1394_TNF_SL_HOTPLUG_STACK,
2158 	    "");
2159 
2160 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
2161 	ASSERT(node->cfgrom);
2162 
2163 	if (s1394_enable_crc_validation == 0) {
2164 		TNF_PROBE_1_DEBUG(s1394_valid_cfgrom_exit,
2165 		    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string, msg,
2166 		    "validation turned off");
2167 		return (B_TRUE);
2168 	}
2169 
2170 	quad0 = node->cfgrom[0];
2171 	crc_len = (quad0 >> IEEE1394_CFG_ROM_CRC_LEN_SHIFT) &
2172 	    IEEE1394_CFG_ROM_CRC_LEN_MASK;
2173 	crc_value = quad0 & IEEE1394_CFG_ROM_CRC_VALUE_MASK;
2174 
2175 	if (node->cfgrom_valid_size < crc_len + 1) {
2176 		TNF_PROBE_4(s1394_valid_cfgrom_not_enough,
2177 		    S1394_TNF_SL_HOTPLUG_ERROR, "",
2178 		    tnf_uint, node_guid_hi, node->node_guid_hi,
2179 		    tnf_uint, node_guid_lo, node->node_guid_lo,
2180 		    tnf_uint, crc_len, crc_len,
2181 		    tnf_uint, valid_size, node->cfgrom_valid_size);
2182 		TNF_PROBE_0_DEBUG(s1394_valid_cfgrom_exit,
2183 		    S1394_TNF_SL_HOTPLUG_STACK, "");
2184 		return (B_FALSE);
2185 	}
2186 
2187 	CRC = s1394_CRC16(&node->cfgrom[1], crc_len);
2188 
2189 	if (CRC != crc_value) {
2190 		CRC_old = s1394_CRC16_old(&node->cfgrom[1], crc_len);
2191 		if (CRC_old == crc_value) {
2192 			TNF_PROBE_4_DEBUG(s1394_valid_cfgrom_busted_crc,
2193 			    S1394_TNF_SL_HOTPLUG_ERROR, "",
2194 			    tnf_uint, node_guid_hi, node->node_guid_hi,
2195 			    tnf_uint, node_guid_lo, node->node_guid_lo,
2196 			    tnf_uint, node_num, node->node_num,
2197 			    tnf_uint, crc_len, crc_len);
2198 			TNF_PROBE_0_DEBUG(s1394_valid_cfgrom_exit,
2199 			    S1394_TNF_SL_HOTPLUG_STACK, "");
2200 			return (B_TRUE);
2201 		}
2202 
2203 		cmn_err(CE_NOTE,
2204 		    "!Bad CRC in config rom (node's GUID %08x%08x)",
2205 		    node->node_guid_hi, node->node_guid_lo);
2206 
2207 		TNF_PROBE_5(s1394_valid_cfgrom_bad_crc,
2208 		    S1394_TNF_SL_HOTPLUG_ERROR, "",
2209 		    tnf_uint, node_guid_hi, node->node_guid_hi,
2210 		    tnf_uint, node_guid_lo, node->node_guid_lo,
2211 		    tnf_uint, crc_len, crc_len,
2212 		    tnf_uint, crc, crc_value, tnf_uint, crc_computed, CRC);
2213 		TNF_PROBE_0_DEBUG(s1394_valid_cfgrom_exit,
2214 		    S1394_TNF_SL_HOTPLUG_STACK, "");
2215 		return (B_FALSE);
2216 	}
2217 
2218 	TNF_PROBE_3_DEBUG(s1394_valid_cfgrom_exit, S1394_TNF_SL_HOTPLUG_STACK,
2219 	    "", tnf_uint, node_num, node->node_num, tnf_uint, crc_len, crc_len,
2220 	    tnf_uint, crc, crc_value);
2221 
2222 	return (B_TRUE);
2223 }
2224 
2225 /*
2226  * s1394_valid_dir()
2227  *    Performs crc check on a directory.  Returns B_TRUE if dir has good CRC
2228  *    else returns B_FALSE.
2229  */
2230 /*ARGSUSED*/
2231 boolean_t
2232 s1394_valid_dir(s1394_hal_t *hal, s1394_node_t *node,
2233     uint32_t key, uint32_t *dir)
2234 {
2235 	uint32_t dir_len, crc_value, CRC, CRC_old, quad0;
2236 
2237 	TNF_PROBE_0_DEBUG(s1394_valid_dir_enter, S1394_TNF_SL_HOTPLUG_STACK,
2238 	    "");
2239 
2240 	/*
2241 	 * Ideally, we would like to do crc validations for the entire cfgrom
2242 	 * as well as the individual directories. However, we have seen devices
2243 	 * that have valid directories but busted cfgrom crc and devices that
2244 	 * have bad crcs in directories as well as for the entire cfgrom. This
2245 	 * is sad, but unfortunately, real world!
2246 	 */
2247 	if (s1394_enable_crc_validation == 0) {
2248 		TNF_PROBE_1_DEBUG(s1394_valid_dir_exit,
2249 		    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string, msg,
2250 		    "validation turned off");
2251 		return (B_TRUE);
2252 	}
2253 
2254 	quad0 = dir[0];
2255 
2256 	dir_len = IEEE1212_DIR_LEN(quad0);
2257 	crc_value = IEEE1212_DIR_CRC(quad0);
2258 
2259 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
2260 
2261 	CRC = s1394_CRC16(&dir[1], dir_len);
2262 
2263 	if (CRC != crc_value) {
2264 		CRC_old = s1394_CRC16_old(&dir[1], dir_len);
2265 		if (CRC_old == crc_value) {
2266 			TNF_PROBE_5_DEBUG(s1394_valid_dir_crc_old,
2267 			    S1394_TNF_SL_HOTPLUG_STACK, "",
2268 			    tnf_uint, node_guid_hi, node->node_guid_hi,
2269 			    tnf_uint, node_guid_lo, node->node_guid_lo,
2270 			    tnf_uint, node_num, node->node_num,
2271 			    tnf_uint, key, key, tnf_uint, dir_len, dir_len);
2272 			TNF_PROBE_0_DEBUG(s1394_valid_dir_exit,
2273 			    S1394_TNF_SL_HOTPLUG_STACK, "");
2274 			return (B_TRUE);
2275 		}
2276 
2277 		TNF_PROBE_5(s1394_valid_dir_bad_crc,
2278 		    S1394_TNF_SL_HOTPLUG_STACK, "",
2279 		    tnf_uint, node_guid_hi, node->node_guid_hi,
2280 		    tnf_uint, node_guid_lo, node->node_guid_lo,
2281 		    tnf_uint, node_num, node->node_num,
2282 		    tnf_uint, key, key, tnf_uint, dir_len, dir_len);
2283 
2284 		TNF_PROBE_0_DEBUG(s1394_valid_dir_exit,
2285 			    S1394_TNF_SL_HOTPLUG_STACK, "");
2286 		return (B_FALSE);
2287 	}
2288 
2289 	TNF_PROBE_4_DEBUG(s1394_valid_dir,
2290 	    S1394_TNF_SL_HOTPLUG_STACK, "",
2291 	    tnf_uint, node_guid_hi, node->node_guid_hi,
2292 	    tnf_uint, node_guid_lo, node->node_guid_lo,
2293 	    tnf_uint, node_num, node->node_num, tnf_uint, key, key);
2294 
2295 	return (B_TRUE);
2296 }
2297 
2298 /*
2299  * s1394_become_bus_mgr()
2300  *    is a callback from a timeout() setup by the main br_thread.  After
2301  *    a bus reset, depending on the Bus Manager's incumbancy and the state
2302  *    of its abdicate bit, a timer of a certain length is set.  After this
2303  *    time expires, the local host may attempt to become the Bus Manager.
2304  *    This is done by sending a request to the current IRM on the bus.  The
2305  *    IRM holds the BUS_MANAGER_ID register.  Depending on whether or not
2306  *    the local host is already the IRM, we will send a request onto the
2307  *    1394 bus or call into the HAL.
2308  */
2309 static void
2310 s1394_become_bus_mgr(void *arg)
2311 {
2312 	s1394_hal_t	 *hal;
2313 	s1394_cmd_priv_t *s_priv;
2314 	cmd1394_cmd_t	 *cmd;
2315 	uint64_t	 Bus_Mgr_ID_addr;
2316 	uint32_t	 hal_node_num;
2317 	uint32_t	 old_value;
2318 	uint32_t	 generation;
2319 	uint_t		 curr_bus_mgr;
2320 	uint_t		 bm_node;
2321 	uint_t		 IRM_node;
2322 	int		 err;
2323 	int		 ret;
2324 
2325 	TNF_PROBE_0_DEBUG(s1394_become_bus_mgr_enter, S1394_TNF_SL_BR_STACK,
2326 	    "");
2327 
2328 	hal = (s1394_hal_t *)arg;
2329 
2330 	/* Lock the topology tree */
2331 	mutex_enter(&hal->topology_tree_mutex);
2332 
2333 	hal_node_num = IEEE1394_NODE_NUM(hal->node_id);
2334 	generation   = hal->generation_count;
2335 	IRM_node = hal->IRM_node;
2336 
2337 	mutex_enter(&hal->bus_mgr_node_mutex);
2338 	bm_node = hal->bus_mgr_node;
2339 	mutex_exit(&hal->bus_mgr_node_mutex);
2340 
2341 	/* Unlock the topology tree */
2342 	mutex_exit(&hal->topology_tree_mutex);
2343 
2344 	/* Make sure we aren't already the Bus Manager */
2345 	if (bm_node != -1) {
2346 		TNF_PROBE_0_DEBUG(s1394_become_bus_mgr_exit,
2347 		    S1394_TNF_SL_BR_STACK, "");
2348 		return;
2349 	}
2350 
2351 	/* Send compare-swap to BUS_MANAGER_ID */
2352 	/* register on the Isoch Rsrc Mgr */
2353 	if (IRM_node == hal_node_num) {
2354 		/* Local */
2355 		ret = HAL_CALL(hal).csr_cswap32(hal->halinfo.hal_private,
2356 		    generation, (IEEE1394_SCSR_BUSMGR_ID &
2357 		    IEEE1394_CSR_OFFSET_MASK), S1394_INVALID_NODE_NUM,
2358 		    hal_node_num, &old_value);
2359 		if (ret != DDI_SUCCESS) {
2360 			TNF_PROBE_1(s1394_become_bus_mgr_error,
2361 			    S1394_TNF_SL_BR_ERROR, "", tnf_string, msg,
2362 			    "Error in cswap32");
2363 			TNF_PROBE_0_DEBUG(s1394_become_bus_mgr_exit,
2364 			    S1394_TNF_SL_BR_STACK, "");
2365 			return;
2366 		}
2367 		curr_bus_mgr = IEEE1394_NODE_NUM(old_value);
2368 
2369 		mutex_enter(&hal->bus_mgr_node_mutex);
2370 		if ((curr_bus_mgr == S1394_INVALID_NODE_NUM) ||
2371 		    (curr_bus_mgr == hal_node_num)) {
2372 			hal->bus_mgr_node = hal_node_num;
2373 			hal->incumbent_bus_mgr = B_TRUE;
2374 		} else {
2375 			hal->bus_mgr_node = curr_bus_mgr;
2376 			hal->incumbent_bus_mgr = B_FALSE;
2377 		}
2378 		cv_signal(&hal->bus_mgr_node_cv);
2379 		mutex_exit(&hal->bus_mgr_node_mutex);
2380 
2381 	} else {
2382 		/* Remote */
2383 		if (s1394_alloc_cmd(hal, T1394_ALLOC_CMD_NOSLEEP, &cmd) !=
2384 		    DDI_SUCCESS) {
2385 			TNF_PROBE_1(s1394_become_bus_mgr_error,
2386 			    S1394_TNF_SL_BR_ERROR, "", tnf_string, msg,
2387 			    "Error in s1394_alloc_cmd()");
2388 			TNF_PROBE_0_DEBUG(s1394_become_bus_mgr_exit,
2389 			    S1394_TNF_SL_BR_STACK, "");
2390 			return;
2391 		}
2392 
2393 		cmd->cmd_options	   = (CMD1394_CANCEL_ON_BUS_RESET |
2394 		    CMD1394_OVERRIDE_ADDR);
2395 		cmd->cmd_type		   = CMD1394_ASYNCH_LOCK_32;
2396 		cmd->completion_callback   = s1394_become_bus_mgr_callback;
2397 		Bus_Mgr_ID_addr		   = (IEEE1394_ADDR_BUS_ID_MASK |
2398 		    IEEE1394_SCSR_BUSMGR_ID) |
2399 		    (((uint64_t)hal->IRM_node) << IEEE1394_ADDR_PHY_ID_SHIFT);
2400 		cmd->cmd_addr		   = Bus_Mgr_ID_addr;
2401 		cmd->bus_generation	   = generation;
2402 		cmd->cmd_u.l32.arg_value   = T1394_DATA32(
2403 		    S1394_INVALID_NODE_NUM);
2404 		cmd->cmd_u.l32.data_value  = T1394_DATA32(hal_node_num);
2405 		cmd->cmd_u.l32.num_retries = 0;
2406 		cmd->cmd_u.l32.lock_type   = CMD1394_LOCK_COMPARE_SWAP;
2407 
2408 		/* Get the Services Layer private area */
2409 		s_priv = S1394_GET_CMD_PRIV(cmd);
2410 
2411 		/* Lock the topology tree */
2412 		mutex_enter(&hal->topology_tree_mutex);
2413 
2414 		ret = s1394_setup_asynch_command(hal, NULL, cmd,
2415 		    S1394_CMD_LOCK, &err);
2416 
2417 		/* Unlock the topology tree */
2418 		mutex_exit(&hal->topology_tree_mutex);
2419 
2420 		/* Command has now been put onto the queue! */
2421 		if (ret != DDI_SUCCESS) {
2422 			/* Need to free the command */
2423 			(void) s1394_free_cmd(hal, (cmd1394_cmd_t **)&cmd);
2424 			TNF_PROBE_1(s1394_become_bus_mgr_error,
2425 			    S1394_TNF_SL_BR_ERROR, "", tnf_string, msg,
2426 			    "Error in s1394_setup_asynch_command()");
2427 			TNF_PROBE_0_DEBUG(s1394_become_bus_mgr_exit,
2428 			    S1394_TNF_SL_BR_STACK, "");
2429 			return;
2430 		}
2431 
2432 		/* Send the command out */
2433 		ret = s1394_xfer_asynch_command(hal, cmd, &err);
2434 
2435 		if (ret != DDI_SUCCESS) {
2436 			/* Remove cmd outstanding request Q */
2437 			s1394_remove_q_asynch_cmd(hal, cmd);
2438 
2439 			s_priv->cmd_in_use = B_FALSE;
2440 
2441 			mutex_enter(&hal->bus_mgr_node_mutex);
2442 
2443 			/* Don't know who the bus_mgr is */
2444 			hal->bus_mgr_node = S1394_INVALID_NODE_NUM;
2445 			hal->incumbent_bus_mgr = B_FALSE;
2446 
2447 			cv_signal(&hal->bus_mgr_node_cv);
2448 			mutex_exit(&hal->bus_mgr_node_mutex);
2449 
2450 			/* Need to free the command */
2451 			(void) s1394_free_cmd(hal, (cmd1394_cmd_t **)&cmd);
2452 		}
2453 	}
2454 
2455 	TNF_PROBE_0_DEBUG(s1394_become_bus_mgr_exit, S1394_TNF_SL_BR_STACK,
2456 	    "");
2457 }
2458 
2459 /*
2460  * s1394_become_bus_mgr_callback()
2461  *    is the callback used by s1394_become_bus_mgr() when it is necessary
2462  *    to send the Bus Manager request to a remote IRM.  After the completion
2463  *    of the compare-swap request, this routine looks at the "old_value"
2464  *    in the request to determine whether or not it has become the Bus
2465  *    Manager for the current generation.  It sets the bus_mgr_node and
2466  *    incumbent_bus_mgr fields to their appropriate values.
2467  */
2468 static void
2469 s1394_become_bus_mgr_callback(cmd1394_cmd_t *cmd)
2470 {
2471 	s1394_cmd_priv_t *s_priv;
2472 	s1394_hal_t *hal;
2473 	uint32_t hal_node_num;
2474 	uint32_t temp;
2475 	uint_t curr_bus_mgr;
2476 
2477 	TNF_PROBE_0_DEBUG(s1394_become_bus_mgr_callback_enter,
2478 	    S1394_TNF_SL_BR_STACK, "");
2479 
2480 	/* Get the Services Layer private area */
2481 	s_priv = S1394_GET_CMD_PRIV(cmd);
2482 
2483 	hal = (s1394_hal_t *)s_priv->sent_on_hal;
2484 
2485 	/* Lock the topology tree */
2486 	mutex_enter(&hal->topology_tree_mutex);
2487 
2488 	hal_node_num = IEEE1394_NODE_NUM(hal->node_id);
2489 
2490 	/* Was the command successful? */
2491 	if (cmd->cmd_result == CMD1394_CMDSUCCESS) {
2492 		temp = T1394_DATA32(cmd->cmd_u.l32.old_value);
2493 		curr_bus_mgr = IEEE1394_NODE_NUM(temp);
2494 		mutex_enter(&hal->bus_mgr_node_mutex);
2495 		if ((curr_bus_mgr == S1394_INVALID_NODE_NUM) ||
2496 		    (curr_bus_mgr == hal_node_num)) {
2497 
2498 			hal->bus_mgr_node = hal_node_num;
2499 			hal->incumbent_bus_mgr = B_TRUE;
2500 
2501 		} else {
2502 			hal->bus_mgr_node = curr_bus_mgr;
2503 			hal->incumbent_bus_mgr = B_FALSE;
2504 		}
2505 		cv_signal(&hal->bus_mgr_node_cv);
2506 		mutex_exit(&hal->bus_mgr_node_mutex);
2507 
2508 	} else {
2509 		TNF_PROBE_2(s1394_become_bus_mgr_callback_error,
2510 		    S1394_TNF_SL_BR_ERROR, "", tnf_string, msg,
2511 		    "Error while attempting to become bus manager",
2512 		    tnf_uint, status, cmd->cmd_result);
2513 
2514 		mutex_enter(&hal->bus_mgr_node_mutex);
2515 
2516 		/* Don't know who the bus_mgr is */
2517 		hal->bus_mgr_node = S1394_INVALID_NODE_NUM;
2518 		hal->incumbent_bus_mgr = B_FALSE;
2519 
2520 		cv_signal(&hal->bus_mgr_node_cv);
2521 		mutex_exit(&hal->bus_mgr_node_mutex);
2522 	}
2523 
2524 	/* Need to free the command */
2525 	(void) s1394_free_cmd(hal, (cmd1394_cmd_t **)&cmd);
2526 
2527 	/* Unlock the topology tree */
2528 	mutex_exit(&hal->topology_tree_mutex);
2529 
2530 	TNF_PROBE_0_DEBUG(s1394_become_bus_mgr_callback_exit,
2531 	    S1394_TNF_SL_BR_STACK, "");
2532 }
2533 
2534 /*
2535  * s1394_bus_mgr_processing()
2536  *    is called following "phase1" completion of reading Bus_Info_Blocks.
2537  *    Its purpose is to determine whether the local node is capable of
2538  *    becoming the Bus Manager (has the IRMC bit set) and if so to call
2539  *    the s1394_do_bus_mgr_processing() routine.
2540  *    NOTE: we overload DDI_FAILURE return value to mean jump back to
2541  *    the start of bus reset processing.
2542  */
2543 static int
2544 s1394_bus_mgr_processing(s1394_hal_t *hal)
2545 {
2546 	int ret;
2547 	int IRM_node_num;
2548 
2549 	TNF_PROBE_0_DEBUG(s1394_bus_mgr_processing_enter,
2550 	    S1394_TNF_SL_BR_STACK, "");
2551 
2552 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
2553 
2554 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
2555 		return (DDI_FAILURE);
2556 	}
2557 	IRM_node_num = hal->IRM_node;
2558 	s1394_unlock_tree(hal);
2559 
2560 	ret = DDI_SUCCESS;
2561 
2562 	/* If we are IRM capable, then do bus_mgr stuff... */
2563 	if (hal->halinfo.bus_capabilities & IEEE1394_BIB_IRMC_MASK) {
2564 		/* If there is an IRM, then do bus_mgr stuff */
2565 		if (IRM_node_num != -1) {
2566 			if (s1394_do_bus_mgr_processing(hal))
2567 				ret = DDI_FAILURE;
2568 		}
2569 	}
2570 
2571 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
2572 
2573 	TNF_PROBE_0_DEBUG(s1394_bus_mgr_processing_exit,
2574 	    S1394_TNF_SL_BR_STACK, "");
2575 	return (ret);
2576 }
2577 
2578 /*
2579  * s1394_do_bus_mgr_processing()
2580  *    is used to perform those operations expected of the Bus Manager.
2581  *    After being called, s1394_do_bus_mgr_processing() looks at the value
2582  *    in bus_mgr_node and waits if it is -1 (Bus Manager has not been
2583  *    chosen yet).  Then, if there is more than one node on the 1394 bus,
2584  *    and we are either the Bus Manager or (if there is no Bus Manager)
2585  *    the IRM, it optimizes the gap_count and/or sets the cycle master's
2586  *    root holdoff bit (to ensure that the cycle master is/stays root).
2587  *
2588  *    NOTE: we overload DDI_FAILURE return value to mean jump back to
2589  *    the start of bus reset processing.
2590  */
2591 static int
2592 s1394_do_bus_mgr_processing(s1394_hal_t *hal)
2593 {
2594 	int	ret;
2595 	int	IRM_flags, hal_bus_mgr_node;
2596 	int	IRM_node_num;
2597 	uint_t	hal_node_num, number_of_nodes;
2598 	int	new_root, new_gap_cnt;
2599 
2600 	TNF_PROBE_0_DEBUG(s1394_do_bus_mgr_processing_enter,
2601 	    S1394_TNF_SL_BR_STACK, "");
2602 
2603 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
2604 
2605 	/* Wait for Bus Manager to be determined */
2606 	/* or a Bus Reset to happen */
2607 	mutex_enter(&hal->bus_mgr_node_mutex);
2608 	if (hal->bus_mgr_node == -1)
2609 		cv_wait(&hal->bus_mgr_node_cv, &hal->bus_mgr_node_mutex);
2610 
2611 	/* Check if a BUS RESET has come while we've been waiting */
2612 	mutex_enter(&hal->br_thread_mutex);
2613 	if (hal->br_thread_ev_type & (BR_THR_CFGROM_SCAN | BR_THR_GO_AWAY)) {
2614 
2615 		mutex_exit(&hal->br_thread_mutex);
2616 		mutex_exit(&hal->bus_mgr_node_mutex);
2617 
2618 		TNF_PROBE_0_DEBUG(s1394_do_bus_mgr_processing_exit,
2619 		    S1394_TNF_SL_BR_STACK, "");
2620 		return (1);
2621 	}
2622 	mutex_exit(&hal->br_thread_mutex);
2623 
2624 	hal_bus_mgr_node = hal->bus_mgr_node;
2625 	mutex_exit(&hal->bus_mgr_node_mutex);
2626 
2627 	if (s1394_lock_tree(hal) != DDI_SUCCESS) {
2628 		return (1);
2629 	}
2630 	hal_node_num = IEEE1394_NODE_NUM(hal->node_id);
2631 	IRM_node_num = hal->IRM_node;
2632 	number_of_nodes = hal->number_of_nodes;
2633 
2634 	ret = 0;
2635 
2636 	/* If we are the bus_mgr or if there is no bus_mgr */
2637 	/* the IRM and there is > 1 nodes on the bus */
2638 	if ((number_of_nodes > 1) &&
2639 	    ((hal_bus_mgr_node == (int)hal_node_num) ||
2640 		((hal_bus_mgr_node == S1394_INVALID_NODE_NUM) &&
2641 		    (IRM_node_num == (int)hal_node_num)))) {
2642 
2643 		IRM_flags = 0;
2644 
2645 		/* Make sure the root node is cycle master capable */
2646 		if (!s1394_cycle_master_capable(hal)) {
2647 			/* Make the local node root */
2648 			new_root = hal_node_num;
2649 			IRM_flags = IRM_flags | ROOT_HOLDOFF;
2650 
2651 			/* If setting root, then optimize gap_count */
2652 			new_gap_cnt = hal->optimum_gap_count;
2653 			IRM_flags = IRM_flags | GAP_COUNT;
2654 
2655 		} else {
2656 			/* Make sure root's ROOT_HOLDOFF bit is set */
2657 			new_root = (number_of_nodes - 1);
2658 			IRM_flags = IRM_flags | ROOT_HOLDOFF;
2659 		}
2660 		if (hal->gap_count > hal->optimum_gap_count) {
2661 			/* Set the gap_count to optimum */
2662 			new_gap_cnt = hal->optimum_gap_count;
2663 			IRM_flags = IRM_flags | GAP_COUNT;
2664 
2665 		}
2666 
2667 		s1394_unlock_tree(hal);
2668 
2669 		if (IRM_flags) {
2670 			ret = s1394_do_phy_config_pkt(hal, new_root,
2671 			    new_gap_cnt, IRM_flags);
2672 		}
2673 		TNF_PROBE_0_DEBUG(s1394_do_bus_mgr_processing_exit,
2674 		    S1394_TNF_SL_BR_STACK, "");
2675 		return (ret);
2676 	}
2677 
2678 	s1394_unlock_tree(hal);
2679 
2680 	TNF_PROBE_0_DEBUG(s1394_do_bus_mgr_processing_exit,
2681 	    S1394_TNF_SL_BR_STACK, "");
2682 	return (ret);
2683 }
2684 
2685 /*
2686  * s1394_bus_mgr_timers_stop()
2687  *    Cancels bus manager timeouts
2688  */
2689 /*ARGSUSED*/
2690 static void
2691 s1394_bus_mgr_timers_stop(s1394_hal_t *hal, timeout_id_t *bus_mgr_query_tid,
2692     timeout_id_t *bus_mgr_tid)
2693 {
2694 	TNF_PROBE_0_DEBUG(s1394_bus_mgr_timers_stop_enter,
2695 	    S1394_TNF_SL_BR_STACK, "");
2696 
2697 	/* Cancel the Bus Mgr timeouts (if necessary) */
2698 	if (*bus_mgr_tid != 0) {
2699 		(void) untimeout(*bus_mgr_tid);
2700 		*bus_mgr_tid = 0;
2701 	}
2702 	if (*bus_mgr_query_tid != 0) {
2703 		(void) untimeout(*bus_mgr_query_tid);
2704 		*bus_mgr_query_tid = 0;
2705 	}
2706 
2707 	TNF_PROBE_0_DEBUG(s1394_bus_mgr_timers_stop_exit,
2708 	    S1394_TNF_SL_BR_STACK, "");
2709 }
2710 
2711 /*
2712  * s1394_bus_mgr_timers_start()
2713  *    Starts bus manager timeouts if the hal is IRM capable.
2714  */
2715 static void
2716 s1394_bus_mgr_timers_start(s1394_hal_t *hal, timeout_id_t *bus_mgr_query_tid,
2717     timeout_id_t *bus_mgr_tid)
2718 {
2719 	boolean_t incumbant;
2720 	uint_t	  hal_node_num;
2721 	int	  IRM_node_num;
2722 
2723 	TNF_PROBE_0_DEBUG(s1394_bus_mgr_timers_start_enter,
2724 	    S1394_TNF_SL_BR_STACK, "");
2725 
2726 	mutex_enter(&hal->topology_tree_mutex);
2727 
2728 	IRM_node_num = hal->IRM_node;
2729 	hal_node_num = hal->node_id;
2730 
2731 	mutex_enter(&hal->bus_mgr_node_mutex);
2732 	incumbant = hal->incumbent_bus_mgr;
2733 	mutex_exit(&hal->bus_mgr_node_mutex);
2734 
2735 	/* If we are IRM capable, then do bus_mgr stuff... */
2736 	if (hal->halinfo.bus_capabilities & IEEE1394_BIB_IRMC_MASK) {
2737 		/*
2738 		 * If we are the IRM, then wait 625ms
2739 		 * before checking BUS_MANAGER_ID register
2740 		 */
2741 		if (IRM_node_num == IEEE1394_NODE_NUM(hal_node_num)) {
2742 
2743 			TNF_PROBE_0_DEBUG(s1394_bus_mgr_timers_625ms,
2744 			    S1394_TNF_SL_BR_STACK, "");
2745 
2746 			mutex_exit(&hal->topology_tree_mutex);
2747 
2748 			/* Wait 625ms, then check bus manager */
2749 			*bus_mgr_query_tid = timeout(s1394_become_bus_mgr,
2750 			    hal, drv_usectohz(IEEE1394_BM_IRM_TIMEOUT));
2751 
2752 			mutex_enter(&hal->topology_tree_mutex);
2753 		}
2754 
2755 		/* If there is an IRM on the bus */
2756 		if (IRM_node_num != -1) {
2757 			if ((incumbant == B_TRUE) &&
2758 			    (hal->abdicate_bus_mgr_bit == 0)) {
2759 				mutex_exit(&hal->topology_tree_mutex);
2760 
2761 				/* Try to become bus manager */
2762 				s1394_become_bus_mgr(hal);
2763 
2764 				mutex_enter(&hal->topology_tree_mutex);
2765 			} else {
2766 				hal->abdicate_bus_mgr_bit = 0;
2767 
2768 				TNF_PROBE_0_DEBUG(s1394_bus_mgr_timers_125ms,
2769 				    S1394_TNF_SL_BR_STACK, "");
2770 
2771 				mutex_exit(&hal->topology_tree_mutex);
2772 
2773 				/* Wait 125ms, then try to become bus manager */
2774 				*bus_mgr_tid = timeout(s1394_become_bus_mgr,
2775 				    hal, drv_usectohz(
2776 					IEEE1394_BM_INCUMBENT_TIMEOUT));
2777 
2778 				mutex_enter(&hal->topology_tree_mutex);
2779 			}
2780 		} else {
2781 			mutex_enter(&hal->bus_mgr_node_mutex);
2782 			hal->incumbent_bus_mgr = B_FALSE;
2783 			mutex_exit(&hal->bus_mgr_node_mutex);
2784 		}
2785 	}
2786 
2787 	mutex_exit(&hal->topology_tree_mutex);
2788 
2789 	TNF_PROBE_0_DEBUG(s1394_bus_mgr_timers_start_exit,
2790 	    S1394_TNF_SL_BR_STACK, "");
2791 }
2792 
2793 /*
2794  * s1394_get_maxpayload()
2795  *    is used to determine a device's maximum payload size.  That is to
2796  *    say, the largest packet that can be transmitted or received by the
2797  *    the target device given the current topological (speed) constraints
2798  *    and the constraints specified in the local host's and remote device's
2799  *    Config ROM (max_rec).  Caller must hold the topology_tree_mutex and
2800  *    the target_list_rwlock as an RW_READER (at least).
2801  */
2802 /*ARGSUSED*/
2803 void
2804 s1394_get_maxpayload(s1394_target_t *target, uint_t *dev_max_payload,
2805     uint_t *current_max_payload)
2806 {
2807 	s1394_hal_t *hal;
2808 	uint32_t bus_capabilities;
2809 	uint32_t from_node;
2810 	uint32_t to_node;
2811 	uint_t local_max_rec;
2812 	uint_t local_max_blk;
2813 	uint_t max_rec;
2814 	uint_t max_blk;
2815 	uint_t curr_speed;
2816 	uint_t speed_max_blk;
2817 	uint_t temp;
2818 
2819 	TNF_PROBE_0_DEBUG(s1394_get_maxpayload_enter,
2820 	    S1394_TNF_SL_HOTPLUG_STACK, "");
2821 
2822 	/* Find the HAL this target resides on */
2823 	hal = target->on_hal;
2824 
2825 	/* Make sure we're holding the topology_tree_mutex */
2826 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
2827 
2828 	/* Set dev_max_payload to local (HAL's) size */
2829 	bus_capabilities = target->on_hal->halinfo.bus_capabilities;
2830 	local_max_rec = (bus_capabilities & IEEE1394_BIB_MAXREC_MASK) >>
2831 	    IEEE1394_BIB_MAXREC_SHIFT;
2832 	if ((local_max_rec > 0) && (local_max_rec < 14)) {
2833 		local_max_blk = 1 << (local_max_rec + 1);
2834 	} else {
2835 		/* These are either unspecified or reserved */
2836 		local_max_blk = 4;
2837 	}
2838 
2839 	/* Is this target on a node? */
2840 	if ((target->target_state & S1394_TARG_GONE) == 0 &&
2841 	    (target->on_node != NULL)) {
2842 		ASSERT(target->on_node->cfgrom != NULL);
2843 
2844 		bus_capabilities =
2845 		    target->on_node->cfgrom[IEEE1212_NODE_CAP_QUAD];
2846 		max_rec = (bus_capabilities & IEEE1394_BIB_MAXREC_MASK) >>
2847 		    IEEE1394_BIB_MAXREC_SHIFT;
2848 
2849 		if ((max_rec > 0) && (max_rec < 14)) {
2850 			max_blk = 1 << (max_rec + 1);
2851 		} else {
2852 			/* These are either unspecified or reserved */
2853 			max_blk = 4;
2854 		}
2855 		(*dev_max_payload) = max_blk;
2856 
2857 		from_node = IEEE1394_NODE_NUM(target->on_hal->node_id);
2858 		to_node = (target->on_node->node_num);
2859 
2860 		/* Speed is to be filled in from speed map */
2861 		curr_speed = (uint_t)s1394_speed_map_get(target->on_hal,
2862 		    from_node, to_node);
2863 		speed_max_blk = 512 << curr_speed;
2864 		temp = (local_max_blk < max_blk) ? local_max_blk : max_blk;
2865 		(*current_max_payload) = (temp < speed_max_blk) ? temp :
2866 		    speed_max_blk;
2867 	} else {
2868 		/* Set dev_max_payload to local (HAL's) size */
2869 		(*dev_max_payload) = local_max_blk;
2870 		(*current_max_payload) = local_max_blk;
2871 	}
2872 
2873 	TNF_PROBE_0_DEBUG(s1394_get_maxpayload_exit,
2874 	    S1394_TNF_SL_HOTPLUG_STACK, "");
2875 }
2876 
2877 /*
2878  * s1394_cycle_master_capable()
2879  *    is used to determine whether or not the current root node on the
2880  *    1394 bus has its CMC-bit set in it Config ROM.  If not, then it
2881  *    is not capable of being cycle master and a new root node must be
2882  *    selected.
2883  */
2884 static int
2885 s1394_cycle_master_capable(s1394_hal_t *hal)
2886 {
2887 	s1394_node_t	*root;
2888 	int		cycle_master_capable;
2889 	uint_t		hal_node_num;
2890 
2891 	TNF_PROBE_0_DEBUG(s1394_cycle_master_capable_enter,
2892 	    S1394_TNF_SL_HOTPLUG_STACK, "");
2893 
2894 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
2895 
2896 	hal_node_num = IEEE1394_NODE_NUM(hal->node_id);
2897 
2898 	/* Get a pointer to the root node */
2899 	root = s1394_topology_tree_get_root_node(hal);
2900 
2901 	/* Ignore, if we are already root */
2902 	if (root == &hal->topology_tree[hal_node_num]) {
2903 		TNF_PROBE_2_DEBUG(s1394_cmstr_capable_hal,
2904 		    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_int,
2905 		    node_num, hal_node_num, tnf_int, ret, 1);
2906 		return (1);
2907 	}
2908 
2909 	/*
2910 	 * We want to pick a new root if link is off or we don't have
2911 	 * valid config rom
2912 	 */
2913 	if (LINK_ACTIVE(root) == B_FALSE || root->cfgrom == NULL ||
2914 	    CFGROM_BIB_READ(root) == 0) {
2915 
2916 		TNF_PROBE_4_DEBUG(s1394_cmstr_capable_not_hal,
2917 		    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_int,
2918 		    root, root->node_num, tnf_int, link_active,
2919 		    LINK_ACTIVE(root), tnf_opaque, cfgrom, root->cfgrom,
2920 		    tnf_int, bib, CFGROM_BIB_READ(root));
2921 
2922 		return (0);
2923 	}
2924 
2925 	/* Check the Cycle Master bit in the Bus Info Block */
2926 	cycle_master_capable = root->cfgrom[IEEE1212_NODE_CAP_QUAD] &
2927 	    IEEE1394_BIB_CMC_MASK;
2928 
2929 	if (cycle_master_capable) {
2930 		TNF_PROBE_1_DEBUG(s1394_cmstr_capable_root,
2931 		    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_int,
2932 		    root, root->node_num);
2933 		return (1);
2934 	} else {
2935 		TNF_PROBE_1(s1394_cmstr_not_capable_root,
2936 		    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_int,
2937 		    root, root->node_num);
2938 		return (0);
2939 	}
2940 }
2941 
2942 /*
2943  * s1394_do_phy_config_pkt()
2944  *    is called by s1394_do_bus_mgr_processing() to setup and send out
2945  *    a PHY configuration packet onto the 1394 bus.  Depending on the
2946  *    values in IRM_flags, the gap_count and root_holdoff bits on the
2947  *    bus will be affected by this packet.
2948  *
2949  *    NOTE: we overload DDI_FAILURE return value to mean jump back to
2950  *    the start of bus reset processing.
2951  */
2952 static int
2953 s1394_do_phy_config_pkt(s1394_hal_t *hal, int new_root, int new_gap_cnt,
2954     uint32_t IRM_flags)
2955 {
2956 	cmd1394_cmd_t	 *cmd;
2957 	s1394_cmd_priv_t *s_priv;
2958 	h1394_cmd_priv_t *h_priv;
2959 	uint32_t	 pkt_data = 0;
2960 	uint32_t	 gap_cnt = 0;
2961 	uint32_t	 root = 0;
2962 	int		 ret, result;
2963 	uint_t		 flags = 0;
2964 
2965 	TNF_PROBE_0_DEBUG(s1394_do_phy_config_pkt_enter,
2966 	    S1394_TNF_SL_HOTPLUG_STACK, "");
2967 
2968 	/* Gap count needs to be optimized */
2969 	if (IRM_flags & GAP_COUNT) {
2970 
2971 		pkt_data = pkt_data | IEEE1394_PHY_CONFIG_T_BIT_MASK;
2972 		gap_cnt = ((uint32_t)new_gap_cnt) <<
2973 		    IEEE1394_PHY_CONFIG_GAP_CNT_SHIFT;
2974 		gap_cnt = gap_cnt & IEEE1394_PHY_CONFIG_GAP_CNT_MASK;
2975 		pkt_data = pkt_data | gap_cnt;
2976 
2977 		(void) HAL_CALL(hal).set_gap_count(hal->halinfo.hal_private,
2978 		    (uint_t)new_gap_cnt);
2979 	}
2980 
2981 	/* Root node needs to be changed */
2982 	if (IRM_flags & ROOT_HOLDOFF) {
2983 
2984 		pkt_data = pkt_data | IEEE1394_PHY_CONFIG_R_BIT_MASK;
2985 		root = ((uint32_t)new_root) <<
2986 		    IEEE1394_PHY_CONFIG_ROOT_HOLD_SHIFT;
2987 		root = root & IEEE1394_PHY_CONFIG_ROOT_HOLD_MASK;
2988 		pkt_data = pkt_data | root;
2989 
2990 		(void) HAL_CALL(hal).set_root_holdoff_bit(
2991 		    hal->halinfo.hal_private);
2992 	}
2993 
2994 
2995 	if (IRM_flags) {
2996 		if (s1394_alloc_cmd(hal, flags, &cmd) != DDI_SUCCESS) {
2997 			TNF_PROBE_1_DEBUG(s1394_do_phy_config_pkt_error,
2998 			    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string, msg,
2999 			    "Unable to allocate PHY config packet");
3000 			TNF_PROBE_0_DEBUG(s1394_do_phy_config_pkt_exit,
3001 			    S1394_TNF_SL_HOTPLUG_STACK, "");
3002 			return (0);
3003 		}
3004 
3005 		if (s1394_lock_tree(hal) != DDI_SUCCESS) {
3006 			/* lock tree failure indicates a bus gen change */
3007 			(void) s1394_free_cmd(hal, (cmd1394_cmd_t **)&cmd);
3008 			TNF_PROBE_0_DEBUG(s1394_do_phy_config_pkt_exit,
3009 			    S1394_TNF_SL_HOTPLUG_STACK, "");
3010 			return (1);
3011 		}
3012 
3013 		/* Setup the callback routine */
3014 		cmd->completion_callback  = s1394_phy_config_callback;
3015 		cmd->cmd_callback_arg	  = (void *)(uintptr_t)IRM_flags;
3016 		cmd->bus_generation	  = hal->generation_count;
3017 		cmd->cmd_options	  = CMD1394_OVERRIDE_ADDR;
3018 		cmd->cmd_type		  = CMD1394_ASYNCH_WR_QUAD;
3019 		cmd->cmd_u.q.quadlet_data = pkt_data;
3020 
3021 		/* Get the Services Layer private area */
3022 		s_priv = S1394_GET_CMD_PRIV(cmd);
3023 
3024 		/* Get a pointer to the HAL private struct */
3025 		h_priv = (h1394_cmd_priv_t *)&s_priv->hal_cmd_private;
3026 
3027 		s_priv->sent_by_target	= (s1394_target_t *)NULL;
3028 		s_priv->sent_on_hal	= (s1394_hal_t *)hal;
3029 
3030 		h_priv->bus_generation	= cmd->bus_generation;
3031 
3032 		/* Speed must be IEEE1394_S100 on PHY config packets */
3033 		s_priv->hal_cmd_private.speed = IEEE1394_S100;
3034 
3035 		/* Mark command as being used */
3036 		s_priv->cmd_in_use = B_TRUE;
3037 
3038 		s1394_unlock_tree(hal);
3039 
3040 		/* Put command on the HAL's outstanding request Q */
3041 		s1394_insert_q_asynch_cmd(hal, cmd);
3042 
3043 		ret = HAL_CALL(hal).send_phy_configuration_packet(
3044 		    hal->halinfo.hal_private, (cmd1394_cmd_t *)cmd,
3045 		    (h1394_cmd_priv_t *)&s_priv->hal_cmd_private, &result);
3046 
3047 		if (ret != DDI_SUCCESS) {
3048 			TNF_PROBE_2_DEBUG(s1394_do_phy_config_pkt_error,
3049 			    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string, msg,
3050 			    "Unable to send PHY config packet",
3051 			    tnf_int, result, result);
3052 
3053 			(void) s1394_free_cmd(hal, (cmd1394_cmd_t **)&cmd);
3054 
3055 			TNF_PROBE_0_DEBUG(s1394_do_phy_config_pkt_exit,
3056 			    S1394_TNF_SL_HOTPLUG_STACK, "");
3057 			return (0);
3058 
3059 		} else {
3060 			/*
3061 			 * There will be a bus reset only if GAP_COUNT changed
3062 			 */
3063 			if (IRM_flags & GAP_COUNT) {
3064 				return (1);
3065 			}
3066 		}
3067 	}
3068 
3069 	TNF_PROBE_0_DEBUG(s1394_do_phy_config_pkt_exit,
3070 	    S1394_TNF_SL_HOTPLUG_STACK, "");
3071 	return (0);
3072 }
3073 
3074 /*
3075  * s1394_phy_config_callback()
3076  *    is the callback called after the PHY configuration packet has been
3077  *    sent out onto the 1394 bus.  Depending on the values in IRM_flags,
3078  *    (specifically if the gap_count has been changed) this routine may
3079  *    initiate a bus reset.
3080  */
3081 static void
3082 s1394_phy_config_callback(cmd1394_cmd_t *cmd)
3083 {
3084 	s1394_cmd_priv_t *s_priv;
3085 	s1394_hal_t *hal;
3086 	uint32_t IRM_flags;
3087 
3088 	TNF_PROBE_0_DEBUG(s1394_phy_config_callback_enter,
3089 	    S1394_TNF_SL_HOTPLUG_STACK, "");
3090 
3091 	/* Get the Services Layer private area */
3092 	s_priv = S1394_GET_CMD_PRIV(cmd);
3093 
3094 	hal = (s1394_hal_t *)s_priv->sent_on_hal;
3095 
3096 	IRM_flags = (uint32_t)(uintptr_t)cmd->cmd_callback_arg;
3097 
3098 	if (cmd->cmd_result != CMD1394_CMDSUCCESS) {
3099 		TNF_PROBE_2_DEBUG(s1394_do_phy_config_pkt_error,
3100 		    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string, msg,
3101 		    "Error sending PHY config packet",
3102 		    tnf_int, result, cmd->cmd_result);
3103 		(void) s1394_free_cmd(hal, &cmd);
3104 	} else {
3105 		(void) s1394_free_cmd(hal, &cmd);
3106 
3107 		/* Only need a bus reset if we changed GAP_COUNT */
3108 		if (IRM_flags & GAP_COUNT) {
3109 			s1394_initiate_hal_reset(hal, NON_CRITICAL);
3110 		}
3111 	}
3112 
3113 	TNF_PROBE_0_DEBUG(s1394_phy_config_callback_exit,
3114 	    S1394_TNF_SL_HOTPLUG_STACK, "");
3115 }
3116 
3117 /*
3118  * s1394_lock_tree()
3119  *    Attempts to lock the topology tree. Returns DDI_FAILURE if generations
3120  *    changed or if the services layer signals the bus reset thread to go
3121  *    away. Otherwise, returns DDI_SUCCESS.
3122  */
3123 int
3124 s1394_lock_tree(s1394_hal_t *hal)
3125 {
3126 	int	circular;
3127 
3128 	ASSERT(MUTEX_NOT_HELD(&hal->br_thread_mutex));
3129 	ASSERT(MUTEX_NOT_HELD(&hal->topology_tree_mutex));
3130 
3131 	TNF_PROBE_0_DEBUG(s1394_lock_tree_enter, S1394_TNF_SL_HOTPLUG_STACK,
3132 	    "");
3133 
3134 	mutex_enter(&hal->br_thread_mutex);
3135 	ndi_devi_enter(hal->halinfo.dip, &circular);
3136 	mutex_enter(&hal->topology_tree_mutex);
3137 
3138 	if ((hal->br_thread_ev_type & BR_THR_GO_AWAY) != 0) {
3139 		TNF_PROBE_2(s1394_lock_tree_go_away,
3140 		    S1394_TNF_SL_HOTPLUG_STACK, "",
3141 		    tnf_int, hal_generation, hal->generation_count,
3142 		    tnf_int, br_thread_gen, hal->br_cfgrom_read_gen);
3143 		TNF_PROBE_0_DEBUG(s1394_lock_tree_exit,
3144 		    S1394_TNF_SL_HOTPLUG_STACK, "");
3145 		mutex_exit(&hal->br_thread_mutex);
3146 		mutex_exit(&hal->topology_tree_mutex);
3147 		ndi_devi_exit(hal->halinfo.dip, circular);
3148 		return (DDI_FAILURE);
3149 	} else if (hal->br_cfgrom_read_gen != hal->generation_count) {
3150 		TNF_PROBE_2(s1394_lock_tree_gen_changed,
3151 		    S1394_TNF_SL_HOTPLUG_STACK, "",
3152 		    tnf_int, hal_generation, hal->generation_count,
3153 		    tnf_int, br_thread_gen, hal->br_cfgrom_read_gen);
3154 
3155 		TNF_PROBE_0_DEBUG(s1394_lock_tree_exit,
3156 		    S1394_TNF_SL_HOTPLUG_STACK, "");
3157 		mutex_exit(&hal->br_thread_mutex);
3158 		mutex_exit(&hal->topology_tree_mutex);
3159 		ndi_devi_exit(hal->halinfo.dip, circular);
3160 		return (DDI_FAILURE);
3161 	}
3162 
3163 	mutex_exit(&hal->br_thread_mutex);
3164 
3165 	TNF_PROBE_0_DEBUG(s1394_lock_tree_exit, S1394_TNF_SL_HOTPLUG_STACK, "");
3166 
3167 	return (DDI_SUCCESS);
3168 }
3169 
3170 /*
3171  * s1394_unlock_tree()
3172  *    Unlocks the topology tree
3173  */
3174 void
3175 s1394_unlock_tree(s1394_hal_t *hal)
3176 {
3177 	TNF_PROBE_0_DEBUG(s1394_unlock_tree_enter, S1394_TNF_SL_HOTPLUG_STACK,
3178 	    "");
3179 
3180 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
3181 	mutex_exit(&hal->topology_tree_mutex);
3182 	ndi_devi_exit(hal->halinfo.dip, 0);
3183 
3184 	TNF_PROBE_0_DEBUG(s1394_unlock_tree_exit, S1394_TNF_SL_HOTPLUG_STACK,
3185 	    "");
3186 }
3187 
3188 /*
3189  * s1394_calc_next_quad()
3190  *    figures out the next quadlet to read. This maintains a stack of
3191  *    directories in the node. When the first quad of a directory (the
3192  *    first directory would be the root directory) is read, it is pushed on
3193  *    the this stack. When the directory is all read, it scans the directory
3194  *    looking for indirect entries. If any indirect directory entry is found,
3195  *    it is pushed on stack and that directory is read. If we are done dealing
3196  *    with all entries in the current dir, the directory is popped off the
3197  *    stack. If the stack is empty, we are back at the root directory level
3198  *    and essentially read the entire directory hierarchy.
3199  *    Returns 0 is more quads to read, else returns non-zero.
3200  */
3201 static int
3202 s1394_calc_next_quad(s1394_hal_t *hal, s1394_node_t *node, uint32_t quadlet,
3203     uint32_t *nextquadp)
3204 {
3205 	uint32_t data, type, key, value, *ptr;
3206 
3207 	ASSERT(MUTEX_HELD(&hal->topology_tree_mutex));
3208 
3209 	TNF_PROBE_4_DEBUG(s1394_calc_next_quad_enter,
3210 	    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_uint, node_num, node->node_num,
3211 	    tnf_uint, quadlet, quadlet, tnf_int, cfgrom_size, node->cfgrom_size,
3212 	    tnf_uint, hal_gen, hal->generation_count);
3213 
3214 	if (((quadlet + 1) >= node->cfgrom_size) ||
3215 	    (CFGROM_SIZE_IS_CRCSIZE(node) == B_TRUE && (quadlet + 1) >=
3216 		node->cfgrom_valid_size)) {
3217 		TNF_PROBE_0_DEBUG(s1394_calc_next_quad_exit,
3218 		    S1394_TNF_SL_HOTPLUG_STACK, "");
3219 		return (1);
3220 	}
3221 
3222 	if (s1394_turn_off_dir_stack != 0 || CFGROM_DIR_STACK_OFF(node) ==
3223 	    B_TRUE) {
3224 		quadlet++;
3225 		*nextquadp = quadlet;
3226 		TNF_PROBE_3_DEBUG(s1394_calc_next_quad_exit,
3227 		    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string, msg,
3228 		    "dir stack turned off", tnf_uint, quadlet, quadlet,
3229 		    tnf_opaque, cfgrom, node->cfgrom);
3230 		return (0);
3231 	}
3232 
3233 	data = node->cfgrom[quadlet];
3234 
3235 	if (quadlet == IEEE1212_ROOT_DIR_QUAD) {
3236 		node->dir_stack_top = -1;
3237 		node->expected_dir_quad = quadlet;
3238 		node->expected_type = IEEE1212_IMMEDIATE_TYPE;
3239 	}
3240 
3241 	CFGROM_TYPE_KEY_VALUE(data, type, key, value);
3242 
3243 	/*
3244 	 * check to make sure we are looking at a dir. If the config rom
3245 	 * is broken, then revert to normal scanning of the config rom
3246 	 */
3247 	if (node->expected_dir_quad == quadlet) {
3248 		if (type != 0 || key != 0) {
3249 			TNF_PROBE_3_DEBUG(s1394_calc_next_quad,
3250 			    S1394_TNF_SL_HOTPLUG_ERROR, "", tnf_string, msg,
3251 			    "bad directory turning off stack", tnf_uint,
3252 			    quadlet, quadlet, tnf_uint, data, data);
3253 			SET_CFGROM_DIR_STACK_OFF(node);
3254 			quadlet = IEEE1212_ROOT_DIR_QUAD;
3255 		} else {
3256 			node->cur_dir_start = quadlet;
3257 			node->cur_dir_size = IEEE1212_DIR_LEN(data);
3258 			node->expected_dir_quad = 0;
3259 			/* get the next quad */
3260 			quadlet++;
3261 		}
3262 	} else {
3263 		/*
3264 		 * If we read all quads in cur dir and the cur dir is not
3265 		 * a leaf, scan for offsets (if the directory's CRC checks
3266 		 * out OK). If we have a directory or a leaf, we save the
3267 		 * current location on the stack and start reading that
3268 		 * directory. So, we will end up with a depth first read of
3269 		 * the entire config rom. If we are done with the current
3270 		 * directory, pop it off the stack and continue the scanning
3271 		 * as appropriate.
3272 		 */
3273 		if (quadlet == node->cur_dir_start + node->cur_dir_size) {
3274 
3275 			int i, top;
3276 			boolean_t done_with_cur_dir = B_FALSE;
3277 
3278 			if (node->expected_type == IEEE1212_LEAF_TYPE) {
3279 				node->expected_type = IEEE1212_IMMEDIATE_TYPE;
3280 				done_with_cur_dir = B_TRUE;
3281 				TNF_PROBE_2_DEBUG(s1394_calc_next_quad,
3282 				    S1394_TNF_SL_HOTPLUG_STACK, "",
3283 				    tnf_string, msg, "done with a leaf",
3284 				    tnf_uint, quadlet, quadlet);
3285 				goto donewithcurdir;
3286 			}
3287 
3288 			ptr = &node->cfgrom[node->cur_dir_start];
3289 			CFGROM_TYPE_KEY_VALUE(*ptr, type, key, value);
3290 
3291 			/*
3292 			 * If CRC for this directory is invalid, turn off
3293 			 * dir stack and start re-reading from root dir.
3294 			 * This wastes the work done thus far, but CRC
3295 			 * errors in directories should be rather rare.
3296 			 * if s1394_crcsz_is_cfgsz is set, then set
3297 			 * cfgrom_valid_size to the len specfied as crc len
3298 			 * in quadlet 0.
3299 			 */
3300 			if (s1394_valid_dir(hal, node, key, ptr) == B_FALSE) {
3301 				SET_CFGROM_DIR_STACK_OFF(node);
3302 				if (s1394_crcsz_is_cfgsz != 0) {
3303 					SET_CFGROM_SIZE_IS_CRCSIZE(node);
3304 					node->cfgrom_valid_size =
3305 					    ((node->cfgrom[0] >>
3306 					    IEEE1394_CFG_ROM_CRC_LEN_SHIFT) &
3307 					    IEEE1394_CFG_ROM_CRC_LEN_MASK);
3308 					TNF_PROBE_2(s1394_calc_next_quad,
3309 					    S1394_TNF_SL_HOTPLUG_ERROR, "",
3310 					    tnf_string, msg, "crc sz is cfg sz",
3311 					    tnf_uint, size,
3312 					    node->cfgrom_valid_size);
3313 				}
3314 				TNF_PROBE_2_DEBUG(s1394_calc_next_quad_exit,
3315 				    S1394_TNF_SL_HOTPLUG_STACK, "", tnf_string,
3316 				    msg, "crc error", tnf_uint, quadlet,
3317 				    quadlet);
3318 				*nextquadp = IEEE1212_ROOT_DIR_QUAD;
3319 				return (0);
3320 			}
3321 			i = node->cur_dir_start + 1;
3322 		rescan:
3323 			for (done_with_cur_dir = B_FALSE; i <=
3324 			    node->cur_dir_start + node->cur_dir_size; i++) {
3325 				data = node->cfgrom[i];
3326 				CFGROM_TYPE_KEY_VALUE(data, type, key, value);
3327 				/* read leaf type and directory types only */
3328 				if (type == IEEE1212_LEAF_TYPE || type ==
3329 				    IEEE1212_DIRECTORY_TYPE) {
3330 
3331 					/*
3332 					 * push current dir on stack; if the
3333 					 * stack is overflowing, ie, too many
3334 					 * directory level nestings, turn off
3335 					 * dir stack and fall back to serial
3336 					 * scanning, starting at root dir. This
3337 					 * wastes all the work we have done
3338 					 * thus far, but more than 16 levels
3339 					 * of directories is rather odd...
3340 					 */
3341 					top = ++node->dir_stack_top;
3342 					if (top == S1394_DIR_STACK_SIZE) {
3343 
3344 						TNF_PROBE_2_DEBUG(
3345 						    s1394_calc_next_quad_exit,
3346 						    S1394_TNF_SL_HOTPLUG_STACK,
3347 						    "", tnf_string, msg,
3348 						    "dir stack overflow",
3349 						    tnf_uint, quadlet, quadlet);
3350 						SET_CFGROM_DIR_STACK_OFF(node);
3351 						*nextquadp =
3352 						    IEEE1212_ROOT_DIR_QUAD;
3353 						return (0);
3354 					}
3355 
3356 					TNF_PROBE_3_DEBUG(
3357 					    s1394_calc_next_quad,
3358 					    S1394_TNF_SL_HOTPLUG_STACK, "",
3359 					    tnf_string, msg, "push dir stack",
3360 					    tnf_uint, quadlet, quadlet,
3361 					    tnf_int, top, top);
3362 
3363 					node->dir_stack[top].dir_start =
3364 					    node->cur_dir_start;
3365 					node->dir_stack[top].dir_size =
3366 					    node->cur_dir_size;
3367 					node->dir_stack[top].dir_next_quad =
3368 					    i + 1;
3369 					/* and set the next quadlet to read */
3370 					quadlet = i + value;
3371 					node->expected_dir_quad = quadlet;
3372 					node->expected_type = type;
3373 					break;
3374 				}
3375 			}
3376 
3377 		donewithcurdir:
3378 
3379 			if ((i > node->cur_dir_start + node->cur_dir_size) ||
3380 				done_with_cur_dir == B_TRUE) {
3381 
3382 				/*
3383 				 * all done with cur dir; pop it off the stack
3384 				 */
3385 				if (node->dir_stack_top >= 0) {
3386 					TNF_PROBE_3_DEBUG(
3387 					    s1394_calc_next_quad_exit,
3388 					    S1394_TNF_SL_HOTPLUG_STACK, "",
3389 					    tnf_string, msg, "pop dir stack",
3390 					    tnf_uint, quadlet, quadlet,
3391 					    tnf_int, top, node->dir_stack_top);
3392 					top = node->dir_stack_top--;
3393 					node->cur_dir_start =
3394 					    node->dir_stack[top].dir_start;
3395 					node->cur_dir_size =
3396 					    node->dir_stack[top].dir_size;
3397 					i = node->dir_stack[top].dir_next_quad;
3398 					goto rescan;
3399 				} else {
3400 					/*
3401 					 * if empty stack, we are at the top
3402 					 * level; declare done.
3403 					 */
3404 					TNF_PROBE_1_DEBUG(
3405 					    s1394_calc_next_quad_exit,
3406 					    S1394_TNF_SL_HOTPLUG_STACK, "",
3407 					    tnf_string, msg, "all done");
3408 					return (1);
3409 				}
3410 			}
3411 		} else {
3412 			/* get the next quadlet */
3413 			quadlet++;
3414 		}
3415 	}
3416 	*nextquadp = quadlet;
3417 
3418 	TNF_PROBE_1_DEBUG(s1394_calc_next_quad_exit, S1394_TNF_SL_HOTPLUG_STACK,
3419 	    "", tnf_uint, next_quad, quadlet);
3420 
3421 	return (0);
3422 }
3423