xref: /titanic_51/usr/src/uts/common/io/fibre-channel/ulp/fcp.c (revision 87cc626978cedbea111888dba5e4042df5cf532c)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2009 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  *
25  * Fibre Channel SCSI ULP Mapping driver
26  */
27 
28 #include <sys/scsi/scsi.h>
29 #include <sys/types.h>
30 #include <sys/varargs.h>
31 #include <sys/devctl.h>
32 #include <sys/thread.h>
33 #include <sys/thread.h>
34 #include <sys/open.h>
35 #include <sys/file.h>
36 #include <sys/sunndi.h>
37 #include <sys/console.h>
38 #include <sys/proc.h>
39 #include <sys/time.h>
40 #include <sys/utsname.h>
41 #include <sys/scsi/impl/scsi_reset_notify.h>
42 #include <sys/ndi_impldefs.h>
43 #include <sys/byteorder.h>
44 #include <sys/fs/dv_node.h>
45 #include <sys/ctype.h>
46 #include <sys/sunmdi.h>
47 
48 #include <sys/fibre-channel/fc.h>
49 #include <sys/fibre-channel/impl/fc_ulpif.h>
50 #include <sys/fibre-channel/ulp/fcpvar.h>
51 
52 /*
53  * Discovery Process
54  * =================
55  *
56  *    The discovery process is a major function of FCP.	 In order to help
57  * understand that function a flow diagram is given here.  This diagram
58  * doesn't claim to cover all the cases and the events that can occur during
59  * the discovery process nor the subtleties of the code.  The code paths shown
60  * are simplified.  Its purpose is to help the reader (and potentially bug
61  * fixer) have an overall view of the logic of the code.  For that reason the
62  * diagram covers the simple case of the line coming up cleanly or of a new
63  * port attaching to FCP the link being up.  The reader must keep in mind
64  * that:
65  *
66  *	- There are special cases where bringing devices online and offline
67  *	  is driven by Ioctl.
68  *
69  *	- The behavior of the discovery process can be modified through the
70  *	  .conf file.
71  *
72  *	- The line can go down and come back up at any time during the
73  *	  discovery process which explains some of the complexity of the code.
74  *
75  * ............................................................................
76  *
77  * STEP 1: The line comes up or a new Fibre Channel port attaches to FCP.
78  *
79  *
80  *			+-------------------------+
81  *   fp/fctl module --->|    fcp_port_attach	  |
82  *			+-------------------------+
83  *	   |			     |
84  *	   |			     |
85  *	   |			     v
86  *	   |		+-------------------------+
87  *	   |		| fcp_handle_port_attach  |
88  *	   |		+-------------------------+
89  *	   |				|
90  *	   |				|
91  *	   +--------------------+	|
92  *				|	|
93  *				v	v
94  *			+-------------------------+
95  *			|   fcp_statec_callback	  |
96  *			+-------------------------+
97  *				    |
98  *				    |
99  *				    v
100  *			+-------------------------+
101  *			|    fcp_handle_devices	  |
102  *			+-------------------------+
103  *				    |
104  *				    |
105  *				    v
106  *			+-------------------------+
107  *			|   fcp_handle_mapflags	  |
108  *			+-------------------------+
109  *				    |
110  *				    |
111  *				    v
112  *			+-------------------------+
113  *			|     fcp_send_els	  |
114  *			|			  |
115  *			| PLOGI or PRLI To all the|
116  *			| reachable devices.	  |
117  *			+-------------------------+
118  *
119  *
120  * ............................................................................
121  *
122  * STEP 2: The callback functions of the PLOGI and/or PRLI requests sent during
123  *	   STEP 1 are called (it is actually the same function).
124  *
125  *
126  *			+-------------------------+
127  *			|    fcp_icmd_callback	  |
128  *   fp/fctl module --->|			  |
129  *			| callback for PLOGI and  |
130  *			| PRLI.			  |
131  *			+-------------------------+
132  *				     |
133  *				     |
134  *	    Received PLOGI Accept   /-\	  Received PRLI Accept
135  *		       _ _ _ _ _ _ /   \_ _ _ _ _ _
136  *		      |		   \   /	   |
137  *		      |		    \-/		   |
138  *		      |				   |
139  *		      v				   v
140  *	+-------------------------+	+-------------------------+
141  *	|     fcp_send_els	  |	|     fcp_send_scsi	  |
142  *	|			  |	|			  |
143  *	|	  PRLI		  |	|	REPORT_LUN	  |
144  *	+-------------------------+	+-------------------------+
145  *
146  * ............................................................................
147  *
148  * STEP 3: The callback functions of the SCSI commands issued by FCP are called
149  *	   (It is actually the same function).
150  *
151  *
152  *			    +-------------------------+
153  *   fp/fctl module ------->|	 fcp_scsi_callback    |
154  *			    +-------------------------+
155  *					|
156  *					|
157  *					|
158  *	Receive REPORT_LUN reply       /-\	Receive INQUIRY PAGE83 reply
159  *		  _ _ _ _ _ _ _ _ _ _ /	  \_ _ _ _ _ _ _ _ _ _ _ _
160  *		 |		      \	  /			  |
161  *		 |		       \-/			  |
162  *		 |			|			  |
163  *		 | Receive INQUIRY reply|			  |
164  *		 |			|			  |
165  *		 v			v			  v
166  * +------------------------+ +----------------------+ +----------------------+
167  * |  fcp_handle_reportlun  | |	 fcp_handle_inquiry  | |  fcp_handle_page83   |
168  * |(Called for each Target)| | (Called for each LUN)| |(Called for each LUN) |
169  * +------------------------+ +----------------------+ +----------------------+
170  *		 |			|			  |
171  *		 |			|			  |
172  *		 |			|			  |
173  *		 v			v			  |
174  *     +-----------------+	+-----------------+		  |
175  *     |  fcp_send_scsi	 |	|  fcp_send_scsi  |		  |
176  *     |		 |	|		  |		  |
177  *     |     INQUIRY	 |	| INQUIRY PAGE83  |		  |
178  *     |  (To each LUN)	 |	+-----------------+		  |
179  *     +-----------------+					  |
180  *								  |
181  *								  v
182  *						      +------------------------+
183  *						      |	 fcp_call_finish_init  |
184  *						      +------------------------+
185  *								  |
186  *								  v
187  *						 +-----------------------------+
188  *						 |  fcp_call_finish_init_held  |
189  *						 +-----------------------------+
190  *								  |
191  *								  |
192  *			   All LUNs scanned			 /-\
193  *			       _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __ /   \
194  *			      |					\   /
195  *			      |					 \-/
196  *			      v					  |
197  *		     +------------------+			  |
198  *		     |	fcp_finish_tgt	|			  |
199  *		     +------------------+			  |
200  *			      |	  Target Not Offline and	  |
201  *  Target Not Offline and    |	  not marked and tgt_node_state	  |
202  *  marked		     /-\  not FCP_TGT_NODE_ON_DEMAND	  |
203  *		_ _ _ _ _ _ /	\_ _ _ _ _ _ _ _		  |
204  *	       |	    \	/		|		  |
205  *	       |	     \-/		|		  |
206  *	       v				v		  |
207  * +----------------------------+     +-------------------+	  |
208  * |	 fcp_offline_target	|     |	 fcp_create_luns  |	  |
209  * |				|     +-------------------+	  |
210  * | A structure fcp_tgt_elem	|		|		  |
211  * | is created and queued in	|		v		  |
212  * | the FCP port list		|     +-------------------+	  |
213  * | port_offline_tgts.	 It	|     |	 fcp_pass_to_hp	  |	  |
214  * | will be unqueued by the	|     |			  |	  |
215  * | watchdog timer.		|     | Called for each	  |	  |
216  * +----------------------------+     | LUN. Dispatches	  |	  |
217  *		  |		      | fcp_hp_task	  |	  |
218  *		  |		      +-------------------+	  |
219  *		  |				|		  |
220  *		  |				|		  |
221  *		  |				|		  |
222  *		  |				+---------------->|
223  *		  |						  |
224  *		  +---------------------------------------------->|
225  *								  |
226  *								  |
227  *		All the targets (devices) have been scanned	 /-\
228  *				_ _ _ _	_ _ _ _	_ _ _ _ _ _ _ _ /   \
229  *			       |				\   /
230  *			       |				 \-/
231  *	    +-------------------------------------+		  |
232  *	    |		fcp_finish_init		  |		  |
233  *	    |					  |		  |
234  *	    | Signal broadcasts the condition	  |		  |
235  *	    | variable port_config_cv of the FCP  |		  |
236  *	    | port.  One potential code sequence  |		  |
237  *	    | waiting on the condition variable	  |		  |
238  *	    | the code sequence handling	  |		  |
239  *	    | BUS_CONFIG_ALL and BUS_CONFIG_DRIVER|		  |
240  *	    | The other is in the function	  |		  |
241  *	    | fcp_reconfig_wait which is called	  |		  |
242  *	    | in the transmit path preventing IOs |		  |
243  *	    | from going through till the disco-  |		  |
244  *	    | very process is over.		  |		  |
245  *	    +-------------------------------------+		  |
246  *			       |				  |
247  *			       |				  |
248  *			       +--------------------------------->|
249  *								  |
250  *								  v
251  *								Return
252  *
253  * ............................................................................
254  *
255  * STEP 4: The hot plug task is called (for each fcp_hp_elem).
256  *
257  *
258  *			+-------------------------+
259  *			|      fcp_hp_task	  |
260  *			+-------------------------+
261  *				     |
262  *				     |
263  *				     v
264  *			+-------------------------+
265  *			|     fcp_trigger_lun	  |
266  *			+-------------------------+
267  *				     |
268  *				     |
269  *				     v
270  *		   Bring offline    /-\	 Bring online
271  *		  _ _ _ _ _ _ _ _ _/   \_ _ _ _ _ _ _ _ _ _
272  *		 |		   \   /		   |
273  *		 |		    \-/			   |
274  *		 v					   v
275  *    +---------------------+			+-----------------------+
276  *    |	 fcp_offline_child  |			|      fcp_get_cip	|
277  *    +---------------------+			|			|
278  *						| Creates a dev_info_t	|
279  *						| or a mdi_pathinfo_t	|
280  *						| depending on whether	|
281  *						| mpxio is on or off.	|
282  *						+-----------------------+
283  *							   |
284  *							   |
285  *							   v
286  *						+-----------------------+
287  *						|  fcp_online_child	|
288  *						|			|
289  *						| Set device online	|
290  *						| using NDI or MDI.	|
291  *						+-----------------------+
292  *
293  * ............................................................................
294  *
295  * STEP 5: The watchdog timer expires.	The watch dog timer does much more that
296  *	   what is described here.  We only show the target offline path.
297  *
298  *
299  *			 +--------------------------+
300  *			 |	  fcp_watch	    |
301  *			 +--------------------------+
302  *				       |
303  *				       |
304  *				       v
305  *			 +--------------------------+
306  *			 |  fcp_scan_offline_tgts   |
307  *			 +--------------------------+
308  *				       |
309  *				       |
310  *				       v
311  *			 +--------------------------+
312  *			 |  fcp_offline_target_now  |
313  *			 +--------------------------+
314  *				       |
315  *				       |
316  *				       v
317  *			 +--------------------------+
318  *			 |   fcp_offline_tgt_luns   |
319  *			 +--------------------------+
320  *				       |
321  *				       |
322  *				       v
323  *			 +--------------------------+
324  *			 |     fcp_offline_lun	    |
325  *			 +--------------------------+
326  *				       |
327  *				       |
328  *				       v
329  *		     +----------------------------------+
330  *		     |	     fcp_offline_lun_now	|
331  *		     |					|
332  *		     | A request (or two if mpxio) is	|
333  *		     | sent to the hot plug task using	|
334  *		     | a fcp_hp_elem structure.		|
335  *		     +----------------------------------+
336  */
337 
338 /*
339  * Functions registered with DDI framework
340  */
341 static int fcp_attach(dev_info_t *devi, ddi_attach_cmd_t cmd);
342 static int fcp_detach(dev_info_t *devi, ddi_detach_cmd_t cmd);
343 static int fcp_open(dev_t *devp, int flag, int otype, cred_t *credp);
344 static int fcp_close(dev_t dev, int flag, int otype, cred_t *credp);
345 static int fcp_ioctl(dev_t dev, int cmd, intptr_t data, int mode,
346     cred_t *credp, int *rval);
347 
348 /*
349  * Functions registered with FC Transport framework
350  */
351 static int fcp_port_attach(opaque_t ulph, fc_ulp_port_info_t *pinfo,
352     fc_attach_cmd_t cmd,  uint32_t s_id);
353 static int fcp_port_detach(opaque_t ulph, fc_ulp_port_info_t *info,
354     fc_detach_cmd_t cmd);
355 static int fcp_port_ioctl(opaque_t ulph, opaque_t port_handle, dev_t dev,
356     int cmd, intptr_t data, int mode, cred_t *credp, int *rval,
357     uint32_t claimed);
358 static int fcp_els_callback(opaque_t ulph, opaque_t port_handle,
359     fc_unsol_buf_t *buf, uint32_t claimed);
360 static int fcp_data_callback(opaque_t ulph, opaque_t port_handle,
361     fc_unsol_buf_t *buf, uint32_t claimed);
362 static void fcp_statec_callback(opaque_t ulph, opaque_t port_handle,
363     uint32_t port_state, uint32_t port_top, fc_portmap_t *devlist,
364     uint32_t  dev_cnt, uint32_t port_sid);
365 
366 /*
367  * Functions registered with SCSA framework
368  */
369 static int fcp_phys_tgt_init(dev_info_t *hba_dip, dev_info_t *tgt_dip,
370     scsi_hba_tran_t *hba_tran, struct scsi_device *sd);
371 static int fcp_scsi_tgt_init(dev_info_t *hba_dip, dev_info_t *tgt_dip,
372     scsi_hba_tran_t *hba_tran, struct scsi_device *sd);
373 static void fcp_scsi_tgt_free(dev_info_t *hba_dip, dev_info_t *tgt_dip,
374     scsi_hba_tran_t *hba_tran, struct scsi_device *sd);
375 static int fcp_scsi_start(struct scsi_address *ap, struct scsi_pkt *pkt);
376 static int fcp_scsi_abort(struct scsi_address *ap, struct scsi_pkt *pkt);
377 static int fcp_scsi_reset(struct scsi_address *ap, int level);
378 static int fcp_scsi_getcap(struct scsi_address *ap, char *cap, int whom);
379 static int fcp_scsi_setcap(struct scsi_address *ap, char *cap, int value,
380     int whom);
381 static void fcp_pkt_teardown(struct scsi_pkt *pkt);
382 static int fcp_scsi_reset_notify(struct scsi_address *ap, int flag,
383     void (*callback)(caddr_t), caddr_t arg);
384 static int fcp_scsi_bus_get_eventcookie(dev_info_t *dip, dev_info_t *rdip,
385     char *name, ddi_eventcookie_t *event_cookiep);
386 static int fcp_scsi_bus_add_eventcall(dev_info_t *dip, dev_info_t *rdip,
387     ddi_eventcookie_t eventid, void (*callback)(), void *arg,
388     ddi_callback_id_t *cb_id);
389 static int fcp_scsi_bus_remove_eventcall(dev_info_t *devi,
390     ddi_callback_id_t cb_id);
391 static int fcp_scsi_bus_post_event(dev_info_t *dip, dev_info_t *rdip,
392     ddi_eventcookie_t eventid, void *impldata);
393 static int fcp_scsi_bus_config(dev_info_t *parent, uint_t flag,
394     ddi_bus_config_op_t op, void *arg, dev_info_t **childp);
395 static int fcp_scsi_bus_unconfig(dev_info_t *parent, uint_t flag,
396     ddi_bus_config_op_t op, void *arg);
397 
398 /*
399  * Internal functions
400  */
401 static int fcp_setup_device_data_ioctl(int cmd, struct fcp_ioctl *data,
402     int mode, int *rval);
403 
404 static int fcp_setup_scsi_ioctl(struct fcp_scsi_cmd *u_fscsi,
405     int mode, int *rval);
406 static int fcp_copyin_scsi_cmd(caddr_t base_addr,
407     struct fcp_scsi_cmd *fscsi, int mode);
408 static int fcp_copyout_scsi_cmd(struct fcp_scsi_cmd *fscsi,
409     caddr_t base_addr, int mode);
410 static int fcp_send_scsi_ioctl(struct fcp_scsi_cmd *fscsi);
411 
412 static struct fcp_tgt *fcp_port_create_tgt(struct fcp_port *pptr,
413     la_wwn_t *pwwn, int	*ret_val, int *fc_status, int *fc_pkt_state,
414     int *fc_pkt_reason, int *fc_pkt_action);
415 static int fcp_tgt_send_plogi(struct fcp_tgt *ptgt, int *fc_status,
416     int *fc_pkt_state, int *fc_pkt_reason, int *fc_pkt_action);
417 static int fcp_tgt_send_prli(struct fcp_tgt	*ptgt, int *fc_status,
418     int *fc_pkt_state, int *fc_pkt_reason, int *fc_pkt_action);
419 static void fcp_ipkt_sema_init(struct fcp_ipkt *icmd);
420 static int fcp_ipkt_sema_wait(struct fcp_ipkt *icmd);
421 static void fcp_ipkt_sema_callback(struct fc_packet *fpkt);
422 static void fcp_ipkt_sema_cleanup(struct fcp_ipkt *icmd);
423 
424 static void fcp_handle_devices(struct fcp_port *pptr,
425     fc_portmap_t devlist[], uint32_t dev_cnt, int link_cnt,
426     fcp_map_tag_t *map_tag, int cause);
427 static int fcp_handle_mapflags(struct fcp_port *pptr,
428     struct fcp_tgt *ptgt, fc_portmap_t *map_entry, int link_cnt,
429     int tgt_cnt, int cause);
430 static int fcp_send_els(struct fcp_port *pptr, struct fcp_tgt *ptgt,
431     struct fcp_ipkt *icmd, uchar_t opcode, int lcount, int tcount, int cause);
432 static void fcp_update_state(struct fcp_port *pptr, uint32_t state,
433     int cause);
434 static void fcp_update_tgt_state(struct fcp_tgt *ptgt, int flag,
435     uint32_t state);
436 static struct fcp_port *fcp_get_port(opaque_t port_handle);
437 static void fcp_unsol_callback(fc_packet_t *fpkt);
438 static void fcp_unsol_resp_init(fc_packet_t *pkt, fc_unsol_buf_t *buf,
439     uchar_t r_ctl, uchar_t type);
440 static int fcp_unsol_prli(struct fcp_port *pptr, fc_unsol_buf_t *buf);
441 static struct fcp_ipkt *fcp_icmd_alloc(struct fcp_port *pptr,
442     struct fcp_tgt *ptgt, int cmd_len, int resp_len, int data_len,
443     int nodma, int lcount, int tcount, int cause, uint32_t rscn_count);
444 static void fcp_icmd_free(struct fcp_port *pptr, struct fcp_ipkt *icmd);
445 static int fcp_alloc_dma(struct fcp_port *pptr, struct fcp_ipkt *icmd,
446     int nodma, int flags);
447 static void fcp_free_dma(struct fcp_port *pptr, struct fcp_ipkt *icmd);
448 static struct fcp_tgt *fcp_lookup_target(struct fcp_port *pptr,
449     uchar_t *wwn);
450 static struct fcp_tgt *fcp_get_target_by_did(struct fcp_port *pptr,
451     uint32_t d_id);
452 static void fcp_icmd_callback(fc_packet_t *fpkt);
453 static int fcp_send_scsi(struct fcp_lun *plun, uchar_t opcode,
454     int len, int lcount, int tcount, int cause, uint32_t rscn_count);
455 static int fcp_check_reportlun(struct fcp_rsp *rsp, fc_packet_t *fpkt);
456 static void fcp_scsi_callback(fc_packet_t *fpkt);
457 static void fcp_retry_scsi_cmd(fc_packet_t *fpkt);
458 static void fcp_handle_inquiry(fc_packet_t *fpkt, struct fcp_ipkt *icmd);
459 static void fcp_handle_reportlun(fc_packet_t *fpkt, struct fcp_ipkt *icmd);
460 static struct fcp_lun *fcp_get_lun(struct fcp_tgt *ptgt,
461     uint16_t lun_num);
462 static int fcp_finish_tgt(struct fcp_port *pptr, struct fcp_tgt *ptgt,
463     int link_cnt, int tgt_cnt, int cause);
464 static void fcp_finish_init(struct fcp_port *pptr);
465 static void fcp_create_luns(struct fcp_tgt *ptgt, int link_cnt,
466     int tgt_cnt, int cause);
467 static int fcp_trigger_lun(struct fcp_lun *plun, child_info_t *cip,
468     int old_mpxio, int online, int link_cnt, int tgt_cnt, int flags);
469 static int fcp_offline_target(struct fcp_port *pptr, struct fcp_tgt *ptgt,
470     int link_cnt, int tgt_cnt, int nowait, int flags);
471 static void fcp_offline_target_now(struct fcp_port *pptr,
472     struct fcp_tgt *ptgt, int link_cnt, int tgt_cnt, int flags);
473 static void fcp_offline_tgt_luns(struct fcp_tgt *ptgt, int link_cnt,
474     int tgt_cnt, int flags);
475 static void fcp_offline_lun(struct fcp_lun *plun, int link_cnt, int tgt_cnt,
476     int nowait, int flags);
477 static void fcp_prepare_offline_lun(struct fcp_lun *plun, int link_cnt,
478     int tgt_cnt);
479 static void fcp_offline_lun_now(struct fcp_lun *plun, int link_cnt,
480     int tgt_cnt, int flags);
481 static void fcp_scan_offline_luns(struct fcp_port *pptr);
482 static void fcp_scan_offline_tgts(struct fcp_port *pptr);
483 static void fcp_update_offline_flags(struct fcp_lun *plun);
484 static struct fcp_pkt *fcp_scan_commands(struct fcp_lun *plun);
485 static void fcp_abort_commands(struct fcp_pkt *head, struct
486     fcp_port *pptr);
487 static void fcp_cmd_callback(fc_packet_t *fpkt);
488 static void fcp_complete_pkt(fc_packet_t *fpkt);
489 static int fcp_validate_fcp_response(struct fcp_rsp *rsp,
490     struct fcp_port *pptr);
491 static int fcp_device_changed(struct fcp_port *pptr, struct fcp_tgt *ptgt,
492     fc_portmap_t *map_entry, int link_cnt, int tgt_cnt, int cause);
493 static struct fcp_lun *fcp_alloc_lun(struct fcp_tgt *ptgt);
494 static void fcp_dealloc_lun(struct fcp_lun *plun);
495 static struct fcp_tgt *fcp_alloc_tgt(struct fcp_port *pptr,
496     fc_portmap_t *map_entry, int link_cnt);
497 static void fcp_dealloc_tgt(struct fcp_tgt *ptgt);
498 static void fcp_queue_ipkt(struct fcp_port *pptr, fc_packet_t *fpkt);
499 static int fcp_transport(opaque_t port_handle, fc_packet_t *fpkt,
500     int internal);
501 static void fcp_log(int level, dev_info_t *dip, const char *fmt, ...);
502 static int fcp_handle_port_attach(opaque_t ulph, fc_ulp_port_info_t *pinfo,
503     uint32_t s_id, int instance);
504 static int fcp_handle_port_detach(struct fcp_port *pptr, int flag,
505     int instance);
506 static void fcp_cleanup_port(struct fcp_port *pptr, int instance);
507 static int fcp_kmem_cache_constructor(struct scsi_pkt *, scsi_hba_tran_t *,
508     int);
509 static void fcp_kmem_cache_destructor(struct  scsi_pkt *, scsi_hba_tran_t *);
510 static int fcp_pkt_setup(struct scsi_pkt *, int (*)(), caddr_t);
511 static int fcp_alloc_cmd_resp(struct fcp_port *pptr, fc_packet_t *fpkt,
512     int flags);
513 static void fcp_free_cmd_resp(struct fcp_port *pptr, fc_packet_t *fpkt);
514 static int fcp_reset_target(struct scsi_address *ap, int level);
515 static int fcp_commoncap(struct scsi_address *ap, char *cap,
516     int val, int tgtonly, int doset);
517 static int fcp_scsi_get_name(struct scsi_device *sd, char *name, int len);
518 static int fcp_scsi_get_bus_addr(struct scsi_device *sd, char *name, int len);
519 static int fcp_linkreset(struct fcp_port *pptr, struct scsi_address *ap,
520     int sleep);
521 static int fcp_handle_port_resume(opaque_t ulph, fc_ulp_port_info_t *pinfo,
522     uint32_t s_id, fc_attach_cmd_t cmd, int instance);
523 static void fcp_cp_pinfo(struct fcp_port *pptr, fc_ulp_port_info_t *pinfo);
524 static void fcp_process_elem(struct fcp_hp_elem *elem, int result);
525 static child_info_t *fcp_get_cip(struct fcp_lun *plun, child_info_t *cip,
526     int lcount, int tcount);
527 static int fcp_is_dip_present(struct fcp_lun *plun, dev_info_t *cdip);
528 static int fcp_is_child_present(struct fcp_lun *plun, child_info_t *cip);
529 static dev_info_t *fcp_create_dip(struct fcp_lun *plun, int link_cnt,
530     int tgt_cnt);
531 static dev_info_t *fcp_find_existing_dip(struct fcp_lun *plun,
532     dev_info_t *pdip, caddr_t name);
533 static int fcp_online_child(struct fcp_lun *plun, child_info_t *cip,
534     int lcount, int tcount, int flags, int *circ);
535 static int fcp_offline_child(struct fcp_lun *plun, child_info_t *cip,
536     int lcount, int tcount, int flags, int *circ);
537 static void fcp_remove_child(struct fcp_lun *plun);
538 static void fcp_watch(void *arg);
539 static void fcp_check_reset_delay(struct fcp_port *pptr);
540 static void fcp_abort_all(struct fcp_port *pptr, struct fcp_tgt *ttgt,
541     struct fcp_lun *rlun, int tgt_cnt);
542 struct fcp_port *fcp_soft_state_unlink(struct fcp_port *pptr);
543 static struct fcp_lun *fcp_lookup_lun(struct fcp_port *pptr,
544     uchar_t *wwn, uint16_t lun);
545 static void fcp_prepare_pkt(struct fcp_port *pptr, struct fcp_pkt *cmd,
546     struct fcp_lun *plun);
547 static void fcp_post_callback(struct fcp_pkt *cmd);
548 static int fcp_dopoll(struct fcp_port *pptr, struct fcp_pkt *cmd);
549 static struct fcp_port *fcp_dip2port(dev_info_t *dip);
550 struct fcp_lun *fcp_get_lun_from_cip(struct fcp_port *pptr,
551     child_info_t *cip);
552 static int fcp_pass_to_hp_and_wait(struct fcp_port *pptr,
553     struct fcp_lun *plun, child_info_t *cip, int what, int link_cnt,
554     int tgt_cnt, int flags);
555 static struct fcp_hp_elem *fcp_pass_to_hp(struct fcp_port *pptr,
556     struct fcp_lun *plun, child_info_t *cip, int what, int link_cnt,
557     int tgt_cnt, int flags, int wait);
558 static void fcp_retransport_cmd(struct fcp_port *pptr,
559     struct fcp_pkt *cmd);
560 static void fcp_fail_cmd(struct fcp_pkt *cmd, uchar_t reason,
561     uint_t statistics);
562 static void fcp_queue_pkt(struct fcp_port *pptr, struct fcp_pkt *cmd);
563 static void fcp_update_targets(struct fcp_port *pptr,
564     fc_portmap_t *dev_list, uint32_t count, uint32_t state, int cause);
565 static int fcp_call_finish_init(struct fcp_port *pptr,
566     struct fcp_tgt *ptgt, int lcount, int tcount, int cause);
567 static int fcp_call_finish_init_held(struct fcp_port *pptr,
568     struct fcp_tgt *ptgt, int lcount, int tcount, int cause);
569 static void fcp_reconfigure_luns(void * tgt_handle);
570 static void fcp_free_targets(struct fcp_port *pptr);
571 static void fcp_free_target(struct fcp_tgt *ptgt);
572 static int fcp_is_retryable(struct fcp_ipkt *icmd);
573 static int fcp_create_on_demand(struct fcp_port *pptr, uchar_t *pwwn);
574 static void fcp_ascii_to_wwn(caddr_t string, uchar_t bytes[], unsigned int);
575 static void fcp_wwn_to_ascii(uchar_t bytes[], char *string);
576 static void fcp_print_error(fc_packet_t *fpkt);
577 static int fcp_handle_ipkt_errors(struct fcp_port *pptr,
578     struct fcp_tgt *ptgt, struct fcp_ipkt *icmd, int rval, caddr_t op);
579 static int fcp_outstanding_lun_cmds(struct fcp_tgt *ptgt);
580 static fc_portmap_t *fcp_construct_map(struct fcp_port *pptr,
581     uint32_t *dev_cnt);
582 static void fcp_offline_all(struct fcp_port *pptr, int lcount, int cause);
583 static int fcp_get_statec_count(struct fcp_ioctl *data, int mode, int *rval);
584 static int fcp_copyin_fcp_ioctl_data(struct fcp_ioctl *, int, int *,
585     struct fcp_ioctl *, struct fcp_port **);
586 static char *fcp_get_lun_path(struct fcp_lun *plun);
587 static int fcp_get_target_mappings(struct fcp_ioctl *data, int mode,
588     int *rval);
589 static int fcp_do_ns_registry(struct fcp_port *pptr, uint32_t s_id);
590 static void fcp_retry_ns_registry(struct fcp_port *pptr, uint32_t s_id);
591 static char *fcp_get_lun_path(struct fcp_lun *plun);
592 static int fcp_get_target_mappings(struct fcp_ioctl *data, int mode,
593     int *rval);
594 static void fcp_reconfig_wait(struct fcp_port *pptr);
595 
596 /*
597  * New functions added for mpxio support
598  */
599 static int fcp_virt_tgt_init(dev_info_t *hba_dip, dev_info_t *tgt_dip,
600     scsi_hba_tran_t *hba_tran, struct scsi_device *sd);
601 static mdi_pathinfo_t *fcp_create_pip(struct fcp_lun *plun, int lcount,
602     int tcount);
603 static mdi_pathinfo_t *fcp_find_existing_pip(struct fcp_lun *plun,
604     dev_info_t *pdip);
605 static int fcp_is_pip_present(struct fcp_lun *plun, mdi_pathinfo_t *pip);
606 static void fcp_handle_page83(fc_packet_t *, struct fcp_ipkt *, int);
607 static void fcp_update_mpxio_path_verifybusy(struct fcp_port *pptr);
608 static int fcp_copy_guid_2_lun_block(struct fcp_lun *plun, char *guidp);
609 static int fcp_update_mpxio_path(struct fcp_lun *plun, child_info_t *cip,
610     int what);
611 static int fcp_is_reconfig_needed(struct fcp_tgt *ptgt,
612     fc_packet_t *fpkt);
613 static int fcp_symmetric_device_probe(struct fcp_lun *plun);
614 
615 /*
616  * New functions added for lun masking support
617  */
618 static void fcp_read_blacklist(dev_info_t *dip,
619     struct fcp_black_list_entry **pplun_blacklist);
620 static void fcp_mask_pwwn_lun(char *curr_pwwn, char *curr_lun,
621     struct fcp_black_list_entry **pplun_blacklist);
622 static void fcp_add_one_mask(char *curr_pwwn, uint32_t lun_id,
623     struct fcp_black_list_entry **pplun_blacklist);
624 static int fcp_should_mask(la_wwn_t *wwn, uint32_t lun_id);
625 static void fcp_cleanup_blacklist(struct fcp_black_list_entry **lun_blacklist);
626 
627 extern struct mod_ops	mod_driverops;
628 /*
629  * This variable is defined in modctl.c and set to '1' after the root driver
630  * and fs are loaded.  It serves as an indication that the root filesystem can
631  * be used.
632  */
633 extern int		modrootloaded;
634 /*
635  * This table contains strings associated with the SCSI sense key codes.  It
636  * is used by FCP to print a clear explanation of the code returned in the
637  * sense information by a device.
638  */
639 extern char		*sense_keys[];
640 /*
641  * This device is created by the SCSI pseudo nexus driver (SCSI vHCI).	It is
642  * under this device that the paths to a physical device are created when
643  * MPxIO is used.
644  */
645 extern dev_info_t	*scsi_vhci_dip;
646 
647 /*
648  * Report lun processing
649  */
650 #define	FCP_LUN_ADDRESSING		0x80
651 #define	FCP_PD_ADDRESSING		0x00
652 #define	FCP_VOLUME_ADDRESSING		0x40
653 
654 #define	FCP_SVE_THROTTLE		0x28 /* Vicom */
655 #define	MAX_INT_DMA			0x7fffffff
656 #define	FCP_MAX_SENSE_LEN		252
657 #define	FCP_MAX_RESPONSE_LEN		0xffffff
658 /*
659  * Property definitions
660  */
661 #define	NODE_WWN_PROP	(char *)fcp_node_wwn_prop
662 #define	PORT_WWN_PROP	(char *)fcp_port_wwn_prop
663 #define	TARGET_PROP	(char *)fcp_target_prop
664 #define	LUN_PROP	(char *)fcp_lun_prop
665 #define	SAM_LUN_PROP	(char *)fcp_sam_lun_prop
666 #define	CONF_WWN_PROP	(char *)fcp_conf_wwn_prop
667 #define	OBP_BOOT_WWN	(char *)fcp_obp_boot_wwn
668 #define	MANUAL_CFG_ONLY	(char *)fcp_manual_config_only
669 #define	INIT_PORT_PROP	(char *)fcp_init_port_prop
670 #define	TGT_PORT_PROP	(char *)fcp_tgt_port_prop
671 #define	LUN_BLACKLIST_PROP	(char *)fcp_lun_blacklist_prop
672 /*
673  * Short hand macros.
674  */
675 #define	LUN_PORT	(plun->lun_tgt->tgt_port)
676 #define	LUN_TGT		(plun->lun_tgt)
677 
678 /*
679  * Driver private macros
680  */
681 #define	FCP_ATOB(x)	(((x) >= '0' && (x) <= '9') ? ((x) - '0') :	\
682 			((x) >= 'a' && (x) <= 'f') ?			\
683 			((x) - 'a' + 10) : ((x) - 'A' + 10))
684 
685 #define	FCP_MAX(a, b)	((a) > (b) ? (a) : (b))
686 
687 #define	FCP_N_NDI_EVENTS						\
688 	(sizeof (fcp_ndi_event_defs) / sizeof (ndi_event_definition_t))
689 
690 #define	FCP_LINK_STATE_CHANGED(p, c)			\
691 	((p)->port_link_cnt != (c)->ipkt_link_cnt)
692 
693 #define	FCP_TGT_STATE_CHANGED(t, c)			\
694 	((t)->tgt_change_cnt != (c)->ipkt_change_cnt)
695 
696 #define	FCP_STATE_CHANGED(p, t, c)		\
697 	(FCP_TGT_STATE_CHANGED(t, c))
698 
699 #define	FCP_MUST_RETRY(fpkt)				\
700 	((fpkt)->pkt_state == FC_PKT_LOCAL_BSY ||	\
701 	(fpkt)->pkt_state == FC_PKT_LOCAL_RJT ||	\
702 	(fpkt)->pkt_state == FC_PKT_TRAN_BSY ||	\
703 	(fpkt)->pkt_state == FC_PKT_ELS_IN_PROGRESS ||	\
704 	(fpkt)->pkt_state == FC_PKT_NPORT_BSY ||	\
705 	(fpkt)->pkt_state == FC_PKT_FABRIC_BSY ||	\
706 	(fpkt)->pkt_state == FC_PKT_PORT_OFFLINE ||	\
707 	(fpkt)->pkt_reason == FC_REASON_OFFLINE)
708 
709 #define	FCP_SENSE_REPORTLUN_CHANGED(es)		\
710 	((es)->es_key == KEY_UNIT_ATTENTION &&	\
711 	(es)->es_add_code == 0x3f &&		\
712 	(es)->es_qual_code == 0x0e)
713 
714 #define	FCP_SENSE_NO_LUN(es)			\
715 	((es)->es_key == KEY_ILLEGAL_REQUEST &&	\
716 	(es)->es_add_code == 0x25 &&		\
717 	(es)->es_qual_code == 0x0)
718 
719 #define	FCP_VERSION		"1.187"
720 #define	FCP_NAME_VERSION	"SunFC FCP v" FCP_VERSION
721 
722 #define	FCP_NUM_ELEMENTS(array)			\
723 	(sizeof (array) / sizeof ((array)[0]))
724 
725 /*
726  * Debugging, Error reporting, and tracing
727  */
728 #define	FCP_LOG_SIZE		1024 * 1024
729 
730 #define	FCP_LEVEL_1		0x00001		/* attach/detach PM CPR */
731 #define	FCP_LEVEL_2		0x00002		/* failures/Invalid data */
732 #define	FCP_LEVEL_3		0x00004		/* state change, discovery */
733 #define	FCP_LEVEL_4		0x00008		/* ULP messages */
734 #define	FCP_LEVEL_5		0x00010		/* ELS/SCSI cmds */
735 #define	FCP_LEVEL_6		0x00020		/* Transport failures */
736 #define	FCP_LEVEL_7		0x00040
737 #define	FCP_LEVEL_8		0x00080		/* I/O tracing */
738 #define	FCP_LEVEL_9		0x00100		/* I/O tracing */
739 
740 
741 
742 /*
743  * Log contents to system messages file
744  */
745 #define	FCP_MSG_LEVEL_1	(FCP_LEVEL_1 | FC_TRACE_LOG_MSG)
746 #define	FCP_MSG_LEVEL_2	(FCP_LEVEL_2 | FC_TRACE_LOG_MSG)
747 #define	FCP_MSG_LEVEL_3	(FCP_LEVEL_3 | FC_TRACE_LOG_MSG)
748 #define	FCP_MSG_LEVEL_4	(FCP_LEVEL_4 | FC_TRACE_LOG_MSG)
749 #define	FCP_MSG_LEVEL_5	(FCP_LEVEL_5 | FC_TRACE_LOG_MSG)
750 #define	FCP_MSG_LEVEL_6	(FCP_LEVEL_6 | FC_TRACE_LOG_MSG)
751 #define	FCP_MSG_LEVEL_7	(FCP_LEVEL_7 | FC_TRACE_LOG_MSG)
752 #define	FCP_MSG_LEVEL_8	(FCP_LEVEL_8 | FC_TRACE_LOG_MSG)
753 #define	FCP_MSG_LEVEL_9	(FCP_LEVEL_9 | FC_TRACE_LOG_MSG)
754 
755 
756 /*
757  * Log contents to trace buffer
758  */
759 #define	FCP_BUF_LEVEL_1	(FCP_LEVEL_1 | FC_TRACE_LOG_BUF)
760 #define	FCP_BUF_LEVEL_2	(FCP_LEVEL_2 | FC_TRACE_LOG_BUF)
761 #define	FCP_BUF_LEVEL_3	(FCP_LEVEL_3 | FC_TRACE_LOG_BUF)
762 #define	FCP_BUF_LEVEL_4	(FCP_LEVEL_4 | FC_TRACE_LOG_BUF)
763 #define	FCP_BUF_LEVEL_5	(FCP_LEVEL_5 | FC_TRACE_LOG_BUF)
764 #define	FCP_BUF_LEVEL_6	(FCP_LEVEL_6 | FC_TRACE_LOG_BUF)
765 #define	FCP_BUF_LEVEL_7	(FCP_LEVEL_7 | FC_TRACE_LOG_BUF)
766 #define	FCP_BUF_LEVEL_8	(FCP_LEVEL_8 | FC_TRACE_LOG_BUF)
767 #define	FCP_BUF_LEVEL_9	(FCP_LEVEL_9 | FC_TRACE_LOG_BUF)
768 
769 
770 /*
771  * Log contents to both system messages file and trace buffer
772  */
773 #define	FCP_MSG_BUF_LEVEL_1	(FCP_LEVEL_1 | FC_TRACE_LOG_BUF |	\
774 				FC_TRACE_LOG_MSG)
775 #define	FCP_MSG_BUF_LEVEL_2	(FCP_LEVEL_2 | FC_TRACE_LOG_BUF |	\
776 				FC_TRACE_LOG_MSG)
777 #define	FCP_MSG_BUF_LEVEL_3	(FCP_LEVEL_3 | FC_TRACE_LOG_BUF |	\
778 				FC_TRACE_LOG_MSG)
779 #define	FCP_MSG_BUF_LEVEL_4	(FCP_LEVEL_4 | FC_TRACE_LOG_BUF |	\
780 				FC_TRACE_LOG_MSG)
781 #define	FCP_MSG_BUF_LEVEL_5	(FCP_LEVEL_5 | FC_TRACE_LOG_BUF |	\
782 				FC_TRACE_LOG_MSG)
783 #define	FCP_MSG_BUF_LEVEL_6	(FCP_LEVEL_6 | FC_TRACE_LOG_BUF |	\
784 				FC_TRACE_LOG_MSG)
785 #define	FCP_MSG_BUF_LEVEL_7	(FCP_LEVEL_7 | FC_TRACE_LOG_BUF |	\
786 				FC_TRACE_LOG_MSG)
787 #define	FCP_MSG_BUF_LEVEL_8	(FCP_LEVEL_8 | FC_TRACE_LOG_BUF |	\
788 				FC_TRACE_LOG_MSG)
789 #define	FCP_MSG_BUF_LEVEL_9	(FCP_LEVEL_9 | FC_TRACE_LOG_BUF |	\
790 				FC_TRACE_LOG_MSG)
791 #ifdef DEBUG
792 #define	FCP_DTRACE	fc_trace_debug
793 #else
794 #define	FCP_DTRACE
795 #endif
796 
797 #define	FCP_TRACE	fc_trace_debug
798 
799 static struct cb_ops fcp_cb_ops = {
800 	fcp_open,			/* open */
801 	fcp_close,			/* close */
802 	nodev,				/* strategy */
803 	nodev,				/* print */
804 	nodev,				/* dump */
805 	nodev,				/* read */
806 	nodev,				/* write */
807 	fcp_ioctl,			/* ioctl */
808 	nodev,				/* devmap */
809 	nodev,				/* mmap */
810 	nodev,				/* segmap */
811 	nochpoll,			/* chpoll */
812 	ddi_prop_op,			/* cb_prop_op */
813 	0,				/* streamtab */
814 	D_NEW | D_MP | D_HOTPLUG,	/* cb_flag */
815 	CB_REV,				/* rev */
816 	nodev,				/* aread */
817 	nodev				/* awrite */
818 };
819 
820 
821 static struct dev_ops fcp_ops = {
822 	DEVO_REV,
823 	0,
824 	ddi_getinfo_1to1,
825 	nulldev,		/* identify */
826 	nulldev,		/* probe */
827 	fcp_attach,		/* attach and detach are mandatory */
828 	fcp_detach,
829 	nodev,			/* reset */
830 	&fcp_cb_ops,		/* cb_ops */
831 	NULL,			/* bus_ops */
832 	NULL,			/* power */
833 };
834 
835 
836 char *fcp_version = FCP_NAME_VERSION;
837 
838 static struct modldrv modldrv = {
839 	&mod_driverops,
840 	FCP_NAME_VERSION,
841 	&fcp_ops
842 };
843 
844 
845 static struct modlinkage modlinkage = {
846 	MODREV_1,
847 	&modldrv,
848 	NULL
849 };
850 
851 
852 static fc_ulp_modinfo_t fcp_modinfo = {
853 	&fcp_modinfo,			/* ulp_handle */
854 	FCTL_ULP_MODREV_4,		/* ulp_rev */
855 	FC4_SCSI_FCP,			/* ulp_type */
856 	"fcp",				/* ulp_name */
857 	FCP_STATEC_MASK,		/* ulp_statec_mask */
858 	fcp_port_attach,		/* ulp_port_attach */
859 	fcp_port_detach,		/* ulp_port_detach */
860 	fcp_port_ioctl,			/* ulp_port_ioctl */
861 	fcp_els_callback,		/* ulp_els_callback */
862 	fcp_data_callback,		/* ulp_data_callback */
863 	fcp_statec_callback		/* ulp_statec_callback */
864 };
865 
866 #ifdef	DEBUG
867 #define	FCP_TRACE_DEFAULT	(FC_TRACE_LOG_MASK | FCP_LEVEL_1 |	\
868 				FCP_LEVEL_2 | FCP_LEVEL_3 |		\
869 				FCP_LEVEL_4 | FCP_LEVEL_5 |		\
870 				FCP_LEVEL_6 | FCP_LEVEL_7)
871 #else
872 #define	FCP_TRACE_DEFAULT	(FC_TRACE_LOG_MASK | FCP_LEVEL_1 |	\
873 				FCP_LEVEL_2 | FCP_LEVEL_3 |		\
874 				FCP_LEVEL_4 | FCP_LEVEL_5 |		\
875 				FCP_LEVEL_6 | FCP_LEVEL_7)
876 #endif
877 
878 /* FCP global variables */
879 int			fcp_bus_config_debug = 0;
880 static int		fcp_log_size = FCP_LOG_SIZE;
881 static int		fcp_trace = FCP_TRACE_DEFAULT;
882 static fc_trace_logq_t	*fcp_logq = NULL;
883 static struct fcp_black_list_entry	*fcp_lun_blacklist = NULL;
884 /*
885  * The auto-configuration is set by default.  The only way of disabling it is
886  * through the property MANUAL_CFG_ONLY in the fcp.conf file.
887  */
888 static int		fcp_enable_auto_configuration = 1;
889 static int		fcp_max_bus_config_retries	= 4;
890 static int		fcp_lun_ready_retry = 300;
891 /*
892  * The value assigned to the following variable has changed several times due
893  * to a problem with the data underruns reporting of some firmware(s).	The
894  * current value of 50 gives a timeout value of 25 seconds for a max number
895  * of 256 LUNs.
896  */
897 static int		fcp_max_target_retries = 50;
898 /*
899  * Watchdog variables
900  * ------------------
901  *
902  * fcp_watchdog_init
903  *
904  *	Indicates if the watchdog timer is running or not.  This is actually
905  *	a counter of the number of Fibre Channel ports that attached.  When
906  *	the first port attaches the watchdog is started.  When the last port
907  *	detaches the watchdog timer is stopped.
908  *
909  * fcp_watchdog_time
910  *
911  *	This is the watchdog clock counter.  It is incremented by
912  *	fcp_watchdog_time each time the watchdog timer expires.
913  *
914  * fcp_watchdog_timeout
915  *
916  *	Increment value of the variable fcp_watchdog_time as well as the
917  *	the timeout value of the watchdog timer.  The unit is 1 second.	 It
918  *	is strange that this is not a #define	but a variable since the code
919  *	never changes this value.  The reason why it can be said that the
920  *	unit is 1 second is because the number of ticks for the watchdog
921  *	timer is determined like this:
922  *
923  *	    fcp_watchdog_tick = fcp_watchdog_timeout *
924  *				  drv_usectohz(1000000);
925  *
926  *	The value 1000000 is hard coded in the code.
927  *
928  * fcp_watchdog_tick
929  *
930  *	Watchdog timer value in ticks.
931  */
932 static int		fcp_watchdog_init = 0;
933 static int		fcp_watchdog_time = 0;
934 static int		fcp_watchdog_timeout = 1;
935 static int		fcp_watchdog_tick;
936 
937 /*
938  * fcp_offline_delay is a global variable to enable customisation of
939  * the timeout on link offlines or RSCNs. The default value is set
940  * to match FCP_OFFLINE_DELAY (20sec), which is 2*RA_TOV_els as
941  * specified in FCP4 Chapter 11 (see www.t10.org).
942  *
943  * The variable fcp_offline_delay is specified in SECONDS.
944  *
945  * If we made this a static var then the user would not be able to
946  * change it. This variable is set in fcp_attach().
947  */
948 unsigned int		fcp_offline_delay = FCP_OFFLINE_DELAY;
949 
950 static void		*fcp_softstate = NULL; /* for soft state */
951 static uchar_t		fcp_oflag = FCP_IDLE; /* open flag */
952 static kmutex_t		fcp_global_mutex;
953 static kmutex_t		fcp_ioctl_mutex;
954 static dev_info_t	*fcp_global_dip = NULL;
955 static timeout_id_t	fcp_watchdog_id;
956 const char		*fcp_lun_prop = "lun";
957 const char		*fcp_sam_lun_prop = "sam-lun";
958 const char		*fcp_target_prop = "target";
959 /*
960  * NOTE: consumers of "node-wwn" property include stmsboot in ON
961  * consolidation.
962  */
963 const char		*fcp_node_wwn_prop = "node-wwn";
964 const char		*fcp_port_wwn_prop = "port-wwn";
965 const char		*fcp_conf_wwn_prop = "fc-port-wwn";
966 const char		*fcp_obp_boot_wwn = "fc-boot-dev-portwwn";
967 const char		*fcp_manual_config_only = "manual_configuration_only";
968 const char		*fcp_init_port_prop = "initiator-port";
969 const char		*fcp_tgt_port_prop = "target-port";
970 const char		*fcp_lun_blacklist_prop = "pwwn-lun-blacklist";
971 
972 static struct fcp_port	*fcp_port_head = NULL;
973 static ddi_eventcookie_t	fcp_insert_eid;
974 static ddi_eventcookie_t	fcp_remove_eid;
975 
976 static ndi_event_definition_t	fcp_ndi_event_defs[] = {
977 	{ FCP_EVENT_TAG_INSERT, FCAL_INSERT_EVENT, EPL_KERNEL },
978 	{ FCP_EVENT_TAG_REMOVE, FCAL_REMOVE_EVENT, EPL_INTERRUPT }
979 };
980 
981 /*
982  * List of valid commands for the scsi_ioctl call
983  */
984 static uint8_t scsi_ioctl_list[] = {
985 	SCMD_INQUIRY,
986 	SCMD_REPORT_LUN,
987 	SCMD_READ_CAPACITY
988 };
989 
990 /*
991  * this is used to dummy up a report lun response for cases
992  * where the target doesn't support it
993  */
994 static uchar_t fcp_dummy_lun[] = {
995 	0x00,		/* MSB length (length = no of luns * 8) */
996 	0x00,
997 	0x00,
998 	0x08,		/* LSB length */
999 	0x00,		/* MSB reserved */
1000 	0x00,
1001 	0x00,
1002 	0x00,		/* LSB reserved */
1003 	FCP_PD_ADDRESSING,
1004 	0x00,		/* LUN is ZERO at the first level */
1005 	0x00,
1006 	0x00,		/* second level is zero */
1007 	0x00,
1008 	0x00,		/* third level is zero */
1009 	0x00,
1010 	0x00		/* fourth level is zero */
1011 };
1012 
1013 static uchar_t fcp_alpa_to_switch[] = {
1014 	0x00, 0x7d, 0x7c, 0x00, 0x7b, 0x00, 0x00, 0x00, 0x7a, 0x00,
1015 	0x00, 0x00, 0x00, 0x00, 0x00, 0x79, 0x78, 0x00, 0x00, 0x00,
1016 	0x00, 0x00, 0x00, 0x77, 0x76, 0x00, 0x00, 0x75, 0x00, 0x74,
1017 	0x73, 0x72, 0x00, 0x00, 0x00, 0x71, 0x00, 0x70, 0x6f, 0x6e,
1018 	0x00, 0x6d, 0x6c, 0x6b, 0x6a, 0x69, 0x68, 0x00, 0x00, 0x67,
1019 	0x66, 0x65, 0x64, 0x63, 0x62, 0x00, 0x00, 0x61, 0x60, 0x00,
1020 	0x5f, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x5e, 0x00, 0x5d,
1021 	0x5c, 0x5b, 0x00, 0x5a, 0x59, 0x58, 0x57, 0x56, 0x55, 0x00,
1022 	0x00, 0x54, 0x53, 0x52, 0x51, 0x50, 0x4f, 0x00, 0x00, 0x4e,
1023 	0x4d, 0x00, 0x4c, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x4b,
1024 	0x00, 0x4a, 0x49, 0x48, 0x00, 0x47, 0x46, 0x45, 0x44, 0x43,
1025 	0x42, 0x00, 0x00, 0x41, 0x40, 0x3f, 0x3e, 0x3d, 0x3c, 0x00,
1026 	0x00, 0x3b, 0x3a, 0x00, 0x39, 0x00, 0x00, 0x00, 0x38, 0x37,
1027 	0x36, 0x00, 0x35, 0x00, 0x00, 0x00, 0x34, 0x00, 0x00, 0x00,
1028 	0x00, 0x00, 0x00, 0x33, 0x32, 0x00, 0x00, 0x00, 0x00, 0x00,
1029 	0x00, 0x31, 0x30, 0x00, 0x00, 0x2f, 0x00, 0x2e, 0x2d, 0x2c,
1030 	0x00, 0x00, 0x00, 0x2b, 0x00, 0x2a, 0x29, 0x28, 0x00, 0x27,
1031 	0x26, 0x25, 0x24, 0x23, 0x22, 0x00, 0x00, 0x21, 0x20, 0x1f,
1032 	0x1e, 0x1d, 0x1c, 0x00, 0x00, 0x1b, 0x1a, 0x00, 0x19, 0x00,
1033 	0x00, 0x00, 0x00, 0x00, 0x00, 0x18, 0x00, 0x17, 0x16, 0x15,
1034 	0x00, 0x14, 0x13, 0x12, 0x11, 0x10, 0x0f, 0x00, 0x00, 0x0e,
1035 	0x0d, 0x0c, 0x0b, 0x0a, 0x09, 0x00, 0x00, 0x08, 0x07, 0x00,
1036 	0x06, 0x00, 0x00, 0x00, 0x05, 0x04, 0x03, 0x00, 0x02, 0x00,
1037 	0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1038 };
1039 
1040 static caddr_t pid = "SESS01	      ";
1041 
1042 #if	!defined(lint)
1043 
1044 _NOTE(MUTEX_PROTECTS_DATA(fcp_global_mutex,
1045     fcp_port::fcp_next fcp_watchdog_id))
1046 
1047 _NOTE(DATA_READABLE_WITHOUT_LOCK(fcp_watchdog_time))
1048 
1049 _NOTE(SCHEME_PROTECTS_DATA("Unshared",
1050     fcp_insert_eid
1051     fcp_remove_eid
1052     fcp_watchdog_time))
1053 
1054 _NOTE(SCHEME_PROTECTS_DATA("Unshared",
1055     fcp_cb_ops
1056     fcp_ops
1057     callb_cpr))
1058 
1059 #endif /* lint */
1060 
1061 /*
1062  * This table is used to determine whether or not it's safe to copy in
1063  * the target node name for a lun.  Since all luns behind the same target
1064  * have the same wwnn, only tagets that do not support multiple luns are
1065  * eligible to be enumerated under mpxio if they aren't page83 compliant.
1066  */
1067 
1068 char *fcp_symmetric_disk_table[] = {
1069 	"SEAGATE ST",
1070 	"IBM	 DDYFT",
1071 	"SUNW	 SUNWGS",	/* Daktari enclosure */
1072 	"SUN	 SENA",		/* SES device */
1073 	"SUN	 SESS01"	/* VICOM SVE box */
1074 };
1075 
1076 int fcp_symmetric_disk_table_size =
1077 	sizeof (fcp_symmetric_disk_table)/sizeof (char *);
1078 
1079 /*
1080  * The _init(9e) return value should be that of mod_install(9f). Under
1081  * some circumstances, a failure may not be related mod_install(9f) and
1082  * one would then require a return value to indicate the failure. Looking
1083  * at mod_install(9f), it is expected to return 0 for success and non-zero
1084  * for failure. mod_install(9f) for device drivers, further goes down the
1085  * calling chain and ends up in ddi_installdrv(), whose return values are
1086  * DDI_SUCCESS and DDI_FAILURE - There are also other functions in the
1087  * calling chain of mod_install(9f) which return values like EINVAL and
1088  * in some even return -1.
1089  *
1090  * To work around the vagaries of the mod_install() calling chain, return
1091  * either 0 or ENODEV depending on the success or failure of mod_install()
1092  */
1093 int
1094 _init(void)
1095 {
1096 	int rval;
1097 
1098 	/*
1099 	 * Allocate soft state and prepare to do ddi_soft_state_zalloc()
1100 	 * before registering with the transport first.
1101 	 */
1102 	if (ddi_soft_state_init(&fcp_softstate,
1103 	    sizeof (struct fcp_port), FCP_INIT_ITEMS) != 0) {
1104 		return (EINVAL);
1105 	}
1106 
1107 	mutex_init(&fcp_global_mutex, NULL, MUTEX_DRIVER, NULL);
1108 	mutex_init(&fcp_ioctl_mutex, NULL, MUTEX_DRIVER, NULL);
1109 
1110 	if ((rval = fc_ulp_add(&fcp_modinfo)) != FC_SUCCESS) {
1111 		cmn_err(CE_WARN, "fcp: fc_ulp_add failed");
1112 		mutex_destroy(&fcp_global_mutex);
1113 		mutex_destroy(&fcp_ioctl_mutex);
1114 		ddi_soft_state_fini(&fcp_softstate);
1115 		return (ENODEV);
1116 	}
1117 
1118 	fcp_logq = fc_trace_alloc_logq(fcp_log_size);
1119 
1120 	if ((rval = mod_install(&modlinkage)) != 0) {
1121 		fc_trace_free_logq(fcp_logq);
1122 		(void) fc_ulp_remove(&fcp_modinfo);
1123 		mutex_destroy(&fcp_global_mutex);
1124 		mutex_destroy(&fcp_ioctl_mutex);
1125 		ddi_soft_state_fini(&fcp_softstate);
1126 		rval = ENODEV;
1127 	}
1128 
1129 	return (rval);
1130 }
1131 
1132 
1133 /*
1134  * the system is done with us as a driver, so clean up
1135  */
1136 int
1137 _fini(void)
1138 {
1139 	int rval;
1140 
1141 	/*
1142 	 * don't start cleaning up until we know that the module remove
1143 	 * has worked  -- if this works, then we know that each instance
1144 	 * has successfully been DDI_DETACHed
1145 	 */
1146 	if ((rval = mod_remove(&modlinkage)) != 0) {
1147 		return (rval);
1148 	}
1149 
1150 	(void) fc_ulp_remove(&fcp_modinfo);
1151 
1152 	ddi_soft_state_fini(&fcp_softstate);
1153 	mutex_destroy(&fcp_global_mutex);
1154 	mutex_destroy(&fcp_ioctl_mutex);
1155 	fc_trace_free_logq(fcp_logq);
1156 
1157 	return (rval);
1158 }
1159 
1160 
1161 int
1162 _info(struct modinfo *modinfop)
1163 {
1164 	return (mod_info(&modlinkage, modinfop));
1165 }
1166 
1167 
1168 /*
1169  * attach the module
1170  */
1171 static int
1172 fcp_attach(dev_info_t *devi, ddi_attach_cmd_t cmd)
1173 {
1174 	int rval = DDI_SUCCESS;
1175 
1176 	FCP_DTRACE(fcp_logq, "fcp", fcp_trace,
1177 	    FCP_BUF_LEVEL_8, 0, "fcp module attach: cmd=0x%x", cmd);
1178 
1179 	if (cmd == DDI_ATTACH) {
1180 		/* The FCP pseudo device is created here. */
1181 		mutex_enter(&fcp_global_mutex);
1182 		fcp_global_dip = devi;
1183 		mutex_exit(&fcp_global_mutex);
1184 
1185 		if (ddi_create_minor_node(fcp_global_dip, "fcp", S_IFCHR,
1186 		    0, DDI_PSEUDO, 0) == DDI_SUCCESS) {
1187 			ddi_report_dev(fcp_global_dip);
1188 		} else {
1189 			cmn_err(CE_WARN, "FCP: Cannot create minor node");
1190 			mutex_enter(&fcp_global_mutex);
1191 			fcp_global_dip = NULL;
1192 			mutex_exit(&fcp_global_mutex);
1193 
1194 			rval = DDI_FAILURE;
1195 		}
1196 		/*
1197 		 * We check the fcp_offline_delay property at this
1198 		 * point. This variable is global for the driver,
1199 		 * not specific to an instance.
1200 		 *
1201 		 * We do not recommend setting the value to less
1202 		 * than 10 seconds (RA_TOV_els), or greater than
1203 		 * 60 seconds.
1204 		 */
1205 		fcp_offline_delay = ddi_prop_get_int(DDI_DEV_T_ANY,
1206 		    devi, DDI_PROP_DONTPASS | DDI_PROP_NOTPROM,
1207 		    "fcp_offline_delay", FCP_OFFLINE_DELAY);
1208 		if ((fcp_offline_delay < 10) ||
1209 		    (fcp_offline_delay > 60)) {
1210 			cmn_err(CE_WARN, "Setting fcp_offline_delay "
1211 			    "to %d second(s). This is outside the "
1212 			    "recommended range of 10..60 seconds.",
1213 			    fcp_offline_delay);
1214 		}
1215 	}
1216 
1217 	return (rval);
1218 }
1219 
1220 
1221 /*ARGSUSED*/
1222 static int
1223 fcp_detach(dev_info_t *devi, ddi_detach_cmd_t cmd)
1224 {
1225 	int	res = DDI_SUCCESS;
1226 
1227 	FCP_DTRACE(fcp_logq, "fcp", fcp_trace,
1228 	    FCP_BUF_LEVEL_8, 0,	 "module detach: cmd=0x%x", cmd);
1229 
1230 	if (cmd == DDI_DETACH) {
1231 		/*
1232 		 * Check if there are active ports/threads. If there
1233 		 * are any, we will fail, else we will succeed (there
1234 		 * should not be much to clean up)
1235 		 */
1236 		mutex_enter(&fcp_global_mutex);
1237 		FCP_DTRACE(fcp_logq, "fcp",
1238 		    fcp_trace, FCP_BUF_LEVEL_8, 0,  "port_head=%p",
1239 		    (void *) fcp_port_head);
1240 
1241 		if (fcp_port_head == NULL) {
1242 			ddi_remove_minor_node(fcp_global_dip, NULL);
1243 			fcp_global_dip = NULL;
1244 			mutex_exit(&fcp_global_mutex);
1245 		} else {
1246 			mutex_exit(&fcp_global_mutex);
1247 			res = DDI_FAILURE;
1248 		}
1249 	}
1250 	FCP_DTRACE(fcp_logq, "fcp", fcp_trace,
1251 	    FCP_BUF_LEVEL_8, 0,	 "module detach returning %d", res);
1252 
1253 	return (res);
1254 }
1255 
1256 
1257 /* ARGSUSED */
1258 static int
1259 fcp_open(dev_t *devp, int flag, int otype, cred_t *credp)
1260 {
1261 	if (otype != OTYP_CHR) {
1262 		return (EINVAL);
1263 	}
1264 
1265 	/*
1266 	 * Allow only root to talk;
1267 	 */
1268 	if (drv_priv(credp)) {
1269 		return (EPERM);
1270 	}
1271 
1272 	mutex_enter(&fcp_global_mutex);
1273 	if (fcp_oflag & FCP_EXCL) {
1274 		mutex_exit(&fcp_global_mutex);
1275 		return (EBUSY);
1276 	}
1277 
1278 	if (flag & FEXCL) {
1279 		if (fcp_oflag & FCP_OPEN) {
1280 			mutex_exit(&fcp_global_mutex);
1281 			return (EBUSY);
1282 		}
1283 		fcp_oflag |= FCP_EXCL;
1284 	}
1285 	fcp_oflag |= FCP_OPEN;
1286 	mutex_exit(&fcp_global_mutex);
1287 
1288 	return (0);
1289 }
1290 
1291 
1292 /* ARGSUSED */
1293 static int
1294 fcp_close(dev_t dev, int flag, int otype, cred_t *credp)
1295 {
1296 	if (otype != OTYP_CHR) {
1297 		return (EINVAL);
1298 	}
1299 
1300 	mutex_enter(&fcp_global_mutex);
1301 	if (!(fcp_oflag & FCP_OPEN)) {
1302 		mutex_exit(&fcp_global_mutex);
1303 		return (ENODEV);
1304 	}
1305 	fcp_oflag = FCP_IDLE;
1306 	mutex_exit(&fcp_global_mutex);
1307 
1308 	return (0);
1309 }
1310 
1311 
1312 /*
1313  * fcp_ioctl
1314  *	Entry point for the FCP ioctls
1315  *
1316  * Input:
1317  *	See ioctl(9E)
1318  *
1319  * Output:
1320  *	See ioctl(9E)
1321  *
1322  * Returns:
1323  *	See ioctl(9E)
1324  *
1325  * Context:
1326  *	Kernel context.
1327  */
1328 /* ARGSUSED */
1329 static int
1330 fcp_ioctl(dev_t dev, int cmd, intptr_t data, int mode, cred_t *credp,
1331     int *rval)
1332 {
1333 	int			ret = 0;
1334 
1335 	mutex_enter(&fcp_global_mutex);
1336 	if (!(fcp_oflag & FCP_OPEN)) {
1337 		mutex_exit(&fcp_global_mutex);
1338 		return (ENXIO);
1339 	}
1340 	mutex_exit(&fcp_global_mutex);
1341 
1342 	switch (cmd) {
1343 	case FCP_TGT_INQUIRY:
1344 	case FCP_TGT_CREATE:
1345 	case FCP_TGT_DELETE:
1346 		ret = fcp_setup_device_data_ioctl(cmd,
1347 		    (struct fcp_ioctl *)data, mode, rval);
1348 		break;
1349 
1350 	case FCP_TGT_SEND_SCSI:
1351 		mutex_enter(&fcp_ioctl_mutex);
1352 		ret = fcp_setup_scsi_ioctl(
1353 		    (struct fcp_scsi_cmd *)data, mode, rval);
1354 		mutex_exit(&fcp_ioctl_mutex);
1355 		break;
1356 
1357 	case FCP_STATE_COUNT:
1358 		ret = fcp_get_statec_count((struct fcp_ioctl *)data,
1359 		    mode, rval);
1360 		break;
1361 	case FCP_GET_TARGET_MAPPINGS:
1362 		ret = fcp_get_target_mappings((struct fcp_ioctl *)data,
1363 		    mode, rval);
1364 		break;
1365 	default:
1366 		fcp_log(CE_WARN, NULL,
1367 		    "!Invalid ioctl opcode = 0x%x", cmd);
1368 		ret	= EINVAL;
1369 	}
1370 
1371 	return (ret);
1372 }
1373 
1374 
1375 /*
1376  * fcp_setup_device_data_ioctl
1377  *	Setup handler for the "device data" style of
1378  *	ioctl for FCP.	See "fcp_util.h" for data structure
1379  *	definition.
1380  *
1381  * Input:
1382  *	cmd	= FCP ioctl command
1383  *	data	= ioctl data
1384  *	mode	= See ioctl(9E)
1385  *
1386  * Output:
1387  *	data	= ioctl data
1388  *	rval	= return value - see ioctl(9E)
1389  *
1390  * Returns:
1391  *	See ioctl(9E)
1392  *
1393  * Context:
1394  *	Kernel context.
1395  */
1396 /* ARGSUSED */
1397 static int
1398 fcp_setup_device_data_ioctl(int cmd, struct fcp_ioctl *data, int mode,
1399     int *rval)
1400 {
1401 	struct fcp_port	*pptr;
1402 	struct	device_data	*dev_data;
1403 	uint32_t		link_cnt;
1404 	la_wwn_t		*wwn_ptr = NULL;
1405 	struct fcp_tgt		*ptgt = NULL;
1406 	struct fcp_lun		*plun = NULL;
1407 	int			i, error;
1408 	struct fcp_ioctl	fioctl;
1409 
1410 #ifdef	_MULTI_DATAMODEL
1411 	switch (ddi_model_convert_from(mode & FMODELS)) {
1412 	case DDI_MODEL_ILP32: {
1413 		struct fcp32_ioctl f32_ioctl;
1414 
1415 		if (ddi_copyin((void *)data, (void *)&f32_ioctl,
1416 		    sizeof (struct fcp32_ioctl), mode)) {
1417 			return (EFAULT);
1418 		}
1419 		fioctl.fp_minor = f32_ioctl.fp_minor;
1420 		fioctl.listlen = f32_ioctl.listlen;
1421 		fioctl.list = (caddr_t)(long)f32_ioctl.list;
1422 		break;
1423 	}
1424 	case DDI_MODEL_NONE:
1425 		if (ddi_copyin((void *)data, (void *)&fioctl,
1426 		    sizeof (struct fcp_ioctl), mode)) {
1427 			return (EFAULT);
1428 		}
1429 		break;
1430 	}
1431 
1432 #else	/* _MULTI_DATAMODEL */
1433 	if (ddi_copyin((void *)data, (void *)&fioctl,
1434 	    sizeof (struct fcp_ioctl), mode)) {
1435 		return (EFAULT);
1436 	}
1437 #endif	/* _MULTI_DATAMODEL */
1438 
1439 	/*
1440 	 * Right now we can assume that the minor number matches with
1441 	 * this instance of fp. If this changes we will need to
1442 	 * revisit this logic.
1443 	 */
1444 	mutex_enter(&fcp_global_mutex);
1445 	pptr = fcp_port_head;
1446 	while (pptr) {
1447 		if (pptr->port_instance == (uint32_t)fioctl.fp_minor) {
1448 			break;
1449 		} else {
1450 			pptr = pptr->port_next;
1451 		}
1452 	}
1453 	mutex_exit(&fcp_global_mutex);
1454 	if (pptr == NULL) {
1455 		return (ENXIO);
1456 	}
1457 	mutex_enter(&pptr->port_mutex);
1458 
1459 
1460 	if ((dev_data = kmem_zalloc((sizeof (struct device_data)) *
1461 	    fioctl.listlen, KM_NOSLEEP)) == NULL) {
1462 		mutex_exit(&pptr->port_mutex);
1463 		return (ENOMEM);
1464 	}
1465 
1466 	if (ddi_copyin(fioctl.list, dev_data,
1467 	    (sizeof (struct device_data)) * fioctl.listlen, mode)) {
1468 		kmem_free(dev_data, sizeof (*dev_data) * fioctl.listlen);
1469 		mutex_exit(&pptr->port_mutex);
1470 		return (EFAULT);
1471 	}
1472 	link_cnt = pptr->port_link_cnt;
1473 
1474 	if (cmd == FCP_TGT_INQUIRY) {
1475 		wwn_ptr = (la_wwn_t *)&(dev_data[0].dev_pwwn);
1476 		if (bcmp(wwn_ptr->raw_wwn, pptr->port_pwwn.raw_wwn,
1477 		    sizeof (wwn_ptr->raw_wwn)) == 0) {
1478 			/* This ioctl is requesting INQ info of local HBA */
1479 			mutex_exit(&pptr->port_mutex);
1480 			dev_data[0].dev0_type = DTYPE_UNKNOWN;
1481 			dev_data[0].dev_status = 0;
1482 			if (ddi_copyout(dev_data, fioctl.list,
1483 			    (sizeof (struct device_data)) * fioctl.listlen,
1484 			    mode)) {
1485 				kmem_free(dev_data,
1486 				    sizeof (*dev_data) * fioctl.listlen);
1487 				return (EFAULT);
1488 			}
1489 			kmem_free(dev_data,
1490 			    sizeof (*dev_data) * fioctl.listlen);
1491 #ifdef	_MULTI_DATAMODEL
1492 			switch (ddi_model_convert_from(mode & FMODELS)) {
1493 			case DDI_MODEL_ILP32: {
1494 				struct fcp32_ioctl f32_ioctl;
1495 				f32_ioctl.fp_minor = fioctl.fp_minor;
1496 				f32_ioctl.listlen = fioctl.listlen;
1497 				f32_ioctl.list = (caddr32_t)(long)fioctl.list;
1498 				if (ddi_copyout((void *)&f32_ioctl,
1499 				    (void *)data,
1500 				    sizeof (struct fcp32_ioctl), mode)) {
1501 					return (EFAULT);
1502 				}
1503 				break;
1504 			}
1505 			case DDI_MODEL_NONE:
1506 				if (ddi_copyout((void *)&fioctl, (void *)data,
1507 				    sizeof (struct fcp_ioctl), mode)) {
1508 					return (EFAULT);
1509 				}
1510 				break;
1511 			}
1512 #else	/* _MULTI_DATAMODEL */
1513 			if (ddi_copyout((void *)&fioctl, (void *)data,
1514 			    sizeof (struct fcp_ioctl), mode)) {
1515 				return (EFAULT);
1516 			}
1517 #endif	/* _MULTI_DATAMODEL */
1518 			return (0);
1519 		}
1520 	}
1521 
1522 	if (pptr->port_state & (FCP_STATE_INIT | FCP_STATE_OFFLINE)) {
1523 		kmem_free(dev_data, sizeof (*dev_data) * fioctl.listlen);
1524 		mutex_exit(&pptr->port_mutex);
1525 		return (ENXIO);
1526 	}
1527 
1528 	for (i = 0; (i < fioctl.listlen) && (link_cnt == pptr->port_link_cnt);
1529 	    i++) {
1530 		wwn_ptr = (la_wwn_t *)&(dev_data[i].dev_pwwn);
1531 
1532 		dev_data[i].dev0_type = DTYPE_UNKNOWN;
1533 
1534 
1535 		dev_data[i].dev_status = ENXIO;
1536 
1537 		if ((ptgt = fcp_lookup_target(pptr,
1538 		    (uchar_t *)wwn_ptr)) == NULL) {
1539 			mutex_exit(&pptr->port_mutex);
1540 			if (fc_ulp_get_remote_port(pptr->port_fp_handle,
1541 			    wwn_ptr, &error, 0) == NULL) {
1542 				dev_data[i].dev_status = ENODEV;
1543 				mutex_enter(&pptr->port_mutex);
1544 				continue;
1545 			} else {
1546 
1547 				dev_data[i].dev_status = EAGAIN;
1548 
1549 				mutex_enter(&pptr->port_mutex);
1550 				continue;
1551 			}
1552 		} else {
1553 			mutex_enter(&ptgt->tgt_mutex);
1554 			if (ptgt->tgt_state & (FCP_TGT_MARK |
1555 			    FCP_TGT_BUSY)) {
1556 				dev_data[i].dev_status = EAGAIN;
1557 				mutex_exit(&ptgt->tgt_mutex);
1558 				continue;
1559 			}
1560 
1561 			if (ptgt->tgt_state & FCP_TGT_OFFLINE) {
1562 				if (ptgt->tgt_icap && !ptgt->tgt_tcap) {
1563 					dev_data[i].dev_status = ENOTSUP;
1564 				} else {
1565 					dev_data[i].dev_status = ENXIO;
1566 				}
1567 				mutex_exit(&ptgt->tgt_mutex);
1568 				continue;
1569 			}
1570 
1571 			switch (cmd) {
1572 			case FCP_TGT_INQUIRY:
1573 				/*
1574 				 * The reason we give device type of
1575 				 * lun 0 only even though in some
1576 				 * cases(like maxstrat) lun 0 device
1577 				 * type may be 0x3f(invalid) is that
1578 				 * for bridge boxes target will appear
1579 				 * as luns and the first lun could be
1580 				 * a device that utility may not care
1581 				 * about (like a tape device).
1582 				 */
1583 				dev_data[i].dev_lun_cnt = ptgt->tgt_lun_cnt;
1584 				dev_data[i].dev_status = 0;
1585 				mutex_exit(&ptgt->tgt_mutex);
1586 
1587 				if ((plun = fcp_get_lun(ptgt, 0)) == NULL) {
1588 					dev_data[i].dev0_type = DTYPE_UNKNOWN;
1589 				} else {
1590 					dev_data[i].dev0_type = plun->lun_type;
1591 				}
1592 				mutex_enter(&ptgt->tgt_mutex);
1593 				break;
1594 
1595 			case FCP_TGT_CREATE:
1596 				mutex_exit(&ptgt->tgt_mutex);
1597 				mutex_exit(&pptr->port_mutex);
1598 
1599 				/*
1600 				 * serialize state change call backs.
1601 				 * only one call back will be handled
1602 				 * at a time.
1603 				 */
1604 				mutex_enter(&fcp_global_mutex);
1605 				if (fcp_oflag & FCP_BUSY) {
1606 					mutex_exit(&fcp_global_mutex);
1607 					if (dev_data) {
1608 						kmem_free(dev_data,
1609 						    sizeof (*dev_data) *
1610 						    fioctl.listlen);
1611 					}
1612 					return (EBUSY);
1613 				}
1614 				fcp_oflag |= FCP_BUSY;
1615 				mutex_exit(&fcp_global_mutex);
1616 
1617 				dev_data[i].dev_status =
1618 				    fcp_create_on_demand(pptr,
1619 				    wwn_ptr->raw_wwn);
1620 
1621 				if (dev_data[i].dev_status != 0) {
1622 					char	buf[25];
1623 
1624 					for (i = 0; i < FC_WWN_SIZE; i++) {
1625 						(void) sprintf(&buf[i << 1],
1626 						    "%02x",
1627 						    wwn_ptr->raw_wwn[i]);
1628 					}
1629 
1630 					fcp_log(CE_WARN, pptr->port_dip,
1631 					    "!Failed to create nodes for"
1632 					    " pwwn=%s; error=%x", buf,
1633 					    dev_data[i].dev_status);
1634 				}
1635 
1636 				/* allow state change call backs again */
1637 				mutex_enter(&fcp_global_mutex);
1638 				fcp_oflag &= ~FCP_BUSY;
1639 				mutex_exit(&fcp_global_mutex);
1640 
1641 				mutex_enter(&pptr->port_mutex);
1642 				mutex_enter(&ptgt->tgt_mutex);
1643 
1644 				break;
1645 
1646 			case FCP_TGT_DELETE:
1647 				break;
1648 
1649 			default:
1650 				fcp_log(CE_WARN, pptr->port_dip,
1651 				    "!Invalid device data ioctl "
1652 				    "opcode = 0x%x", cmd);
1653 			}
1654 			mutex_exit(&ptgt->tgt_mutex);
1655 		}
1656 	}
1657 	mutex_exit(&pptr->port_mutex);
1658 
1659 	if (ddi_copyout(dev_data, fioctl.list,
1660 	    (sizeof (struct device_data)) * fioctl.listlen, mode)) {
1661 		kmem_free(dev_data, sizeof (*dev_data) * fioctl.listlen);
1662 		return (EFAULT);
1663 	}
1664 	kmem_free(dev_data, sizeof (*dev_data) * fioctl.listlen);
1665 
1666 #ifdef	_MULTI_DATAMODEL
1667 	switch (ddi_model_convert_from(mode & FMODELS)) {
1668 	case DDI_MODEL_ILP32: {
1669 		struct fcp32_ioctl f32_ioctl;
1670 
1671 		f32_ioctl.fp_minor = fioctl.fp_minor;
1672 		f32_ioctl.listlen = fioctl.listlen;
1673 		f32_ioctl.list = (caddr32_t)(long)fioctl.list;
1674 		if (ddi_copyout((void *)&f32_ioctl, (void *)data,
1675 		    sizeof (struct fcp32_ioctl), mode)) {
1676 			return (EFAULT);
1677 		}
1678 		break;
1679 	}
1680 	case DDI_MODEL_NONE:
1681 		if (ddi_copyout((void *)&fioctl, (void *)data,
1682 		    sizeof (struct fcp_ioctl), mode)) {
1683 			return (EFAULT);
1684 		}
1685 		break;
1686 	}
1687 #else	/* _MULTI_DATAMODEL */
1688 
1689 	if (ddi_copyout((void *)&fioctl, (void *)data,
1690 	    sizeof (struct fcp_ioctl), mode)) {
1691 		return (EFAULT);
1692 	}
1693 #endif	/* _MULTI_DATAMODEL */
1694 
1695 	return (0);
1696 }
1697 
1698 /*
1699  * Fetch the target mappings (path, etc.) for all LUNs
1700  * on this port.
1701  */
1702 /* ARGSUSED */
1703 static int
1704 fcp_get_target_mappings(struct fcp_ioctl *data,
1705     int mode, int *rval)
1706 {
1707 	struct fcp_port	    *pptr;
1708 	fc_hba_target_mappings_t    *mappings;
1709 	fc_hba_mapping_entry_t	    *map;
1710 	struct fcp_tgt	    *ptgt = NULL;
1711 	struct fcp_lun	    *plun = NULL;
1712 	int			    i, mapIndex, mappingSize;
1713 	int			    listlen;
1714 	struct fcp_ioctl	    fioctl;
1715 	char			    *path;
1716 	fcp_ent_addr_t		    sam_lun_addr;
1717 
1718 #ifdef	_MULTI_DATAMODEL
1719 	switch (ddi_model_convert_from(mode & FMODELS)) {
1720 	case DDI_MODEL_ILP32: {
1721 		struct fcp32_ioctl f32_ioctl;
1722 
1723 		if (ddi_copyin((void *)data, (void *)&f32_ioctl,
1724 		    sizeof (struct fcp32_ioctl), mode)) {
1725 			return (EFAULT);
1726 		}
1727 		fioctl.fp_minor = f32_ioctl.fp_minor;
1728 		fioctl.listlen = f32_ioctl.listlen;
1729 		fioctl.list = (caddr_t)(long)f32_ioctl.list;
1730 		break;
1731 	}
1732 	case DDI_MODEL_NONE:
1733 		if (ddi_copyin((void *)data, (void *)&fioctl,
1734 		    sizeof (struct fcp_ioctl), mode)) {
1735 			return (EFAULT);
1736 		}
1737 		break;
1738 	}
1739 
1740 #else	/* _MULTI_DATAMODEL */
1741 	if (ddi_copyin((void *)data, (void *)&fioctl,
1742 	    sizeof (struct fcp_ioctl), mode)) {
1743 		return (EFAULT);
1744 	}
1745 #endif	/* _MULTI_DATAMODEL */
1746 
1747 	/*
1748 	 * Right now we can assume that the minor number matches with
1749 	 * this instance of fp. If this changes we will need to
1750 	 * revisit this logic.
1751 	 */
1752 	mutex_enter(&fcp_global_mutex);
1753 	pptr = fcp_port_head;
1754 	while (pptr) {
1755 		if (pptr->port_instance == (uint32_t)fioctl.fp_minor) {
1756 			break;
1757 		} else {
1758 			pptr = pptr->port_next;
1759 		}
1760 	}
1761 	mutex_exit(&fcp_global_mutex);
1762 	if (pptr == NULL) {
1763 		cmn_err(CE_NOTE, "target mappings: unknown instance number: %d",
1764 		    fioctl.fp_minor);
1765 		return (ENXIO);
1766 	}
1767 
1768 
1769 	/* We use listlen to show the total buffer size */
1770 	mappingSize = fioctl.listlen;
1771 
1772 	/* Now calculate how many mapping entries will fit */
1773 	listlen = fioctl.listlen + sizeof (fc_hba_mapping_entry_t)
1774 	    - sizeof (fc_hba_target_mappings_t);
1775 	if (listlen <= 0) {
1776 		cmn_err(CE_NOTE, "target mappings: Insufficient buffer");
1777 		return (ENXIO);
1778 	}
1779 	listlen = listlen / sizeof (fc_hba_mapping_entry_t);
1780 
1781 	if ((mappings = kmem_zalloc(mappingSize, KM_SLEEP)) == NULL) {
1782 		return (ENOMEM);
1783 	}
1784 	mappings->version = FC_HBA_TARGET_MAPPINGS_VERSION;
1785 
1786 	/* Now get to work */
1787 	mapIndex = 0;
1788 
1789 	mutex_enter(&pptr->port_mutex);
1790 	/* Loop through all targets on this port */
1791 	for (i = 0; i < FCP_NUM_HASH; i++) {
1792 		for (ptgt = pptr->port_tgt_hash_table[i]; ptgt != NULL;
1793 		    ptgt = ptgt->tgt_next) {
1794 
1795 
1796 			/* Loop through all LUNs on this target */
1797 			for (plun = ptgt->tgt_lun; plun != NULL;
1798 			    plun = plun->lun_next) {
1799 				if (plun->lun_state & FCP_LUN_OFFLINE) {
1800 					continue;
1801 				}
1802 
1803 				path = fcp_get_lun_path(plun);
1804 				if (path == NULL) {
1805 					continue;
1806 				}
1807 
1808 				if (mapIndex >= listlen) {
1809 					mapIndex ++;
1810 					kmem_free(path, MAXPATHLEN);
1811 					continue;
1812 				}
1813 				map = &mappings->entries[mapIndex++];
1814 				bcopy(path, map->targetDriver,
1815 				    sizeof (map->targetDriver));
1816 				map->d_id = ptgt->tgt_d_id;
1817 				map->busNumber = 0;
1818 				map->targetNumber = ptgt->tgt_d_id;
1819 				map->osLUN = plun->lun_num;
1820 
1821 				/*
1822 				 * We had swapped lun when we stored it in
1823 				 * lun_addr. We need to swap it back before
1824 				 * returning it to user land
1825 				 */
1826 
1827 				sam_lun_addr.ent_addr_0 =
1828 				    BE_16(plun->lun_addr.ent_addr_0);
1829 				sam_lun_addr.ent_addr_1 =
1830 				    BE_16(plun->lun_addr.ent_addr_1);
1831 				sam_lun_addr.ent_addr_2 =
1832 				    BE_16(plun->lun_addr.ent_addr_2);
1833 				sam_lun_addr.ent_addr_3 =
1834 				    BE_16(plun->lun_addr.ent_addr_3);
1835 
1836 				bcopy(&sam_lun_addr, &map->samLUN,
1837 				    FCP_LUN_SIZE);
1838 				bcopy(ptgt->tgt_node_wwn.raw_wwn,
1839 				    map->NodeWWN.raw_wwn, sizeof (la_wwn_t));
1840 				bcopy(ptgt->tgt_port_wwn.raw_wwn,
1841 				    map->PortWWN.raw_wwn, sizeof (la_wwn_t));
1842 
1843 				if (plun->lun_guid) {
1844 
1845 					/* convert ascii wwn to bytes */
1846 					fcp_ascii_to_wwn(plun->lun_guid,
1847 					    map->guid, sizeof (map->guid));
1848 
1849 					if ((sizeof (map->guid)) <
1850 					    plun->lun_guid_size / 2) {
1851 						cmn_err(CE_WARN,
1852 						    "fcp_get_target_mappings:"
1853 						    "guid copy space "
1854 						    "insufficient."
1855 						    "Copy Truncation - "
1856 						    "available %d; need %d",
1857 						    (int)sizeof (map->guid),
1858 						    (int)
1859 						    plun->lun_guid_size / 2);
1860 					}
1861 				}
1862 				kmem_free(path, MAXPATHLEN);
1863 			}
1864 		}
1865 	}
1866 	mutex_exit(&pptr->port_mutex);
1867 	mappings->numLuns = mapIndex;
1868 
1869 	if (ddi_copyout(mappings, fioctl.list, mappingSize, mode)) {
1870 		kmem_free(mappings, mappingSize);
1871 		return (EFAULT);
1872 	}
1873 	kmem_free(mappings, mappingSize);
1874 
1875 #ifdef	_MULTI_DATAMODEL
1876 	switch (ddi_model_convert_from(mode & FMODELS)) {
1877 	case DDI_MODEL_ILP32: {
1878 		struct fcp32_ioctl f32_ioctl;
1879 
1880 		f32_ioctl.fp_minor = fioctl.fp_minor;
1881 		f32_ioctl.listlen = fioctl.listlen;
1882 		f32_ioctl.list = (caddr32_t)(long)fioctl.list;
1883 		if (ddi_copyout((void *)&f32_ioctl, (void *)data,
1884 		    sizeof (struct fcp32_ioctl), mode)) {
1885 			return (EFAULT);
1886 		}
1887 		break;
1888 	}
1889 	case DDI_MODEL_NONE:
1890 		if (ddi_copyout((void *)&fioctl, (void *)data,
1891 		    sizeof (struct fcp_ioctl), mode)) {
1892 			return (EFAULT);
1893 		}
1894 		break;
1895 	}
1896 #else	/* _MULTI_DATAMODEL */
1897 
1898 	if (ddi_copyout((void *)&fioctl, (void *)data,
1899 	    sizeof (struct fcp_ioctl), mode)) {
1900 		return (EFAULT);
1901 	}
1902 #endif	/* _MULTI_DATAMODEL */
1903 
1904 	return (0);
1905 }
1906 
1907 /*
1908  * fcp_setup_scsi_ioctl
1909  *	Setup handler for the "scsi passthru" style of
1910  *	ioctl for FCP.	See "fcp_util.h" for data structure
1911  *	definition.
1912  *
1913  * Input:
1914  *	u_fscsi	= ioctl data (user address space)
1915  *	mode	= See ioctl(9E)
1916  *
1917  * Output:
1918  *	u_fscsi	= ioctl data (user address space)
1919  *	rval	= return value - see ioctl(9E)
1920  *
1921  * Returns:
1922  *	0	= OK
1923  *	EAGAIN	= See errno.h
1924  *	EBUSY	= See errno.h
1925  *	EFAULT	= See errno.h
1926  *	EINTR	= See errno.h
1927  *	EINVAL	= See errno.h
1928  *	EIO	= See errno.h
1929  *	ENOMEM	= See errno.h
1930  *	ENXIO	= See errno.h
1931  *
1932  * Context:
1933  *	Kernel context.
1934  */
1935 /* ARGSUSED */
1936 static int
1937 fcp_setup_scsi_ioctl(struct fcp_scsi_cmd *u_fscsi,
1938     int mode, int *rval)
1939 {
1940 	int			ret		= 0;
1941 	int			temp_ret;
1942 	caddr_t			k_cdbbufaddr	= NULL;
1943 	caddr_t			k_bufaddr	= NULL;
1944 	caddr_t			k_rqbufaddr	= NULL;
1945 	caddr_t			u_cdbbufaddr;
1946 	caddr_t			u_bufaddr;
1947 	caddr_t			u_rqbufaddr;
1948 	struct fcp_scsi_cmd	k_fscsi;
1949 
1950 	/*
1951 	 * Get fcp_scsi_cmd array element from user address space
1952 	 */
1953 	if ((ret = fcp_copyin_scsi_cmd((caddr_t)u_fscsi, &k_fscsi, mode))
1954 	    != 0) {
1955 		return (ret);
1956 	}
1957 
1958 
1959 	/*
1960 	 * Even though kmem_alloc() checks the validity of the
1961 	 * buffer length, this check is needed when the
1962 	 * kmem_flags set and the zero buffer length is passed.
1963 	 */
1964 	if ((k_fscsi.scsi_cdblen <= 0) ||
1965 	    (k_fscsi.scsi_buflen <= 0) ||
1966 	    (k_fscsi.scsi_buflen > FCP_MAX_RESPONSE_LEN) ||
1967 	    (k_fscsi.scsi_rqlen <= 0) ||
1968 	    (k_fscsi.scsi_rqlen > FCP_MAX_SENSE_LEN)) {
1969 		return (EINVAL);
1970 	}
1971 
1972 	/*
1973 	 * Allocate data for fcp_scsi_cmd pointer fields
1974 	 */
1975 	if (ret == 0) {
1976 		k_cdbbufaddr = kmem_alloc(k_fscsi.scsi_cdblen, KM_NOSLEEP);
1977 		k_bufaddr    = kmem_alloc(k_fscsi.scsi_buflen, KM_NOSLEEP);
1978 		k_rqbufaddr  = kmem_alloc(k_fscsi.scsi_rqlen,  KM_NOSLEEP);
1979 
1980 		if (k_cdbbufaddr == NULL ||
1981 		    k_bufaddr	 == NULL ||
1982 		    k_rqbufaddr	 == NULL) {
1983 			ret = ENOMEM;
1984 		}
1985 	}
1986 
1987 	/*
1988 	 * Get fcp_scsi_cmd pointer fields from user
1989 	 * address space
1990 	 */
1991 	if (ret == 0) {
1992 		u_cdbbufaddr = k_fscsi.scsi_cdbbufaddr;
1993 		u_bufaddr    = k_fscsi.scsi_bufaddr;
1994 		u_rqbufaddr  = k_fscsi.scsi_rqbufaddr;
1995 
1996 		if (ddi_copyin(u_cdbbufaddr,
1997 		    k_cdbbufaddr,
1998 		    k_fscsi.scsi_cdblen,
1999 		    mode)) {
2000 			ret = EFAULT;
2001 		} else if (ddi_copyin(u_bufaddr,
2002 		    k_bufaddr,
2003 		    k_fscsi.scsi_buflen,
2004 		    mode)) {
2005 			ret = EFAULT;
2006 		} else if (ddi_copyin(u_rqbufaddr,
2007 		    k_rqbufaddr,
2008 		    k_fscsi.scsi_rqlen,
2009 		    mode)) {
2010 			ret = EFAULT;
2011 		}
2012 	}
2013 
2014 	/*
2015 	 * Send scsi command (blocking)
2016 	 */
2017 	if (ret == 0) {
2018 		/*
2019 		 * Prior to sending the scsi command, the
2020 		 * fcp_scsi_cmd data structure must contain kernel,
2021 		 * not user, addresses.
2022 		 */
2023 		k_fscsi.scsi_cdbbufaddr	= k_cdbbufaddr;
2024 		k_fscsi.scsi_bufaddr	= k_bufaddr;
2025 		k_fscsi.scsi_rqbufaddr	= k_rqbufaddr;
2026 
2027 		ret = fcp_send_scsi_ioctl(&k_fscsi);
2028 
2029 		/*
2030 		 * After sending the scsi command, the
2031 		 * fcp_scsi_cmd data structure must contain user,
2032 		 * not kernel, addresses.
2033 		 */
2034 		k_fscsi.scsi_cdbbufaddr	= u_cdbbufaddr;
2035 		k_fscsi.scsi_bufaddr	= u_bufaddr;
2036 		k_fscsi.scsi_rqbufaddr	= u_rqbufaddr;
2037 	}
2038 
2039 	/*
2040 	 * Put fcp_scsi_cmd pointer fields to user address space
2041 	 */
2042 	if (ret == 0) {
2043 		if (ddi_copyout(k_cdbbufaddr,
2044 		    u_cdbbufaddr,
2045 		    k_fscsi.scsi_cdblen,
2046 		    mode)) {
2047 			ret = EFAULT;
2048 		} else if (ddi_copyout(k_bufaddr,
2049 		    u_bufaddr,
2050 		    k_fscsi.scsi_buflen,
2051 		    mode)) {
2052 			ret = EFAULT;
2053 		} else if (ddi_copyout(k_rqbufaddr,
2054 		    u_rqbufaddr,
2055 		    k_fscsi.scsi_rqlen,
2056 		    mode)) {
2057 			ret = EFAULT;
2058 		}
2059 	}
2060 
2061 	/*
2062 	 * Free data for fcp_scsi_cmd pointer fields
2063 	 */
2064 	if (k_cdbbufaddr != NULL) {
2065 		kmem_free(k_cdbbufaddr, k_fscsi.scsi_cdblen);
2066 	}
2067 	if (k_bufaddr != NULL) {
2068 		kmem_free(k_bufaddr, k_fscsi.scsi_buflen);
2069 	}
2070 	if (k_rqbufaddr != NULL) {
2071 		kmem_free(k_rqbufaddr, k_fscsi.scsi_rqlen);
2072 	}
2073 
2074 	/*
2075 	 * Put fcp_scsi_cmd array element to user address space
2076 	 */
2077 	temp_ret = fcp_copyout_scsi_cmd(&k_fscsi, (caddr_t)u_fscsi, mode);
2078 	if (temp_ret != 0) {
2079 		ret = temp_ret;
2080 	}
2081 
2082 	/*
2083 	 * Return status
2084 	 */
2085 	return (ret);
2086 }
2087 
2088 
2089 /*
2090  * fcp_copyin_scsi_cmd
2091  *	Copy in fcp_scsi_cmd data structure from user address space.
2092  *	The data may be in 32 bit or 64 bit modes.
2093  *
2094  * Input:
2095  *	base_addr	= from address (user address space)
2096  *	mode		= See ioctl(9E) and ddi_copyin(9F)
2097  *
2098  * Output:
2099  *	fscsi		= to address (kernel address space)
2100  *
2101  * Returns:
2102  *	0	= OK
2103  *	EFAULT	= Error
2104  *
2105  * Context:
2106  *	Kernel context.
2107  */
2108 static int
2109 fcp_copyin_scsi_cmd(caddr_t base_addr, struct fcp_scsi_cmd *fscsi, int mode)
2110 {
2111 #ifdef	_MULTI_DATAMODEL
2112 	struct fcp32_scsi_cmd	f32scsi;
2113 
2114 	switch (ddi_model_convert_from(mode & FMODELS)) {
2115 	case DDI_MODEL_ILP32:
2116 		/*
2117 		 * Copy data from user address space
2118 		 */
2119 		if (ddi_copyin((void *)base_addr,
2120 		    &f32scsi,
2121 		    sizeof (struct fcp32_scsi_cmd),
2122 		    mode)) {
2123 			return (EFAULT);
2124 		}
2125 		/*
2126 		 * Convert from 32 bit to 64 bit
2127 		 */
2128 		FCP32_SCSI_CMD_TO_FCP_SCSI_CMD(&f32scsi, fscsi);
2129 		break;
2130 	case DDI_MODEL_NONE:
2131 		/*
2132 		 * Copy data from user address space
2133 		 */
2134 		if (ddi_copyin((void *)base_addr,
2135 		    fscsi,
2136 		    sizeof (struct fcp_scsi_cmd),
2137 		    mode)) {
2138 			return (EFAULT);
2139 		}
2140 		break;
2141 	}
2142 #else	/* _MULTI_DATAMODEL */
2143 	/*
2144 	 * Copy data from user address space
2145 	 */
2146 	if (ddi_copyin((void *)base_addr,
2147 	    fscsi,
2148 	    sizeof (struct fcp_scsi_cmd),
2149 	    mode)) {
2150 		return (EFAULT);
2151 	}
2152 #endif	/* _MULTI_DATAMODEL */
2153 
2154 	return (0);
2155 }
2156 
2157 
2158 /*
2159  * fcp_copyout_scsi_cmd
2160  *	Copy out fcp_scsi_cmd data structure to user address space.
2161  *	The data may be in 32 bit or 64 bit modes.
2162  *
2163  * Input:
2164  *	fscsi		= to address (kernel address space)
2165  *	mode		= See ioctl(9E) and ddi_copyin(9F)
2166  *
2167  * Output:
2168  *	base_addr	= from address (user address space)
2169  *
2170  * Returns:
2171  *	0	= OK
2172  *	EFAULT	= Error
2173  *
2174  * Context:
2175  *	Kernel context.
2176  */
2177 static int
2178 fcp_copyout_scsi_cmd(struct fcp_scsi_cmd *fscsi, caddr_t base_addr, int mode)
2179 {
2180 #ifdef	_MULTI_DATAMODEL
2181 	struct fcp32_scsi_cmd	f32scsi;
2182 
2183 	switch (ddi_model_convert_from(mode & FMODELS)) {
2184 	case DDI_MODEL_ILP32:
2185 		/*
2186 		 * Convert from 64 bit to 32 bit
2187 		 */
2188 		FCP_SCSI_CMD_TO_FCP32_SCSI_CMD(fscsi, &f32scsi);
2189 		/*
2190 		 * Copy data to user address space
2191 		 */
2192 		if (ddi_copyout(&f32scsi,
2193 		    (void *)base_addr,
2194 		    sizeof (struct fcp32_scsi_cmd),
2195 		    mode)) {
2196 			return (EFAULT);
2197 		}
2198 		break;
2199 	case DDI_MODEL_NONE:
2200 		/*
2201 		 * Copy data to user address space
2202 		 */
2203 		if (ddi_copyout(fscsi,
2204 		    (void *)base_addr,
2205 		    sizeof (struct fcp_scsi_cmd),
2206 		    mode)) {
2207 			return (EFAULT);
2208 		}
2209 		break;
2210 	}
2211 #else	/* _MULTI_DATAMODEL */
2212 	/*
2213 	 * Copy data to user address space
2214 	 */
2215 	if (ddi_copyout(fscsi,
2216 	    (void *)base_addr,
2217 	    sizeof (struct fcp_scsi_cmd),
2218 	    mode)) {
2219 		return (EFAULT);
2220 	}
2221 #endif	/* _MULTI_DATAMODEL */
2222 
2223 	return (0);
2224 }
2225 
2226 
2227 /*
2228  * fcp_send_scsi_ioctl
2229  *	Sends the SCSI command in blocking mode.
2230  *
2231  * Input:
2232  *	fscsi		= SCSI command data structure
2233  *
2234  * Output:
2235  *	fscsi		= SCSI command data structure
2236  *
2237  * Returns:
2238  *	0	= OK
2239  *	EAGAIN	= See errno.h
2240  *	EBUSY	= See errno.h
2241  *	EINTR	= See errno.h
2242  *	EINVAL	= See errno.h
2243  *	EIO	= See errno.h
2244  *	ENOMEM	= See errno.h
2245  *	ENXIO	= See errno.h
2246  *
2247  * Context:
2248  *	Kernel context.
2249  */
2250 static int
2251 fcp_send_scsi_ioctl(struct fcp_scsi_cmd *fscsi)
2252 {
2253 	struct fcp_lun	*plun		= NULL;
2254 	struct fcp_port	*pptr		= NULL;
2255 	struct fcp_tgt	*ptgt		= NULL;
2256 	fc_packet_t		*fpkt		= NULL;
2257 	struct fcp_ipkt	*icmd		= NULL;
2258 	int			target_created	= FALSE;
2259 	fc_frame_hdr_t		*hp;
2260 	struct fcp_cmd		fcp_cmd;
2261 	struct fcp_cmd		*fcmd;
2262 	union scsi_cdb		*scsi_cdb;
2263 	la_wwn_t		*wwn_ptr;
2264 	int			nodma;
2265 	struct fcp_rsp		*rsp;
2266 	struct fcp_rsp_info	*rsp_info;
2267 	caddr_t			rsp_sense;
2268 	int			buf_len;
2269 	int			info_len;
2270 	int			sense_len;
2271 	struct scsi_extended_sense	*sense_to = NULL;
2272 	timeout_id_t		tid;
2273 	uint8_t			reconfig_lun = FALSE;
2274 	uint8_t			reconfig_pending = FALSE;
2275 	uint8_t			scsi_cmd;
2276 	int			rsp_len;
2277 	int			cmd_index;
2278 	int			fc_status;
2279 	int			pkt_state;
2280 	int			pkt_action;
2281 	int			pkt_reason;
2282 	int			ret, xport_retval = ~FC_SUCCESS;
2283 	int			lcount;
2284 	int			tcount;
2285 	int			reconfig_status;
2286 	int			port_busy = FALSE;
2287 	uchar_t			*lun_string;
2288 
2289 	/*
2290 	 * Check valid SCSI command
2291 	 */
2292 	scsi_cmd = ((uint8_t *)fscsi->scsi_cdbbufaddr)[0];
2293 	ret = EINVAL;
2294 	for (cmd_index = 0;
2295 	    cmd_index < FCP_NUM_ELEMENTS(scsi_ioctl_list) &&
2296 	    ret != 0;
2297 	    cmd_index++) {
2298 		/*
2299 		 * First byte of CDB is the SCSI command
2300 		 */
2301 		if (scsi_ioctl_list[cmd_index] == scsi_cmd) {
2302 			ret = 0;
2303 		}
2304 	}
2305 
2306 	/*
2307 	 * Check inputs
2308 	 */
2309 	if (fscsi->scsi_flags != FCP_SCSI_READ) {
2310 		ret = EINVAL;
2311 	} else if (fscsi->scsi_cdblen > FCP_CDB_SIZE) {
2312 		/* no larger than */
2313 		ret = EINVAL;
2314 	}
2315 
2316 
2317 	/*
2318 	 * Find FC port
2319 	 */
2320 	if (ret == 0) {
2321 		/*
2322 		 * Acquire global mutex
2323 		 */
2324 		mutex_enter(&fcp_global_mutex);
2325 
2326 		pptr = fcp_port_head;
2327 		while (pptr) {
2328 			if (pptr->port_instance ==
2329 			    (uint32_t)fscsi->scsi_fc_port_num) {
2330 				break;
2331 			} else {
2332 				pptr = pptr->port_next;
2333 			}
2334 		}
2335 
2336 		if (pptr == NULL) {
2337 			ret = ENXIO;
2338 		} else {
2339 			/*
2340 			 * fc_ulp_busy_port can raise power
2341 			 *  so, we must not hold any mutexes involved in PM
2342 			 */
2343 			mutex_exit(&fcp_global_mutex);
2344 			ret = fc_ulp_busy_port(pptr->port_fp_handle);
2345 		}
2346 
2347 		if (ret == 0) {
2348 
2349 			/* remember port is busy, so we will release later */
2350 			port_busy = TRUE;
2351 
2352 			/*
2353 			 * If there is a reconfiguration in progress, wait
2354 			 * for it to complete.
2355 			 */
2356 
2357 			fcp_reconfig_wait(pptr);
2358 
2359 			/* reacquire mutexes in order */
2360 			mutex_enter(&fcp_global_mutex);
2361 			mutex_enter(&pptr->port_mutex);
2362 
2363 			/*
2364 			 * Will port accept DMA?
2365 			 */
2366 			nodma = (pptr->port_fcp_dma == FC_NO_DVMA_SPACE)
2367 			    ? 1 : 0;
2368 
2369 			/*
2370 			 * If init or offline, device not known
2371 			 *
2372 			 * If we are discovering (onlining), we can
2373 			 * NOT obviously provide reliable data about
2374 			 * devices until it is complete
2375 			 */
2376 			if (pptr->port_state &	  (FCP_STATE_INIT |
2377 			    FCP_STATE_OFFLINE)) {
2378 				ret = ENXIO;
2379 			} else if (pptr->port_state & FCP_STATE_ONLINING) {
2380 				ret = EBUSY;
2381 			} else {
2382 				/*
2383 				 * Find target from pwwn
2384 				 *
2385 				 * The wwn must be put into a local
2386 				 * variable to ensure alignment.
2387 				 */
2388 				wwn_ptr = (la_wwn_t *)&(fscsi->scsi_fc_pwwn);
2389 				ptgt = fcp_lookup_target(pptr,
2390 				    (uchar_t *)wwn_ptr);
2391 
2392 				/*
2393 				 * If target not found,
2394 				 */
2395 				if (ptgt == NULL) {
2396 					/*
2397 					 * Note: Still have global &
2398 					 * port mutexes
2399 					 */
2400 					mutex_exit(&pptr->port_mutex);
2401 					ptgt = fcp_port_create_tgt(pptr,
2402 					    wwn_ptr, &ret, &fc_status,
2403 					    &pkt_state, &pkt_action,
2404 					    &pkt_reason);
2405 					mutex_enter(&pptr->port_mutex);
2406 
2407 					fscsi->scsi_fc_status  = fc_status;
2408 					fscsi->scsi_pkt_state  =
2409 					    (uchar_t)pkt_state;
2410 					fscsi->scsi_pkt_reason = pkt_reason;
2411 					fscsi->scsi_pkt_action =
2412 					    (uchar_t)pkt_action;
2413 
2414 					if (ptgt != NULL) {
2415 						target_created = TRUE;
2416 					} else if (ret == 0) {
2417 						ret = ENOMEM;
2418 					}
2419 				}
2420 
2421 				if (ret == 0) {
2422 					/*
2423 					 * Acquire target
2424 					 */
2425 					mutex_enter(&ptgt->tgt_mutex);
2426 
2427 					/*
2428 					 * If target is mark or busy,
2429 					 * then target can not be used
2430 					 */
2431 					if (ptgt->tgt_state &
2432 					    (FCP_TGT_MARK |
2433 					    FCP_TGT_BUSY)) {
2434 						ret = EBUSY;
2435 					} else {
2436 						/*
2437 						 * Mark target as busy
2438 						 */
2439 						ptgt->tgt_state |=
2440 						    FCP_TGT_BUSY;
2441 					}
2442 
2443 					/*
2444 					 * Release target
2445 					 */
2446 					lcount = pptr->port_link_cnt;
2447 					tcount = ptgt->tgt_change_cnt;
2448 					mutex_exit(&ptgt->tgt_mutex);
2449 				}
2450 			}
2451 
2452 			/*
2453 			 * Release port
2454 			 */
2455 			mutex_exit(&pptr->port_mutex);
2456 		}
2457 
2458 		/*
2459 		 * Release global mutex
2460 		 */
2461 		mutex_exit(&fcp_global_mutex);
2462 	}
2463 
2464 	if (ret == 0) {
2465 		uint64_t belun = BE_64(fscsi->scsi_lun);
2466 
2467 		/*
2468 		 * If it's a target device, find lun from pwwn
2469 		 * The wwn must be put into a local
2470 		 * variable to ensure alignment.
2471 		 */
2472 		mutex_enter(&pptr->port_mutex);
2473 		wwn_ptr = (la_wwn_t *)&(fscsi->scsi_fc_pwwn);
2474 		if (!ptgt->tgt_tcap && ptgt->tgt_icap) {
2475 			/* this is not a target */
2476 			fscsi->scsi_fc_status = FC_DEVICE_NOT_TGT;
2477 			ret = ENXIO;
2478 		} else if ((belun << 16) != 0) {
2479 			/*
2480 			 * Since fcp only support PD and LU addressing method
2481 			 * so far, the last 6 bytes of a valid LUN are expected
2482 			 * to be filled with 00h.
2483 			 */
2484 			fscsi->scsi_fc_status = FC_INVALID_LUN;
2485 			cmn_err(CE_WARN, "fcp: Unsupported LUN addressing"
2486 			    " method 0x%02x with LUN number 0x%016" PRIx64,
2487 			    (uint8_t)(belun >> 62), belun);
2488 			ret = ENXIO;
2489 		} else if ((plun = fcp_lookup_lun(pptr, (uchar_t *)wwn_ptr,
2490 		    (uint16_t)((belun >> 48) & 0x3fff))) == NULL) {
2491 			/*
2492 			 * This is a SCSI target, but no LUN at this
2493 			 * address.
2494 			 *
2495 			 * In the future, we may want to send this to
2496 			 * the target, and let it respond
2497 			 * appropriately
2498 			 */
2499 			ret = ENXIO;
2500 		}
2501 		mutex_exit(&pptr->port_mutex);
2502 	}
2503 
2504 	/*
2505 	 * Finished grabbing external resources
2506 	 * Allocate internal packet (icmd)
2507 	 */
2508 	if (ret == 0) {
2509 		/*
2510 		 * Calc rsp len assuming rsp info included
2511 		 */
2512 		rsp_len = sizeof (struct fcp_rsp) +
2513 		    sizeof (struct fcp_rsp_info) + fscsi->scsi_rqlen;
2514 
2515 		icmd = fcp_icmd_alloc(pptr, ptgt,
2516 		    sizeof (struct fcp_cmd),
2517 		    rsp_len,
2518 		    fscsi->scsi_buflen,
2519 		    nodma,
2520 		    lcount,			/* ipkt_link_cnt */
2521 		    tcount,			/* ipkt_change_cnt */
2522 		    0,				/* cause */
2523 		    FC_INVALID_RSCN_COUNT);	/* invalidate the count */
2524 
2525 		if (icmd == NULL) {
2526 			ret = ENOMEM;
2527 		} else {
2528 			/*
2529 			 * Setup internal packet as sema sync
2530 			 */
2531 			fcp_ipkt_sema_init(icmd);
2532 		}
2533 	}
2534 
2535 	if (ret == 0) {
2536 		/*
2537 		 * Init fpkt pointer for use.
2538 		 */
2539 
2540 		fpkt = icmd->ipkt_fpkt;
2541 
2542 		fpkt->pkt_tran_flags	= FC_TRAN_CLASS3 | FC_TRAN_INTR;
2543 		fpkt->pkt_tran_type	= FC_PKT_FCP_READ; /* only rd for now */
2544 		fpkt->pkt_timeout	= fscsi->scsi_timeout;
2545 
2546 		/*
2547 		 * Init fcmd pointer for use by SCSI command
2548 		 */
2549 
2550 		if (nodma) {
2551 			fcmd = (struct fcp_cmd *)fpkt->pkt_cmd;
2552 		} else {
2553 			fcmd = &fcp_cmd;
2554 		}
2555 		bzero(fcmd, sizeof (struct fcp_cmd));
2556 		ptgt = plun->lun_tgt;
2557 
2558 		lun_string = (uchar_t *)&fscsi->scsi_lun;
2559 
2560 		fcmd->fcp_ent_addr.ent_addr_0 =
2561 		    BE_16(*(uint16_t *)&(lun_string[0]));
2562 		fcmd->fcp_ent_addr.ent_addr_1 =
2563 		    BE_16(*(uint16_t *)&(lun_string[2]));
2564 		fcmd->fcp_ent_addr.ent_addr_2 =
2565 		    BE_16(*(uint16_t *)&(lun_string[4]));
2566 		fcmd->fcp_ent_addr.ent_addr_3 =
2567 		    BE_16(*(uint16_t *)&(lun_string[6]));
2568 
2569 		/*
2570 		 * Setup internal packet(icmd)
2571 		 */
2572 		icmd->ipkt_lun		= plun;
2573 		icmd->ipkt_restart	= 0;
2574 		icmd->ipkt_retries	= 0;
2575 		icmd->ipkt_opcode	= 0;
2576 
2577 		/*
2578 		 * Init the frame HEADER Pointer for use
2579 		 */
2580 		hp = &fpkt->pkt_cmd_fhdr;
2581 
2582 		hp->s_id	= pptr->port_id;
2583 		hp->d_id	= ptgt->tgt_d_id;
2584 		hp->r_ctl	= R_CTL_COMMAND;
2585 		hp->type	= FC_TYPE_SCSI_FCP;
2586 		hp->f_ctl	= F_CTL_SEQ_INITIATIVE | F_CTL_FIRST_SEQ;
2587 		hp->rsvd	= 0;
2588 		hp->seq_id	= 0;
2589 		hp->seq_cnt	= 0;
2590 		hp->ox_id	= 0xffff;
2591 		hp->rx_id	= 0xffff;
2592 		hp->ro		= 0;
2593 
2594 		fcmd->fcp_cntl.cntl_qtype	= FCP_QTYPE_SIMPLE;
2595 		fcmd->fcp_cntl.cntl_read_data	= 1;	/* only rd for now */
2596 		fcmd->fcp_cntl.cntl_write_data	= 0;
2597 		fcmd->fcp_data_len	= fscsi->scsi_buflen;
2598 
2599 		scsi_cdb = (union scsi_cdb *)fcmd->fcp_cdb;
2600 		bcopy((char *)fscsi->scsi_cdbbufaddr, (char *)scsi_cdb,
2601 		    fscsi->scsi_cdblen);
2602 
2603 		if (!nodma) {
2604 			FCP_CP_OUT((uint8_t *)fcmd, fpkt->pkt_cmd,
2605 			    fpkt->pkt_cmd_acc, sizeof (struct fcp_cmd));
2606 		}
2607 
2608 		/*
2609 		 * Send SCSI command to FC transport
2610 		 */
2611 
2612 		if (ret == 0) {
2613 			mutex_enter(&ptgt->tgt_mutex);
2614 
2615 			if (!FCP_TGT_STATE_CHANGED(ptgt, icmd)) {
2616 				mutex_exit(&ptgt->tgt_mutex);
2617 				fscsi->scsi_fc_status = xport_retval =
2618 				    fc_ulp_transport(pptr->port_fp_handle,
2619 				    fpkt);
2620 				if (fscsi->scsi_fc_status != FC_SUCCESS) {
2621 					ret = EIO;
2622 				}
2623 			} else {
2624 				mutex_exit(&ptgt->tgt_mutex);
2625 				ret = EBUSY;
2626 			}
2627 		}
2628 	}
2629 
2630 	/*
2631 	 * Wait for completion only if fc_ulp_transport was called and it
2632 	 * returned a success. This is the only time callback will happen.
2633 	 * Otherwise, there is no point in waiting
2634 	 */
2635 	if ((ret == 0) && (xport_retval == FC_SUCCESS)) {
2636 		ret = fcp_ipkt_sema_wait(icmd);
2637 	}
2638 
2639 	/*
2640 	 * Copy data to IOCTL data structures
2641 	 */
2642 	rsp = NULL;
2643 	if ((ret == 0) && (xport_retval == FC_SUCCESS)) {
2644 		rsp = (struct fcp_rsp *)fpkt->pkt_resp;
2645 
2646 		if (fcp_validate_fcp_response(rsp, pptr) != FC_SUCCESS) {
2647 			fcp_log(CE_WARN, pptr->port_dip,
2648 			    "!SCSI command to d_id=0x%x lun=0x%x"
2649 			    " failed, Bad FCP response values:"
2650 			    " rsvd1=%x, rsvd2=%x, sts-rsvd1=%x,"
2651 			    " sts-rsvd2=%x, rsplen=%x, senselen=%x",
2652 			    ptgt->tgt_d_id, plun->lun_num,
2653 			    rsp->reserved_0, rsp->reserved_1,
2654 			    rsp->fcp_u.fcp_status.reserved_0,
2655 			    rsp->fcp_u.fcp_status.reserved_1,
2656 			    rsp->fcp_response_len, rsp->fcp_sense_len);
2657 
2658 			ret = EIO;
2659 		}
2660 	}
2661 
2662 	if ((ret == 0) && (rsp != NULL)) {
2663 		/*
2664 		 * Calc response lengths
2665 		 */
2666 		sense_len = 0;
2667 		info_len = 0;
2668 
2669 		if (rsp->fcp_u.fcp_status.rsp_len_set) {
2670 			info_len = rsp->fcp_response_len;
2671 		}
2672 
2673 		rsp_info   = (struct fcp_rsp_info *)
2674 		    ((uint8_t *)rsp + sizeof (struct fcp_rsp));
2675 
2676 		/*
2677 		 * Get SCSI status
2678 		 */
2679 		fscsi->scsi_bufstatus = rsp->fcp_u.fcp_status.scsi_status;
2680 		/*
2681 		 * If a lun was just added or removed and the next command
2682 		 * comes through this interface, we need to capture the check
2683 		 * condition so we can discover the new topology.
2684 		 */
2685 		if (fscsi->scsi_bufstatus != STATUS_GOOD &&
2686 		    rsp->fcp_u.fcp_status.sense_len_set) {
2687 			sense_len = rsp->fcp_sense_len;
2688 			rsp_sense  = (caddr_t)((uint8_t *)rsp_info + info_len);
2689 			sense_to = (struct scsi_extended_sense *)rsp_sense;
2690 			if ((FCP_SENSE_REPORTLUN_CHANGED(sense_to)) ||
2691 			    (FCP_SENSE_NO_LUN(sense_to))) {
2692 				reconfig_lun = TRUE;
2693 			}
2694 		}
2695 
2696 		if (fscsi->scsi_bufstatus == STATUS_GOOD && (ptgt != NULL) &&
2697 		    (reconfig_lun || (scsi_cdb->scc_cmd == SCMD_REPORT_LUN))) {
2698 			if (reconfig_lun == FALSE) {
2699 				reconfig_status =
2700 				    fcp_is_reconfig_needed(ptgt, fpkt);
2701 			}
2702 
2703 			if ((reconfig_lun == TRUE) ||
2704 			    (reconfig_status == TRUE)) {
2705 				mutex_enter(&ptgt->tgt_mutex);
2706 				if (ptgt->tgt_tid == NULL) {
2707 					/*
2708 					 * Either we've been notified the
2709 					 * REPORT_LUN data has changed, or
2710 					 * we've determined on our own that
2711 					 * we're out of date.  Kick off
2712 					 * rediscovery.
2713 					 */
2714 					tid = timeout(fcp_reconfigure_luns,
2715 					    (caddr_t)ptgt, drv_usectohz(1));
2716 
2717 					ptgt->tgt_tid = tid;
2718 					ptgt->tgt_state |= FCP_TGT_BUSY;
2719 					ret = EBUSY;
2720 					reconfig_pending = TRUE;
2721 				}
2722 				mutex_exit(&ptgt->tgt_mutex);
2723 			}
2724 		}
2725 
2726 		/*
2727 		 * Calc residuals and buffer lengths
2728 		 */
2729 
2730 		if (ret == 0) {
2731 			buf_len = fscsi->scsi_buflen;
2732 			fscsi->scsi_bufresid	= 0;
2733 			if (rsp->fcp_u.fcp_status.resid_under) {
2734 				if (rsp->fcp_resid <= fscsi->scsi_buflen) {
2735 					fscsi->scsi_bufresid = rsp->fcp_resid;
2736 				} else {
2737 					cmn_err(CE_WARN, "fcp: bad residue %x "
2738 					    "for txfer len %x", rsp->fcp_resid,
2739 					    fscsi->scsi_buflen);
2740 					fscsi->scsi_bufresid =
2741 					    fscsi->scsi_buflen;
2742 				}
2743 				buf_len -= fscsi->scsi_bufresid;
2744 			}
2745 			if (rsp->fcp_u.fcp_status.resid_over) {
2746 				fscsi->scsi_bufresid = -rsp->fcp_resid;
2747 			}
2748 
2749 			fscsi->scsi_rqresid	= fscsi->scsi_rqlen - sense_len;
2750 			if (fscsi->scsi_rqlen < sense_len) {
2751 				sense_len = fscsi->scsi_rqlen;
2752 			}
2753 
2754 			fscsi->scsi_fc_rspcode	= 0;
2755 			if (rsp->fcp_u.fcp_status.rsp_len_set) {
2756 				fscsi->scsi_fc_rspcode	= rsp_info->rsp_code;
2757 			}
2758 			fscsi->scsi_pkt_state	= fpkt->pkt_state;
2759 			fscsi->scsi_pkt_action	= fpkt->pkt_action;
2760 			fscsi->scsi_pkt_reason	= fpkt->pkt_reason;
2761 
2762 			/*
2763 			 * Copy data and request sense
2764 			 *
2765 			 * Data must be copied by using the FCP_CP_IN macro.
2766 			 * This will ensure the proper byte order since the data
2767 			 * is being copied directly from the memory mapped
2768 			 * device register.
2769 			 *
2770 			 * The response (and request sense) will be in the
2771 			 * correct byte order.	No special copy is necessary.
2772 			 */
2773 
2774 			if (buf_len) {
2775 				FCP_CP_IN(fpkt->pkt_data,
2776 				    fscsi->scsi_bufaddr,
2777 				    fpkt->pkt_data_acc,
2778 				    buf_len);
2779 			}
2780 			bcopy((void *)rsp_sense,
2781 			    (void *)fscsi->scsi_rqbufaddr,
2782 			    sense_len);
2783 		}
2784 	}
2785 
2786 	/*
2787 	 * Cleanup transport data structures if icmd was alloc-ed
2788 	 * So, cleanup happens in the same thread that icmd was alloc-ed
2789 	 */
2790 	if (icmd != NULL) {
2791 		fcp_ipkt_sema_cleanup(icmd);
2792 	}
2793 
2794 	/* restore pm busy/idle status */
2795 	if (port_busy) {
2796 		fc_ulp_idle_port(pptr->port_fp_handle);
2797 	}
2798 
2799 	/*
2800 	 * Cleanup target.  if a reconfig is pending, don't clear the BUSY
2801 	 * flag, it'll be cleared when the reconfig is complete.
2802 	 */
2803 	if ((ptgt != NULL) && !reconfig_pending) {
2804 		/*
2805 		 * If target was created,
2806 		 */
2807 		if (target_created) {
2808 			mutex_enter(&ptgt->tgt_mutex);
2809 			ptgt->tgt_state &= ~FCP_TGT_BUSY;
2810 			mutex_exit(&ptgt->tgt_mutex);
2811 		} else {
2812 			/*
2813 			 * De-mark target as busy
2814 			 */
2815 			mutex_enter(&ptgt->tgt_mutex);
2816 			ptgt->tgt_state &= ~FCP_TGT_BUSY;
2817 			mutex_exit(&ptgt->tgt_mutex);
2818 		}
2819 	}
2820 	return (ret);
2821 }
2822 
2823 
2824 static int
2825 fcp_is_reconfig_needed(struct fcp_tgt *ptgt,
2826     fc_packet_t	*fpkt)
2827 {
2828 	uchar_t			*lun_string;
2829 	uint16_t		lun_num, i;
2830 	int			num_luns;
2831 	int			actual_luns;
2832 	int			num_masked_luns;
2833 	int			lun_buflen;
2834 	struct fcp_lun	*plun	= NULL;
2835 	struct fcp_reportlun_resp	*report_lun;
2836 	uint8_t			reconfig_needed = FALSE;
2837 	uint8_t			lun_exists = FALSE;
2838 
2839 	report_lun = kmem_zalloc(fpkt->pkt_datalen, KM_SLEEP);
2840 
2841 	FCP_CP_IN(fpkt->pkt_data, report_lun, fpkt->pkt_data_acc,
2842 	    fpkt->pkt_datalen);
2843 
2844 	/* get number of luns (which is supplied as LUNS * 8) */
2845 	num_luns = BE_32(report_lun->num_lun) >> 3;
2846 
2847 	/*
2848 	 * Figure out exactly how many lun strings our response buffer
2849 	 * can hold.
2850 	 */
2851 	lun_buflen = (fpkt->pkt_datalen -
2852 	    2 * sizeof (uint32_t)) / sizeof (longlong_t);
2853 
2854 	/*
2855 	 * Is our response buffer full or not? We don't want to
2856 	 * potentially walk beyond the number of luns we have.
2857 	 */
2858 	if (num_luns <= lun_buflen) {
2859 		actual_luns = num_luns;
2860 	} else {
2861 		actual_luns = lun_buflen;
2862 	}
2863 
2864 	mutex_enter(&ptgt->tgt_mutex);
2865 
2866 	/* Scan each lun to see if we have masked it. */
2867 	num_masked_luns = 0;
2868 	if (fcp_lun_blacklist != NULL) {
2869 		for (i = 0; i < actual_luns; i++) {
2870 			lun_string = (uchar_t *)&(report_lun->lun_string[i]);
2871 			switch (lun_string[0] & 0xC0) {
2872 			case FCP_LUN_ADDRESSING:
2873 			case FCP_PD_ADDRESSING:
2874 				lun_num = ((lun_string[0] & 0x3F) << 8)
2875 				    | lun_string[1];
2876 				if (fcp_should_mask(&ptgt->tgt_port_wwn,
2877 				    lun_num) == TRUE) {
2878 					num_masked_luns++;
2879 				}
2880 				break;
2881 			default:
2882 				break;
2883 			}
2884 		}
2885 	}
2886 
2887 	/*
2888 	 * The quick and easy check.  If the number of LUNs reported
2889 	 * doesn't match the number we currently know about, we need
2890 	 * to reconfigure.
2891 	 */
2892 	if (num_luns && num_luns != (ptgt->tgt_lun_cnt + num_masked_luns)) {
2893 		mutex_exit(&ptgt->tgt_mutex);
2894 		kmem_free(report_lun, fpkt->pkt_datalen);
2895 		return (TRUE);
2896 	}
2897 
2898 	/*
2899 	 * If the quick and easy check doesn't turn up anything, we walk
2900 	 * the list of luns from the REPORT_LUN response and look for
2901 	 * any luns we don't know about.  If we find one, we know we need
2902 	 * to reconfigure. We will skip LUNs that are masked because of the
2903 	 * blacklist.
2904 	 */
2905 	for (i = 0; i < actual_luns; i++) {
2906 		lun_string = (uchar_t *)&(report_lun->lun_string[i]);
2907 		lun_exists = FALSE;
2908 		switch (lun_string[0] & 0xC0) {
2909 		case FCP_LUN_ADDRESSING:
2910 		case FCP_PD_ADDRESSING:
2911 			lun_num = ((lun_string[0] & 0x3F) << 8) | lun_string[1];
2912 
2913 			if ((fcp_lun_blacklist != NULL) && (fcp_should_mask(
2914 			    &ptgt->tgt_port_wwn, lun_num) == TRUE)) {
2915 				lun_exists = TRUE;
2916 				break;
2917 			}
2918 
2919 			for (plun = ptgt->tgt_lun; plun;
2920 			    plun = plun->lun_next) {
2921 				if (plun->lun_num == lun_num) {
2922 					lun_exists = TRUE;
2923 					break;
2924 				}
2925 			}
2926 			break;
2927 		default:
2928 			break;
2929 		}
2930 
2931 		if (lun_exists == FALSE) {
2932 			reconfig_needed = TRUE;
2933 			break;
2934 		}
2935 	}
2936 
2937 	mutex_exit(&ptgt->tgt_mutex);
2938 	kmem_free(report_lun, fpkt->pkt_datalen);
2939 
2940 	return (reconfig_needed);
2941 }
2942 
2943 /*
2944  * This function is called by fcp_handle_page83 and uses inquiry response data
2945  * stored in plun->lun_inq to determine whether or not a device is a member of
2946  * the table fcp_symmetric_disk_table_size. We return 0 if it is in the table,
2947  * otherwise 1.
2948  */
2949 static int
2950 fcp_symmetric_device_probe(struct fcp_lun *plun)
2951 {
2952 	struct scsi_inquiry	*stdinq = &plun->lun_inq;
2953 	char			*devidptr;
2954 	int			i, len;
2955 
2956 	for (i = 0; i < fcp_symmetric_disk_table_size; i++) {
2957 		devidptr = fcp_symmetric_disk_table[i];
2958 		len = (int)strlen(devidptr);
2959 
2960 		if (bcmp(stdinq->inq_vid, devidptr, len) == 0) {
2961 			return (0);
2962 		}
2963 	}
2964 	return (1);
2965 }
2966 
2967 
2968 /*
2969  * This function is called by fcp_ioctl for the FCP_STATE_COUNT ioctl
2970  * It basically returns the current count of # of state change callbacks
2971  * i.e the value of tgt_change_cnt.
2972  *
2973  * INPUT:
2974  *   fcp_ioctl.fp_minor -> The minor # of the fp port
2975  *   fcp_ioctl.listlen	-> 1
2976  *   fcp_ioctl.list	-> Pointer to a 32 bit integer
2977  */
2978 /*ARGSUSED2*/
2979 static int
2980 fcp_get_statec_count(struct fcp_ioctl *data, int mode, int *rval)
2981 {
2982 	int			ret;
2983 	uint32_t		link_cnt;
2984 	struct fcp_ioctl	fioctl;
2985 	struct fcp_port	*pptr = NULL;
2986 
2987 	if ((ret = fcp_copyin_fcp_ioctl_data(data, mode, rval, &fioctl,
2988 	    &pptr)) != 0) {
2989 		return (ret);
2990 	}
2991 
2992 	ASSERT(pptr != NULL);
2993 
2994 	if (fioctl.listlen != 1) {
2995 		return (EINVAL);
2996 	}
2997 
2998 	mutex_enter(&pptr->port_mutex);
2999 	if (pptr->port_state & FCP_STATE_OFFLINE) {
3000 		mutex_exit(&pptr->port_mutex);
3001 		return (ENXIO);
3002 	}
3003 
3004 	/*
3005 	 * FCP_STATE_INIT is set in 2 cases (not sure why it is overloaded):
3006 	 * When the fcp initially attaches to the port and there are nothing
3007 	 * hanging out of the port or if there was a repeat offline state change
3008 	 * callback (refer fcp_statec_callback() FC_STATE_OFFLINE case).
3009 	 * In the latter case, port_tmp_cnt will be non-zero and that is how we
3010 	 * will differentiate the 2 cases.
3011 	 */
3012 	if ((pptr->port_state & FCP_STATE_INIT) && pptr->port_tmp_cnt) {
3013 		mutex_exit(&pptr->port_mutex);
3014 		return (ENXIO);
3015 	}
3016 
3017 	link_cnt = pptr->port_link_cnt;
3018 	mutex_exit(&pptr->port_mutex);
3019 
3020 	if (ddi_copyout(&link_cnt, fioctl.list, (sizeof (uint32_t)), mode)) {
3021 		return (EFAULT);
3022 	}
3023 
3024 #ifdef	_MULTI_DATAMODEL
3025 	switch (ddi_model_convert_from(mode & FMODELS)) {
3026 	case DDI_MODEL_ILP32: {
3027 		struct fcp32_ioctl f32_ioctl;
3028 
3029 		f32_ioctl.fp_minor = fioctl.fp_minor;
3030 		f32_ioctl.listlen = fioctl.listlen;
3031 		f32_ioctl.list = (caddr32_t)(long)fioctl.list;
3032 		if (ddi_copyout((void *)&f32_ioctl, (void *)data,
3033 		    sizeof (struct fcp32_ioctl), mode)) {
3034 			return (EFAULT);
3035 		}
3036 		break;
3037 	}
3038 	case DDI_MODEL_NONE:
3039 		if (ddi_copyout((void *)&fioctl, (void *)data,
3040 		    sizeof (struct fcp_ioctl), mode)) {
3041 			return (EFAULT);
3042 		}
3043 		break;
3044 	}
3045 #else	/* _MULTI_DATAMODEL */
3046 
3047 	if (ddi_copyout((void *)&fioctl, (void *)data,
3048 	    sizeof (struct fcp_ioctl), mode)) {
3049 		return (EFAULT);
3050 	}
3051 #endif	/* _MULTI_DATAMODEL */
3052 
3053 	return (0);
3054 }
3055 
3056 /*
3057  * This function copies the fcp_ioctl structure passed in from user land
3058  * into kernel land. Handles 32 bit applications.
3059  */
3060 /*ARGSUSED*/
3061 static int
3062 fcp_copyin_fcp_ioctl_data(struct fcp_ioctl *data, int mode, int *rval,
3063     struct fcp_ioctl *fioctl, struct fcp_port **pptr)
3064 {
3065 	struct fcp_port	*t_pptr;
3066 
3067 #ifdef	_MULTI_DATAMODEL
3068 	switch (ddi_model_convert_from(mode & FMODELS)) {
3069 	case DDI_MODEL_ILP32: {
3070 		struct fcp32_ioctl f32_ioctl;
3071 
3072 		if (ddi_copyin((void *)data, (void *)&f32_ioctl,
3073 		    sizeof (struct fcp32_ioctl), mode)) {
3074 			return (EFAULT);
3075 		}
3076 		fioctl->fp_minor = f32_ioctl.fp_minor;
3077 		fioctl->listlen = f32_ioctl.listlen;
3078 		fioctl->list = (caddr_t)(long)f32_ioctl.list;
3079 		break;
3080 	}
3081 	case DDI_MODEL_NONE:
3082 		if (ddi_copyin((void *)data, (void *)fioctl,
3083 		    sizeof (struct fcp_ioctl), mode)) {
3084 			return (EFAULT);
3085 		}
3086 		break;
3087 	}
3088 
3089 #else	/* _MULTI_DATAMODEL */
3090 	if (ddi_copyin((void *)data, (void *)fioctl,
3091 	    sizeof (struct fcp_ioctl), mode)) {
3092 		return (EFAULT);
3093 	}
3094 #endif	/* _MULTI_DATAMODEL */
3095 
3096 	/*
3097 	 * Right now we can assume that the minor number matches with
3098 	 * this instance of fp. If this changes we will need to
3099 	 * revisit this logic.
3100 	 */
3101 	mutex_enter(&fcp_global_mutex);
3102 	t_pptr = fcp_port_head;
3103 	while (t_pptr) {
3104 		if (t_pptr->port_instance == (uint32_t)fioctl->fp_minor) {
3105 			break;
3106 		} else {
3107 			t_pptr = t_pptr->port_next;
3108 		}
3109 	}
3110 	*pptr = t_pptr;
3111 	mutex_exit(&fcp_global_mutex);
3112 	if (t_pptr == NULL) {
3113 		return (ENXIO);
3114 	}
3115 
3116 	return (0);
3117 }
3118 
3119 /*
3120  *     Function: fcp_port_create_tgt
3121  *
3122  *  Description: As the name suggest this function creates the target context
3123  *		 specified by the the WWN provided by the caller.  If the
3124  *		 creation goes well and the target is known by fp/fctl a PLOGI
3125  *		 followed by a PRLI are issued.
3126  *
3127  *     Argument: pptr		fcp port structure
3128  *		 pwwn		WWN of the target
3129  *		 ret_val	Address of the return code.  It could be:
3130  *				EIO, ENOMEM or 0.
3131  *		 fc_status	PLOGI or PRLI status completion
3132  *		 fc_pkt_state	PLOGI or PRLI state completion
3133  *		 fc_pkt_reason	PLOGI or PRLI reason completion
3134  *		 fc_pkt_action	PLOGI or PRLI action completion
3135  *
3136  * Return Value: NULL if it failed
3137  *		 Target structure address if it succeeds
3138  */
3139 static struct fcp_tgt *
3140 fcp_port_create_tgt(struct fcp_port *pptr, la_wwn_t *pwwn, int *ret_val,
3141     int *fc_status, int *fc_pkt_state, int *fc_pkt_reason, int *fc_pkt_action)
3142 {
3143 	struct fcp_tgt	*ptgt = NULL;
3144 	fc_portmap_t		devlist;
3145 	int			lcount;
3146 	int			error;
3147 
3148 	*ret_val = 0;
3149 
3150 	/*
3151 	 * Check FC port device & get port map
3152 	 */
3153 	if (fc_ulp_get_remote_port(pptr->port_fp_handle, pwwn,
3154 	    &error, 1) == NULL) {
3155 		*ret_val = EIO;
3156 	} else {
3157 		if (fc_ulp_pwwn_to_portmap(pptr->port_fp_handle, pwwn,
3158 		    &devlist) != FC_SUCCESS) {
3159 			*ret_val = EIO;
3160 		}
3161 	}
3162 
3163 	/* Set port map flags */
3164 	devlist.map_type = PORT_DEVICE_USER_CREATE;
3165 
3166 	/* Allocate target */
3167 	if (*ret_val == 0) {
3168 		lcount = pptr->port_link_cnt;
3169 		ptgt = fcp_alloc_tgt(pptr, &devlist, lcount);
3170 		if (ptgt == NULL) {
3171 			fcp_log(CE_WARN, pptr->port_dip,
3172 			    "!FC target allocation failed");
3173 			*ret_val = ENOMEM;
3174 		} else {
3175 			/* Setup target */
3176 			mutex_enter(&ptgt->tgt_mutex);
3177 
3178 			ptgt->tgt_statec_cause	= FCP_CAUSE_TGT_CHANGE;
3179 			ptgt->tgt_tmp_cnt	= 1;
3180 			ptgt->tgt_d_id		= devlist.map_did.port_id;
3181 			ptgt->tgt_hard_addr	=
3182 			    devlist.map_hard_addr.hard_addr;
3183 			ptgt->tgt_pd_handle	= devlist.map_pd;
3184 			ptgt->tgt_fca_dev	= NULL;
3185 
3186 			bcopy(&devlist.map_nwwn, &ptgt->tgt_node_wwn.raw_wwn[0],
3187 			    FC_WWN_SIZE);
3188 			bcopy(&devlist.map_pwwn, &ptgt->tgt_port_wwn.raw_wwn[0],
3189 			    FC_WWN_SIZE);
3190 
3191 			mutex_exit(&ptgt->tgt_mutex);
3192 		}
3193 	}
3194 
3195 	/* Release global mutex for PLOGI and PRLI */
3196 	mutex_exit(&fcp_global_mutex);
3197 
3198 	/* Send PLOGI (If necessary) */
3199 	if (*ret_val == 0) {
3200 		*ret_val = fcp_tgt_send_plogi(ptgt, fc_status,
3201 		    fc_pkt_state, fc_pkt_reason, fc_pkt_action);
3202 	}
3203 
3204 	/* Send PRLI (If necessary) */
3205 	if (*ret_val == 0) {
3206 		*ret_val = fcp_tgt_send_prli(ptgt, fc_status,
3207 		    fc_pkt_state, fc_pkt_reason, fc_pkt_action);
3208 	}
3209 
3210 	mutex_enter(&fcp_global_mutex);
3211 
3212 	return (ptgt);
3213 }
3214 
3215 /*
3216  *     Function: fcp_tgt_send_plogi
3217  *
3218  *  Description: This function sends a PLOGI to the target specified by the
3219  *		 caller and waits till it completes.
3220  *
3221  *     Argument: ptgt		Target to send the plogi to.
3222  *		 fc_status	Status returned by fp/fctl in the PLOGI request.
3223  *		 fc_pkt_state	State returned by fp/fctl in the PLOGI request.
3224  *		 fc_pkt_reason	Reason returned by fp/fctl in the PLOGI request.
3225  *		 fc_pkt_action	Action returned by fp/fctl in the PLOGI request.
3226  *
3227  * Return Value: 0
3228  *		 ENOMEM
3229  *		 EIO
3230  *
3231  *	Context: User context.
3232  */
3233 static int
3234 fcp_tgt_send_plogi(struct fcp_tgt *ptgt, int *fc_status, int *fc_pkt_state,
3235     int *fc_pkt_reason, int *fc_pkt_action)
3236 {
3237 	struct fcp_port	*pptr;
3238 	struct fcp_ipkt	*icmd;
3239 	struct fc_packet	*fpkt;
3240 	fc_frame_hdr_t		*hp;
3241 	struct la_els_logi	logi;
3242 	int			tcount;
3243 	int			lcount;
3244 	int			ret, login_retval = ~FC_SUCCESS;
3245 
3246 	ret = 0;
3247 
3248 	pptr = ptgt->tgt_port;
3249 
3250 	lcount = pptr->port_link_cnt;
3251 	tcount = ptgt->tgt_change_cnt;
3252 
3253 	/* Alloc internal packet */
3254 	icmd = fcp_icmd_alloc(pptr, ptgt, sizeof (la_els_logi_t),
3255 	    sizeof (la_els_logi_t), 0, 0, lcount, tcount, 0,
3256 	    FC_INVALID_RSCN_COUNT);
3257 
3258 	if (icmd == NULL) {
3259 		ret = ENOMEM;
3260 	} else {
3261 		/*
3262 		 * Setup internal packet as sema sync
3263 		 */
3264 		fcp_ipkt_sema_init(icmd);
3265 
3266 		/*
3267 		 * Setup internal packet (icmd)
3268 		 */
3269 		icmd->ipkt_lun		= NULL;
3270 		icmd->ipkt_restart	= 0;
3271 		icmd->ipkt_retries	= 0;
3272 		icmd->ipkt_opcode	= LA_ELS_PLOGI;
3273 
3274 		/*
3275 		 * Setup fc_packet
3276 		 */
3277 		fpkt = icmd->ipkt_fpkt;
3278 
3279 		fpkt->pkt_tran_flags	= FC_TRAN_CLASS3 | FC_TRAN_INTR;
3280 		fpkt->pkt_tran_type	= FC_PKT_EXCHANGE;
3281 		fpkt->pkt_timeout	= FCP_ELS_TIMEOUT;
3282 
3283 		/*
3284 		 * Setup FC frame header
3285 		 */
3286 		hp = &fpkt->pkt_cmd_fhdr;
3287 
3288 		hp->s_id	= pptr->port_id;	/* source ID */
3289 		hp->d_id	= ptgt->tgt_d_id;	/* dest ID */
3290 		hp->r_ctl	= R_CTL_ELS_REQ;
3291 		hp->type	= FC_TYPE_EXTENDED_LS;
3292 		hp->f_ctl	= F_CTL_SEQ_INITIATIVE | F_CTL_FIRST_SEQ;
3293 		hp->seq_id	= 0;
3294 		hp->rsvd	= 0;
3295 		hp->df_ctl	= 0;
3296 		hp->seq_cnt	= 0;
3297 		hp->ox_id	= 0xffff;		/* i.e. none */
3298 		hp->rx_id	= 0xffff;		/* i.e. none */
3299 		hp->ro		= 0;
3300 
3301 		/*
3302 		 * Setup PLOGI
3303 		 */
3304 		bzero(&logi, sizeof (struct la_els_logi));
3305 		logi.ls_code.ls_code = LA_ELS_PLOGI;
3306 
3307 		FCP_CP_OUT((uint8_t *)&logi, fpkt->pkt_cmd,
3308 		    fpkt->pkt_cmd_acc, sizeof (struct la_els_logi));
3309 
3310 		/*
3311 		 * Send PLOGI
3312 		 */
3313 		*fc_status = login_retval =
3314 		    fc_ulp_login(pptr->port_fp_handle, &fpkt, 1);
3315 		if (*fc_status != FC_SUCCESS) {
3316 			ret = EIO;
3317 		}
3318 	}
3319 
3320 	/*
3321 	 * Wait for completion
3322 	 */
3323 	if ((ret == 0) && (login_retval == FC_SUCCESS)) {
3324 		ret = fcp_ipkt_sema_wait(icmd);
3325 
3326 		*fc_pkt_state	= fpkt->pkt_state;
3327 		*fc_pkt_reason	= fpkt->pkt_reason;
3328 		*fc_pkt_action	= fpkt->pkt_action;
3329 	}
3330 
3331 	/*
3332 	 * Cleanup transport data structures if icmd was alloc-ed AND if there
3333 	 * is going to be no callback (i.e if fc_ulp_login() failed).
3334 	 * Otherwise, cleanup happens in callback routine.
3335 	 */
3336 	if (icmd != NULL) {
3337 		fcp_ipkt_sema_cleanup(icmd);
3338 	}
3339 
3340 	return (ret);
3341 }
3342 
3343 /*
3344  *     Function: fcp_tgt_send_prli
3345  *
3346  *  Description: Does nothing as of today.
3347  *
3348  *     Argument: ptgt		Target to send the prli to.
3349  *		 fc_status	Status returned by fp/fctl in the PRLI request.
3350  *		 fc_pkt_state	State returned by fp/fctl in the PRLI request.
3351  *		 fc_pkt_reason	Reason returned by fp/fctl in the PRLI request.
3352  *		 fc_pkt_action	Action returned by fp/fctl in the PRLI request.
3353  *
3354  * Return Value: 0
3355  */
3356 /*ARGSUSED*/
3357 static int
3358 fcp_tgt_send_prli(struct fcp_tgt *ptgt, int *fc_status, int *fc_pkt_state,
3359     int *fc_pkt_reason, int *fc_pkt_action)
3360 {
3361 	return (0);
3362 }
3363 
3364 /*
3365  *     Function: fcp_ipkt_sema_init
3366  *
3367  *  Description: Initializes the semaphore contained in the internal packet.
3368  *
3369  *     Argument: icmd	Internal packet the semaphore of which must be
3370  *			initialized.
3371  *
3372  * Return Value: None
3373  *
3374  *	Context: User context only.
3375  */
3376 static void
3377 fcp_ipkt_sema_init(struct fcp_ipkt *icmd)
3378 {
3379 	struct fc_packet	*fpkt;
3380 
3381 	fpkt = icmd->ipkt_fpkt;
3382 
3383 	/* Create semaphore for sync */
3384 	sema_init(&(icmd->ipkt_sema), 0, NULL, SEMA_DRIVER, NULL);
3385 
3386 	/* Setup the completion callback */
3387 	fpkt->pkt_comp = fcp_ipkt_sema_callback;
3388 }
3389 
3390 /*
3391  *     Function: fcp_ipkt_sema_wait
3392  *
3393  *  Description: Wait on the semaphore embedded in the internal packet.	 The
3394  *		 semaphore is released in the callback.
3395  *
3396  *     Argument: icmd	Internal packet to wait on for completion.
3397  *
3398  * Return Value: 0
3399  *		 EIO
3400  *		 EBUSY
3401  *		 EAGAIN
3402  *
3403  *	Context: User context only.
3404  *
3405  * This function does a conversion between the field pkt_state of the fc_packet
3406  * embedded in the internal packet (icmd) and the code it returns.
3407  */
3408 static int
3409 fcp_ipkt_sema_wait(struct fcp_ipkt *icmd)
3410 {
3411 	struct fc_packet	*fpkt;
3412 	int	ret;
3413 
3414 	ret = EIO;
3415 	fpkt = icmd->ipkt_fpkt;
3416 
3417 	/*
3418 	 * Wait on semaphore
3419 	 */
3420 	sema_p(&(icmd->ipkt_sema));
3421 
3422 	/*
3423 	 * Check the status of the FC packet
3424 	 */
3425 	switch (fpkt->pkt_state) {
3426 	case FC_PKT_SUCCESS:
3427 		ret = 0;
3428 		break;
3429 	case FC_PKT_LOCAL_RJT:
3430 		switch (fpkt->pkt_reason) {
3431 		case FC_REASON_SEQ_TIMEOUT:
3432 		case FC_REASON_RX_BUF_TIMEOUT:
3433 			ret = EAGAIN;
3434 			break;
3435 		case FC_REASON_PKT_BUSY:
3436 			ret = EBUSY;
3437 			break;
3438 		}
3439 		break;
3440 	case FC_PKT_TIMEOUT:
3441 		ret = EAGAIN;
3442 		break;
3443 	case FC_PKT_LOCAL_BSY:
3444 	case FC_PKT_TRAN_BSY:
3445 	case FC_PKT_NPORT_BSY:
3446 	case FC_PKT_FABRIC_BSY:
3447 		ret = EBUSY;
3448 		break;
3449 	case FC_PKT_LS_RJT:
3450 	case FC_PKT_BA_RJT:
3451 		switch (fpkt->pkt_reason) {
3452 		case FC_REASON_LOGICAL_BSY:
3453 			ret = EBUSY;
3454 			break;
3455 		}
3456 		break;
3457 	case FC_PKT_FS_RJT:
3458 		switch (fpkt->pkt_reason) {
3459 		case FC_REASON_FS_LOGICAL_BUSY:
3460 			ret = EBUSY;
3461 			break;
3462 		}
3463 		break;
3464 	}
3465 
3466 	return (ret);
3467 }
3468 
3469 /*
3470  *     Function: fcp_ipkt_sema_callback
3471  *
3472  *  Description: Registered as the completion callback function for the FC
3473  *		 transport when the ipkt semaphore is used for sync. This will
3474  *		 cleanup the used data structures, if necessary and wake up
3475  *		 the user thread to complete the transaction.
3476  *
3477  *     Argument: fpkt	FC packet (points to the icmd)
3478  *
3479  * Return Value: None
3480  *
3481  *	Context: User context only
3482  */
3483 static void
3484 fcp_ipkt_sema_callback(struct fc_packet *fpkt)
3485 {
3486 	struct fcp_ipkt	*icmd;
3487 
3488 	icmd = (struct fcp_ipkt *)fpkt->pkt_ulp_private;
3489 
3490 	/*
3491 	 * Wake up user thread
3492 	 */
3493 	sema_v(&(icmd->ipkt_sema));
3494 }
3495 
3496 /*
3497  *     Function: fcp_ipkt_sema_cleanup
3498  *
3499  *  Description: Called to cleanup (if necessary) the data structures used
3500  *		 when ipkt sema is used for sync.  This function will detect
3501  *		 whether the caller is the last thread (via counter) and
3502  *		 cleanup only if necessary.
3503  *
3504  *     Argument: icmd	Internal command packet
3505  *
3506  * Return Value: None
3507  *
3508  *	Context: User context only
3509  */
3510 static void
3511 fcp_ipkt_sema_cleanup(struct fcp_ipkt *icmd)
3512 {
3513 	struct fcp_tgt	*ptgt;
3514 	struct fcp_port	*pptr;
3515 
3516 	ptgt = icmd->ipkt_tgt;
3517 	pptr = icmd->ipkt_port;
3518 
3519 	/*
3520 	 * Acquire data structure
3521 	 */
3522 	mutex_enter(&ptgt->tgt_mutex);
3523 
3524 	/*
3525 	 * Destroy semaphore
3526 	 */
3527 	sema_destroy(&(icmd->ipkt_sema));
3528 
3529 	/*
3530 	 * Cleanup internal packet
3531 	 */
3532 	mutex_exit(&ptgt->tgt_mutex);
3533 	fcp_icmd_free(pptr, icmd);
3534 }
3535 
3536 /*
3537  *     Function: fcp_port_attach
3538  *
3539  *  Description: Called by the transport framework to resume, suspend or
3540  *		 attach a new port.
3541  *
3542  *     Argument: ulph		Port handle
3543  *		 *pinfo		Port information
3544  *		 cmd		Command
3545  *		 s_id		Port ID
3546  *
3547  * Return Value: FC_FAILURE or FC_SUCCESS
3548  */
3549 /*ARGSUSED*/
3550 static int
3551 fcp_port_attach(opaque_t ulph, fc_ulp_port_info_t *pinfo,
3552     fc_attach_cmd_t cmd, uint32_t s_id)
3553 {
3554 	int	instance;
3555 	int	res = FC_FAILURE; /* default result */
3556 
3557 	ASSERT(pinfo != NULL);
3558 
3559 	instance = ddi_get_instance(pinfo->port_dip);
3560 
3561 	switch (cmd) {
3562 	case FC_CMD_ATTACH:
3563 		/*
3564 		 * this port instance attaching for the first time (or after
3565 		 * being detached before)
3566 		 */
3567 		if (fcp_handle_port_attach(ulph, pinfo, s_id,
3568 		    instance) == DDI_SUCCESS) {
3569 			res = FC_SUCCESS;
3570 		} else {
3571 			ASSERT(ddi_get_soft_state(fcp_softstate,
3572 			    instance) == NULL);
3573 		}
3574 		break;
3575 
3576 	case FC_CMD_RESUME:
3577 	case FC_CMD_POWER_UP:
3578 		/*
3579 		 * this port instance was attached and the suspended and
3580 		 * will now be resumed
3581 		 */
3582 		if (fcp_handle_port_resume(ulph, pinfo, s_id, cmd,
3583 		    instance) == DDI_SUCCESS) {
3584 			res = FC_SUCCESS;
3585 		}
3586 		break;
3587 
3588 	default:
3589 		/* shouldn't happen */
3590 		FCP_TRACE(fcp_logq, "fcp",
3591 		    fcp_trace, FCP_BUF_LEVEL_2, 0,
3592 		    "port_attach: unknown cmdcommand: %d", cmd);
3593 		break;
3594 	}
3595 
3596 	/* return result */
3597 	FCP_DTRACE(fcp_logq, "fcp", fcp_trace,
3598 	    FCP_BUF_LEVEL_1, 0, "fcp_port_attach returning %d", res);
3599 
3600 	return (res);
3601 }
3602 
3603 
3604 /*
3605  * detach or suspend this port instance
3606  *
3607  * acquires and releases the global mutex
3608  *
3609  * acquires and releases the mutex for this port
3610  *
3611  * acquires and releases the hotplug mutex for this port
3612  */
3613 /*ARGSUSED*/
3614 static int
3615 fcp_port_detach(opaque_t ulph, fc_ulp_port_info_t *info,
3616     fc_detach_cmd_t cmd)
3617 {
3618 	int			flag;
3619 	int			instance;
3620 	struct fcp_port		*pptr;
3621 
3622 	instance = ddi_get_instance(info->port_dip);
3623 	pptr = ddi_get_soft_state(fcp_softstate, instance);
3624 
3625 	switch (cmd) {
3626 	case FC_CMD_SUSPEND:
3627 		FCP_DTRACE(fcp_logq, "fcp",
3628 		    fcp_trace, FCP_BUF_LEVEL_8, 0,
3629 		    "port suspend called for port %d", instance);
3630 		flag = FCP_STATE_SUSPENDED;
3631 		break;
3632 
3633 	case FC_CMD_POWER_DOWN:
3634 		FCP_DTRACE(fcp_logq, "fcp",
3635 		    fcp_trace, FCP_BUF_LEVEL_8, 0,
3636 		    "port power down called for port %d", instance);
3637 		flag = FCP_STATE_POWER_DOWN;
3638 		break;
3639 
3640 	case FC_CMD_DETACH:
3641 		FCP_DTRACE(fcp_logq, "fcp",
3642 		    fcp_trace, FCP_BUF_LEVEL_8, 0,
3643 		    "port detach called for port %d", instance);
3644 		flag = FCP_STATE_DETACHING;
3645 		break;
3646 
3647 	default:
3648 		/* shouldn't happen */
3649 		return (FC_FAILURE);
3650 	}
3651 	FCP_DTRACE(fcp_logq, "fcp", fcp_trace,
3652 	    FCP_BUF_LEVEL_1, 0, "fcp_port_detach returning");
3653 
3654 	return (fcp_handle_port_detach(pptr, flag, instance));
3655 }
3656 
3657 
3658 /*
3659  * called for ioctls on the transport's devctl interface, and the transport
3660  * has passed it to us
3661  *
3662  * this will only be called for device control ioctls (i.e. hotplugging stuff)
3663  *
3664  * return FC_SUCCESS if we decide to claim the ioctl,
3665  * else return FC_UNCLAIMED
3666  *
3667  * *rval is set iff we decide to claim the ioctl
3668  */
3669 /*ARGSUSED*/
3670 static int
3671 fcp_port_ioctl(opaque_t ulph, opaque_t port_handle, dev_t dev, int cmd,
3672     intptr_t data, int mode, cred_t *credp, int *rval, uint32_t claimed)
3673 {
3674 	int			retval = FC_UNCLAIMED;	/* return value */
3675 	struct fcp_port		*pptr = NULL;		/* our soft state */
3676 	struct devctl_iocdata	*dcp = NULL;		/* for devctl */
3677 	dev_info_t		*cdip;
3678 	mdi_pathinfo_t		*pip = NULL;
3679 	char			*ndi_nm;		/* NDI name */
3680 	char			*ndi_addr;		/* NDI addr */
3681 	int			is_mpxio, circ;
3682 	int			devi_entered = 0;
3683 	time_t			end_time;
3684 
3685 	ASSERT(rval != NULL);
3686 
3687 	FCP_DTRACE(fcp_logq, "fcp",
3688 	    fcp_trace, FCP_BUF_LEVEL_8, 0,
3689 	    "fcp_port_ioctl(cmd=0x%x, claimed=%d)", cmd, claimed);
3690 
3691 	/* if already claimed then forget it */
3692 	if (claimed) {
3693 		/*
3694 		 * for now, if this ioctl has already been claimed, then
3695 		 * we just ignore it
3696 		 */
3697 		return (retval);
3698 	}
3699 
3700 	/* get our port info */
3701 	if ((pptr = fcp_get_port(port_handle)) == NULL) {
3702 		fcp_log(CE_WARN, NULL,
3703 		    "!fcp:Invalid port handle handle in ioctl");
3704 		*rval = ENXIO;
3705 		return (retval);
3706 	}
3707 	is_mpxio = pptr->port_mpxio;
3708 
3709 	switch (cmd) {
3710 	case DEVCTL_BUS_GETSTATE:
3711 	case DEVCTL_BUS_QUIESCE:
3712 	case DEVCTL_BUS_UNQUIESCE:
3713 	case DEVCTL_BUS_RESET:
3714 	case DEVCTL_BUS_RESETALL:
3715 
3716 	case DEVCTL_BUS_DEV_CREATE:
3717 		if (ndi_dc_allochdl((void *)data, &dcp) != NDI_SUCCESS) {
3718 			return (retval);
3719 		}
3720 		break;
3721 
3722 	case DEVCTL_DEVICE_GETSTATE:
3723 	case DEVCTL_DEVICE_OFFLINE:
3724 	case DEVCTL_DEVICE_ONLINE:
3725 	case DEVCTL_DEVICE_REMOVE:
3726 	case DEVCTL_DEVICE_RESET:
3727 		if (ndi_dc_allochdl((void *)data, &dcp) != NDI_SUCCESS) {
3728 			return (retval);
3729 		}
3730 
3731 		ASSERT(dcp != NULL);
3732 
3733 		/* ensure we have a name and address */
3734 		if (((ndi_nm = ndi_dc_getname(dcp)) == NULL) ||
3735 		    ((ndi_addr = ndi_dc_getaddr(dcp)) == NULL)) {
3736 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
3737 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
3738 			    "ioctl: can't get name (%s) or addr (%s)",
3739 			    ndi_nm ? ndi_nm : "<null ptr>",
3740 			    ndi_addr ? ndi_addr : "<null ptr>");
3741 			ndi_dc_freehdl(dcp);
3742 			return (retval);
3743 		}
3744 
3745 
3746 		/* get our child's DIP */
3747 		ASSERT(pptr != NULL);
3748 		if (is_mpxio) {
3749 			mdi_devi_enter(pptr->port_dip, &circ);
3750 		} else {
3751 			ndi_devi_enter(pptr->port_dip, &circ);
3752 		}
3753 		devi_entered = 1;
3754 
3755 		if ((cdip = ndi_devi_find(pptr->port_dip, ndi_nm,
3756 		    ndi_addr)) == NULL) {
3757 			/* Look for virtually enumerated devices. */
3758 			pip = mdi_pi_find(pptr->port_dip, NULL, ndi_addr);
3759 			if (pip == NULL ||
3760 			    ((cdip = mdi_pi_get_client(pip)) == NULL)) {
3761 				*rval = ENXIO;
3762 				goto out;
3763 			}
3764 		}
3765 		break;
3766 
3767 	default:
3768 		*rval = ENOTTY;
3769 		return (retval);
3770 	}
3771 
3772 	/* this ioctl is ours -- process it */
3773 
3774 	retval = FC_SUCCESS;		/* just means we claim the ioctl */
3775 
3776 	/* we assume it will be a success; else we'll set error value */
3777 	*rval = 0;
3778 
3779 
3780 	FCP_DTRACE(fcp_logq, pptr->port_instbuf,
3781 	    fcp_trace, FCP_BUF_LEVEL_8, 0,
3782 	    "ioctl: claiming this one");
3783 
3784 	/* handle ioctls now */
3785 	switch (cmd) {
3786 	case DEVCTL_DEVICE_GETSTATE:
3787 		ASSERT(cdip != NULL);
3788 		ASSERT(dcp != NULL);
3789 		if (ndi_dc_return_dev_state(cdip, dcp) != NDI_SUCCESS) {
3790 			*rval = EFAULT;
3791 		}
3792 		break;
3793 
3794 	case DEVCTL_DEVICE_REMOVE:
3795 	case DEVCTL_DEVICE_OFFLINE: {
3796 		int			flag = 0;
3797 		int			lcount;
3798 		int			tcount;
3799 		struct fcp_pkt	*head = NULL;
3800 		struct fcp_lun	*plun;
3801 		child_info_t		*cip = CIP(cdip);
3802 		int			all = 1;
3803 		struct fcp_lun	*tplun;
3804 		struct fcp_tgt	*ptgt;
3805 
3806 		ASSERT(pptr != NULL);
3807 		ASSERT(cdip != NULL);
3808 
3809 		mutex_enter(&pptr->port_mutex);
3810 		if (pip != NULL) {
3811 			cip = CIP(pip);
3812 		}
3813 		if ((plun = fcp_get_lun_from_cip(pptr, cip)) == NULL) {
3814 			mutex_exit(&pptr->port_mutex);
3815 			*rval = ENXIO;
3816 			break;
3817 		}
3818 
3819 		head = fcp_scan_commands(plun);
3820 		if (head != NULL) {
3821 			fcp_abort_commands(head, LUN_PORT);
3822 		}
3823 		lcount = pptr->port_link_cnt;
3824 		tcount = plun->lun_tgt->tgt_change_cnt;
3825 		mutex_exit(&pptr->port_mutex);
3826 
3827 		if (cmd == DEVCTL_DEVICE_REMOVE) {
3828 			flag = NDI_DEVI_REMOVE;
3829 		}
3830 
3831 		if (is_mpxio) {
3832 			mdi_devi_exit(pptr->port_dip, circ);
3833 		} else {
3834 			ndi_devi_exit(pptr->port_dip, circ);
3835 		}
3836 		devi_entered = 0;
3837 
3838 		*rval = fcp_pass_to_hp_and_wait(pptr, plun, cip,
3839 		    FCP_OFFLINE, lcount, tcount, flag);
3840 
3841 		if (*rval != NDI_SUCCESS) {
3842 			*rval = (*rval == NDI_BUSY) ? EBUSY : EIO;
3843 			break;
3844 		}
3845 
3846 		fcp_update_offline_flags(plun);
3847 
3848 		ptgt = plun->lun_tgt;
3849 		mutex_enter(&ptgt->tgt_mutex);
3850 		for (tplun = ptgt->tgt_lun; tplun != NULL; tplun =
3851 		    tplun->lun_next) {
3852 			mutex_enter(&tplun->lun_mutex);
3853 			if (!(tplun->lun_state & FCP_LUN_OFFLINE)) {
3854 				all = 0;
3855 			}
3856 			mutex_exit(&tplun->lun_mutex);
3857 		}
3858 
3859 		if (all) {
3860 			ptgt->tgt_node_state = FCP_TGT_NODE_NONE;
3861 			/*
3862 			 * The user is unconfiguring/offlining the device.
3863 			 * If fabric and the auto configuration is set
3864 			 * then make sure the user is the only one who
3865 			 * can reconfigure the device.
3866 			 */
3867 			if (FC_TOP_EXTERNAL(pptr->port_topology) &&
3868 			    fcp_enable_auto_configuration) {
3869 				ptgt->tgt_manual_config_only = 1;
3870 			}
3871 		}
3872 		mutex_exit(&ptgt->tgt_mutex);
3873 		break;
3874 	}
3875 
3876 	case DEVCTL_DEVICE_ONLINE: {
3877 		int			lcount;
3878 		int			tcount;
3879 		struct fcp_lun	*plun;
3880 		child_info_t		*cip = CIP(cdip);
3881 
3882 		ASSERT(cdip != NULL);
3883 		ASSERT(pptr != NULL);
3884 
3885 		mutex_enter(&pptr->port_mutex);
3886 		if (pip != NULL) {
3887 			cip = CIP(pip);
3888 		}
3889 		if ((plun = fcp_get_lun_from_cip(pptr, cip)) == NULL) {
3890 			mutex_exit(&pptr->port_mutex);
3891 			*rval = ENXIO;
3892 			break;
3893 		}
3894 		lcount = pptr->port_link_cnt;
3895 		tcount = plun->lun_tgt->tgt_change_cnt;
3896 		mutex_exit(&pptr->port_mutex);
3897 
3898 		/*
3899 		 * The FCP_LUN_ONLINING flag is used in fcp_scsi_start()
3900 		 * to allow the device attach to occur when the device is
3901 		 * FCP_LUN_OFFLINE (so we don't reject the INQUIRY command
3902 		 * from the scsi_probe()).
3903 		 */
3904 		mutex_enter(&LUN_TGT->tgt_mutex);
3905 		plun->lun_state |= FCP_LUN_ONLINING;
3906 		mutex_exit(&LUN_TGT->tgt_mutex);
3907 
3908 		if (is_mpxio) {
3909 			mdi_devi_exit(pptr->port_dip, circ);
3910 		} else {
3911 			ndi_devi_exit(pptr->port_dip, circ);
3912 		}
3913 		devi_entered = 0;
3914 
3915 		*rval = fcp_pass_to_hp_and_wait(pptr, plun, cip,
3916 		    FCP_ONLINE, lcount, tcount, 0);
3917 
3918 		if (*rval != NDI_SUCCESS) {
3919 			/* Reset the FCP_LUN_ONLINING bit */
3920 			mutex_enter(&LUN_TGT->tgt_mutex);
3921 			plun->lun_state &= ~FCP_LUN_ONLINING;
3922 			mutex_exit(&LUN_TGT->tgt_mutex);
3923 			*rval = EIO;
3924 			break;
3925 		}
3926 		mutex_enter(&LUN_TGT->tgt_mutex);
3927 		plun->lun_state &= ~(FCP_LUN_OFFLINE | FCP_LUN_BUSY |
3928 		    FCP_LUN_ONLINING);
3929 		mutex_exit(&LUN_TGT->tgt_mutex);
3930 		break;
3931 	}
3932 
3933 	case DEVCTL_BUS_DEV_CREATE: {
3934 		uchar_t			*bytes = NULL;
3935 		uint_t			nbytes;
3936 		struct fcp_tgt		*ptgt = NULL;
3937 		struct fcp_lun		*plun = NULL;
3938 		dev_info_t		*useless_dip = NULL;
3939 
3940 		*rval = ndi_dc_devi_create(dcp, pptr->port_dip,
3941 		    DEVCTL_CONSTRUCT, &useless_dip);
3942 		if (*rval != 0 || useless_dip == NULL) {
3943 			break;
3944 		}
3945 
3946 		if ((ddi_prop_lookup_byte_array(DDI_DEV_T_ANY, useless_dip,
3947 		    DDI_PROP_DONTPASS | DDI_PROP_NOTPROM, PORT_WWN_PROP, &bytes,
3948 		    &nbytes) != DDI_PROP_SUCCESS) || nbytes != FC_WWN_SIZE) {
3949 			*rval = EINVAL;
3950 			(void) ndi_devi_free(useless_dip);
3951 			if (bytes != NULL) {
3952 				ddi_prop_free(bytes);
3953 			}
3954 			break;
3955 		}
3956 
3957 		*rval = fcp_create_on_demand(pptr, bytes);
3958 		if (*rval == 0) {
3959 			mutex_enter(&pptr->port_mutex);
3960 			ptgt = fcp_lookup_target(pptr, (uchar_t *)bytes);
3961 			if (ptgt) {
3962 				/*
3963 				 * We now have a pointer to the target that
3964 				 * was created. Lets point to the first LUN on
3965 				 * this new target.
3966 				 */
3967 				mutex_enter(&ptgt->tgt_mutex);
3968 
3969 				plun = ptgt->tgt_lun;
3970 				/*
3971 				 * There may be stale/offline LUN entries on
3972 				 * this list (this is by design) and so we have
3973 				 * to make sure we point to the first online
3974 				 * LUN
3975 				 */
3976 				while (plun &&
3977 				    plun->lun_state & FCP_LUN_OFFLINE) {
3978 					plun = plun->lun_next;
3979 				}
3980 
3981 				mutex_exit(&ptgt->tgt_mutex);
3982 			}
3983 			mutex_exit(&pptr->port_mutex);
3984 		}
3985 
3986 		if (*rval == 0 && ptgt && plun) {
3987 			mutex_enter(&plun->lun_mutex);
3988 			/*
3989 			 * Allow up to fcp_lun_ready_retry seconds to
3990 			 * configure all the luns behind the target.
3991 			 *
3992 			 * The intent here is to allow targets with long
3993 			 * reboot/reset-recovery times to become available
3994 			 * while limiting the maximum wait time for an
3995 			 * unresponsive target.
3996 			 */
3997 			end_time = ddi_get_lbolt() +
3998 			    SEC_TO_TICK(fcp_lun_ready_retry);
3999 
4000 			while (ddi_get_lbolt() < end_time) {
4001 				retval = FC_SUCCESS;
4002 
4003 				/*
4004 				 * The new ndi interfaces for on-demand creation
4005 				 * are inflexible, Do some more work to pass on
4006 				 * a path name of some LUN (design is broken !)
4007 				 */
4008 				if (plun->lun_cip) {
4009 					if (plun->lun_mpxio == 0) {
4010 						cdip = DIP(plun->lun_cip);
4011 					} else {
4012 						cdip = mdi_pi_get_client(
4013 						    PIP(plun->lun_cip));
4014 					}
4015 					if (cdip == NULL) {
4016 						*rval = ENXIO;
4017 						break;
4018 					}
4019 
4020 					if (!i_ddi_devi_attached(cdip)) {
4021 						mutex_exit(&plun->lun_mutex);
4022 						delay(drv_usectohz(1000000));
4023 						mutex_enter(&plun->lun_mutex);
4024 					} else {
4025 						/*
4026 						 * This Lun is ready, lets
4027 						 * check the next one.
4028 						 */
4029 						mutex_exit(&plun->lun_mutex);
4030 						plun = plun->lun_next;
4031 						while (plun && (plun->lun_state
4032 						    & FCP_LUN_OFFLINE)) {
4033 							plun = plun->lun_next;
4034 						}
4035 						if (!plun) {
4036 							break;
4037 						}
4038 						mutex_enter(&plun->lun_mutex);
4039 					}
4040 				} else {
4041 					/*
4042 					 * lun_cip field for a valid lun
4043 					 * should never be NULL. Fail the
4044 					 * command.
4045 					 */
4046 					*rval = ENXIO;
4047 					break;
4048 				}
4049 			}
4050 			if (plun) {
4051 				mutex_exit(&plun->lun_mutex);
4052 			} else {
4053 				char devnm[MAXNAMELEN];
4054 				int nmlen;
4055 
4056 				nmlen = snprintf(devnm, MAXNAMELEN, "%s@%s",
4057 				    ddi_node_name(cdip),
4058 				    ddi_get_name_addr(cdip));
4059 
4060 				if (copyout(&devnm, dcp->cpyout_buf, nmlen) !=
4061 				    0) {
4062 					*rval = EFAULT;
4063 				}
4064 			}
4065 		} else {
4066 			int	i;
4067 			char	buf[25];
4068 
4069 			for (i = 0; i < FC_WWN_SIZE; i++) {
4070 				(void) sprintf(&buf[i << 1], "%02x", bytes[i]);
4071 			}
4072 
4073 			fcp_log(CE_WARN, pptr->port_dip,
4074 			    "!Failed to create nodes for pwwn=%s; error=%x",
4075 			    buf, *rval);
4076 		}
4077 
4078 		(void) ndi_devi_free(useless_dip);
4079 		ddi_prop_free(bytes);
4080 		break;
4081 	}
4082 
4083 	case DEVCTL_DEVICE_RESET: {
4084 		struct fcp_lun	*plun;
4085 		struct scsi_address	ap;
4086 		child_info_t		*cip = CIP(cdip);
4087 
4088 		ASSERT(cdip != NULL);
4089 		ASSERT(pptr != NULL);
4090 		mutex_enter(&pptr->port_mutex);
4091 		if (pip != NULL) {
4092 			cip = CIP(pip);
4093 		}
4094 		if ((plun = fcp_get_lun_from_cip(pptr, cip)) == NULL) {
4095 			mutex_exit(&pptr->port_mutex);
4096 			*rval = ENXIO;
4097 			break;
4098 		}
4099 		mutex_exit(&pptr->port_mutex);
4100 
4101 		mutex_enter(&plun->lun_tgt->tgt_mutex);
4102 		if (!(plun->lun_state & FCP_SCSI_LUN_TGT_INIT)) {
4103 			mutex_exit(&plun->lun_tgt->tgt_mutex);
4104 			*rval = ENXIO;
4105 			break;
4106 		}
4107 		ap.a_hba_tran = plun->lun_tran;
4108 		ASSERT(pptr->port_tran != NULL);
4109 		mutex_exit(&plun->lun_tgt->tgt_mutex);
4110 
4111 		/*
4112 		 * There is a chance lun_tran is NULL at this point. So check
4113 		 * for it. If it is NULL, it basically means that the tgt has
4114 		 * been freed. So, just return a "No such device or address"
4115 		 * error.
4116 		 */
4117 		if (ap.a_hba_tran == NULL) {
4118 			*rval = ENXIO;
4119 			break;
4120 		}
4121 
4122 		/*
4123 		 * set up ap so that fcp_reset can figure out
4124 		 * which target to reset
4125 		 */
4126 		if (fcp_scsi_reset(&ap, RESET_TARGET) == FALSE) {
4127 			*rval = EIO;
4128 		}
4129 		break;
4130 	}
4131 
4132 	case DEVCTL_BUS_GETSTATE:
4133 		ASSERT(dcp != NULL);
4134 		ASSERT(pptr != NULL);
4135 		ASSERT(pptr->port_dip != NULL);
4136 		if (ndi_dc_return_bus_state(pptr->port_dip, dcp) !=
4137 		    NDI_SUCCESS) {
4138 			*rval = EFAULT;
4139 		}
4140 		break;
4141 
4142 	case DEVCTL_BUS_QUIESCE:
4143 	case DEVCTL_BUS_UNQUIESCE:
4144 		*rval = ENOTSUP;
4145 		break;
4146 
4147 	case DEVCTL_BUS_RESET:
4148 	case DEVCTL_BUS_RESETALL:
4149 		ASSERT(pptr != NULL);
4150 		(void) fcp_linkreset(pptr, NULL,  KM_SLEEP);
4151 		break;
4152 
4153 	default:
4154 		ASSERT(dcp != NULL);
4155 		*rval = ENOTTY;
4156 		break;
4157 	}
4158 
4159 	/* all done -- clean up and return */
4160 out:	if (devi_entered) {
4161 		if (is_mpxio) {
4162 			mdi_devi_exit(pptr->port_dip, circ);
4163 		} else {
4164 			ndi_devi_exit(pptr->port_dip, circ);
4165 		}
4166 	}
4167 
4168 	if (dcp != NULL) {
4169 		ndi_dc_freehdl(dcp);
4170 	}
4171 
4172 	return (retval);
4173 }
4174 
4175 
4176 /*ARGSUSED*/
4177 static int
4178 fcp_els_callback(opaque_t ulph, opaque_t port_handle, fc_unsol_buf_t *buf,
4179     uint32_t claimed)
4180 {
4181 	uchar_t			r_ctl;
4182 	uchar_t			ls_code;
4183 	struct fcp_port	*pptr;
4184 
4185 	if ((pptr = fcp_get_port(port_handle)) == NULL || claimed) {
4186 		return (FC_UNCLAIMED);
4187 	}
4188 
4189 	mutex_enter(&pptr->port_mutex);
4190 	if (pptr->port_state & (FCP_STATE_DETACHING |
4191 	    FCP_STATE_SUSPENDED | FCP_STATE_POWER_DOWN)) {
4192 		mutex_exit(&pptr->port_mutex);
4193 		return (FC_UNCLAIMED);
4194 	}
4195 	mutex_exit(&pptr->port_mutex);
4196 
4197 	r_ctl = buf->ub_frame.r_ctl;
4198 
4199 	switch (r_ctl & R_CTL_ROUTING) {
4200 	case R_CTL_EXTENDED_SVC:
4201 		if (r_ctl == R_CTL_ELS_REQ) {
4202 			ls_code = buf->ub_buffer[0];
4203 
4204 			switch (ls_code) {
4205 			case LA_ELS_PRLI:
4206 				/*
4207 				 * We really don't care if something fails.
4208 				 * If the PRLI was not sent out, then the
4209 				 * other end will time it out.
4210 				 */
4211 				if (fcp_unsol_prli(pptr, buf) == FC_SUCCESS) {
4212 					return (FC_SUCCESS);
4213 				}
4214 				return (FC_UNCLAIMED);
4215 				/* NOTREACHED */
4216 
4217 			default:
4218 				break;
4219 			}
4220 		}
4221 		/* FALLTHROUGH */
4222 
4223 	default:
4224 		return (FC_UNCLAIMED);
4225 	}
4226 }
4227 
4228 
4229 /*ARGSUSED*/
4230 static int
4231 fcp_data_callback(opaque_t ulph, opaque_t port_handle, fc_unsol_buf_t *buf,
4232     uint32_t claimed)
4233 {
4234 	return (FC_UNCLAIMED);
4235 }
4236 
4237 /*
4238  *     Function: fcp_statec_callback
4239  *
4240  *  Description: The purpose of this function is to handle a port state change.
4241  *		 It is called from fp/fctl and, in a few instances, internally.
4242  *
4243  *     Argument: ulph		fp/fctl port handle
4244  *		 port_handle	fcp_port structure
4245  *		 port_state	Physical state of the port
4246  *		 port_top	Topology
4247  *		 *devlist	Pointer to the first entry of a table
4248  *				containing the remote ports that can be
4249  *				reached.
4250  *		 dev_cnt	Number of entries pointed by devlist.
4251  *		 port_sid	Port ID of the local port.
4252  *
4253  * Return Value: None
4254  */
4255 /*ARGSUSED*/
4256 static void
4257 fcp_statec_callback(opaque_t ulph, opaque_t port_handle,
4258     uint32_t port_state, uint32_t port_top, fc_portmap_t *devlist,
4259     uint32_t dev_cnt, uint32_t port_sid)
4260 {
4261 	uint32_t		link_count;
4262 	int			map_len = 0;
4263 	struct fcp_port	*pptr;
4264 	fcp_map_tag_t		*map_tag = NULL;
4265 
4266 	if ((pptr = fcp_get_port(port_handle)) == NULL) {
4267 		fcp_log(CE_WARN, NULL, "!Invalid port handle in callback");
4268 		return;			/* nothing to work with! */
4269 	}
4270 
4271 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
4272 	    fcp_trace, FCP_BUF_LEVEL_2, 0,
4273 	    "fcp_statec_callback: port state/dev_cnt/top ="
4274 	    "%d/%d/%d", FC_PORT_STATE_MASK(port_state),
4275 	    dev_cnt, port_top);
4276 
4277 	mutex_enter(&pptr->port_mutex);
4278 
4279 	/*
4280 	 * If a thread is in detach, don't do anything.
4281 	 */
4282 	if (pptr->port_state & (FCP_STATE_DETACHING |
4283 	    FCP_STATE_SUSPENDED | FCP_STATE_POWER_DOWN)) {
4284 		mutex_exit(&pptr->port_mutex);
4285 		return;
4286 	}
4287 
4288 	/*
4289 	 * First thing we do is set the FCP_STATE_IN_CB_DEVC flag so that if
4290 	 * init_pkt is called, it knows whether or not the target's status
4291 	 * (or pd) might be changing.
4292 	 */
4293 
4294 	if (FC_PORT_STATE_MASK(port_state) == FC_STATE_DEVICE_CHANGE) {
4295 		pptr->port_state |= FCP_STATE_IN_CB_DEVC;
4296 	}
4297 
4298 	/*
4299 	 * the transport doesn't allocate or probe unless being
4300 	 * asked to by either the applications or ULPs
4301 	 *
4302 	 * in cases where the port is OFFLINE at the time of port
4303 	 * attach callback and the link comes ONLINE later, for
4304 	 * easier automatic node creation (i.e. without you having to
4305 	 * go out and run the utility to perform LOGINs) the
4306 	 * following conditional is helpful
4307 	 */
4308 	pptr->port_phys_state = port_state;
4309 
4310 	if (dev_cnt) {
4311 		mutex_exit(&pptr->port_mutex);
4312 
4313 		map_len = sizeof (*map_tag) * dev_cnt;
4314 		map_tag = kmem_alloc(map_len, KM_NOSLEEP);
4315 		if (map_tag == NULL) {
4316 			fcp_log(CE_WARN, pptr->port_dip,
4317 			    "!fcp%d: failed to allocate for map tags; "
4318 			    " state change will not be processed",
4319 			    pptr->port_instance);
4320 
4321 			mutex_enter(&pptr->port_mutex);
4322 			pptr->port_state &= ~FCP_STATE_IN_CB_DEVC;
4323 			mutex_exit(&pptr->port_mutex);
4324 
4325 			return;
4326 		}
4327 
4328 		mutex_enter(&pptr->port_mutex);
4329 	}
4330 
4331 	if (pptr->port_id != port_sid) {
4332 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
4333 		    fcp_trace, FCP_BUF_LEVEL_3, 0,
4334 		    "fcp: Port S_ID=0x%x => 0x%x", pptr->port_id,
4335 		    port_sid);
4336 		/*
4337 		 * The local port changed ID. It is the first time a port ID
4338 		 * is assigned or something drastic happened.  We might have
4339 		 * been unplugged and replugged on another loop or fabric port
4340 		 * or somebody grabbed the AL_PA we had or somebody rezoned
4341 		 * the fabric we were plugged into.
4342 		 */
4343 		pptr->port_id = port_sid;
4344 	}
4345 
4346 	switch (FC_PORT_STATE_MASK(port_state)) {
4347 	case FC_STATE_OFFLINE:
4348 	case FC_STATE_RESET_REQUESTED:
4349 		/*
4350 		 * link has gone from online to offline -- just update the
4351 		 * state of this port to BUSY and MARKed to go offline
4352 		 */
4353 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
4354 		    fcp_trace, FCP_BUF_LEVEL_3, 0,
4355 		    "link went offline");
4356 		if ((pptr->port_state & FCP_STATE_OFFLINE) && dev_cnt) {
4357 			/*
4358 			 * We were offline a while ago and this one
4359 			 * seems to indicate that the loop has gone
4360 			 * dead forever.
4361 			 */
4362 			pptr->port_tmp_cnt += dev_cnt;
4363 			pptr->port_state &= ~FCP_STATE_OFFLINE;
4364 			pptr->port_state |= FCP_STATE_INIT;
4365 			link_count = pptr->port_link_cnt;
4366 			fcp_handle_devices(pptr, devlist, dev_cnt,
4367 			    link_count, map_tag, FCP_CAUSE_LINK_DOWN);
4368 		} else {
4369 			pptr->port_link_cnt++;
4370 			ASSERT(!(pptr->port_state & FCP_STATE_SUSPENDED));
4371 			fcp_update_state(pptr, (FCP_LUN_BUSY |
4372 			    FCP_LUN_MARK), FCP_CAUSE_LINK_DOWN);
4373 			if (pptr->port_mpxio) {
4374 				fcp_update_mpxio_path_verifybusy(pptr);
4375 			}
4376 			pptr->port_state |= FCP_STATE_OFFLINE;
4377 			pptr->port_state &=
4378 			    ~(FCP_STATE_ONLINING | FCP_STATE_ONLINE);
4379 			pptr->port_tmp_cnt = 0;
4380 		}
4381 		mutex_exit(&pptr->port_mutex);
4382 		break;
4383 
4384 	case FC_STATE_ONLINE:
4385 	case FC_STATE_LIP:
4386 	case FC_STATE_LIP_LBIT_SET:
4387 		/*
4388 		 * link has gone from offline to online
4389 		 */
4390 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
4391 		    fcp_trace, FCP_BUF_LEVEL_3, 0,
4392 		    "link went online");
4393 
4394 		pptr->port_link_cnt++;
4395 
4396 		while (pptr->port_ipkt_cnt) {
4397 			mutex_exit(&pptr->port_mutex);
4398 			delay(drv_usectohz(1000000));
4399 			mutex_enter(&pptr->port_mutex);
4400 		}
4401 
4402 		pptr->port_topology = port_top;
4403 
4404 		/*
4405 		 * The state of the targets and luns accessible through this
4406 		 * port is updated.
4407 		 */
4408 		fcp_update_state(pptr, FCP_LUN_BUSY | FCP_LUN_MARK,
4409 		    FCP_CAUSE_LINK_CHANGE);
4410 
4411 		pptr->port_state &= ~(FCP_STATE_INIT | FCP_STATE_OFFLINE);
4412 		pptr->port_state |= FCP_STATE_ONLINING;
4413 		pptr->port_tmp_cnt = dev_cnt;
4414 		link_count = pptr->port_link_cnt;
4415 
4416 		pptr->port_deadline = fcp_watchdog_time +
4417 		    FCP_ICMD_DEADLINE;
4418 
4419 		if (!dev_cnt) {
4420 			/*
4421 			 * We go directly to the online state if no remote
4422 			 * ports were discovered.
4423 			 */
4424 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
4425 			    fcp_trace, FCP_BUF_LEVEL_3, 0,
4426 			    "No remote ports discovered");
4427 
4428 			pptr->port_state &= ~FCP_STATE_ONLINING;
4429 			pptr->port_state |= FCP_STATE_ONLINE;
4430 		}
4431 
4432 		switch (port_top) {
4433 		case FC_TOP_FABRIC:
4434 		case FC_TOP_PUBLIC_LOOP:
4435 		case FC_TOP_PRIVATE_LOOP:
4436 		case FC_TOP_PT_PT:
4437 
4438 			if (pptr->port_state & FCP_STATE_NS_REG_FAILED) {
4439 				fcp_retry_ns_registry(pptr, port_sid);
4440 			}
4441 
4442 			fcp_handle_devices(pptr, devlist, dev_cnt, link_count,
4443 			    map_tag, FCP_CAUSE_LINK_CHANGE);
4444 			break;
4445 
4446 		default:
4447 			/*
4448 			 * We got here because we were provided with an unknown
4449 			 * topology.
4450 			 */
4451 			if (pptr->port_state & FCP_STATE_NS_REG_FAILED) {
4452 				pptr->port_state &= ~FCP_STATE_NS_REG_FAILED;
4453 			}
4454 
4455 			pptr->port_tmp_cnt -= dev_cnt;
4456 			fcp_log(CE_WARN, pptr->port_dip,
4457 			    "!unknown/unsupported topology (0x%x)", port_top);
4458 			break;
4459 		}
4460 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
4461 		    fcp_trace, FCP_BUF_LEVEL_3, 0,
4462 		    "Notify ssd of the reset to reinstate the reservations");
4463 
4464 		scsi_hba_reset_notify_callback(&pptr->port_mutex,
4465 		    &pptr->port_reset_notify_listf);
4466 
4467 		mutex_exit(&pptr->port_mutex);
4468 
4469 		break;
4470 
4471 	case FC_STATE_RESET:
4472 		ASSERT(pptr->port_state & FCP_STATE_OFFLINE);
4473 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
4474 		    fcp_trace, FCP_BUF_LEVEL_3, 0,
4475 		    "RESET state, waiting for Offline/Online state_cb");
4476 		mutex_exit(&pptr->port_mutex);
4477 		break;
4478 
4479 	case FC_STATE_DEVICE_CHANGE:
4480 		/*
4481 		 * We come here when an application has requested
4482 		 * Dynamic node creation/deletion in Fabric connectivity.
4483 		 */
4484 		if (pptr->port_state & (FCP_STATE_OFFLINE |
4485 		    FCP_STATE_INIT)) {
4486 			/*
4487 			 * This case can happen when the FCTL is in the
4488 			 * process of giving us on online and the host on
4489 			 * the other side issues a PLOGI/PLOGO. Ideally
4490 			 * the state changes should be serialized unless
4491 			 * they are opposite (online-offline).
4492 			 * The transport will give us a final state change
4493 			 * so we can ignore this for the time being.
4494 			 */
4495 			pptr->port_state &= ~FCP_STATE_IN_CB_DEVC;
4496 			mutex_exit(&pptr->port_mutex);
4497 			break;
4498 		}
4499 
4500 		if (pptr->port_state & FCP_STATE_NS_REG_FAILED) {
4501 			fcp_retry_ns_registry(pptr, port_sid);
4502 		}
4503 
4504 		/*
4505 		 * Extend the deadline under steady state conditions
4506 		 * to provide more time for the device-change-commands
4507 		 */
4508 		if (!pptr->port_ipkt_cnt) {
4509 			pptr->port_deadline = fcp_watchdog_time +
4510 			    FCP_ICMD_DEADLINE;
4511 		}
4512 
4513 		/*
4514 		 * There is another race condition here, where if we were
4515 		 * in ONLINEING state and a devices in the map logs out,
4516 		 * fp will give another state change as DEVICE_CHANGE
4517 		 * and OLD. This will result in that target being offlined.
4518 		 * The pd_handle is freed. If from the first statec callback
4519 		 * we were going to fire a PLOGI/PRLI, the system will
4520 		 * panic in fc_ulp_transport with invalid pd_handle.
4521 		 * The fix is to check for the link_cnt before issuing
4522 		 * any command down.
4523 		 */
4524 		fcp_update_targets(pptr, devlist, dev_cnt,
4525 		    FCP_LUN_BUSY | FCP_LUN_MARK, FCP_CAUSE_TGT_CHANGE);
4526 
4527 		link_count = pptr->port_link_cnt;
4528 
4529 		fcp_handle_devices(pptr, devlist, dev_cnt,
4530 		    link_count, map_tag, FCP_CAUSE_TGT_CHANGE);
4531 
4532 		pptr->port_state &= ~FCP_STATE_IN_CB_DEVC;
4533 
4534 		mutex_exit(&pptr->port_mutex);
4535 		break;
4536 
4537 	case FC_STATE_TARGET_PORT_RESET:
4538 		if (pptr->port_state & FCP_STATE_NS_REG_FAILED) {
4539 			fcp_retry_ns_registry(pptr, port_sid);
4540 		}
4541 
4542 		/* Do nothing else */
4543 		mutex_exit(&pptr->port_mutex);
4544 		break;
4545 
4546 	default:
4547 		fcp_log(CE_WARN, pptr->port_dip,
4548 		    "!Invalid state change=0x%x", port_state);
4549 		mutex_exit(&pptr->port_mutex);
4550 		break;
4551 	}
4552 
4553 	if (map_tag) {
4554 		kmem_free(map_tag, map_len);
4555 	}
4556 }
4557 
4558 /*
4559  *     Function: fcp_handle_devices
4560  *
4561  *  Description: This function updates the devices currently known by
4562  *		 walking the list provided by the caller.  The list passed
4563  *		 by the caller is supposed to be the list of reachable
4564  *		 devices.
4565  *
4566  *     Argument: *pptr		Fcp port structure.
4567  *		 *devlist	Pointer to the first entry of a table
4568  *				containing the remote ports that can be
4569  *				reached.
4570  *		 dev_cnt	Number of entries pointed by devlist.
4571  *		 link_cnt	Link state count.
4572  *		 *map_tag	Array of fcp_map_tag_t structures.
4573  *		 cause		What caused this function to be called.
4574  *
4575  * Return Value: None
4576  *
4577  *	  Notes: The pptr->port_mutex must be held.
4578  */
4579 static void
4580 fcp_handle_devices(struct fcp_port *pptr, fc_portmap_t devlist[],
4581     uint32_t dev_cnt, int link_cnt, fcp_map_tag_t *map_tag, int cause)
4582 {
4583 	int			i;
4584 	int			check_finish_init = 0;
4585 	fc_portmap_t		*map_entry;
4586 	struct fcp_tgt	*ptgt = NULL;
4587 
4588 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
4589 	    fcp_trace, FCP_BUF_LEVEL_3, 0,
4590 	    "fcp_handle_devices: called for %d dev(s)", dev_cnt);
4591 
4592 	if (dev_cnt) {
4593 		ASSERT(map_tag != NULL);
4594 	}
4595 
4596 	/*
4597 	 * The following code goes through the list of remote ports that are
4598 	 * accessible through this (pptr) local port (The list walked is the
4599 	 * one provided by the caller which is the list of the remote ports
4600 	 * currently reachable).  It checks if any of them was already
4601 	 * known by looking for the corresponding target structure based on
4602 	 * the world wide name.	 If a target is part of the list it is tagged
4603 	 * (ptgt->tgt_aux_state = FCP_TGT_TAGGED).
4604 	 *
4605 	 * Old comment
4606 	 * -----------
4607 	 * Before we drop port mutex; we MUST get the tags updated; This
4608 	 * two step process is somewhat slow, but more reliable.
4609 	 */
4610 	for (i = 0; (i < dev_cnt) && (pptr->port_link_cnt == link_cnt); i++) {
4611 		map_entry = &(devlist[i]);
4612 
4613 		/*
4614 		 * get ptr to this map entry in our port's
4615 		 * list (if any)
4616 		 */
4617 		ptgt = fcp_lookup_target(pptr,
4618 		    (uchar_t *)&(map_entry->map_pwwn));
4619 
4620 		if (ptgt) {
4621 			map_tag[i] = ptgt->tgt_change_cnt;
4622 			if (cause == FCP_CAUSE_LINK_CHANGE) {
4623 				ptgt->tgt_aux_state = FCP_TGT_TAGGED;
4624 			}
4625 		}
4626 	}
4627 
4628 	/*
4629 	 * At this point we know which devices of the new list were already
4630 	 * known (The field tgt_aux_state of the target structure has been
4631 	 * set to FCP_TGT_TAGGED).
4632 	 *
4633 	 * The following code goes through the list of targets currently known
4634 	 * by the local port (the list is actually a hashing table).  If a
4635 	 * target is found and is not tagged, it means the target cannot
4636 	 * be reached anymore through the local port (pptr).  It is offlined.
4637 	 * The offlining only occurs if the cause is FCP_CAUSE_LINK_CHANGE.
4638 	 */
4639 	for (i = 0; i < FCP_NUM_HASH; i++) {
4640 		for (ptgt = pptr->port_tgt_hash_table[i]; ptgt != NULL;
4641 		    ptgt = ptgt->tgt_next) {
4642 			mutex_enter(&ptgt->tgt_mutex);
4643 			if ((ptgt->tgt_aux_state != FCP_TGT_TAGGED) &&
4644 			    (cause == FCP_CAUSE_LINK_CHANGE) &&
4645 			    !(ptgt->tgt_state & FCP_TGT_OFFLINE)) {
4646 				fcp_offline_target_now(pptr, ptgt,
4647 				    link_cnt, ptgt->tgt_change_cnt, 0);
4648 			}
4649 			mutex_exit(&ptgt->tgt_mutex);
4650 		}
4651 	}
4652 
4653 	/*
4654 	 * At this point, the devices that were known but cannot be reached
4655 	 * anymore, have most likely been offlined.
4656 	 *
4657 	 * The following section of code seems to go through the list of
4658 	 * remote ports that can now be reached.  For every single one it
4659 	 * checks if it is already known or if it is a new port.
4660 	 */
4661 	for (i = 0; (i < dev_cnt) && (pptr->port_link_cnt == link_cnt); i++) {
4662 
4663 		if (check_finish_init) {
4664 			ASSERT(i > 0);
4665 			(void) fcp_call_finish_init_held(pptr, ptgt, link_cnt,
4666 			    map_tag[i - 1], cause);
4667 			check_finish_init = 0;
4668 		}
4669 
4670 		/* get a pointer to this map entry */
4671 		map_entry = &(devlist[i]);
4672 
4673 		/*
4674 		 * Check for the duplicate map entry flag. If we have marked
4675 		 * this entry as a duplicate we skip it since the correct
4676 		 * (perhaps even same) state change will be encountered
4677 		 * later in the list.
4678 		 */
4679 		if (map_entry->map_flags & PORT_DEVICE_DUPLICATE_MAP_ENTRY) {
4680 			continue;
4681 		}
4682 
4683 		/* get ptr to this map entry in our port's list (if any) */
4684 		ptgt = fcp_lookup_target(pptr,
4685 		    (uchar_t *)&(map_entry->map_pwwn));
4686 
4687 		if (ptgt) {
4688 			/*
4689 			 * This device was already known.  The field
4690 			 * tgt_aux_state is reset (was probably set to
4691 			 * FCP_TGT_TAGGED previously in this routine).
4692 			 */
4693 			ptgt->tgt_aux_state = 0;
4694 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
4695 			    fcp_trace, FCP_BUF_LEVEL_3, 0,
4696 			    "handle_devices: map did/state/type/flags = "
4697 			    "0x%x/0x%x/0x%x/0x%x, tgt_d_id=0x%x, "
4698 			    "tgt_state=%d",
4699 			    map_entry->map_did.port_id, map_entry->map_state,
4700 			    map_entry->map_type, map_entry->map_flags,
4701 			    ptgt->tgt_d_id, ptgt->tgt_state);
4702 		}
4703 
4704 		if (map_entry->map_type == PORT_DEVICE_OLD ||
4705 		    map_entry->map_type == PORT_DEVICE_NEW ||
4706 		    map_entry->map_type == PORT_DEVICE_CHANGED) {
4707 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
4708 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
4709 			    "map_type=%x, did = %x",
4710 			    map_entry->map_type,
4711 			    map_entry->map_did.port_id);
4712 		}
4713 
4714 		switch (map_entry->map_type) {
4715 		case PORT_DEVICE_NOCHANGE:
4716 		case PORT_DEVICE_USER_CREATE:
4717 		case PORT_DEVICE_USER_LOGIN:
4718 		case PORT_DEVICE_NEW:
4719 			FCP_TGT_TRACE(ptgt, map_tag[i], FCP_TGT_TRACE_1);
4720 
4721 			if (fcp_handle_mapflags(pptr, ptgt, map_entry,
4722 			    link_cnt, (ptgt) ? map_tag[i] : 0,
4723 			    cause) == TRUE) {
4724 
4725 				FCP_TGT_TRACE(ptgt, map_tag[i],
4726 				    FCP_TGT_TRACE_2);
4727 				check_finish_init++;
4728 			}
4729 			break;
4730 
4731 		case PORT_DEVICE_OLD:
4732 			if (ptgt != NULL) {
4733 				FCP_TGT_TRACE(ptgt, map_tag[i],
4734 				    FCP_TGT_TRACE_3);
4735 
4736 				mutex_enter(&ptgt->tgt_mutex);
4737 				if (!(ptgt->tgt_state & FCP_TGT_OFFLINE)) {
4738 					/*
4739 					 * Must do an in-line wait for I/Os
4740 					 * to get drained
4741 					 */
4742 					mutex_exit(&ptgt->tgt_mutex);
4743 					mutex_exit(&pptr->port_mutex);
4744 
4745 					mutex_enter(&ptgt->tgt_mutex);
4746 					while (ptgt->tgt_ipkt_cnt ||
4747 					    fcp_outstanding_lun_cmds(ptgt)
4748 					    == FC_SUCCESS) {
4749 						mutex_exit(&ptgt->tgt_mutex);
4750 						delay(drv_usectohz(1000000));
4751 						mutex_enter(&ptgt->tgt_mutex);
4752 					}
4753 					mutex_exit(&ptgt->tgt_mutex);
4754 
4755 					mutex_enter(&pptr->port_mutex);
4756 					mutex_enter(&ptgt->tgt_mutex);
4757 
4758 					(void) fcp_offline_target(pptr, ptgt,
4759 					    link_cnt, map_tag[i], 0, 0);
4760 				}
4761 				mutex_exit(&ptgt->tgt_mutex);
4762 			}
4763 			check_finish_init++;
4764 			break;
4765 
4766 		case PORT_DEVICE_USER_DELETE:
4767 		case PORT_DEVICE_USER_LOGOUT:
4768 			if (ptgt != NULL) {
4769 				FCP_TGT_TRACE(ptgt, map_tag[i],
4770 				    FCP_TGT_TRACE_4);
4771 
4772 				mutex_enter(&ptgt->tgt_mutex);
4773 				if (!(ptgt->tgt_state & FCP_TGT_OFFLINE)) {
4774 					(void) fcp_offline_target(pptr, ptgt,
4775 					    link_cnt, map_tag[i], 1, 0);
4776 				}
4777 				mutex_exit(&ptgt->tgt_mutex);
4778 			}
4779 			check_finish_init++;
4780 			break;
4781 
4782 		case PORT_DEVICE_CHANGED:
4783 			if (ptgt != NULL) {
4784 				FCP_TGT_TRACE(ptgt, map_tag[i],
4785 				    FCP_TGT_TRACE_5);
4786 
4787 				if (fcp_device_changed(pptr, ptgt,
4788 				    map_entry, link_cnt, map_tag[i],
4789 				    cause) == TRUE) {
4790 					check_finish_init++;
4791 				}
4792 			} else {
4793 				if (fcp_handle_mapflags(pptr, ptgt,
4794 				    map_entry, link_cnt, 0, cause) == TRUE) {
4795 					check_finish_init++;
4796 				}
4797 			}
4798 			break;
4799 
4800 		default:
4801 			fcp_log(CE_WARN, pptr->port_dip,
4802 			    "!Invalid map_type=0x%x", map_entry->map_type);
4803 			check_finish_init++;
4804 			break;
4805 		}
4806 	}
4807 
4808 	if (check_finish_init && pptr->port_link_cnt == link_cnt) {
4809 		ASSERT(i > 0);
4810 		(void) fcp_call_finish_init_held(pptr, ptgt, link_cnt,
4811 		    map_tag[i-1], cause);
4812 	} else if (dev_cnt == 0 && pptr->port_link_cnt == link_cnt) {
4813 		fcp_offline_all(pptr, link_cnt, cause);
4814 	}
4815 }
4816 
4817 /*
4818  *     Function: fcp_handle_mapflags
4819  *
4820  *  Description: This function creates a target structure if the ptgt passed
4821  *		 is NULL.  It also kicks off the PLOGI if we are not logged
4822  *		 into the target yet or the PRLI if we are logged into the
4823  *		 target already.  The rest of the treatment is done in the
4824  *		 callbacks of the PLOGI or PRLI.
4825  *
4826  *     Argument: *pptr		FCP Port structure.
4827  *		 *ptgt		Target structure.
4828  *		 *map_entry	Array of fc_portmap_t structures.
4829  *		 link_cnt	Link state count.
4830  *		 tgt_cnt	Target state count.
4831  *		 cause		What caused this function to be called.
4832  *
4833  * Return Value: TRUE	Failed
4834  *		 FALSE	Succeeded
4835  *
4836  *	  Notes: pptr->port_mutex must be owned.
4837  */
4838 static int
4839 fcp_handle_mapflags(struct fcp_port	*pptr, struct fcp_tgt	*ptgt,
4840     fc_portmap_t *map_entry, int link_cnt, int tgt_cnt, int cause)
4841 {
4842 	int			lcount;
4843 	int			tcount;
4844 	int			ret = TRUE;
4845 	int			alloc;
4846 	struct fcp_ipkt	*icmd;
4847 	struct fcp_lun	*pseq_lun = NULL;
4848 	uchar_t			opcode;
4849 	int			valid_ptgt_was_passed = FALSE;
4850 
4851 	ASSERT(mutex_owned(&pptr->port_mutex));
4852 
4853 	/*
4854 	 * This case is possible where the FCTL has come up and done discovery
4855 	 * before FCP was loaded and attached. FCTL would have discovered the
4856 	 * devices and later the ULP came online. In this case ULP's would get
4857 	 * PORT_DEVICE_NOCHANGE but target would be NULL.
4858 	 */
4859 	if (ptgt == NULL) {
4860 		/* don't already have a target */
4861 		mutex_exit(&pptr->port_mutex);
4862 		ptgt = fcp_alloc_tgt(pptr, map_entry, link_cnt);
4863 		mutex_enter(&pptr->port_mutex);
4864 
4865 		if (ptgt == NULL) {
4866 			fcp_log(CE_WARN, pptr->port_dip,
4867 			    "!FC target allocation failed");
4868 			return (ret);
4869 		}
4870 		mutex_enter(&ptgt->tgt_mutex);
4871 		ptgt->tgt_statec_cause = cause;
4872 		ptgt->tgt_tmp_cnt = 1;
4873 		mutex_exit(&ptgt->tgt_mutex);
4874 	} else {
4875 		valid_ptgt_was_passed = TRUE;
4876 	}
4877 
4878 	/*
4879 	 * Copy in the target parameters
4880 	 */
4881 	mutex_enter(&ptgt->tgt_mutex);
4882 	ptgt->tgt_d_id = map_entry->map_did.port_id;
4883 	ptgt->tgt_hard_addr = map_entry->map_hard_addr.hard_addr;
4884 	ptgt->tgt_pd_handle = map_entry->map_pd;
4885 	ptgt->tgt_fca_dev = NULL;
4886 
4887 	/* Copy port and node WWNs */
4888 	bcopy(&map_entry->map_nwwn, &ptgt->tgt_node_wwn.raw_wwn[0],
4889 	    FC_WWN_SIZE);
4890 	bcopy(&map_entry->map_pwwn, &ptgt->tgt_port_wwn.raw_wwn[0],
4891 	    FC_WWN_SIZE);
4892 
4893 	if (!(map_entry->map_flags & PORT_DEVICE_NO_SKIP_DEVICE_DISCOVERY) &&
4894 	    (map_entry->map_type == PORT_DEVICE_NOCHANGE) &&
4895 	    (map_entry->map_state == PORT_DEVICE_LOGGED_IN) &&
4896 	    valid_ptgt_was_passed) {
4897 		/*
4898 		 * determine if there are any tape LUNs on this target
4899 		 */
4900 		for (pseq_lun = ptgt->tgt_lun;
4901 		    pseq_lun != NULL;
4902 		    pseq_lun = pseq_lun->lun_next) {
4903 			if ((pseq_lun->lun_type == DTYPE_SEQUENTIAL) &&
4904 			    !(pseq_lun->lun_state & FCP_LUN_OFFLINE)) {
4905 				fcp_update_tgt_state(ptgt, FCP_RESET,
4906 				    FCP_LUN_MARK);
4907 				mutex_exit(&ptgt->tgt_mutex);
4908 				return (ret);
4909 			}
4910 		}
4911 	}
4912 
4913 	/*
4914 	 * If ptgt was NULL when this function was entered, then tgt_node_state
4915 	 * was never specifically initialized but zeroed out which means
4916 	 * FCP_TGT_NODE_NONE.
4917 	 */
4918 	switch (ptgt->tgt_node_state) {
4919 	case FCP_TGT_NODE_NONE:
4920 	case FCP_TGT_NODE_ON_DEMAND:
4921 		if (FC_TOP_EXTERNAL(pptr->port_topology) &&
4922 		    !fcp_enable_auto_configuration &&
4923 		    map_entry->map_type != PORT_DEVICE_USER_CREATE) {
4924 			ptgt->tgt_node_state = FCP_TGT_NODE_ON_DEMAND;
4925 		} else if (FC_TOP_EXTERNAL(pptr->port_topology) &&
4926 		    fcp_enable_auto_configuration &&
4927 		    (ptgt->tgt_manual_config_only == 1) &&
4928 		    map_entry->map_type != PORT_DEVICE_USER_CREATE) {
4929 			/*
4930 			 * If auto configuration is set and
4931 			 * the tgt_manual_config_only flag is set then
4932 			 * we only want the user to be able to change
4933 			 * the state through create_on_demand.
4934 			 */
4935 			ptgt->tgt_node_state = FCP_TGT_NODE_ON_DEMAND;
4936 		} else {
4937 			ptgt->tgt_node_state = FCP_TGT_NODE_NONE;
4938 		}
4939 		break;
4940 
4941 	case FCP_TGT_NODE_PRESENT:
4942 		break;
4943 	}
4944 	/*
4945 	 * If we are booting from a fabric device, make sure we
4946 	 * mark the node state appropriately for this target to be
4947 	 * enumerated
4948 	 */
4949 	if (FC_TOP_EXTERNAL(pptr->port_topology) && pptr->port_boot_wwn[0]) {
4950 		if (bcmp((caddr_t)pptr->port_boot_wwn,
4951 		    (caddr_t)&ptgt->tgt_port_wwn.raw_wwn[0],
4952 		    sizeof (ptgt->tgt_port_wwn)) == 0) {
4953 			ptgt->tgt_node_state = FCP_TGT_NODE_NONE;
4954 		}
4955 	}
4956 	mutex_exit(&ptgt->tgt_mutex);
4957 
4958 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
4959 	    fcp_trace, FCP_BUF_LEVEL_3, 0,
4960 	    "map_pd=%p, map_type=%x, did = %x, ulp_rscn_count=0x%x",
4961 	    map_entry->map_pd, map_entry->map_type, map_entry->map_did.port_id,
4962 	    map_entry->map_rscn_info.ulp_rscn_count);
4963 
4964 	mutex_enter(&ptgt->tgt_mutex);
4965 
4966 	/*
4967 	 * Reset target OFFLINE state and mark the target BUSY
4968 	 */
4969 	ptgt->tgt_state &= ~FCP_TGT_OFFLINE;
4970 	ptgt->tgt_state |= (FCP_TGT_BUSY | FCP_TGT_MARK);
4971 
4972 	tcount = tgt_cnt ? tgt_cnt : ptgt->tgt_change_cnt;
4973 	lcount = link_cnt;
4974 
4975 	mutex_exit(&ptgt->tgt_mutex);
4976 	mutex_exit(&pptr->port_mutex);
4977 
4978 	/*
4979 	 * if we are already logged in, then we do a PRLI, else
4980 	 * we do a PLOGI first (to get logged in)
4981 	 *
4982 	 * We will not check if we are the PLOGI initiator
4983 	 */
4984 	opcode = (map_entry->map_state == PORT_DEVICE_LOGGED_IN &&
4985 	    map_entry->map_pd != NULL) ? LA_ELS_PRLI : LA_ELS_PLOGI;
4986 
4987 	alloc = FCP_MAX(sizeof (la_els_logi_t), sizeof (la_els_prli_t));
4988 
4989 	icmd = fcp_icmd_alloc(pptr, ptgt, alloc, alloc, 0, 0, lcount, tcount,
4990 	    cause, map_entry->map_rscn_info.ulp_rscn_count);
4991 
4992 	if (icmd == NULL) {
4993 		FCP_TGT_TRACE(ptgt, tgt_cnt, FCP_TGT_TRACE_29);
4994 		/*
4995 		 * We've exited port_mutex before calling fcp_icmd_alloc,
4996 		 * we need to make sure we reacquire it before returning.
4997 		 */
4998 		mutex_enter(&pptr->port_mutex);
4999 		return (FALSE);
5000 	}
5001 
5002 	/* TRUE is only returned while target is intended skipped */
5003 	ret = FALSE;
5004 	/* discover info about this target */
5005 	if ((fcp_send_els(pptr, ptgt, icmd, opcode,
5006 	    lcount, tcount, cause)) == DDI_SUCCESS) {
5007 		FCP_TGT_TRACE(ptgt, tgt_cnt, FCP_TGT_TRACE_9);
5008 	} else {
5009 		fcp_icmd_free(pptr, icmd);
5010 		ret = TRUE;
5011 	}
5012 	mutex_enter(&pptr->port_mutex);
5013 
5014 	return (ret);
5015 }
5016 
5017 /*
5018  *     Function: fcp_send_els
5019  *
5020  *  Description: Sends an ELS to the target specified by the caller.  Supports
5021  *		 PLOGI and PRLI.
5022  *
5023  *     Argument: *pptr		Fcp port.
5024  *		 *ptgt		Target to send the ELS to.
5025  *		 *icmd		Internal packet
5026  *		 opcode		ELS opcode
5027  *		 lcount		Link state change counter
5028  *		 tcount		Target state change counter
5029  *		 cause		What caused the call
5030  *
5031  * Return Value: DDI_SUCCESS
5032  *		 Others
5033  */
5034 static int
5035 fcp_send_els(struct fcp_port *pptr, struct fcp_tgt *ptgt,
5036     struct fcp_ipkt *icmd, uchar_t opcode, int lcount, int tcount, int cause)
5037 {
5038 	fc_packet_t		*fpkt;
5039 	fc_frame_hdr_t		*hp;
5040 	int			internal = 0;
5041 	int			alloc;
5042 	int			cmd_len;
5043 	int			resp_len;
5044 	int			res = DDI_FAILURE; /* default result */
5045 	int			rval = DDI_FAILURE;
5046 
5047 	ASSERT(opcode == LA_ELS_PLOGI || opcode == LA_ELS_PRLI);
5048 	ASSERT(ptgt->tgt_port == pptr);
5049 
5050 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
5051 	    fcp_trace, FCP_BUF_LEVEL_5, 0,
5052 	    "fcp_send_els: d_id=0x%x ELS 0x%x (%s)", ptgt->tgt_d_id, opcode,
5053 	    (opcode == LA_ELS_PLOGI) ? "PLOGI" : "PRLI");
5054 
5055 	if (opcode == LA_ELS_PLOGI) {
5056 		cmd_len = sizeof (la_els_logi_t);
5057 		resp_len = sizeof (la_els_logi_t);
5058 	} else {
5059 		ASSERT(opcode == LA_ELS_PRLI);
5060 		cmd_len = sizeof (la_els_prli_t);
5061 		resp_len = sizeof (la_els_prli_t);
5062 	}
5063 
5064 	if (icmd == NULL) {
5065 		alloc = FCP_MAX(sizeof (la_els_logi_t),
5066 		    sizeof (la_els_prli_t));
5067 		icmd = fcp_icmd_alloc(pptr, ptgt, alloc, alloc, 0, 0,
5068 		    lcount, tcount, cause, FC_INVALID_RSCN_COUNT);
5069 		if (icmd == NULL) {
5070 			FCP_TGT_TRACE(ptgt, tcount, FCP_TGT_TRACE_10);
5071 			return (res);
5072 		}
5073 		internal++;
5074 	}
5075 	fpkt = icmd->ipkt_fpkt;
5076 
5077 	fpkt->pkt_cmdlen = cmd_len;
5078 	fpkt->pkt_rsplen = resp_len;
5079 	fpkt->pkt_datalen = 0;
5080 	icmd->ipkt_retries = 0;
5081 
5082 	/* fill in fpkt info */
5083 	fpkt->pkt_tran_flags = FC_TRAN_CLASS3 | FC_TRAN_INTR;
5084 	fpkt->pkt_tran_type = FC_PKT_EXCHANGE;
5085 	fpkt->pkt_timeout = FCP_ELS_TIMEOUT;
5086 
5087 	/* get ptr to frame hdr in fpkt */
5088 	hp = &fpkt->pkt_cmd_fhdr;
5089 
5090 	/*
5091 	 * fill in frame hdr
5092 	 */
5093 	hp->r_ctl = R_CTL_ELS_REQ;
5094 	hp->s_id = pptr->port_id;	/* source ID */
5095 	hp->d_id = ptgt->tgt_d_id;	/* dest ID */
5096 	hp->type = FC_TYPE_EXTENDED_LS;
5097 	hp->f_ctl = F_CTL_SEQ_INITIATIVE | F_CTL_FIRST_SEQ;
5098 	hp->seq_id = 0;
5099 	hp->rsvd = 0;
5100 	hp->df_ctl  = 0;
5101 	hp->seq_cnt = 0;
5102 	hp->ox_id = 0xffff;		/* i.e. none */
5103 	hp->rx_id = 0xffff;		/* i.e. none */
5104 	hp->ro = 0;
5105 
5106 	/*
5107 	 * at this point we have a filled in cmd pkt
5108 	 *
5109 	 * fill in the respective info, then use the transport to send
5110 	 * the packet
5111 	 *
5112 	 * for a PLOGI call fc_ulp_login(), and
5113 	 * for a PRLI call fc_ulp_issue_els()
5114 	 */
5115 	switch (opcode) {
5116 	case LA_ELS_PLOGI: {
5117 		struct la_els_logi logi;
5118 
5119 		bzero(&logi, sizeof (struct la_els_logi));
5120 
5121 		hp = &fpkt->pkt_cmd_fhdr;
5122 		hp->r_ctl = R_CTL_ELS_REQ;
5123 		logi.ls_code.ls_code = LA_ELS_PLOGI;
5124 		logi.ls_code.mbz = 0;
5125 
5126 		FCP_CP_OUT((uint8_t *)&logi, fpkt->pkt_cmd,
5127 		    fpkt->pkt_cmd_acc, sizeof (struct la_els_logi));
5128 
5129 		icmd->ipkt_opcode = LA_ELS_PLOGI;
5130 
5131 		mutex_enter(&pptr->port_mutex);
5132 		if (!FCP_TGT_STATE_CHANGED(ptgt, icmd)) {
5133 
5134 			mutex_exit(&pptr->port_mutex);
5135 
5136 			rval = fc_ulp_login(pptr->port_fp_handle, &fpkt, 1);
5137 			if (rval == FC_SUCCESS) {
5138 				res = DDI_SUCCESS;
5139 				break;
5140 			}
5141 
5142 			FCP_TGT_TRACE(ptgt, tcount, FCP_TGT_TRACE_11);
5143 
5144 			res = fcp_handle_ipkt_errors(pptr, ptgt, icmd,
5145 			    rval, "PLOGI");
5146 		} else {
5147 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
5148 			    fcp_trace, FCP_BUF_LEVEL_5, 0,
5149 			    "fcp_send_els1: state change occured"
5150 			    " for D_ID=0x%x", ptgt->tgt_d_id);
5151 			mutex_exit(&pptr->port_mutex);
5152 			FCP_TGT_TRACE(ptgt, tcount, FCP_TGT_TRACE_12);
5153 		}
5154 		break;
5155 	}
5156 
5157 	case LA_ELS_PRLI: {
5158 		struct la_els_prli	prli;
5159 		struct fcp_prli		*fprli;
5160 
5161 		bzero(&prli, sizeof (struct la_els_prli));
5162 
5163 		hp = &fpkt->pkt_cmd_fhdr;
5164 		hp->r_ctl = R_CTL_ELS_REQ;
5165 
5166 		/* fill in PRLI cmd ELS fields */
5167 		prli.ls_code = LA_ELS_PRLI;
5168 		prli.page_length = 0x10;	/* huh? */
5169 		prli.payload_length = sizeof (struct la_els_prli);
5170 
5171 		icmd->ipkt_opcode = LA_ELS_PRLI;
5172 
5173 		/* get ptr to PRLI service params */
5174 		fprli = (struct fcp_prli *)prli.service_params;
5175 
5176 		/* fill in service params */
5177 		fprli->type = 0x08;
5178 		fprli->resvd1 = 0;
5179 		fprli->orig_process_assoc_valid = 0;
5180 		fprli->resp_process_assoc_valid = 0;
5181 		fprli->establish_image_pair = 1;
5182 		fprli->resvd2 = 0;
5183 		fprli->resvd3 = 0;
5184 		fprli->obsolete_1 = 0;
5185 		fprli->obsolete_2 = 0;
5186 		fprli->data_overlay_allowed = 0;
5187 		fprli->initiator_fn = 1;
5188 		fprli->confirmed_compl_allowed = 1;
5189 
5190 		if (fc_ulp_is_name_present("ltct") == FC_SUCCESS) {
5191 			fprli->target_fn = 1;
5192 		} else {
5193 			fprli->target_fn = 0;
5194 		}
5195 
5196 		fprli->retry = 1;
5197 		fprli->read_xfer_rdy_disabled = 1;
5198 		fprli->write_xfer_rdy_disabled = 0;
5199 
5200 		FCP_CP_OUT((uint8_t *)&prli, fpkt->pkt_cmd,
5201 		    fpkt->pkt_cmd_acc, sizeof (struct la_els_prli));
5202 
5203 		/* issue the PRLI request */
5204 
5205 		mutex_enter(&pptr->port_mutex);
5206 		if (!FCP_TGT_STATE_CHANGED(ptgt, icmd)) {
5207 
5208 			mutex_exit(&pptr->port_mutex);
5209 
5210 			rval = fc_ulp_issue_els(pptr->port_fp_handle, fpkt);
5211 			if (rval == FC_SUCCESS) {
5212 				res = DDI_SUCCESS;
5213 				break;
5214 			}
5215 
5216 			FCP_TGT_TRACE(ptgt, tcount, FCP_TGT_TRACE_13);
5217 
5218 			res = fcp_handle_ipkt_errors(pptr, ptgt, icmd,
5219 			    rval, "PRLI");
5220 		} else {
5221 			mutex_exit(&pptr->port_mutex);
5222 			FCP_TGT_TRACE(ptgt, tcount, FCP_TGT_TRACE_14);
5223 		}
5224 		break;
5225 	}
5226 
5227 	default:
5228 		fcp_log(CE_WARN, NULL, "!invalid ELS opcode=0x%x", opcode);
5229 		break;
5230 	}
5231 
5232 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
5233 	    fcp_trace, FCP_BUF_LEVEL_5, 0,
5234 	    "fcp_send_els: returning %d", res);
5235 
5236 	if (res != DDI_SUCCESS) {
5237 		if (internal) {
5238 			fcp_icmd_free(pptr, icmd);
5239 		}
5240 	}
5241 
5242 	return (res);
5243 }
5244 
5245 
5246 /*
5247  * called internally update the state of all of the tgts and each LUN
5248  * for this port (i.e. each target  known to be attached to this port)
5249  * if they are not already offline
5250  *
5251  * must be called with the port mutex owned
5252  *
5253  * acquires and releases the target mutexes for each target attached
5254  * to this port
5255  */
5256 void
5257 fcp_update_state(struct fcp_port *pptr, uint32_t state, int cause)
5258 {
5259 	int i;
5260 	struct fcp_tgt *ptgt;
5261 
5262 	ASSERT(mutex_owned(&pptr->port_mutex));
5263 
5264 	for (i = 0; i < FCP_NUM_HASH; i++) {
5265 		for (ptgt = pptr->port_tgt_hash_table[i]; ptgt != NULL;
5266 		    ptgt = ptgt->tgt_next) {
5267 			mutex_enter(&ptgt->tgt_mutex);
5268 			fcp_update_tgt_state(ptgt, FCP_SET, state);
5269 			ptgt->tgt_change_cnt++;
5270 			ptgt->tgt_statec_cause = cause;
5271 			ptgt->tgt_tmp_cnt = 1;
5272 			ptgt->tgt_done = 0;
5273 			mutex_exit(&ptgt->tgt_mutex);
5274 		}
5275 	}
5276 }
5277 
5278 
5279 static void
5280 fcp_offline_all(struct fcp_port *pptr, int lcount, int cause)
5281 {
5282 	int i;
5283 	int ndevs;
5284 	struct fcp_tgt *ptgt;
5285 
5286 	ASSERT(mutex_owned(&pptr->port_mutex));
5287 
5288 	for (ndevs = 0, i = 0; i < FCP_NUM_HASH; i++) {
5289 		for (ptgt = pptr->port_tgt_hash_table[i]; ptgt != NULL;
5290 		    ptgt = ptgt->tgt_next) {
5291 			ndevs++;
5292 		}
5293 	}
5294 
5295 	if (ndevs == 0) {
5296 		return;
5297 	}
5298 	pptr->port_tmp_cnt = ndevs;
5299 
5300 	for (i = 0; i < FCP_NUM_HASH; i++) {
5301 		for (ptgt = pptr->port_tgt_hash_table[i]; ptgt != NULL;
5302 		    ptgt = ptgt->tgt_next) {
5303 			(void) fcp_call_finish_init_held(pptr, ptgt,
5304 			    lcount, ptgt->tgt_change_cnt, cause);
5305 		}
5306 	}
5307 }
5308 
5309 /*
5310  *     Function: fcp_update_tgt_state
5311  *
5312  *  Description: This function updates the field tgt_state of a target.	 That
5313  *		 field is a bitmap and which bit can be set or reset
5314  *		 individually.	The action applied to the target state is also
5315  *		 applied to all the LUNs belonging to the target (provided the
5316  *		 LUN is not offline).  A side effect of applying the state
5317  *		 modification to the target and the LUNs is the field tgt_trace
5318  *		 of the target and lun_trace of the LUNs is set to zero.
5319  *
5320  *
5321  *     Argument: *ptgt	Target structure.
5322  *		 flag	Flag indication what action to apply (set/reset).
5323  *		 state	State bits to update.
5324  *
5325  * Return Value: None
5326  *
5327  *	Context: Interrupt, Kernel or User context.
5328  *		 The mutex of the target (ptgt->tgt_mutex) must be owned when
5329  *		 calling this function.
5330  */
5331 void
5332 fcp_update_tgt_state(struct fcp_tgt *ptgt, int flag, uint32_t state)
5333 {
5334 	struct fcp_lun *plun;
5335 
5336 	ASSERT(mutex_owned(&ptgt->tgt_mutex));
5337 
5338 	if (!(ptgt->tgt_state & FCP_TGT_OFFLINE)) {
5339 		/* The target is not offline. */
5340 		if (flag == FCP_SET) {
5341 			ptgt->tgt_state |= state;
5342 			ptgt->tgt_trace = 0;
5343 		} else {
5344 			ptgt->tgt_state &= ~state;
5345 		}
5346 
5347 		for (plun = ptgt->tgt_lun; plun != NULL;
5348 		    plun = plun->lun_next) {
5349 			if (!(plun->lun_state & FCP_LUN_OFFLINE)) {
5350 				/* The LUN is not offline. */
5351 				if (flag == FCP_SET) {
5352 					plun->lun_state |= state;
5353 					plun->lun_trace = 0;
5354 				} else {
5355 					plun->lun_state &= ~state;
5356 				}
5357 			}
5358 		}
5359 	}
5360 }
5361 
5362 /*
5363  *     Function: fcp_update_tgt_state
5364  *
5365  *  Description: This function updates the field lun_state of a LUN.  That
5366  *		 field is a bitmap and which bit can be set or reset
5367  *		 individually.
5368  *
5369  *     Argument: *plun	LUN structure.
5370  *		 flag	Flag indication what action to apply (set/reset).
5371  *		 state	State bits to update.
5372  *
5373  * Return Value: None
5374  *
5375  *	Context: Interrupt, Kernel or User context.
5376  *		 The mutex of the target (ptgt->tgt_mutex) must be owned when
5377  *		 calling this function.
5378  */
5379 void
5380 fcp_update_lun_state(struct fcp_lun *plun, int flag, uint32_t state)
5381 {
5382 	struct fcp_tgt	*ptgt = plun->lun_tgt;
5383 
5384 	ASSERT(mutex_owned(&ptgt->tgt_mutex));
5385 
5386 	if (!(plun->lun_state & FCP_TGT_OFFLINE)) {
5387 		if (flag == FCP_SET) {
5388 			plun->lun_state |= state;
5389 		} else {
5390 			plun->lun_state &= ~state;
5391 		}
5392 	}
5393 }
5394 
5395 /*
5396  *     Function: fcp_get_port
5397  *
5398  *  Description: This function returns the fcp_port structure from the opaque
5399  *		 handle passed by the caller.  That opaque handle is the handle
5400  *		 used by fp/fctl to identify a particular local port.  That
5401  *		 handle has been stored in the corresponding fcp_port
5402  *		 structure.  This function is going to walk the global list of
5403  *		 fcp_port structures till one has a port_fp_handle that matches
5404  *		 the handle passed by the caller.  This function enters the
5405  *		 mutex fcp_global_mutex while walking the global list and then
5406  *		 releases it.
5407  *
5408  *     Argument: port_handle	Opaque handle that fp/fctl uses to identify a
5409  *				particular port.
5410  *
5411  * Return Value: NULL		Not found.
5412  *		 Not NULL	Pointer to the fcp_port structure.
5413  *
5414  *	Context: Interrupt, Kernel or User context.
5415  */
5416 static struct fcp_port *
5417 fcp_get_port(opaque_t port_handle)
5418 {
5419 	struct fcp_port *pptr;
5420 
5421 	ASSERT(port_handle != NULL);
5422 
5423 	mutex_enter(&fcp_global_mutex);
5424 	for (pptr = fcp_port_head; pptr != NULL; pptr = pptr->port_next) {
5425 		if (pptr->port_fp_handle == port_handle) {
5426 			break;
5427 		}
5428 	}
5429 	mutex_exit(&fcp_global_mutex);
5430 
5431 	return (pptr);
5432 }
5433 
5434 
5435 static void
5436 fcp_unsol_callback(fc_packet_t *fpkt)
5437 {
5438 	struct fcp_ipkt *icmd = (struct fcp_ipkt *)fpkt->pkt_ulp_private;
5439 	struct fcp_port *pptr = icmd->ipkt_port;
5440 
5441 	if (fpkt->pkt_state != FC_PKT_SUCCESS) {
5442 		caddr_t state, reason, action, expln;
5443 
5444 		(void) fc_ulp_pkt_error(fpkt, &state, &reason,
5445 		    &action, &expln);
5446 
5447 		fcp_log(CE_WARN, pptr->port_dip,
5448 		    "!couldn't post response to unsolicited request: "
5449 		    " state=%s reason=%s rx_id=%x ox_id=%x",
5450 		    state, reason, fpkt->pkt_cmd_fhdr.ox_id,
5451 		    fpkt->pkt_cmd_fhdr.rx_id);
5452 	}
5453 	fcp_icmd_free(pptr, icmd);
5454 }
5455 
5456 
5457 /*
5458  * Perform general purpose preparation of a response to an unsolicited request
5459  */
5460 static void
5461 fcp_unsol_resp_init(fc_packet_t *pkt, fc_unsol_buf_t *buf,
5462     uchar_t r_ctl, uchar_t type)
5463 {
5464 	pkt->pkt_cmd_fhdr.r_ctl = r_ctl;
5465 	pkt->pkt_cmd_fhdr.d_id = buf->ub_frame.s_id;
5466 	pkt->pkt_cmd_fhdr.s_id = buf->ub_frame.d_id;
5467 	pkt->pkt_cmd_fhdr.type = type;
5468 	pkt->pkt_cmd_fhdr.f_ctl = F_CTL_LAST_SEQ | F_CTL_XCHG_CONTEXT;
5469 	pkt->pkt_cmd_fhdr.seq_id = buf->ub_frame.seq_id;
5470 	pkt->pkt_cmd_fhdr.df_ctl  = buf->ub_frame.df_ctl;
5471 	pkt->pkt_cmd_fhdr.seq_cnt = buf->ub_frame.seq_cnt;
5472 	pkt->pkt_cmd_fhdr.ox_id = buf->ub_frame.ox_id;
5473 	pkt->pkt_cmd_fhdr.rx_id = buf->ub_frame.rx_id;
5474 	pkt->pkt_cmd_fhdr.ro = 0;
5475 	pkt->pkt_cmd_fhdr.rsvd = 0;
5476 	pkt->pkt_comp = fcp_unsol_callback;
5477 	pkt->pkt_pd = NULL;
5478 }
5479 
5480 
5481 /*ARGSUSED*/
5482 static int
5483 fcp_unsol_prli(struct fcp_port *pptr, fc_unsol_buf_t *buf)
5484 {
5485 	fc_packet_t		*fpkt;
5486 	struct la_els_prli	prli;
5487 	struct fcp_prli		*fprli;
5488 	struct fcp_ipkt	*icmd;
5489 	struct la_els_prli	*from;
5490 	struct fcp_prli		*orig;
5491 	struct fcp_tgt	*ptgt;
5492 	int			tcount = 0;
5493 	int			lcount;
5494 
5495 	from = (struct la_els_prli *)buf->ub_buffer;
5496 	orig = (struct fcp_prli *)from->service_params;
5497 
5498 	if ((ptgt = fcp_get_target_by_did(pptr, buf->ub_frame.s_id)) !=
5499 	    NULL) {
5500 		mutex_enter(&ptgt->tgt_mutex);
5501 		tcount = ptgt->tgt_change_cnt;
5502 		mutex_exit(&ptgt->tgt_mutex);
5503 	}
5504 	mutex_enter(&pptr->port_mutex);
5505 	lcount = pptr->port_link_cnt;
5506 	mutex_exit(&pptr->port_mutex);
5507 
5508 	if ((icmd = fcp_icmd_alloc(pptr, ptgt, sizeof (la_els_prli_t),
5509 	    sizeof (la_els_prli_t), 0, 0, lcount, tcount, 0,
5510 	    FC_INVALID_RSCN_COUNT)) == NULL) {
5511 		return (FC_FAILURE);
5512 	}
5513 	fpkt = icmd->ipkt_fpkt;
5514 	fpkt->pkt_tran_flags = FC_TRAN_CLASS3 | FC_TRAN_INTR;
5515 	fpkt->pkt_tran_type = FC_PKT_OUTBOUND;
5516 	fpkt->pkt_timeout = FCP_ELS_TIMEOUT;
5517 	fpkt->pkt_cmdlen = sizeof (la_els_prli_t);
5518 	fpkt->pkt_rsplen = 0;
5519 	fpkt->pkt_datalen = 0;
5520 
5521 	icmd->ipkt_opcode = LA_ELS_PRLI;
5522 
5523 	bzero(&prli, sizeof (struct la_els_prli));
5524 	fprli = (struct fcp_prli *)prli.service_params;
5525 	prli.ls_code = LA_ELS_ACC;
5526 	prli.page_length = 0x10;
5527 	prli.payload_length = sizeof (struct la_els_prli);
5528 
5529 	/* fill in service params */
5530 	fprli->type = 0x08;
5531 	fprli->resvd1 = 0;
5532 	fprli->orig_process_assoc_valid = orig->orig_process_assoc_valid;
5533 	fprli->orig_process_associator = orig->orig_process_associator;
5534 	fprli->resp_process_assoc_valid = 0;
5535 	fprli->establish_image_pair = 1;
5536 	fprli->resvd2 = 0;
5537 	fprli->resvd3 = 0;
5538 	fprli->obsolete_1 = 0;
5539 	fprli->obsolete_2 = 0;
5540 	fprli->data_overlay_allowed = 0;
5541 	fprli->initiator_fn = 1;
5542 	fprli->confirmed_compl_allowed = 1;
5543 
5544 	if (fc_ulp_is_name_present("ltct") == FC_SUCCESS) {
5545 		fprli->target_fn = 1;
5546 	} else {
5547 		fprli->target_fn = 0;
5548 	}
5549 
5550 	fprli->retry = 1;
5551 	fprli->read_xfer_rdy_disabled = 1;
5552 	fprli->write_xfer_rdy_disabled = 0;
5553 
5554 	/* save the unsol prli payload first */
5555 	FCP_CP_OUT((uint8_t *)from, fpkt->pkt_resp,
5556 	    fpkt->pkt_resp_acc, sizeof (struct la_els_prli));
5557 
5558 	FCP_CP_OUT((uint8_t *)&prli, fpkt->pkt_cmd,
5559 	    fpkt->pkt_cmd_acc, sizeof (struct la_els_prli));
5560 
5561 	fcp_unsol_resp_init(fpkt, buf, R_CTL_ELS_RSP, FC_TYPE_EXTENDED_LS);
5562 
5563 	mutex_enter(&pptr->port_mutex);
5564 	if (!FCP_LINK_STATE_CHANGED(pptr, icmd)) {
5565 		int rval;
5566 		mutex_exit(&pptr->port_mutex);
5567 
5568 		if ((rval = fc_ulp_issue_els(pptr->port_fp_handle, fpkt)) !=
5569 		    FC_SUCCESS) {
5570 			if (rval == FC_STATEC_BUSY || rval == FC_OFFLINE) {
5571 				fcp_queue_ipkt(pptr, fpkt);
5572 				return (FC_SUCCESS);
5573 			}
5574 			/* Let it timeout */
5575 			fcp_icmd_free(pptr, icmd);
5576 			return (FC_FAILURE);
5577 		}
5578 	} else {
5579 		mutex_exit(&pptr->port_mutex);
5580 		fcp_icmd_free(pptr, icmd);
5581 		return (FC_FAILURE);
5582 	}
5583 
5584 	(void) fc_ulp_ubrelease(pptr->port_fp_handle, 1, &buf->ub_token);
5585 
5586 	return (FC_SUCCESS);
5587 }
5588 
5589 /*
5590  *     Function: fcp_icmd_alloc
5591  *
5592  *  Description: This function allocated a fcp_ipkt structure.	The pkt_comp
5593  *		 field is initialized to fcp_icmd_callback.  Sometimes it is
5594  *		 modified by the caller (such as fcp_send_scsi).  The
5595  *		 structure is also tied to the state of the line and of the
5596  *		 target at a particular time.  That link is established by
5597  *		 setting the fields ipkt_link_cnt and ipkt_change_cnt to lcount
5598  *		 and tcount which came respectively from pptr->link_cnt and
5599  *		 ptgt->tgt_change_cnt.
5600  *
5601  *     Argument: *pptr		Fcp port.
5602  *		 *ptgt		Target (destination of the command).
5603  *		 cmd_len	Length of the command.
5604  *		 resp_len	Length of the expected response.
5605  *		 data_len	Length of the data.
5606  *		 nodma		Indicates weither the command and response.
5607  *				will be transfer through DMA or not.
5608  *		 lcount		Link state change counter.
5609  *		 tcount		Target state change counter.
5610  *		 cause		Reason that lead to this call.
5611  *
5612  * Return Value: NULL		Failed.
5613  *		 Not NULL	Internal packet address.
5614  */
5615 static struct fcp_ipkt *
5616 fcp_icmd_alloc(struct fcp_port *pptr, struct fcp_tgt *ptgt, int cmd_len,
5617     int resp_len, int data_len, int nodma, int lcount, int tcount, int cause,
5618     uint32_t rscn_count)
5619 {
5620 	int			dma_setup = 0;
5621 	fc_packet_t		*fpkt;
5622 	struct fcp_ipkt	*icmd = NULL;
5623 
5624 	icmd = kmem_zalloc(sizeof (struct fcp_ipkt) +
5625 	    pptr->port_dmacookie_sz + pptr->port_priv_pkt_len,
5626 	    KM_NOSLEEP);
5627 	if (icmd == NULL) {
5628 		fcp_log(CE_WARN, pptr->port_dip,
5629 		    "!internal packet allocation failed");
5630 		return (NULL);
5631 	}
5632 
5633 	/*
5634 	 * initialize the allocated packet
5635 	 */
5636 	icmd->ipkt_nodma = nodma;
5637 	icmd->ipkt_next = icmd->ipkt_prev = NULL;
5638 	icmd->ipkt_lun = NULL;
5639 
5640 	icmd->ipkt_link_cnt = lcount;
5641 	icmd->ipkt_change_cnt = tcount;
5642 	icmd->ipkt_cause = cause;
5643 
5644 	mutex_enter(&pptr->port_mutex);
5645 	icmd->ipkt_port = pptr;
5646 	mutex_exit(&pptr->port_mutex);
5647 
5648 	/* keep track of amt of data to be sent in pkt */
5649 	icmd->ipkt_cmdlen = cmd_len;
5650 	icmd->ipkt_resplen = resp_len;
5651 	icmd->ipkt_datalen = data_len;
5652 
5653 	/* set up pkt's ptr to the fc_packet_t struct, just after the ipkt */
5654 	icmd->ipkt_fpkt = (fc_packet_t *)(&icmd->ipkt_fc_packet);
5655 
5656 	/* set pkt's private ptr to point to cmd pkt */
5657 	icmd->ipkt_fpkt->pkt_ulp_private = (opaque_t)icmd;
5658 
5659 	/* set FCA private ptr to memory just beyond */
5660 	icmd->ipkt_fpkt->pkt_fca_private = (opaque_t)
5661 	    ((char *)icmd + sizeof (struct fcp_ipkt) +
5662 	    pptr->port_dmacookie_sz);
5663 
5664 	/* get ptr to fpkt substruct and fill it in */
5665 	fpkt = icmd->ipkt_fpkt;
5666 	fpkt->pkt_data_cookie = (ddi_dma_cookie_t *)((caddr_t)icmd +
5667 	    sizeof (struct fcp_ipkt));
5668 
5669 	if (ptgt != NULL) {
5670 		icmd->ipkt_tgt = ptgt;
5671 		fpkt->pkt_fca_device = ptgt->tgt_fca_dev;
5672 	}
5673 
5674 	fpkt->pkt_comp = fcp_icmd_callback;
5675 	fpkt->pkt_tran_flags = (FC_TRAN_CLASS3 | FC_TRAN_INTR);
5676 	fpkt->pkt_cmdlen = cmd_len;
5677 	fpkt->pkt_rsplen = resp_len;
5678 	fpkt->pkt_datalen = data_len;
5679 
5680 	/*
5681 	 * The pkt_ulp_rscn_infop (aka pkt_ulp_rsvd1) field is used to pass the
5682 	 * rscn_count as fcp knows down to the transport. If a valid count was
5683 	 * passed into this function, we allocate memory to actually pass down
5684 	 * this info.
5685 	 *
5686 	 * BTW, if the kmem_zalloc fails, we won't try too hard. This will
5687 	 * basically mean that fcp will not be able to help transport
5688 	 * distinguish if a new RSCN has come after fcp was last informed about
5689 	 * it. In such cases, it might lead to the problem mentioned in CR/bug #
5690 	 * 5068068 where the device might end up going offline in case of RSCN
5691 	 * storms.
5692 	 */
5693 	fpkt->pkt_ulp_rscn_infop = NULL;
5694 	if (rscn_count != FC_INVALID_RSCN_COUNT) {
5695 		fpkt->pkt_ulp_rscn_infop = kmem_zalloc(
5696 		    sizeof (fc_ulp_rscn_info_t), KM_NOSLEEP);
5697 		if (fpkt->pkt_ulp_rscn_infop == NULL) {
5698 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
5699 			    fcp_trace, FCP_BUF_LEVEL_6, 0,
5700 			    "Failed to alloc memory to pass rscn info");
5701 		}
5702 	}
5703 
5704 	if (fpkt->pkt_ulp_rscn_infop != NULL) {
5705 		fc_ulp_rscn_info_t	*rscnp;
5706 
5707 		rscnp = (fc_ulp_rscn_info_t *)fpkt->pkt_ulp_rscn_infop;
5708 		rscnp->ulp_rscn_count = rscn_count;
5709 	}
5710 
5711 	if (fcp_alloc_dma(pptr, icmd, nodma, KM_NOSLEEP) != FC_SUCCESS) {
5712 		goto fail;
5713 	}
5714 	dma_setup++;
5715 
5716 	/*
5717 	 * Must hold target mutex across setting of pkt_pd and call to
5718 	 * fc_ulp_init_packet to ensure the handle to the target doesn't go
5719 	 * away while we're not looking.
5720 	 */
5721 	if (ptgt != NULL) {
5722 		mutex_enter(&ptgt->tgt_mutex);
5723 		fpkt->pkt_pd = ptgt->tgt_pd_handle;
5724 
5725 		/* ask transport to do its initialization on this pkt */
5726 		if (fc_ulp_init_packet(pptr->port_fp_handle, fpkt, KM_NOSLEEP)
5727 		    != FC_SUCCESS) {
5728 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
5729 			    fcp_trace, FCP_BUF_LEVEL_6, 0,
5730 			    "fc_ulp_init_packet failed");
5731 			mutex_exit(&ptgt->tgt_mutex);
5732 			goto fail;
5733 		}
5734 		mutex_exit(&ptgt->tgt_mutex);
5735 	} else {
5736 		if (fc_ulp_init_packet(pptr->port_fp_handle, fpkt, KM_NOSLEEP)
5737 		    != FC_SUCCESS) {
5738 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
5739 			    fcp_trace, FCP_BUF_LEVEL_6, 0,
5740 			    "fc_ulp_init_packet failed");
5741 			goto fail;
5742 		}
5743 	}
5744 
5745 	mutex_enter(&pptr->port_mutex);
5746 	if (pptr->port_state & (FCP_STATE_DETACHING |
5747 	    FCP_STATE_SUSPENDED | FCP_STATE_POWER_DOWN)) {
5748 		int rval;
5749 
5750 		mutex_exit(&pptr->port_mutex);
5751 
5752 		rval = fc_ulp_uninit_packet(pptr->port_fp_handle, fpkt);
5753 		ASSERT(rval == FC_SUCCESS);
5754 
5755 		goto fail;
5756 	}
5757 
5758 	if (ptgt != NULL) {
5759 		mutex_enter(&ptgt->tgt_mutex);
5760 		ptgt->tgt_ipkt_cnt++;
5761 		mutex_exit(&ptgt->tgt_mutex);
5762 	}
5763 
5764 	pptr->port_ipkt_cnt++;
5765 
5766 	mutex_exit(&pptr->port_mutex);
5767 
5768 	return (icmd);
5769 
5770 fail:
5771 	if (fpkt->pkt_ulp_rscn_infop != NULL) {
5772 		kmem_free(fpkt->pkt_ulp_rscn_infop,
5773 		    sizeof (fc_ulp_rscn_info_t));
5774 		fpkt->pkt_ulp_rscn_infop = NULL;
5775 	}
5776 
5777 	if (dma_setup) {
5778 		fcp_free_dma(pptr, icmd);
5779 	}
5780 	kmem_free(icmd, sizeof (struct fcp_ipkt) + pptr->port_priv_pkt_len +
5781 	    (size_t)pptr->port_dmacookie_sz);
5782 
5783 	return (NULL);
5784 }
5785 
5786 /*
5787  *     Function: fcp_icmd_free
5788  *
5789  *  Description: Frees the internal command passed by the caller.
5790  *
5791  *     Argument: *pptr		Fcp port.
5792  *		 *icmd		Internal packet to free.
5793  *
5794  * Return Value: None
5795  */
5796 static void
5797 fcp_icmd_free(struct fcp_port *pptr, struct fcp_ipkt *icmd)
5798 {
5799 	struct fcp_tgt	*ptgt = icmd->ipkt_tgt;
5800 
5801 	/* Let the underlying layers do their cleanup. */
5802 	(void) fc_ulp_uninit_packet(pptr->port_fp_handle,
5803 	    icmd->ipkt_fpkt);
5804 
5805 	if (icmd->ipkt_fpkt->pkt_ulp_rscn_infop) {
5806 		kmem_free(icmd->ipkt_fpkt->pkt_ulp_rscn_infop,
5807 		    sizeof (fc_ulp_rscn_info_t));
5808 	}
5809 
5810 	fcp_free_dma(pptr, icmd);
5811 
5812 	kmem_free(icmd, sizeof (struct fcp_ipkt) + pptr->port_priv_pkt_len +
5813 	    (size_t)pptr->port_dmacookie_sz);
5814 
5815 	mutex_enter(&pptr->port_mutex);
5816 
5817 	if (ptgt) {
5818 		mutex_enter(&ptgt->tgt_mutex);
5819 		ptgt->tgt_ipkt_cnt--;
5820 		mutex_exit(&ptgt->tgt_mutex);
5821 	}
5822 
5823 	pptr->port_ipkt_cnt--;
5824 	mutex_exit(&pptr->port_mutex);
5825 }
5826 
5827 /*
5828  *     Function: fcp_alloc_dma
5829  *
5830  *  Description: Allocated the DMA resources required for the internal
5831  *		 packet.
5832  *
5833  *     Argument: *pptr	FCP port.
5834  *		 *icmd	Internal FCP packet.
5835  *		 nodma	Indicates if the Cmd and Resp will be DMAed.
5836  *		 flags	Allocation flags (Sleep or NoSleep).
5837  *
5838  * Return Value: FC_SUCCESS
5839  *		 FC_NOMEM
5840  */
5841 static int
5842 fcp_alloc_dma(struct fcp_port *pptr, struct fcp_ipkt *icmd,
5843     int nodma, int flags)
5844 {
5845 	int		rval;
5846 	size_t		real_size;
5847 	uint_t		ccount;
5848 	int		bound = 0;
5849 	int		cmd_resp = 0;
5850 	fc_packet_t	*fpkt;
5851 	ddi_dma_cookie_t	pkt_data_cookie;
5852 	ddi_dma_cookie_t	*cp;
5853 	uint32_t		cnt;
5854 
5855 	fpkt = &icmd->ipkt_fc_packet;
5856 
5857 	ASSERT(fpkt->pkt_cmd_dma == NULL && fpkt->pkt_data_dma == NULL &&
5858 	    fpkt->pkt_resp_dma == NULL);
5859 
5860 	icmd->ipkt_nodma = nodma;
5861 
5862 	if (nodma) {
5863 		fpkt->pkt_cmd = kmem_zalloc(fpkt->pkt_cmdlen, flags);
5864 		if (fpkt->pkt_cmd == NULL) {
5865 			goto fail;
5866 		}
5867 
5868 		fpkt->pkt_resp = kmem_zalloc(fpkt->pkt_rsplen, flags);
5869 		if (fpkt->pkt_resp == NULL) {
5870 			goto fail;
5871 		}
5872 	} else {
5873 		ASSERT(fpkt->pkt_cmdlen && fpkt->pkt_rsplen);
5874 
5875 		rval = fcp_alloc_cmd_resp(pptr, fpkt, flags);
5876 		if (rval == FC_FAILURE) {
5877 			ASSERT(fpkt->pkt_cmd_dma == NULL &&
5878 			    fpkt->pkt_resp_dma == NULL);
5879 			goto fail;
5880 		}
5881 		cmd_resp++;
5882 	}
5883 
5884 	if (fpkt->pkt_datalen != 0) {
5885 		/*
5886 		 * set up DMA handle and memory for the data in this packet
5887 		 */
5888 		if (ddi_dma_alloc_handle(pptr->port_dip,
5889 		    &pptr->port_data_dma_attr, DDI_DMA_DONTWAIT,
5890 		    NULL, &fpkt->pkt_data_dma) != DDI_SUCCESS) {
5891 			goto fail;
5892 		}
5893 
5894 		if (ddi_dma_mem_alloc(fpkt->pkt_data_dma, fpkt->pkt_datalen,
5895 		    &pptr->port_dma_acc_attr, DDI_DMA_CONSISTENT,
5896 		    DDI_DMA_DONTWAIT, NULL, &fpkt->pkt_data,
5897 		    &real_size, &fpkt->pkt_data_acc) != DDI_SUCCESS) {
5898 			goto fail;
5899 		}
5900 
5901 		/* was DMA mem size gotten < size asked for/needed ?? */
5902 		if (real_size < fpkt->pkt_datalen) {
5903 			goto fail;
5904 		}
5905 
5906 		/* bind DMA address and handle together */
5907 		if (ddi_dma_addr_bind_handle(fpkt->pkt_data_dma,
5908 		    NULL, fpkt->pkt_data, real_size, DDI_DMA_READ |
5909 		    DDI_DMA_CONSISTENT, DDI_DMA_DONTWAIT, NULL,
5910 		    &pkt_data_cookie, &ccount) != DDI_DMA_MAPPED) {
5911 			goto fail;
5912 		}
5913 		bound++;
5914 
5915 		if (ccount > pptr->port_data_dma_attr.dma_attr_sgllen) {
5916 			goto fail;
5917 		}
5918 
5919 		fpkt->pkt_data_cookie_cnt = ccount;
5920 
5921 		cp = fpkt->pkt_data_cookie;
5922 		*cp = pkt_data_cookie;
5923 		cp++;
5924 
5925 		for (cnt = 1; cnt < ccount; cnt++, cp++) {
5926 			ddi_dma_nextcookie(fpkt->pkt_data_dma,
5927 			    &pkt_data_cookie);
5928 			*cp = pkt_data_cookie;
5929 		}
5930 
5931 	}
5932 
5933 	return (FC_SUCCESS);
5934 
5935 fail:
5936 	if (bound) {
5937 		(void) ddi_dma_unbind_handle(fpkt->pkt_data_dma);
5938 	}
5939 
5940 	if (fpkt->pkt_data_dma) {
5941 		if (fpkt->pkt_data) {
5942 			ddi_dma_mem_free(&fpkt->pkt_data_acc);
5943 		}
5944 		ddi_dma_free_handle(&fpkt->pkt_data_dma);
5945 	}
5946 
5947 	if (nodma) {
5948 		if (fpkt->pkt_cmd) {
5949 			kmem_free(fpkt->pkt_cmd, fpkt->pkt_cmdlen);
5950 		}
5951 		if (fpkt->pkt_resp) {
5952 			kmem_free(fpkt->pkt_resp, fpkt->pkt_rsplen);
5953 		}
5954 	} else {
5955 		if (cmd_resp) {
5956 			fcp_free_cmd_resp(pptr, fpkt);
5957 		}
5958 	}
5959 
5960 	return (FC_NOMEM);
5961 }
5962 
5963 
5964 static void
5965 fcp_free_dma(struct fcp_port *pptr, struct fcp_ipkt *icmd)
5966 {
5967 	fc_packet_t *fpkt = icmd->ipkt_fpkt;
5968 
5969 	if (fpkt->pkt_data_dma) {
5970 		(void) ddi_dma_unbind_handle(fpkt->pkt_data_dma);
5971 		if (fpkt->pkt_data) {
5972 			ddi_dma_mem_free(&fpkt->pkt_data_acc);
5973 		}
5974 		ddi_dma_free_handle(&fpkt->pkt_data_dma);
5975 	}
5976 
5977 	if (icmd->ipkt_nodma) {
5978 		if (fpkt->pkt_cmd) {
5979 			kmem_free(fpkt->pkt_cmd, icmd->ipkt_cmdlen);
5980 		}
5981 		if (fpkt->pkt_resp) {
5982 			kmem_free(fpkt->pkt_resp, icmd->ipkt_resplen);
5983 		}
5984 	} else {
5985 		ASSERT(fpkt->pkt_resp_dma != NULL && fpkt->pkt_cmd_dma != NULL);
5986 
5987 		fcp_free_cmd_resp(pptr, fpkt);
5988 	}
5989 }
5990 
5991 /*
5992  *     Function: fcp_lookup_target
5993  *
5994  *  Description: Finds a target given a WWN.
5995  *
5996  *     Argument: *pptr	FCP port.
5997  *		 *wwn	World Wide Name of the device to look for.
5998  *
5999  * Return Value: NULL		No target found
6000  *		 Not NULL	Target structure
6001  *
6002  *	Context: Interrupt context.
6003  *		 The mutex pptr->port_mutex must be owned.
6004  */
6005 /* ARGSUSED */
6006 static struct fcp_tgt *
6007 fcp_lookup_target(struct fcp_port *pptr, uchar_t *wwn)
6008 {
6009 	int			hash;
6010 	struct fcp_tgt	*ptgt;
6011 
6012 	ASSERT(mutex_owned(&pptr->port_mutex));
6013 
6014 	hash = FCP_HASH(wwn);
6015 
6016 	for (ptgt = pptr->port_tgt_hash_table[hash]; ptgt != NULL;
6017 	    ptgt = ptgt->tgt_next) {
6018 		if (!(ptgt->tgt_state & FCP_TGT_ORPHAN) &&
6019 		    bcmp((caddr_t)wwn, (caddr_t)&ptgt->tgt_port_wwn.raw_wwn[0],
6020 		    sizeof (ptgt->tgt_port_wwn)) == 0) {
6021 			break;
6022 		}
6023 	}
6024 
6025 	return (ptgt);
6026 }
6027 
6028 
6029 /*
6030  * Find target structure given a port identifier
6031  */
6032 static struct fcp_tgt *
6033 fcp_get_target_by_did(struct fcp_port *pptr, uint32_t d_id)
6034 {
6035 	fc_portid_t		port_id;
6036 	la_wwn_t		pwwn;
6037 	struct fcp_tgt	*ptgt = NULL;
6038 
6039 	port_id.priv_lilp_posit = 0;
6040 	port_id.port_id = d_id;
6041 	if (fc_ulp_get_pwwn_by_did(pptr->port_fp_handle, port_id,
6042 	    &pwwn) == FC_SUCCESS) {
6043 		mutex_enter(&pptr->port_mutex);
6044 		ptgt = fcp_lookup_target(pptr, pwwn.raw_wwn);
6045 		mutex_exit(&pptr->port_mutex);
6046 	}
6047 
6048 	return (ptgt);
6049 }
6050 
6051 
6052 /*
6053  * the packet completion callback routine for info cmd pkts
6054  *
6055  * this means fpkt pts to a response to either a PLOGI or a PRLI
6056  *
6057  * if there is an error an attempt is made to call a routine to resend
6058  * the command that failed
6059  */
6060 static void
6061 fcp_icmd_callback(fc_packet_t *fpkt)
6062 {
6063 	struct fcp_ipkt	*icmd;
6064 	struct fcp_port	*pptr;
6065 	struct fcp_tgt	*ptgt;
6066 	struct la_els_prli	*prli;
6067 	struct la_els_prli	prli_s;
6068 	struct fcp_prli		*fprli;
6069 	struct fcp_lun	*plun;
6070 	int		free_pkt = 1;
6071 	int		rval;
6072 	ls_code_t	resp;
6073 	uchar_t		prli_acc = 0;
6074 	uint32_t	rscn_count = FC_INVALID_RSCN_COUNT;
6075 	int		lun0_newalloc;
6076 
6077 	icmd = (struct fcp_ipkt *)fpkt->pkt_ulp_private;
6078 
6079 	/* get ptrs to the port and target structs for the cmd */
6080 	pptr = icmd->ipkt_port;
6081 	ptgt = icmd->ipkt_tgt;
6082 
6083 	FCP_CP_IN(fpkt->pkt_resp, &resp, fpkt->pkt_resp_acc, sizeof (resp));
6084 
6085 	if (icmd->ipkt_opcode == LA_ELS_PRLI) {
6086 		FCP_CP_IN(fpkt->pkt_cmd, &prli_s, fpkt->pkt_cmd_acc,
6087 		    sizeof (prli_s));
6088 		prli_acc = (prli_s.ls_code == LA_ELS_ACC);
6089 	}
6090 
6091 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
6092 	    fcp_trace, FCP_BUF_LEVEL_2, 0,
6093 	    "ELS (%x) callback state=0x%x reason=0x%x for %x",
6094 	    icmd->ipkt_opcode, fpkt->pkt_state, fpkt->pkt_reason,
6095 	    ptgt->tgt_d_id);
6096 
6097 	if ((fpkt->pkt_state == FC_PKT_SUCCESS) &&
6098 	    ((resp.ls_code == LA_ELS_ACC) || prli_acc)) {
6099 
6100 		mutex_enter(&ptgt->tgt_mutex);
6101 		if (ptgt->tgt_pd_handle == NULL) {
6102 			/*
6103 			 * in a fabric environment the port device handles
6104 			 * get created only after successful LOGIN into the
6105 			 * transport, so the transport makes this port
6106 			 * device (pd) handle available in this packet, so
6107 			 * save it now
6108 			 */
6109 			ASSERT(fpkt->pkt_pd != NULL);
6110 			ptgt->tgt_pd_handle = fpkt->pkt_pd;
6111 		}
6112 		mutex_exit(&ptgt->tgt_mutex);
6113 
6114 		/* which ELS cmd is this response for ?? */
6115 		switch (icmd->ipkt_opcode) {
6116 		case LA_ELS_PLOGI:
6117 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
6118 			    fcp_trace, FCP_BUF_LEVEL_5, 0,
6119 			    "PLOGI to d_id=0x%x succeeded, wwn=%08x%08x",
6120 			    ptgt->tgt_d_id,
6121 			    *((int *)&ptgt->tgt_port_wwn.raw_wwn[0]),
6122 			    *((int *)&ptgt->tgt_port_wwn.raw_wwn[4]));
6123 
6124 			FCP_TGT_TRACE(ptgt, icmd->ipkt_change_cnt,
6125 			    FCP_TGT_TRACE_15);
6126 
6127 			/* Note that we are not allocating a new icmd */
6128 			if (fcp_send_els(pptr, ptgt, icmd, LA_ELS_PRLI,
6129 			    icmd->ipkt_link_cnt, icmd->ipkt_change_cnt,
6130 			    icmd->ipkt_cause) != DDI_SUCCESS) {
6131 				FCP_TGT_TRACE(ptgt, icmd->ipkt_change_cnt,
6132 				    FCP_TGT_TRACE_16);
6133 				goto fail;
6134 			}
6135 			break;
6136 
6137 		case LA_ELS_PRLI:
6138 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
6139 			    fcp_trace, FCP_BUF_LEVEL_5, 0,
6140 			    "PRLI to d_id=0x%x succeeded", ptgt->tgt_d_id);
6141 
6142 			FCP_TGT_TRACE(ptgt, icmd->ipkt_change_cnt,
6143 			    FCP_TGT_TRACE_17);
6144 
6145 			prli = &prli_s;
6146 
6147 			FCP_CP_IN(fpkt->pkt_resp, prli, fpkt->pkt_resp_acc,
6148 			    sizeof (prli_s));
6149 
6150 			fprli = (struct fcp_prli *)prli->service_params;
6151 
6152 			mutex_enter(&ptgt->tgt_mutex);
6153 			ptgt->tgt_icap = fprli->initiator_fn;
6154 			ptgt->tgt_tcap = fprli->target_fn;
6155 			mutex_exit(&ptgt->tgt_mutex);
6156 
6157 			if ((fprli->type != 0x08) || (fprli->target_fn != 1)) {
6158 				/*
6159 				 * this FCP device does not support target mode
6160 				 */
6161 				FCP_TGT_TRACE(ptgt, icmd->ipkt_change_cnt,
6162 				    FCP_TGT_TRACE_18);
6163 				goto fail;
6164 			}
6165 			if (fprli->retry == 1) {
6166 				fc_ulp_disable_relogin(pptr->port_fp_handle,
6167 				    &ptgt->tgt_port_wwn);
6168 			}
6169 
6170 			/* target is no longer offline */
6171 			mutex_enter(&pptr->port_mutex);
6172 			mutex_enter(&ptgt->tgt_mutex);
6173 			if (!FCP_TGT_STATE_CHANGED(ptgt, icmd)) {
6174 				ptgt->tgt_state &= ~(FCP_TGT_OFFLINE |
6175 				    FCP_TGT_MARK);
6176 			} else {
6177 				FCP_TRACE(fcp_logq, pptr->port_instbuf,
6178 				    fcp_trace, FCP_BUF_LEVEL_2, 0,
6179 				    "fcp_icmd_callback,1: state change "
6180 				    " occured for D_ID=0x%x", ptgt->tgt_d_id);
6181 				mutex_exit(&ptgt->tgt_mutex);
6182 				mutex_exit(&pptr->port_mutex);
6183 				goto fail;
6184 			}
6185 			mutex_exit(&ptgt->tgt_mutex);
6186 			mutex_exit(&pptr->port_mutex);
6187 
6188 			/*
6189 			 * lun 0 should always respond to inquiry, so
6190 			 * get the LUN struct for LUN 0
6191 			 *
6192 			 * Currently we deal with first level of addressing.
6193 			 * If / when we start supporting 0x device types
6194 			 * (DTYPE_ARRAY_CTRL, i.e. array controllers)
6195 			 * this logic will need revisiting.
6196 			 */
6197 			lun0_newalloc = 0;
6198 			if ((plun = fcp_get_lun(ptgt, 0)) == NULL) {
6199 				/*
6200 				 * no LUN struct for LUN 0 yet exists,
6201 				 * so create one
6202 				 */
6203 				plun = fcp_alloc_lun(ptgt);
6204 				if (plun == NULL) {
6205 					fcp_log(CE_WARN, pptr->port_dip,
6206 					    "!Failed to allocate lun 0 for"
6207 					    " D_ID=%x", ptgt->tgt_d_id);
6208 					goto fail;
6209 				}
6210 				lun0_newalloc = 1;
6211 			}
6212 
6213 			/* fill in LUN info */
6214 			mutex_enter(&ptgt->tgt_mutex);
6215 			/*
6216 			 * consider lun 0 as device not connected if it is
6217 			 * offlined or newly allocated
6218 			 */
6219 			if ((plun->lun_state & FCP_LUN_OFFLINE) ||
6220 			    lun0_newalloc) {
6221 				plun->lun_state |= FCP_LUN_DEVICE_NOT_CONNECTED;
6222 			}
6223 			plun->lun_state |= (FCP_LUN_BUSY | FCP_LUN_MARK);
6224 			plun->lun_state &= ~FCP_LUN_OFFLINE;
6225 			ptgt->tgt_lun_cnt = 1;
6226 			ptgt->tgt_report_lun_cnt = 0;
6227 			mutex_exit(&ptgt->tgt_mutex);
6228 
6229 			/* Retrieve the rscn count (if a valid one exists) */
6230 			if (icmd->ipkt_fpkt->pkt_ulp_rscn_infop != NULL) {
6231 				rscn_count = ((fc_ulp_rscn_info_t *)
6232 				    (icmd->ipkt_fpkt->pkt_ulp_rscn_infop))
6233 				    ->ulp_rscn_count;
6234 			} else {
6235 				rscn_count = FC_INVALID_RSCN_COUNT;
6236 			}
6237 
6238 			/* send Report Lun request to target */
6239 			if (fcp_send_scsi(plun, SCMD_REPORT_LUN,
6240 			    sizeof (struct fcp_reportlun_resp),
6241 			    icmd->ipkt_link_cnt, icmd->ipkt_change_cnt,
6242 			    icmd->ipkt_cause, rscn_count) != DDI_SUCCESS) {
6243 				mutex_enter(&pptr->port_mutex);
6244 				if (!FCP_TGT_STATE_CHANGED(ptgt, icmd)) {
6245 					fcp_log(CE_WARN, pptr->port_dip,
6246 					    "!Failed to send REPORT LUN to"
6247 					    "  D_ID=%x", ptgt->tgt_d_id);
6248 				} else {
6249 					FCP_TRACE(fcp_logq,
6250 					    pptr->port_instbuf, fcp_trace,
6251 					    FCP_BUF_LEVEL_5, 0,
6252 					    "fcp_icmd_callback,2:state change"
6253 					    " occured for D_ID=0x%x",
6254 					    ptgt->tgt_d_id);
6255 				}
6256 				mutex_exit(&pptr->port_mutex);
6257 
6258 				FCP_TGT_TRACE(ptgt, icmd->ipkt_change_cnt,
6259 				    FCP_TGT_TRACE_19);
6260 
6261 				goto fail;
6262 			} else {
6263 				free_pkt = 0;
6264 				fcp_icmd_free(pptr, icmd);
6265 			}
6266 			break;
6267 
6268 		default:
6269 			fcp_log(CE_WARN, pptr->port_dip,
6270 			    "!fcp_icmd_callback Invalid opcode");
6271 			goto fail;
6272 		}
6273 
6274 		return;
6275 	}
6276 
6277 
6278 	/*
6279 	 * Other PLOGI failures are not retried as the
6280 	 * transport does it already
6281 	 */
6282 	if (icmd->ipkt_opcode != LA_ELS_PLOGI) {
6283 		if (fcp_is_retryable(icmd) &&
6284 		    icmd->ipkt_retries++ < FCP_MAX_RETRIES) {
6285 
6286 			if (FCP_MUST_RETRY(fpkt)) {
6287 				fcp_queue_ipkt(pptr, fpkt);
6288 				return;
6289 			}
6290 
6291 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
6292 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
6293 			    "ELS PRLI is retried for d_id=0x%x, state=%x,"
6294 			    " reason= %x", ptgt->tgt_d_id, fpkt->pkt_state,
6295 			    fpkt->pkt_reason);
6296 
6297 			/*
6298 			 * Retry by recalling the routine that
6299 			 * originally queued this packet
6300 			 */
6301 			mutex_enter(&pptr->port_mutex);
6302 			if (!FCP_TGT_STATE_CHANGED(ptgt, icmd)) {
6303 				caddr_t msg;
6304 
6305 				mutex_exit(&pptr->port_mutex);
6306 
6307 				ASSERT(icmd->ipkt_opcode != LA_ELS_PLOGI);
6308 
6309 				if (fpkt->pkt_state == FC_PKT_TIMEOUT) {
6310 					fpkt->pkt_timeout +=
6311 					    FCP_TIMEOUT_DELTA;
6312 				}
6313 
6314 				rval = fc_ulp_issue_els(pptr->port_fp_handle,
6315 				    fpkt);
6316 				if (rval == FC_SUCCESS) {
6317 					return;
6318 				}
6319 
6320 				if (rval == FC_STATEC_BUSY ||
6321 				    rval == FC_OFFLINE) {
6322 					fcp_queue_ipkt(pptr, fpkt);
6323 					return;
6324 				}
6325 				(void) fc_ulp_error(rval, &msg);
6326 
6327 				fcp_log(CE_NOTE, pptr->port_dip,
6328 				    "!ELS 0x%x failed to d_id=0x%x;"
6329 				    " %s", icmd->ipkt_opcode,
6330 				    ptgt->tgt_d_id, msg);
6331 			} else {
6332 				FCP_TRACE(fcp_logq, pptr->port_instbuf,
6333 				    fcp_trace, FCP_BUF_LEVEL_2, 0,
6334 				    "fcp_icmd_callback,3: state change "
6335 				    " occured for D_ID=0x%x", ptgt->tgt_d_id);
6336 				mutex_exit(&pptr->port_mutex);
6337 			}
6338 		}
6339 	} else {
6340 		if (fcp_is_retryable(icmd) &&
6341 		    icmd->ipkt_retries++ < FCP_MAX_RETRIES) {
6342 			if (FCP_MUST_RETRY(fpkt)) {
6343 				fcp_queue_ipkt(pptr, fpkt);
6344 				return;
6345 			}
6346 		}
6347 		mutex_enter(&pptr->port_mutex);
6348 		if (!FCP_TGT_STATE_CHANGED(ptgt, icmd) &&
6349 		    fpkt->pkt_state != FC_PKT_PORT_OFFLINE) {
6350 			mutex_exit(&pptr->port_mutex);
6351 			fcp_print_error(fpkt);
6352 		} else {
6353 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
6354 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
6355 			    "fcp_icmd_callback,4: state change occured"
6356 			    " for D_ID=0x%x", ptgt->tgt_d_id);
6357 			mutex_exit(&pptr->port_mutex);
6358 		}
6359 	}
6360 
6361 fail:
6362 	if (free_pkt) {
6363 		(void) fcp_call_finish_init(pptr, ptgt, icmd->ipkt_link_cnt,
6364 		    icmd->ipkt_change_cnt, icmd->ipkt_cause);
6365 		fcp_icmd_free(pptr, icmd);
6366 	}
6367 }
6368 
6369 
6370 /*
6371  * called internally to send an info cmd using the transport
6372  *
6373  * sends either an INQ or a REPORT_LUN
6374  *
6375  * when the packet is completed fcp_scsi_callback is called
6376  */
6377 static int
6378 fcp_send_scsi(struct fcp_lun *plun, uchar_t opcode, int alloc_len,
6379     int lcount, int tcount, int cause, uint32_t rscn_count)
6380 {
6381 	int			nodma;
6382 	struct fcp_ipkt		*icmd;
6383 	struct fcp_tgt		*ptgt;
6384 	struct fcp_port		*pptr;
6385 	fc_frame_hdr_t		*hp;
6386 	fc_packet_t		*fpkt;
6387 	struct fcp_cmd		fcp_cmd;
6388 	struct fcp_cmd		*fcmd;
6389 	union scsi_cdb		*scsi_cdb;
6390 
6391 	ASSERT(plun != NULL);
6392 
6393 	ptgt = plun->lun_tgt;
6394 	ASSERT(ptgt != NULL);
6395 
6396 	pptr = ptgt->tgt_port;
6397 	ASSERT(pptr != NULL);
6398 
6399 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
6400 	    fcp_trace, FCP_BUF_LEVEL_5, 0,
6401 	    "fcp_send_scsi: d_id=0x%x opcode=0x%x", ptgt->tgt_d_id, opcode);
6402 
6403 	nodma = (pptr->port_fcp_dma == FC_NO_DVMA_SPACE) ? 1 : 0;
6404 
6405 	icmd = fcp_icmd_alloc(pptr, ptgt, sizeof (struct fcp_cmd),
6406 	    FCP_MAX_RSP_IU_SIZE, alloc_len, nodma, lcount, tcount, cause,
6407 	    rscn_count);
6408 
6409 	if (icmd == NULL) {
6410 		return (DDI_FAILURE);
6411 	}
6412 
6413 	fpkt = icmd->ipkt_fpkt;
6414 	fpkt->pkt_tran_flags = FC_TRAN_CLASS3 | FC_TRAN_INTR;
6415 	icmd->ipkt_retries = 0;
6416 	icmd->ipkt_opcode = opcode;
6417 	icmd->ipkt_lun = plun;
6418 
6419 	if (nodma) {
6420 		fcmd = (struct fcp_cmd *)fpkt->pkt_cmd;
6421 	} else {
6422 		fcmd = &fcp_cmd;
6423 	}
6424 	bzero(fcmd, sizeof (struct fcp_cmd));
6425 
6426 	fpkt->pkt_timeout = FCP_SCSI_CMD_TIMEOUT;
6427 
6428 	hp = &fpkt->pkt_cmd_fhdr;
6429 
6430 	hp->s_id = pptr->port_id;
6431 	hp->d_id = ptgt->tgt_d_id;
6432 	hp->r_ctl = R_CTL_COMMAND;
6433 	hp->type = FC_TYPE_SCSI_FCP;
6434 	hp->f_ctl = F_CTL_SEQ_INITIATIVE | F_CTL_FIRST_SEQ;
6435 	hp->rsvd = 0;
6436 	hp->seq_id = 0;
6437 	hp->seq_cnt = 0;
6438 	hp->ox_id = 0xffff;
6439 	hp->rx_id = 0xffff;
6440 	hp->ro = 0;
6441 
6442 	bcopy(&(plun->lun_addr), &(fcmd->fcp_ent_addr), FCP_LUN_SIZE);
6443 
6444 	/*
6445 	 * Request SCSI target for expedited processing
6446 	 */
6447 
6448 	/*
6449 	 * Set up for untagged queuing because we do not
6450 	 * know if the fibre device supports queuing.
6451 	 */
6452 	fcmd->fcp_cntl.cntl_reserved_0 = 0;
6453 	fcmd->fcp_cntl.cntl_reserved_1 = 0;
6454 	fcmd->fcp_cntl.cntl_reserved_2 = 0;
6455 	fcmd->fcp_cntl.cntl_reserved_3 = 0;
6456 	fcmd->fcp_cntl.cntl_reserved_4 = 0;
6457 	fcmd->fcp_cntl.cntl_qtype = FCP_QTYPE_UNTAGGED;
6458 	scsi_cdb = (union scsi_cdb *)fcmd->fcp_cdb;
6459 
6460 	switch (opcode) {
6461 	case SCMD_INQUIRY_PAGE83:
6462 		/*
6463 		 * Prepare to get the Inquiry VPD page 83 information
6464 		 */
6465 		fcmd->fcp_cntl.cntl_read_data = 1;
6466 		fcmd->fcp_cntl.cntl_write_data = 0;
6467 		fcmd->fcp_data_len = alloc_len;
6468 
6469 		fpkt->pkt_tran_type = FC_PKT_FCP_READ;
6470 		fpkt->pkt_comp = fcp_scsi_callback;
6471 
6472 		scsi_cdb->scc_cmd = SCMD_INQUIRY;
6473 		scsi_cdb->g0_addr2 = 0x01;
6474 		scsi_cdb->g0_addr1 = 0x83;
6475 		scsi_cdb->g0_count0 = (uchar_t)alloc_len;
6476 		break;
6477 
6478 	case SCMD_INQUIRY:
6479 		fcmd->fcp_cntl.cntl_read_data = 1;
6480 		fcmd->fcp_cntl.cntl_write_data = 0;
6481 		fcmd->fcp_data_len = alloc_len;
6482 
6483 		fpkt->pkt_tran_type = FC_PKT_FCP_READ;
6484 		fpkt->pkt_comp = fcp_scsi_callback;
6485 
6486 		scsi_cdb->scc_cmd = SCMD_INQUIRY;
6487 		scsi_cdb->g0_count0 = SUN_INQSIZE;
6488 		break;
6489 
6490 	case SCMD_REPORT_LUN: {
6491 		fc_portid_t	d_id;
6492 		opaque_t	fca_dev;
6493 
6494 		ASSERT(alloc_len >= 16);
6495 
6496 		d_id.priv_lilp_posit = 0;
6497 		d_id.port_id = ptgt->tgt_d_id;
6498 
6499 		fca_dev = fc_ulp_get_fca_device(pptr->port_fp_handle, d_id);
6500 
6501 		mutex_enter(&ptgt->tgt_mutex);
6502 		ptgt->tgt_fca_dev = fca_dev;
6503 		mutex_exit(&ptgt->tgt_mutex);
6504 
6505 		fcmd->fcp_cntl.cntl_read_data = 1;
6506 		fcmd->fcp_cntl.cntl_write_data = 0;
6507 		fcmd->fcp_data_len = alloc_len;
6508 
6509 		fpkt->pkt_tran_type = FC_PKT_FCP_READ;
6510 		fpkt->pkt_comp = fcp_scsi_callback;
6511 
6512 		scsi_cdb->scc_cmd = SCMD_REPORT_LUN;
6513 		scsi_cdb->scc5_count0 = alloc_len & 0xff;
6514 		scsi_cdb->scc5_count1 = (alloc_len >> 8) & 0xff;
6515 		scsi_cdb->scc5_count2 = (alloc_len >> 16) & 0xff;
6516 		scsi_cdb->scc5_count3 = (alloc_len >> 24) & 0xff;
6517 		break;
6518 	}
6519 
6520 	default:
6521 		fcp_log(CE_WARN, pptr->port_dip,
6522 		    "!fcp_send_scsi Invalid opcode");
6523 		break;
6524 	}
6525 
6526 	if (!nodma) {
6527 		FCP_CP_OUT((uint8_t *)fcmd, fpkt->pkt_cmd,
6528 		    fpkt->pkt_cmd_acc, sizeof (struct fcp_cmd));
6529 	}
6530 
6531 	mutex_enter(&pptr->port_mutex);
6532 	if (!FCP_TGT_STATE_CHANGED(ptgt, icmd)) {
6533 
6534 		mutex_exit(&pptr->port_mutex);
6535 		if (fcp_transport(pptr->port_fp_handle, fpkt, 1) !=
6536 		    FC_SUCCESS) {
6537 			fcp_icmd_free(pptr, icmd);
6538 			return (DDI_FAILURE);
6539 		}
6540 		return (DDI_SUCCESS);
6541 	} else {
6542 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
6543 		    fcp_trace, FCP_BUF_LEVEL_2, 0,
6544 		    "fcp_send_scsi,1: state change occured"
6545 		    " for D_ID=0x%x", ptgt->tgt_d_id);
6546 		mutex_exit(&pptr->port_mutex);
6547 		fcp_icmd_free(pptr, icmd);
6548 		return (DDI_FAILURE);
6549 	}
6550 }
6551 
6552 
6553 /*
6554  * called by fcp_scsi_callback to check to handle the case where
6555  * REPORT_LUN returns ILLEGAL REQUEST or a UNIT ATTENTION
6556  */
6557 static int
6558 fcp_check_reportlun(struct fcp_rsp *rsp, fc_packet_t *fpkt)
6559 {
6560 	uchar_t				rqlen;
6561 	int				rval = DDI_FAILURE;
6562 	struct scsi_extended_sense	sense_info, *sense;
6563 	struct fcp_ipkt		*icmd = (struct fcp_ipkt *)
6564 	    fpkt->pkt_ulp_private;
6565 	struct fcp_tgt		*ptgt = icmd->ipkt_tgt;
6566 	struct fcp_port		*pptr = ptgt->tgt_port;
6567 
6568 	ASSERT(icmd->ipkt_opcode == SCMD_REPORT_LUN);
6569 
6570 	if (rsp->fcp_u.fcp_status.scsi_status == STATUS_RESERVATION_CONFLICT) {
6571 		/*
6572 		 * SCSI-II Reserve Release support. Some older FC drives return
6573 		 * Reservation conflict for Report Luns command.
6574 		 */
6575 		if (icmd->ipkt_nodma) {
6576 			rsp->fcp_u.fcp_status.rsp_len_set = 0;
6577 			rsp->fcp_u.fcp_status.sense_len_set = 0;
6578 			rsp->fcp_u.fcp_status.scsi_status = STATUS_GOOD;
6579 		} else {
6580 			fcp_rsp_t	new_resp;
6581 
6582 			FCP_CP_IN(fpkt->pkt_resp, &new_resp,
6583 			    fpkt->pkt_resp_acc, sizeof (new_resp));
6584 
6585 			new_resp.fcp_u.fcp_status.rsp_len_set = 0;
6586 			new_resp.fcp_u.fcp_status.sense_len_set = 0;
6587 			new_resp.fcp_u.fcp_status.scsi_status = STATUS_GOOD;
6588 
6589 			FCP_CP_OUT(&new_resp, fpkt->pkt_resp,
6590 			    fpkt->pkt_resp_acc, sizeof (new_resp));
6591 		}
6592 
6593 		FCP_CP_OUT(fcp_dummy_lun, fpkt->pkt_data,
6594 		    fpkt->pkt_data_acc, sizeof (fcp_dummy_lun));
6595 
6596 		return (DDI_SUCCESS);
6597 	}
6598 
6599 	sense = &sense_info;
6600 	if (!rsp->fcp_u.fcp_status.sense_len_set) {
6601 		/* no need to continue if sense length is not set */
6602 		return (rval);
6603 	}
6604 
6605 	/* casting 64-bit integer to 8-bit */
6606 	rqlen = (uchar_t)min(rsp->fcp_sense_len,
6607 	    sizeof (struct scsi_extended_sense));
6608 
6609 	if (rqlen < 14) {
6610 		/* no need to continue if request length isn't long enough */
6611 		return (rval);
6612 	}
6613 
6614 	if (icmd->ipkt_nodma) {
6615 		/*
6616 		 * We can safely use fcp_response_len here since the
6617 		 * only path that calls fcp_check_reportlun,
6618 		 * fcp_scsi_callback, has already called
6619 		 * fcp_validate_fcp_response.
6620 		 */
6621 		sense = (struct scsi_extended_sense *)(fpkt->pkt_resp +
6622 		    sizeof (struct fcp_rsp) + rsp->fcp_response_len);
6623 	} else {
6624 		FCP_CP_IN(fpkt->pkt_resp + sizeof (struct fcp_rsp) +
6625 		    rsp->fcp_response_len, sense, fpkt->pkt_resp_acc,
6626 		    sizeof (struct scsi_extended_sense));
6627 	}
6628 
6629 	if (!FCP_SENSE_NO_LUN(sense)) {
6630 		mutex_enter(&ptgt->tgt_mutex);
6631 		/* clear the flag if any */
6632 		ptgt->tgt_state &= ~FCP_TGT_ILLREQ;
6633 		mutex_exit(&ptgt->tgt_mutex);
6634 	}
6635 
6636 	if ((sense->es_key == KEY_ILLEGAL_REQUEST) &&
6637 	    (sense->es_add_code == 0x20)) {
6638 		if (icmd->ipkt_nodma) {
6639 			rsp->fcp_u.fcp_status.rsp_len_set = 0;
6640 			rsp->fcp_u.fcp_status.sense_len_set = 0;
6641 			rsp->fcp_u.fcp_status.scsi_status = STATUS_GOOD;
6642 		} else {
6643 			fcp_rsp_t	new_resp;
6644 
6645 			FCP_CP_IN(fpkt->pkt_resp, &new_resp,
6646 			    fpkt->pkt_resp_acc, sizeof (new_resp));
6647 
6648 			new_resp.fcp_u.fcp_status.rsp_len_set = 0;
6649 			new_resp.fcp_u.fcp_status.sense_len_set = 0;
6650 			new_resp.fcp_u.fcp_status.scsi_status = STATUS_GOOD;
6651 
6652 			FCP_CP_OUT(&new_resp, fpkt->pkt_resp,
6653 			    fpkt->pkt_resp_acc, sizeof (new_resp));
6654 		}
6655 
6656 		FCP_CP_OUT(fcp_dummy_lun, fpkt->pkt_data,
6657 		    fpkt->pkt_data_acc, sizeof (fcp_dummy_lun));
6658 
6659 		return (DDI_SUCCESS);
6660 	}
6661 
6662 	/*
6663 	 * This is for the STK library which returns a check condition,
6664 	 * to indicate device is not ready, manual assistance needed.
6665 	 * This is to a report lun command when the door is open.
6666 	 */
6667 	if ((sense->es_key == KEY_NOT_READY) && (sense->es_add_code == 0x04)) {
6668 		if (icmd->ipkt_nodma) {
6669 			rsp->fcp_u.fcp_status.rsp_len_set = 0;
6670 			rsp->fcp_u.fcp_status.sense_len_set = 0;
6671 			rsp->fcp_u.fcp_status.scsi_status = STATUS_GOOD;
6672 		} else {
6673 			fcp_rsp_t	new_resp;
6674 
6675 			FCP_CP_IN(fpkt->pkt_resp, &new_resp,
6676 			    fpkt->pkt_resp_acc, sizeof (new_resp));
6677 
6678 			new_resp.fcp_u.fcp_status.rsp_len_set = 0;
6679 			new_resp.fcp_u.fcp_status.sense_len_set = 0;
6680 			new_resp.fcp_u.fcp_status.scsi_status = STATUS_GOOD;
6681 
6682 			FCP_CP_OUT(&new_resp, fpkt->pkt_resp,
6683 			    fpkt->pkt_resp_acc, sizeof (new_resp));
6684 		}
6685 
6686 		FCP_CP_OUT(fcp_dummy_lun, fpkt->pkt_data,
6687 		    fpkt->pkt_data_acc, sizeof (fcp_dummy_lun));
6688 
6689 		return (DDI_SUCCESS);
6690 	}
6691 
6692 	if ((FCP_SENSE_REPORTLUN_CHANGED(sense)) ||
6693 	    (FCP_SENSE_NO_LUN(sense))) {
6694 		mutex_enter(&ptgt->tgt_mutex);
6695 		if ((FCP_SENSE_NO_LUN(sense)) &&
6696 		    (ptgt->tgt_state & FCP_TGT_ILLREQ)) {
6697 			ptgt->tgt_state &= ~FCP_TGT_ILLREQ;
6698 			mutex_exit(&ptgt->tgt_mutex);
6699 			/*
6700 			 * reconfig was triggred by ILLEGAL REQUEST but
6701 			 * got ILLEGAL REQUEST again
6702 			 */
6703 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
6704 			    fcp_trace, FCP_BUF_LEVEL_3, 0,
6705 			    "!FCP: Unable to obtain Report Lun data"
6706 			    " target=%x", ptgt->tgt_d_id);
6707 		} else {
6708 			if (ptgt->tgt_tid == NULL) {
6709 				timeout_id_t	tid;
6710 				/*
6711 				 * REPORT LUN data has changed.	 Kick off
6712 				 * rediscovery
6713 				 */
6714 				tid = timeout(fcp_reconfigure_luns,
6715 				    (caddr_t)ptgt, (clock_t)drv_usectohz(1));
6716 
6717 				ptgt->tgt_tid = tid;
6718 				ptgt->tgt_state |= FCP_TGT_BUSY;
6719 			}
6720 			if (FCP_SENSE_NO_LUN(sense)) {
6721 				ptgt->tgt_state |= FCP_TGT_ILLREQ;
6722 			}
6723 			mutex_exit(&ptgt->tgt_mutex);
6724 			if (FCP_SENSE_REPORTLUN_CHANGED(sense)) {
6725 				FCP_TRACE(fcp_logq, pptr->port_instbuf,
6726 				    fcp_trace, FCP_BUF_LEVEL_3, 0,
6727 				    "!FCP:Report Lun Has Changed"
6728 				    " target=%x", ptgt->tgt_d_id);
6729 			} else if (FCP_SENSE_NO_LUN(sense)) {
6730 				FCP_TRACE(fcp_logq, pptr->port_instbuf,
6731 				    fcp_trace, FCP_BUF_LEVEL_3, 0,
6732 				    "!FCP:LU Not Supported"
6733 				    " target=%x", ptgt->tgt_d_id);
6734 			}
6735 		}
6736 		rval = DDI_SUCCESS;
6737 	}
6738 
6739 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
6740 	    fcp_trace, FCP_BUF_LEVEL_5, 0,
6741 	    "D_ID=%x, sense=%x, status=%x",
6742 	    fpkt->pkt_cmd_fhdr.d_id, sense->es_key,
6743 	    rsp->fcp_u.fcp_status.scsi_status);
6744 
6745 	return (rval);
6746 }
6747 
6748 /*
6749  *     Function: fcp_scsi_callback
6750  *
6751  *  Description: This is the callback routine set by fcp_send_scsi() after
6752  *		 it calls fcp_icmd_alloc().  The SCSI command completed here
6753  *		 and autogenerated by FCP are:	REPORT_LUN, INQUIRY and
6754  *		 INQUIRY_PAGE83.
6755  *
6756  *     Argument: *fpkt	 FC packet used to convey the command
6757  *
6758  * Return Value: None
6759  */
6760 static void
6761 fcp_scsi_callback(fc_packet_t *fpkt)
6762 {
6763 	struct fcp_ipkt	*icmd = (struct fcp_ipkt *)
6764 	    fpkt->pkt_ulp_private;
6765 	struct fcp_rsp_info	fcp_rsp_err, *bep;
6766 	struct fcp_port	*pptr;
6767 	struct fcp_tgt	*ptgt;
6768 	struct fcp_lun	*plun;
6769 	struct fcp_rsp		response, *rsp;
6770 
6771 	if (icmd->ipkt_nodma) {
6772 		rsp = (struct fcp_rsp *)fpkt->pkt_resp;
6773 	} else {
6774 		rsp = &response;
6775 		FCP_CP_IN(fpkt->pkt_resp, rsp, fpkt->pkt_resp_acc,
6776 		    sizeof (struct fcp_rsp));
6777 	}
6778 
6779 	ptgt = icmd->ipkt_tgt;
6780 	pptr = ptgt->tgt_port;
6781 	plun = icmd->ipkt_lun;
6782 
6783 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
6784 	    fcp_trace, FCP_BUF_LEVEL_2, 0,
6785 	    "SCSI callback state=0x%x for %x, op_code=0x%x, "
6786 	    "status=%x, lun num=%x",
6787 	    fpkt->pkt_state, ptgt->tgt_d_id, icmd->ipkt_opcode,
6788 	    rsp->fcp_u.fcp_status.scsi_status, plun->lun_num);
6789 
6790 	/*
6791 	 * Pre-init LUN GUID with NWWN if it is not a device that
6792 	 * supports multiple luns and we know it's not page83
6793 	 * compliant.  Although using a NWWN is not lun unique,
6794 	 * we will be fine since there is only one lun behind the taget
6795 	 * in this case.
6796 	 */
6797 	if ((plun->lun_guid_size == 0) &&
6798 	    (icmd->ipkt_opcode == SCMD_INQUIRY_PAGE83) &&
6799 	    (fcp_symmetric_device_probe(plun) == 0)) {
6800 
6801 		char ascii_wwn[FC_WWN_SIZE*2+1];
6802 		fcp_wwn_to_ascii(&ptgt->tgt_node_wwn.raw_wwn[0], ascii_wwn);
6803 		(void) fcp_copy_guid_2_lun_block(plun, ascii_wwn);
6804 	}
6805 
6806 	/*
6807 	 * Some old FC tapes and FC <-> SCSI bridge devices return overrun
6808 	 * when thay have more data than what is asked in CDB. An overrun
6809 	 * is really when FCP_DL is smaller than the data length in CDB.
6810 	 * In the case here we know that REPORT LUN command we formed within
6811 	 * this binary has correct FCP_DL. So this OVERRUN is due to bad device
6812 	 * behavior. In reality this is FC_SUCCESS.
6813 	 */
6814 	if ((fpkt->pkt_state != FC_PKT_SUCCESS) &&
6815 	    (fpkt->pkt_reason == FC_REASON_OVERRUN) &&
6816 	    (icmd->ipkt_opcode == SCMD_REPORT_LUN)) {
6817 		fpkt->pkt_state = FC_PKT_SUCCESS;
6818 	}
6819 
6820 	if (fpkt->pkt_state != FC_PKT_SUCCESS) {
6821 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
6822 		    fcp_trace, FCP_BUF_LEVEL_2, 0,
6823 		    "icmd failed with state=0x%x for %x", fpkt->pkt_state,
6824 		    ptgt->tgt_d_id);
6825 
6826 		if (fpkt->pkt_reason == FC_REASON_CRC_ERROR) {
6827 			/*
6828 			 * Inquiry VPD page command on A5K SES devices would
6829 			 * result in data CRC errors.
6830 			 */
6831 			if (icmd->ipkt_opcode == SCMD_INQUIRY_PAGE83) {
6832 				(void) fcp_handle_page83(fpkt, icmd, 1);
6833 				return;
6834 			}
6835 		}
6836 		if (fpkt->pkt_state == FC_PKT_TIMEOUT ||
6837 		    FCP_MUST_RETRY(fpkt)) {
6838 			fpkt->pkt_timeout += FCP_TIMEOUT_DELTA;
6839 			fcp_retry_scsi_cmd(fpkt);
6840 			return;
6841 		}
6842 
6843 		FCP_TGT_TRACE(ptgt, icmd->ipkt_change_cnt,
6844 		    FCP_TGT_TRACE_20);
6845 
6846 		mutex_enter(&pptr->port_mutex);
6847 		mutex_enter(&ptgt->tgt_mutex);
6848 		if (!FCP_STATE_CHANGED(pptr, ptgt, icmd)) {
6849 			mutex_exit(&ptgt->tgt_mutex);
6850 			mutex_exit(&pptr->port_mutex);
6851 			fcp_print_error(fpkt);
6852 		} else {
6853 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
6854 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
6855 			    "fcp_scsi_callback,1: state change occured"
6856 			    " for D_ID=0x%x", ptgt->tgt_d_id);
6857 			mutex_exit(&ptgt->tgt_mutex);
6858 			mutex_exit(&pptr->port_mutex);
6859 		}
6860 		(void) fcp_call_finish_init(pptr, ptgt, icmd->ipkt_link_cnt,
6861 		    icmd->ipkt_change_cnt, icmd->ipkt_cause);
6862 		fcp_icmd_free(pptr, icmd);
6863 		return;
6864 	}
6865 
6866 	FCP_TGT_TRACE(ptgt, icmd->ipkt_change_cnt, FCP_TGT_TRACE_21);
6867 
6868 	mutex_enter(&pptr->port_mutex);
6869 	mutex_enter(&ptgt->tgt_mutex);
6870 	if (FCP_STATE_CHANGED(pptr, ptgt, icmd)) {
6871 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
6872 		    fcp_trace, FCP_BUF_LEVEL_2, 0,
6873 		    "fcp_scsi_callback,2: state change occured"
6874 		    " for D_ID=0x%x", ptgt->tgt_d_id);
6875 		mutex_exit(&ptgt->tgt_mutex);
6876 		mutex_exit(&pptr->port_mutex);
6877 		(void) fcp_call_finish_init(pptr, ptgt, icmd->ipkt_link_cnt,
6878 		    icmd->ipkt_change_cnt, icmd->ipkt_cause);
6879 		fcp_icmd_free(pptr, icmd);
6880 		return;
6881 	}
6882 	ASSERT((ptgt->tgt_state & FCP_TGT_MARK) == 0);
6883 
6884 	mutex_exit(&ptgt->tgt_mutex);
6885 	mutex_exit(&pptr->port_mutex);
6886 
6887 	if (icmd->ipkt_nodma) {
6888 		bep = (struct fcp_rsp_info *)(fpkt->pkt_resp +
6889 		    sizeof (struct fcp_rsp));
6890 	} else {
6891 		bep = &fcp_rsp_err;
6892 		FCP_CP_IN(fpkt->pkt_resp + sizeof (struct fcp_rsp), bep,
6893 		    fpkt->pkt_resp_acc, sizeof (struct fcp_rsp_info));
6894 	}
6895 
6896 	if (fcp_validate_fcp_response(rsp, pptr) != FC_SUCCESS) {
6897 		fcp_retry_scsi_cmd(fpkt);
6898 		return;
6899 	}
6900 
6901 	if (rsp->fcp_u.fcp_status.rsp_len_set && bep->rsp_code !=
6902 	    FCP_NO_FAILURE) {
6903 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
6904 		    fcp_trace, FCP_BUF_LEVEL_2, 0,
6905 		    "rsp_code=0x%x, rsp_len_set=0x%x",
6906 		    bep->rsp_code, rsp->fcp_u.fcp_status.rsp_len_set);
6907 		fcp_retry_scsi_cmd(fpkt);
6908 		return;
6909 	}
6910 
6911 	if (rsp->fcp_u.fcp_status.scsi_status == STATUS_QFULL ||
6912 	    rsp->fcp_u.fcp_status.scsi_status == STATUS_BUSY) {
6913 		fcp_queue_ipkt(pptr, fpkt);
6914 		return;
6915 	}
6916 
6917 	/*
6918 	 * Devices that do not support INQUIRY_PAGE83, return check condition
6919 	 * with illegal request as per SCSI spec.
6920 	 * Crossbridge is one such device and Daktari's SES node is another.
6921 	 * We want to ideally enumerate these devices as a non-mpxio devices.
6922 	 * SES nodes (Daktari only currently) are an exception to this.
6923 	 */
6924 	if ((icmd->ipkt_opcode == SCMD_INQUIRY_PAGE83) &&
6925 	    (rsp->fcp_u.fcp_status.scsi_status & STATUS_CHECK)) {
6926 
6927 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
6928 		    fcp_trace, FCP_BUF_LEVEL_3, 0,
6929 		    "INQUIRY_PAGE83 for d_id %x (dtype:0x%x) failed with "
6930 		    "check condition. May enumerate as non-mpxio device",
6931 		    ptgt->tgt_d_id, plun->lun_type);
6932 
6933 		/*
6934 		 * If we let Daktari's SES be enumerated as a non-mpxio
6935 		 * device, there will be a discrepency in that the other
6936 		 * internal FC disks will get enumerated as mpxio devices.
6937 		 * Applications like luxadm expect this to be consistent.
6938 		 *
6939 		 * So, we put in a hack here to check if this is an SES device
6940 		 * and handle it here.
6941 		 */
6942 		if (plun->lun_type == DTYPE_ESI) {
6943 			/*
6944 			 * Since, pkt_state is actually FC_PKT_SUCCESS
6945 			 * at this stage, we fake a failure here so that
6946 			 * fcp_handle_page83 will create a device path using
6947 			 * the WWN instead of the GUID which is not there anyway
6948 			 */
6949 			fpkt->pkt_state = FC_PKT_LOCAL_RJT;
6950 			(void) fcp_handle_page83(fpkt, icmd, 1);
6951 			return;
6952 		}
6953 
6954 		mutex_enter(&ptgt->tgt_mutex);
6955 		plun->lun_state &= ~(FCP_LUN_OFFLINE |
6956 		    FCP_LUN_MARK | FCP_LUN_BUSY);
6957 		mutex_exit(&ptgt->tgt_mutex);
6958 
6959 		(void) fcp_call_finish_init(pptr, ptgt,
6960 		    icmd->ipkt_link_cnt, icmd->ipkt_change_cnt,
6961 		    icmd->ipkt_cause);
6962 		fcp_icmd_free(pptr, icmd);
6963 		return;
6964 	}
6965 
6966 	if (rsp->fcp_u.fcp_status.scsi_status != STATUS_GOOD) {
6967 		int rval = DDI_FAILURE;
6968 
6969 		/*
6970 		 * handle cases where report lun isn't supported
6971 		 * by faking up our own REPORT_LUN response or
6972 		 * UNIT ATTENTION
6973 		 */
6974 		if (icmd->ipkt_opcode == SCMD_REPORT_LUN) {
6975 			rval = fcp_check_reportlun(rsp, fpkt);
6976 
6977 			/*
6978 			 * fcp_check_reportlun might have modified the
6979 			 * FCP response. Copy it in again to get an updated
6980 			 * FCP response
6981 			 */
6982 			if (rval == DDI_SUCCESS && icmd->ipkt_nodma == 0) {
6983 				rsp = &response;
6984 
6985 				FCP_CP_IN(fpkt->pkt_resp, rsp,
6986 				    fpkt->pkt_resp_acc,
6987 				    sizeof (struct fcp_rsp));
6988 			}
6989 		}
6990 
6991 		if (rsp->fcp_u.fcp_status.scsi_status != STATUS_GOOD) {
6992 			if (rval == DDI_SUCCESS) {
6993 				(void) fcp_call_finish_init(pptr, ptgt,
6994 				    icmd->ipkt_link_cnt, icmd->ipkt_change_cnt,
6995 				    icmd->ipkt_cause);
6996 				fcp_icmd_free(pptr, icmd);
6997 			} else {
6998 				fcp_retry_scsi_cmd(fpkt);
6999 			}
7000 
7001 			return;
7002 		}
7003 	} else {
7004 		if (icmd->ipkt_opcode == SCMD_REPORT_LUN) {
7005 			mutex_enter(&ptgt->tgt_mutex);
7006 			ptgt->tgt_state &= ~FCP_TGT_ILLREQ;
7007 			mutex_exit(&ptgt->tgt_mutex);
7008 		}
7009 	}
7010 
7011 	ASSERT(rsp->fcp_u.fcp_status.scsi_status == STATUS_GOOD);
7012 
7013 	(void) ddi_dma_sync(fpkt->pkt_data_dma, 0, 0, DDI_DMA_SYNC_FORCPU);
7014 
7015 	switch (icmd->ipkt_opcode) {
7016 	case SCMD_INQUIRY:
7017 		FCP_LUN_TRACE(plun, FCP_LUN_TRACE_1);
7018 		fcp_handle_inquiry(fpkt, icmd);
7019 		break;
7020 
7021 	case SCMD_REPORT_LUN:
7022 		FCP_TGT_TRACE(ptgt, icmd->ipkt_change_cnt,
7023 		    FCP_TGT_TRACE_22);
7024 		fcp_handle_reportlun(fpkt, icmd);
7025 		break;
7026 
7027 	case SCMD_INQUIRY_PAGE83:
7028 		FCP_LUN_TRACE(plun, FCP_LUN_TRACE_2);
7029 		(void) fcp_handle_page83(fpkt, icmd, 0);
7030 		break;
7031 
7032 	default:
7033 		fcp_log(CE_WARN, NULL, "!Invalid SCSI opcode");
7034 		(void) fcp_call_finish_init(pptr, ptgt, icmd->ipkt_link_cnt,
7035 		    icmd->ipkt_change_cnt, icmd->ipkt_cause);
7036 		fcp_icmd_free(pptr, icmd);
7037 		break;
7038 	}
7039 }
7040 
7041 
7042 static void
7043 fcp_retry_scsi_cmd(fc_packet_t *fpkt)
7044 {
7045 	struct fcp_ipkt	*icmd = (struct fcp_ipkt *)
7046 	    fpkt->pkt_ulp_private;
7047 	struct fcp_tgt	*ptgt = icmd->ipkt_tgt;
7048 	struct fcp_port	*pptr = ptgt->tgt_port;
7049 
7050 	if (icmd->ipkt_retries < FCP_MAX_RETRIES &&
7051 	    fcp_is_retryable(icmd)) {
7052 		mutex_enter(&pptr->port_mutex);
7053 		if (!FCP_TGT_STATE_CHANGED(ptgt, icmd)) {
7054 			mutex_exit(&pptr->port_mutex);
7055 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
7056 			    fcp_trace, FCP_BUF_LEVEL_3, 0,
7057 			    "Retrying %s to %x; state=%x, reason=%x",
7058 			    (icmd->ipkt_opcode == SCMD_REPORT_LUN) ?
7059 			    "Report LUN" : "INQUIRY", ptgt->tgt_d_id,
7060 			    fpkt->pkt_state, fpkt->pkt_reason);
7061 
7062 			fcp_queue_ipkt(pptr, fpkt);
7063 		} else {
7064 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
7065 			    fcp_trace, FCP_BUF_LEVEL_3, 0,
7066 			    "fcp_retry_scsi_cmd,1: state change occured"
7067 			    " for D_ID=0x%x", ptgt->tgt_d_id);
7068 			mutex_exit(&pptr->port_mutex);
7069 			(void) fcp_call_finish_init(pptr, ptgt,
7070 			    icmd->ipkt_link_cnt, icmd->ipkt_change_cnt,
7071 			    icmd->ipkt_cause);
7072 			fcp_icmd_free(pptr, icmd);
7073 		}
7074 	} else {
7075 		fcp_print_error(fpkt);
7076 		(void) fcp_call_finish_init(pptr, ptgt, icmd->ipkt_link_cnt,
7077 		    icmd->ipkt_change_cnt, icmd->ipkt_cause);
7078 		fcp_icmd_free(pptr, icmd);
7079 	}
7080 }
7081 
7082 /*
7083  *     Function: fcp_handle_page83
7084  *
7085  *  Description: Treats the response to INQUIRY_PAGE83.
7086  *
7087  *     Argument: *fpkt	FC packet used to convey the command.
7088  *		 *icmd	Original fcp_ipkt structure.
7089  *		 ignore_page83_data
7090  *			if it's 1, that means it's a special devices's
7091  *			page83 response, it should be enumerated under mpxio
7092  *
7093  * Return Value: None
7094  */
7095 static void
7096 fcp_handle_page83(fc_packet_t *fpkt, struct fcp_ipkt *icmd,
7097     int ignore_page83_data)
7098 {
7099 	struct fcp_port	*pptr;
7100 	struct fcp_lun	*plun;
7101 	struct fcp_tgt	*ptgt;
7102 	uchar_t			dev_id_page[SCMD_MAX_INQUIRY_PAGE83_SIZE];
7103 	int			fail = 0;
7104 	ddi_devid_t		devid;
7105 	char			*guid = NULL;
7106 	int			ret;
7107 
7108 	ASSERT(icmd != NULL && fpkt != NULL);
7109 
7110 	pptr = icmd->ipkt_port;
7111 	ptgt = icmd->ipkt_tgt;
7112 	plun = icmd->ipkt_lun;
7113 
7114 	if (fpkt->pkt_state == FC_PKT_SUCCESS) {
7115 		FCP_LUN_TRACE(plun, FCP_LUN_TRACE_7);
7116 
7117 		FCP_CP_IN(fpkt->pkt_data, dev_id_page, fpkt->pkt_data_acc,
7118 		    SCMD_MAX_INQUIRY_PAGE83_SIZE);
7119 
7120 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
7121 		    fcp_trace, FCP_BUF_LEVEL_5, 0,
7122 		    "fcp_handle_page83: port=%d, tgt D_ID=0x%x, "
7123 		    "dtype=0x%x, lun num=%x",
7124 		    pptr->port_instance, ptgt->tgt_d_id,
7125 		    dev_id_page[0], plun->lun_num);
7126 
7127 		ret = ddi_devid_scsi_encode(
7128 		    DEVID_SCSI_ENCODE_VERSION_LATEST,
7129 		    NULL,		/* driver name */
7130 		    (unsigned char *) &plun->lun_inq, /* standard inquiry */
7131 		    sizeof (plun->lun_inq), /* size of standard inquiry */
7132 		    NULL,		/* page 80 data */
7133 		    0,		/* page 80 len */
7134 		    dev_id_page,	/* page 83 data */
7135 		    SCMD_MAX_INQUIRY_PAGE83_SIZE, /* page 83 data len */
7136 		    &devid);
7137 
7138 		if (ret == DDI_SUCCESS) {
7139 
7140 			guid = ddi_devid_to_guid(devid);
7141 
7142 			if (guid) {
7143 				/*
7144 				 * Check our current guid.  If it's non null
7145 				 * and it has changed, we need to copy it into
7146 				 * lun_old_guid since we might still need it.
7147 				 */
7148 				if (plun->lun_guid &&
7149 				    strcmp(guid, plun->lun_guid)) {
7150 					unsigned int len;
7151 
7152 					/*
7153 					 * If the guid of the LUN changes,
7154 					 * reconfiguration should be triggered
7155 					 * to reflect the changes.
7156 					 * i.e. we should offline the LUN with
7157 					 * the old guid, and online the LUN with
7158 					 * the new guid.
7159 					 */
7160 					plun->lun_state |= FCP_LUN_CHANGED;
7161 
7162 					if (plun->lun_old_guid) {
7163 						kmem_free(plun->lun_old_guid,
7164 						    plun->lun_old_guid_size);
7165 					}
7166 
7167 					len = plun->lun_guid_size;
7168 					plun->lun_old_guid_size = len;
7169 
7170 					plun->lun_old_guid = kmem_zalloc(len,
7171 					    KM_NOSLEEP);
7172 
7173 					if (plun->lun_old_guid) {
7174 						/*
7175 						 * The alloc was successful then
7176 						 * let's do the copy.
7177 						 */
7178 						bcopy(plun->lun_guid,
7179 						    plun->lun_old_guid, len);
7180 					} else {
7181 						fail = 1;
7182 						plun->lun_old_guid_size = 0;
7183 					}
7184 				}
7185 				if (!fail) {
7186 					if (fcp_copy_guid_2_lun_block(
7187 					    plun, guid)) {
7188 						fail = 1;
7189 					}
7190 				}
7191 				ddi_devid_free_guid(guid);
7192 
7193 			} else {
7194 				FCP_TRACE(fcp_logq, pptr->port_instbuf,
7195 				    fcp_trace, FCP_BUF_LEVEL_2, 0,
7196 				    "fcp_handle_page83: unable to create "
7197 				    "GUID");
7198 
7199 				/* couldn't create good guid from devid */
7200 				fail = 1;
7201 			}
7202 			ddi_devid_free(devid);
7203 
7204 		} else if (ret == DDI_NOT_WELL_FORMED) {
7205 			/* NULL filled data for page 83 */
7206 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
7207 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
7208 			    "fcp_handle_page83: retry GUID");
7209 
7210 			icmd->ipkt_retries = 0;
7211 			fcp_retry_scsi_cmd(fpkt);
7212 			return;
7213 		} else {
7214 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
7215 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
7216 			    "fcp_handle_page83: bad ddi_devid_scsi_encode %x",
7217 			    ret);
7218 			/*
7219 			 * Since the page83 validation
7220 			 * introduced late, we are being
7221 			 * tolerant to the existing devices
7222 			 * that already found to be working
7223 			 * under mpxio, like A5200's SES device,
7224 			 * its page83 response will not be standard-compliant,
7225 			 * but we still want it to be enumerated under mpxio.
7226 			 */
7227 			if (fcp_symmetric_device_probe(plun) != 0) {
7228 				fail = 1;
7229 			}
7230 		}
7231 
7232 	} else {
7233 		/* bad packet state */
7234 		FCP_LUN_TRACE(plun, FCP_LUN_TRACE_8);
7235 
7236 		/*
7237 		 * For some special devices (A5K SES and Daktari's SES devices),
7238 		 * they should be enumerated under mpxio
7239 		 * or "luxadm dis" will fail
7240 		 */
7241 		if (ignore_page83_data) {
7242 			fail = 0;
7243 		} else {
7244 			fail = 1;
7245 		}
7246 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
7247 		    fcp_trace, FCP_BUF_LEVEL_2, 0,
7248 		    "!Devid page cmd failed. "
7249 		    "fpkt_state: %x fpkt_reason: %x",
7250 		    "ignore_page83: %d",
7251 		    fpkt->pkt_state, fpkt->pkt_reason,
7252 		    ignore_page83_data);
7253 	}
7254 
7255 	mutex_enter(&pptr->port_mutex);
7256 	mutex_enter(&plun->lun_mutex);
7257 	/*
7258 	 * If lun_cip is not NULL, then we needn't update lun_mpxio to avoid
7259 	 * mismatch between lun_cip and lun_mpxio.
7260 	 */
7261 	if (plun->lun_cip == NULL) {
7262 		/*
7263 		 * If we don't have a guid for this lun it's because we were
7264 		 * unable to glean one from the page 83 response.  Set the
7265 		 * control flag to 0 here to make sure that we don't attempt to
7266 		 * enumerate it under mpxio.
7267 		 */
7268 		if (fail || pptr->port_mpxio == 0) {
7269 			plun->lun_mpxio = 0;
7270 		} else {
7271 			plun->lun_mpxio = 1;
7272 		}
7273 	}
7274 	mutex_exit(&plun->lun_mutex);
7275 	mutex_exit(&pptr->port_mutex);
7276 
7277 	mutex_enter(&ptgt->tgt_mutex);
7278 	plun->lun_state &=
7279 	    ~(FCP_LUN_OFFLINE | FCP_LUN_MARK | FCP_LUN_BUSY);
7280 	mutex_exit(&ptgt->tgt_mutex);
7281 
7282 	(void) fcp_call_finish_init(pptr, ptgt, icmd->ipkt_link_cnt,
7283 	    icmd->ipkt_change_cnt, icmd->ipkt_cause);
7284 
7285 	fcp_icmd_free(pptr, icmd);
7286 }
7287 
7288 /*
7289  *     Function: fcp_handle_inquiry
7290  *
7291  *  Description: Called by fcp_scsi_callback to handle the response to an
7292  *		 INQUIRY request.
7293  *
7294  *     Argument: *fpkt	FC packet used to convey the command.
7295  *		 *icmd	Original fcp_ipkt structure.
7296  *
7297  * Return Value: None
7298  */
7299 static void
7300 fcp_handle_inquiry(fc_packet_t *fpkt, struct fcp_ipkt *icmd)
7301 {
7302 	struct fcp_port	*pptr;
7303 	struct fcp_lun	*plun;
7304 	struct fcp_tgt	*ptgt;
7305 	uchar_t		dtype;
7306 	uchar_t		pqual;
7307 	uint32_t	rscn_count = FC_INVALID_RSCN_COUNT;
7308 
7309 	ASSERT(icmd != NULL && fpkt != NULL);
7310 
7311 	pptr = icmd->ipkt_port;
7312 	ptgt = icmd->ipkt_tgt;
7313 	plun = icmd->ipkt_lun;
7314 
7315 	FCP_CP_IN(fpkt->pkt_data, &plun->lun_inq, fpkt->pkt_data_acc,
7316 	    sizeof (struct scsi_inquiry));
7317 
7318 	dtype = plun->lun_inq.inq_dtype & DTYPE_MASK;
7319 	pqual = plun->lun_inq.inq_dtype >> 5;
7320 
7321 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
7322 	    fcp_trace, FCP_BUF_LEVEL_5, 0,
7323 	    "fcp_handle_inquiry: port=%d, tgt D_ID=0x%x, lun=0x%x, "
7324 	    "dtype=0x%x pqual: 0x%x", pptr->port_instance, ptgt->tgt_d_id,
7325 	    plun->lun_num, dtype, pqual);
7326 
7327 	if (pqual != 0) {
7328 		/*
7329 		 * Non-zero peripheral qualifier
7330 		 */
7331 		fcp_log(CE_CONT, pptr->port_dip,
7332 		    "!Target 0x%x lun 0x%x: Nonzero peripheral qualifier: "
7333 		    "Device type=0x%x Peripheral qual=0x%x\n",
7334 		    ptgt->tgt_d_id, plun->lun_num, dtype, pqual);
7335 
7336 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
7337 		    fcp_trace, FCP_BUF_LEVEL_5, 0,
7338 		    "!Target 0x%x lun 0x%x: Nonzero peripheral qualifier: "
7339 		    "Device type=0x%x Peripheral qual=0x%x\n",
7340 		    ptgt->tgt_d_id, plun->lun_num, dtype, pqual);
7341 
7342 		FCP_LUN_TRACE(plun, FCP_LUN_TRACE_3);
7343 
7344 		(void) fcp_call_finish_init(pptr, ptgt, icmd->ipkt_link_cnt,
7345 		    icmd->ipkt_change_cnt, icmd->ipkt_cause);
7346 		fcp_icmd_free(pptr, icmd);
7347 		return;
7348 	}
7349 
7350 	/*
7351 	 * If the device is already initialized, check the dtype
7352 	 * for a change. If it has changed then update the flags
7353 	 * so the create_luns will offline the old device and
7354 	 * create the new device. Refer to bug: 4764752
7355 	 */
7356 	if ((plun->lun_state & FCP_LUN_INIT) && dtype != plun->lun_type) {
7357 		plun->lun_state |= FCP_LUN_CHANGED;
7358 	}
7359 	plun->lun_type = plun->lun_inq.inq_dtype;
7360 
7361 	/*
7362 	 * This code is setting/initializing the throttling in the FCA
7363 	 * driver.
7364 	 */
7365 	mutex_enter(&pptr->port_mutex);
7366 	if (!pptr->port_notify) {
7367 		if (bcmp(plun->lun_inq.inq_pid, pid, strlen(pid)) == 0) {
7368 			uint32_t cmd = 0;
7369 			cmd = ((cmd & 0xFF | FC_NOTIFY_THROTTLE) |
7370 			    ((cmd & 0xFFFFFF00 >> 8) |
7371 			    FCP_SVE_THROTTLE << 8));
7372 			pptr->port_notify = 1;
7373 			mutex_exit(&pptr->port_mutex);
7374 			(void) fc_ulp_port_notify(pptr->port_fp_handle, cmd);
7375 			mutex_enter(&pptr->port_mutex);
7376 		}
7377 	}
7378 
7379 	if (FCP_TGT_STATE_CHANGED(ptgt, icmd)) {
7380 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
7381 		    fcp_trace, FCP_BUF_LEVEL_2, 0,
7382 		    "fcp_handle_inquiry,1:state change occured"
7383 		    " for D_ID=0x%x", ptgt->tgt_d_id);
7384 		mutex_exit(&pptr->port_mutex);
7385 
7386 		FCP_LUN_TRACE(plun, FCP_LUN_TRACE_5);
7387 		(void) fcp_call_finish_init(pptr, ptgt,
7388 		    icmd->ipkt_link_cnt, icmd->ipkt_change_cnt,
7389 		    icmd->ipkt_cause);
7390 		fcp_icmd_free(pptr, icmd);
7391 		return;
7392 	}
7393 	ASSERT((ptgt->tgt_state & FCP_TGT_MARK) == 0);
7394 	mutex_exit(&pptr->port_mutex);
7395 
7396 	/* Retrieve the rscn count (if a valid one exists) */
7397 	if (icmd->ipkt_fpkt->pkt_ulp_rscn_infop != NULL) {
7398 		rscn_count = ((fc_ulp_rscn_info_t *)
7399 		    (icmd->ipkt_fpkt->pkt_ulp_rscn_infop))->ulp_rscn_count;
7400 	} else {
7401 		rscn_count = FC_INVALID_RSCN_COUNT;
7402 	}
7403 
7404 	if (fcp_send_scsi(plun, SCMD_INQUIRY_PAGE83,
7405 	    SCMD_MAX_INQUIRY_PAGE83_SIZE,
7406 	    icmd->ipkt_link_cnt, icmd->ipkt_change_cnt,
7407 	    icmd->ipkt_cause, rscn_count) != DDI_SUCCESS) {
7408 		fcp_log(CE_WARN, NULL, "!failed to send page 83");
7409 		FCP_LUN_TRACE(plun, FCP_LUN_TRACE_6);
7410 		(void) fcp_call_finish_init(pptr, ptgt,
7411 		    icmd->ipkt_link_cnt, icmd->ipkt_change_cnt,
7412 		    icmd->ipkt_cause);
7413 	}
7414 
7415 	/*
7416 	 * Read Inquiry VPD Page 0x83 to uniquely
7417 	 * identify this logical unit.
7418 	 */
7419 	fcp_icmd_free(pptr, icmd);
7420 }
7421 
7422 /*
7423  *     Function: fcp_handle_reportlun
7424  *
7425  *  Description: Called by fcp_scsi_callback to handle the response to a
7426  *		 REPORT_LUN request.
7427  *
7428  *     Argument: *fpkt	FC packet used to convey the command.
7429  *		 *icmd	Original fcp_ipkt structure.
7430  *
7431  * Return Value: None
7432  */
7433 static void
7434 fcp_handle_reportlun(fc_packet_t *fpkt, struct fcp_ipkt *icmd)
7435 {
7436 	int				i;
7437 	int				nluns_claimed;
7438 	int				nluns_bufmax;
7439 	int				len;
7440 	uint16_t			lun_num;
7441 	uint32_t			rscn_count = FC_INVALID_RSCN_COUNT;
7442 	struct fcp_port			*pptr;
7443 	struct fcp_tgt			*ptgt;
7444 	struct fcp_lun			*plun;
7445 	struct fcp_reportlun_resp	*report_lun;
7446 
7447 	pptr = icmd->ipkt_port;
7448 	ptgt = icmd->ipkt_tgt;
7449 	len = fpkt->pkt_datalen;
7450 
7451 	if ((len < FCP_LUN_HEADER) ||
7452 	    ((report_lun = kmem_zalloc(len, KM_NOSLEEP)) == NULL)) {
7453 		(void) fcp_call_finish_init(pptr, ptgt, icmd->ipkt_link_cnt,
7454 		    icmd->ipkt_change_cnt, icmd->ipkt_cause);
7455 		fcp_icmd_free(pptr, icmd);
7456 		return;
7457 	}
7458 
7459 	FCP_CP_IN(fpkt->pkt_data, report_lun, fpkt->pkt_data_acc,
7460 	    fpkt->pkt_datalen);
7461 
7462 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
7463 	    fcp_trace, FCP_BUF_LEVEL_5, 0,
7464 	    "fcp_handle_reportlun: port=%d, tgt D_ID=0x%x",
7465 	    pptr->port_instance, ptgt->tgt_d_id);
7466 
7467 	/*
7468 	 * Get the number of luns (which is supplied as LUNS * 8) the
7469 	 * device claims it has.
7470 	 */
7471 	nluns_claimed = BE_32(report_lun->num_lun) >> 3;
7472 
7473 	/*
7474 	 * Get the maximum number of luns the buffer submitted can hold.
7475 	 */
7476 	nluns_bufmax = (fpkt->pkt_datalen - FCP_LUN_HEADER) / FCP_LUN_SIZE;
7477 
7478 	/*
7479 	 * Due to limitations of certain hardware, we support only 16 bit LUNs
7480 	 */
7481 	if (nluns_claimed > FCP_MAX_LUNS_SUPPORTED) {
7482 		kmem_free(report_lun, len);
7483 
7484 		fcp_log(CE_NOTE, pptr->port_dip, "!Can not support"
7485 		    " 0x%x number of LUNs for target=%x", nluns_claimed,
7486 		    ptgt->tgt_d_id);
7487 
7488 		(void) fcp_call_finish_init(pptr, ptgt, icmd->ipkt_link_cnt,
7489 		    icmd->ipkt_change_cnt, icmd->ipkt_cause);
7490 		fcp_icmd_free(pptr, icmd);
7491 		return;
7492 	}
7493 
7494 	/*
7495 	 * If there are more LUNs than we have allocated memory for,
7496 	 * allocate more space and send down yet another report lun if
7497 	 * the maximum number of attempts hasn't been reached.
7498 	 */
7499 	mutex_enter(&ptgt->tgt_mutex);
7500 
7501 	if ((nluns_claimed > nluns_bufmax) &&
7502 	    (ptgt->tgt_report_lun_cnt < FCP_MAX_REPORTLUNS_ATTEMPTS)) {
7503 
7504 		struct fcp_lun *plun;
7505 
7506 		ptgt->tgt_report_lun_cnt++;
7507 		plun = ptgt->tgt_lun;
7508 		ASSERT(plun != NULL);
7509 		mutex_exit(&ptgt->tgt_mutex);
7510 
7511 		kmem_free(report_lun, len);
7512 
7513 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
7514 		    fcp_trace, FCP_BUF_LEVEL_5, 0,
7515 		    "!Dynamically discovered %d LUNs for D_ID=%x",
7516 		    nluns_claimed, ptgt->tgt_d_id);
7517 
7518 		/* Retrieve the rscn count (if a valid one exists) */
7519 		if (icmd->ipkt_fpkt->pkt_ulp_rscn_infop != NULL) {
7520 			rscn_count = ((fc_ulp_rscn_info_t *)
7521 			    (icmd->ipkt_fpkt->pkt_ulp_rscn_infop))->
7522 			    ulp_rscn_count;
7523 		} else {
7524 			rscn_count = FC_INVALID_RSCN_COUNT;
7525 		}
7526 
7527 		if (fcp_send_scsi(icmd->ipkt_lun, SCMD_REPORT_LUN,
7528 		    FCP_LUN_HEADER + (nluns_claimed * FCP_LUN_SIZE),
7529 		    icmd->ipkt_link_cnt, icmd->ipkt_change_cnt,
7530 		    icmd->ipkt_cause, rscn_count) != DDI_SUCCESS) {
7531 			(void) fcp_call_finish_init(pptr, ptgt,
7532 			    icmd->ipkt_link_cnt, icmd->ipkt_change_cnt,
7533 			    icmd->ipkt_cause);
7534 		}
7535 
7536 		fcp_icmd_free(pptr, icmd);
7537 		return;
7538 	}
7539 
7540 	if (nluns_claimed > nluns_bufmax) {
7541 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
7542 		    fcp_trace, FCP_BUF_LEVEL_5, 0,
7543 		    "Target=%x:%x:%x:%x:%x:%x:%x:%x"
7544 		    "	 Number of LUNs lost=%x",
7545 		    ptgt->tgt_port_wwn.raw_wwn[0],
7546 		    ptgt->tgt_port_wwn.raw_wwn[1],
7547 		    ptgt->tgt_port_wwn.raw_wwn[2],
7548 		    ptgt->tgt_port_wwn.raw_wwn[3],
7549 		    ptgt->tgt_port_wwn.raw_wwn[4],
7550 		    ptgt->tgt_port_wwn.raw_wwn[5],
7551 		    ptgt->tgt_port_wwn.raw_wwn[6],
7552 		    ptgt->tgt_port_wwn.raw_wwn[7],
7553 		    nluns_claimed - nluns_bufmax);
7554 
7555 		nluns_claimed = nluns_bufmax;
7556 	}
7557 	ptgt->tgt_lun_cnt = nluns_claimed;
7558 
7559 	/*
7560 	 * Identify missing LUNs and print warning messages
7561 	 */
7562 	for (plun = ptgt->tgt_lun; plun; plun = plun->lun_next) {
7563 		int offline;
7564 		int exists = 0;
7565 
7566 		offline = (plun->lun_state & FCP_LUN_OFFLINE) ? 1 : 0;
7567 
7568 		for (i = 0; i < nluns_claimed && exists == 0; i++) {
7569 			uchar_t		*lun_string;
7570 
7571 			lun_string = (uchar_t *)&(report_lun->lun_string[i]);
7572 
7573 			switch (lun_string[0] & 0xC0) {
7574 			case FCP_LUN_ADDRESSING:
7575 			case FCP_PD_ADDRESSING:
7576 				lun_num = ((lun_string[0] & 0x3F) << 8) |
7577 				    lun_string[1];
7578 				if (plun->lun_num == lun_num) {
7579 					exists++;
7580 					break;
7581 				}
7582 				break;
7583 
7584 			default:
7585 				break;
7586 			}
7587 		}
7588 
7589 		if (!exists && !offline) {
7590 			mutex_exit(&ptgt->tgt_mutex);
7591 
7592 			mutex_enter(&pptr->port_mutex);
7593 			mutex_enter(&ptgt->tgt_mutex);
7594 			if (!FCP_STATE_CHANGED(pptr, ptgt, icmd)) {
7595 				/*
7596 				 * set disappear flag when device was connected
7597 				 */
7598 				if (!(plun->lun_state &
7599 				    FCP_LUN_DEVICE_NOT_CONNECTED)) {
7600 					plun->lun_state |= FCP_LUN_DISAPPEARED;
7601 				}
7602 				mutex_exit(&ptgt->tgt_mutex);
7603 				mutex_exit(&pptr->port_mutex);
7604 				if (!(plun->lun_state &
7605 				    FCP_LUN_DEVICE_NOT_CONNECTED)) {
7606 					fcp_log(CE_NOTE, pptr->port_dip,
7607 					    "!Lun=%x for target=%x disappeared",
7608 					    plun->lun_num, ptgt->tgt_d_id);
7609 				}
7610 				mutex_enter(&ptgt->tgt_mutex);
7611 			} else {
7612 				FCP_TRACE(fcp_logq, pptr->port_instbuf,
7613 				    fcp_trace, FCP_BUF_LEVEL_5, 0,
7614 				    "fcp_handle_reportlun,1: state change"
7615 				    " occured for D_ID=0x%x", ptgt->tgt_d_id);
7616 				mutex_exit(&ptgt->tgt_mutex);
7617 				mutex_exit(&pptr->port_mutex);
7618 				kmem_free(report_lun, len);
7619 				(void) fcp_call_finish_init(pptr, ptgt,
7620 				    icmd->ipkt_link_cnt, icmd->ipkt_change_cnt,
7621 				    icmd->ipkt_cause);
7622 				fcp_icmd_free(pptr, icmd);
7623 				return;
7624 			}
7625 		} else if (exists) {
7626 			/*
7627 			 * clear FCP_LUN_DEVICE_NOT_CONNECTED when lun 0
7628 			 * actually exists in REPORT_LUN response
7629 			 */
7630 			if (plun->lun_state & FCP_LUN_DEVICE_NOT_CONNECTED) {
7631 				plun->lun_state &=
7632 				    ~FCP_LUN_DEVICE_NOT_CONNECTED;
7633 			}
7634 			if (offline || plun->lun_num == 0) {
7635 				if (plun->lun_state & FCP_LUN_DISAPPEARED)  {
7636 					plun->lun_state &= ~FCP_LUN_DISAPPEARED;
7637 					mutex_exit(&ptgt->tgt_mutex);
7638 					fcp_log(CE_NOTE, pptr->port_dip,
7639 					    "!Lun=%x for target=%x reappeared",
7640 					    plun->lun_num, ptgt->tgt_d_id);
7641 					mutex_enter(&ptgt->tgt_mutex);
7642 				}
7643 			}
7644 		}
7645 	}
7646 
7647 	ptgt->tgt_tmp_cnt = nluns_claimed ? nluns_claimed : 1;
7648 	mutex_exit(&ptgt->tgt_mutex);
7649 
7650 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
7651 	    fcp_trace, FCP_BUF_LEVEL_5, 0,
7652 	    "fcp_handle_reportlun: port=%d, tgt D_ID=0x%x, %d LUN(s)",
7653 	    pptr->port_instance, ptgt->tgt_d_id, nluns_claimed);
7654 
7655 	/* scan each lun */
7656 	for (i = 0; i < nluns_claimed; i++) {
7657 		uchar_t	*lun_string;
7658 
7659 		lun_string = (uchar_t *)&(report_lun->lun_string[i]);
7660 
7661 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
7662 		    fcp_trace, FCP_BUF_LEVEL_5, 0,
7663 		    "handle_reportlun: d_id=%x, LUN ind=%d, LUN=%d,"
7664 		    " addr=0x%x", ptgt->tgt_d_id, i, lun_string[1],
7665 		    lun_string[0]);
7666 
7667 		switch (lun_string[0] & 0xC0) {
7668 		case FCP_LUN_ADDRESSING:
7669 		case FCP_PD_ADDRESSING:
7670 			lun_num = ((lun_string[0] & 0x3F) << 8) | lun_string[1];
7671 
7672 			/* We will skip masked LUNs because of the blacklist. */
7673 			if (fcp_lun_blacklist != NULL) {
7674 				mutex_enter(&ptgt->tgt_mutex);
7675 				if (fcp_should_mask(&ptgt->tgt_port_wwn,
7676 				    lun_num) == TRUE) {
7677 					ptgt->tgt_lun_cnt--;
7678 					mutex_exit(&ptgt->tgt_mutex);
7679 					break;
7680 				}
7681 				mutex_exit(&ptgt->tgt_mutex);
7682 			}
7683 
7684 			/* see if this LUN is already allocated */
7685 			if ((plun = fcp_get_lun(ptgt, lun_num)) == NULL) {
7686 				plun = fcp_alloc_lun(ptgt);
7687 				if (plun == NULL) {
7688 					fcp_log(CE_NOTE, pptr->port_dip,
7689 					    "!Lun allocation failed"
7690 					    " target=%x lun=%x",
7691 					    ptgt->tgt_d_id, lun_num);
7692 					break;
7693 				}
7694 			}
7695 
7696 			mutex_enter(&plun->lun_tgt->tgt_mutex);
7697 			/* convert to LUN */
7698 			plun->lun_addr.ent_addr_0 =
7699 			    BE_16(*(uint16_t *)&(lun_string[0]));
7700 			plun->lun_addr.ent_addr_1 =
7701 			    BE_16(*(uint16_t *)&(lun_string[2]));
7702 			plun->lun_addr.ent_addr_2 =
7703 			    BE_16(*(uint16_t *)&(lun_string[4]));
7704 			plun->lun_addr.ent_addr_3 =
7705 			    BE_16(*(uint16_t *)&(lun_string[6]));
7706 
7707 			plun->lun_num = lun_num;
7708 			plun->lun_state |= FCP_LUN_BUSY | FCP_LUN_MARK;
7709 			plun->lun_state &= ~FCP_LUN_OFFLINE;
7710 			mutex_exit(&plun->lun_tgt->tgt_mutex);
7711 
7712 			/* Retrieve the rscn count (if a valid one exists) */
7713 			if (icmd->ipkt_fpkt->pkt_ulp_rscn_infop != NULL) {
7714 				rscn_count = ((fc_ulp_rscn_info_t *)
7715 				    (icmd->ipkt_fpkt->pkt_ulp_rscn_infop))->
7716 				    ulp_rscn_count;
7717 			} else {
7718 				rscn_count = FC_INVALID_RSCN_COUNT;
7719 			}
7720 
7721 			if (fcp_send_scsi(plun, SCMD_INQUIRY, SUN_INQSIZE,
7722 			    icmd->ipkt_link_cnt, icmd->ipkt_change_cnt,
7723 			    icmd->ipkt_cause, rscn_count) != DDI_SUCCESS) {
7724 				mutex_enter(&pptr->port_mutex);
7725 				mutex_enter(&plun->lun_tgt->tgt_mutex);
7726 				if (!FCP_STATE_CHANGED(pptr, ptgt, icmd)) {
7727 					fcp_log(CE_NOTE, pptr->port_dip,
7728 					    "!failed to send INQUIRY"
7729 					    " target=%x lun=%x",
7730 					    ptgt->tgt_d_id, plun->lun_num);
7731 				} else {
7732 					FCP_TRACE(fcp_logq,
7733 					    pptr->port_instbuf, fcp_trace,
7734 					    FCP_BUF_LEVEL_5, 0,
7735 					    "fcp_handle_reportlun,2: state"
7736 					    " change occured for D_ID=0x%x",
7737 					    ptgt->tgt_d_id);
7738 				}
7739 				mutex_exit(&plun->lun_tgt->tgt_mutex);
7740 				mutex_exit(&pptr->port_mutex);
7741 			} else {
7742 				continue;
7743 			}
7744 			break;
7745 
7746 		case FCP_VOLUME_ADDRESSING:
7747 			/* FALLTHROUGH */
7748 		default:
7749 			fcp_log(CE_WARN, NULL,
7750 			    "!Unsupported LUN Addressing method %x "
7751 			    "in response to REPORT_LUN", lun_string[0]);
7752 			break;
7753 		}
7754 
7755 		/*
7756 		 * each time through this loop we should decrement
7757 		 * the tmp_cnt by one -- since we go through this loop
7758 		 * one time for each LUN, the tmp_cnt should never be <=0
7759 		 */
7760 		(void) fcp_call_finish_init(pptr, ptgt, icmd->ipkt_link_cnt,
7761 		    icmd->ipkt_change_cnt, icmd->ipkt_cause);
7762 	}
7763 
7764 	if (i == 0) {
7765 		fcp_log(CE_WARN, pptr->port_dip,
7766 		    "!FCP: target=%x reported NO Luns", ptgt->tgt_d_id);
7767 		(void) fcp_call_finish_init(pptr, ptgt, icmd->ipkt_link_cnt,
7768 		    icmd->ipkt_change_cnt, icmd->ipkt_cause);
7769 	}
7770 
7771 	kmem_free(report_lun, len);
7772 	fcp_icmd_free(pptr, icmd);
7773 }
7774 
7775 
7776 /*
7777  * called internally to return a LUN given a target and a LUN number
7778  */
7779 static struct fcp_lun *
7780 fcp_get_lun(struct fcp_tgt *ptgt, uint16_t lun_num)
7781 {
7782 	struct fcp_lun	*plun;
7783 
7784 	mutex_enter(&ptgt->tgt_mutex);
7785 	for (plun = ptgt->tgt_lun; plun != NULL; plun = plun->lun_next) {
7786 		if (plun->lun_num == lun_num) {
7787 			mutex_exit(&ptgt->tgt_mutex);
7788 			return (plun);
7789 		}
7790 	}
7791 	mutex_exit(&ptgt->tgt_mutex);
7792 
7793 	return (NULL);
7794 }
7795 
7796 
7797 /*
7798  * handle finishing one target for fcp_finish_init
7799  *
7800  * return true (non-zero) if we want finish_init to continue with the
7801  * next target
7802  *
7803  * called with the port mutex held
7804  */
7805 /*ARGSUSED*/
7806 static int
7807 fcp_finish_tgt(struct fcp_port *pptr, struct fcp_tgt *ptgt,
7808     int link_cnt, int tgt_cnt, int cause)
7809 {
7810 	int	rval = 1;
7811 	ASSERT(pptr != NULL);
7812 	ASSERT(ptgt != NULL);
7813 
7814 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
7815 	    fcp_trace, FCP_BUF_LEVEL_5, 0,
7816 	    "finish_tgt: D_ID/state = 0x%x/0x%x", ptgt->tgt_d_id,
7817 	    ptgt->tgt_state);
7818 
7819 	ASSERT(mutex_owned(&pptr->port_mutex));
7820 
7821 	if ((pptr->port_link_cnt != link_cnt) ||
7822 	    (tgt_cnt && ptgt->tgt_change_cnt != tgt_cnt)) {
7823 		/*
7824 		 * oh oh -- another link reset or target change
7825 		 * must have occurred while we are in here
7826 		 */
7827 		FCP_TGT_TRACE(ptgt, tgt_cnt, FCP_TGT_TRACE_23);
7828 
7829 		return (0);
7830 	} else {
7831 		FCP_TGT_TRACE(ptgt, tgt_cnt, FCP_TGT_TRACE_24);
7832 	}
7833 
7834 	mutex_enter(&ptgt->tgt_mutex);
7835 
7836 	if (!(ptgt->tgt_state & FCP_TGT_OFFLINE)) {
7837 		/*
7838 		 * tgt is not offline -- is it marked (i.e. needs
7839 		 * to be offlined) ??
7840 		 */
7841 		if (ptgt->tgt_state & FCP_TGT_MARK) {
7842 			/*
7843 			 * this target not offline *and*
7844 			 * marked
7845 			 */
7846 			ptgt->tgt_state &= ~FCP_TGT_MARK;
7847 			rval = fcp_offline_target(pptr, ptgt, link_cnt,
7848 			    tgt_cnt, 0, 0);
7849 		} else {
7850 			ptgt->tgt_state &= ~FCP_TGT_BUSY;
7851 
7852 			/* create the LUNs */
7853 			if (ptgt->tgt_node_state != FCP_TGT_NODE_ON_DEMAND) {
7854 				ptgt->tgt_node_state = FCP_TGT_NODE_PRESENT;
7855 				fcp_create_luns(ptgt, link_cnt, tgt_cnt,
7856 				    cause);
7857 				ptgt->tgt_device_created = 1;
7858 			} else {
7859 				fcp_update_tgt_state(ptgt, FCP_RESET,
7860 				    FCP_LUN_BUSY);
7861 			}
7862 		}
7863 	}
7864 
7865 	mutex_exit(&ptgt->tgt_mutex);
7866 
7867 	return (rval);
7868 }
7869 
7870 
7871 /*
7872  * this routine is called to finish port initialization
7873  *
7874  * Each port has a "temp" counter -- when a state change happens (e.g.
7875  * port online), the temp count is set to the number of devices in the map.
7876  * Then, as each device gets "discovered", the temp counter is decremented
7877  * by one.  When this count reaches zero we know that all of the devices
7878  * in the map have been discovered (or an error has occurred), so we can
7879  * then finish initialization -- which is done by this routine (well, this
7880  * and fcp-finish_tgt())
7881  *
7882  * acquires and releases the global mutex
7883  *
7884  * called with the port mutex owned
7885  */
7886 static void
7887 fcp_finish_init(struct fcp_port *pptr)
7888 {
7889 #ifdef	DEBUG
7890 	bzero(pptr->port_finish_stack, sizeof (pptr->port_finish_stack));
7891 	pptr->port_finish_depth = getpcstack(pptr->port_finish_stack,
7892 	    FCP_STACK_DEPTH);
7893 #endif /* DEBUG */
7894 
7895 	ASSERT(mutex_owned(&pptr->port_mutex));
7896 
7897 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
7898 	    fcp_trace, FCP_BUF_LEVEL_2, 0, "finish_init:"
7899 	    " entering; ipkt count=%d", pptr->port_ipkt_cnt);
7900 
7901 	if ((pptr->port_state & FCP_STATE_ONLINING) &&
7902 	    !(pptr->port_state & (FCP_STATE_SUSPENDED |
7903 	    FCP_STATE_DETACHING | FCP_STATE_POWER_DOWN))) {
7904 		pptr->port_state &= ~FCP_STATE_ONLINING;
7905 		pptr->port_state |= FCP_STATE_ONLINE;
7906 	}
7907 
7908 	/* Wake up threads waiting on config done */
7909 	cv_broadcast(&pptr->port_config_cv);
7910 }
7911 
7912 
7913 /*
7914  * called from fcp_finish_init to create the LUNs for a target
7915  *
7916  * called with the port mutex owned
7917  */
7918 static void
7919 fcp_create_luns(struct fcp_tgt *ptgt, int link_cnt, int tgt_cnt, int cause)
7920 {
7921 	struct fcp_lun	*plun;
7922 	struct fcp_port	*pptr;
7923 	child_info_t		*cip = NULL;
7924 
7925 	ASSERT(ptgt != NULL);
7926 	ASSERT(mutex_owned(&ptgt->tgt_mutex));
7927 
7928 	pptr = ptgt->tgt_port;
7929 
7930 	ASSERT(pptr != NULL);
7931 
7932 	/* scan all LUNs for this target */
7933 	for (plun = ptgt->tgt_lun; plun != NULL; plun = plun->lun_next) {
7934 		if (plun->lun_state & FCP_LUN_OFFLINE) {
7935 			continue;
7936 		}
7937 
7938 		if (plun->lun_state & FCP_LUN_MARK) {
7939 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
7940 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
7941 			    "fcp_create_luns: offlining marked LUN!");
7942 			fcp_offline_lun(plun, link_cnt, tgt_cnt, 1, 0);
7943 			continue;
7944 		}
7945 
7946 		plun->lun_state &= ~FCP_LUN_BUSY;
7947 
7948 		/*
7949 		 * There are conditions in which FCP_LUN_INIT flag is cleared
7950 		 * but we have a valid plun->lun_cip. To cover this case also
7951 		 * CLEAR_BUSY whenever we have a valid lun_cip.
7952 		 */
7953 		if (plun->lun_mpxio && plun->lun_cip &&
7954 		    (!fcp_pass_to_hp(pptr, plun, plun->lun_cip,
7955 		    FCP_MPXIO_PATH_CLEAR_BUSY, link_cnt, tgt_cnt,
7956 		    0, 0))) {
7957 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
7958 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
7959 			    "fcp_create_luns: enable lun %p failed!",
7960 			    plun);
7961 		}
7962 
7963 		if (plun->lun_state & FCP_LUN_INIT &&
7964 		    !(plun->lun_state & FCP_LUN_CHANGED)) {
7965 			continue;
7966 		}
7967 
7968 		if (cause == FCP_CAUSE_USER_CREATE) {
7969 			continue;
7970 		}
7971 
7972 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
7973 		    fcp_trace, FCP_BUF_LEVEL_6, 0,
7974 		    "create_luns: passing ONLINE elem to HP thread");
7975 
7976 		/*
7977 		 * If lun has changed, prepare for offlining the old path.
7978 		 * Do not offline the old path right now, since it may be
7979 		 * still opened.
7980 		 */
7981 		if (plun->lun_cip && (plun->lun_state & FCP_LUN_CHANGED)) {
7982 			fcp_prepare_offline_lun(plun, link_cnt, tgt_cnt);
7983 		}
7984 
7985 		/* pass an ONLINE element to the hotplug thread */
7986 		if (!fcp_pass_to_hp(pptr, plun, cip, FCP_ONLINE,
7987 		    link_cnt, tgt_cnt, NDI_ONLINE_ATTACH, 0)) {
7988 
7989 			/*
7990 			 * We can not synchronous attach (i.e pass
7991 			 * NDI_ONLINE_ATTACH) here as we might be
7992 			 * coming from an interrupt or callback
7993 			 * thread.
7994 			 */
7995 			if (!fcp_pass_to_hp(pptr, plun, cip, FCP_ONLINE,
7996 			    link_cnt, tgt_cnt, 0, 0)) {
7997 				fcp_log(CE_CONT, pptr->port_dip,
7998 				    "Can not ONLINE LUN; D_ID=%x, LUN=%x\n",
7999 				    plun->lun_tgt->tgt_d_id, plun->lun_num);
8000 			}
8001 		}
8002 	}
8003 }
8004 
8005 
8006 /*
8007  * function to online/offline devices
8008  */
8009 static int
8010 fcp_trigger_lun(struct fcp_lun *plun, child_info_t *cip, int old_mpxio,
8011     int online, int lcount, int tcount, int flags)
8012 {
8013 	int			rval = NDI_FAILURE;
8014 	int			circ;
8015 	child_info_t		*ccip;
8016 	struct fcp_port		*pptr = plun->lun_tgt->tgt_port;
8017 	int			is_mpxio = pptr->port_mpxio;
8018 	dev_info_t		*cdip, *pdip;
8019 	char			*devname;
8020 
8021 	if ((old_mpxio != 0) && (plun->lun_mpxio != old_mpxio)) {
8022 		/*
8023 		 * When this event gets serviced, lun_cip and lun_mpxio
8024 		 * has changed, so it should be invalidated now.
8025 		 */
8026 		FCP_TRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
8027 		    FCP_BUF_LEVEL_2, 0, "fcp_trigger_lun: lun_mpxio changed: "
8028 		    "plun: %p, cip: %p, what:%d", plun, cip, online);
8029 		return (rval);
8030 	}
8031 
8032 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
8033 	    fcp_trace, FCP_BUF_LEVEL_2, 0,
8034 	    "fcp_trigger_lun: plun=%p target=%x lun=%d cip=%p what=%x "
8035 	    "flags=%x mpxio=%x\n",
8036 	    plun, LUN_TGT->tgt_d_id, plun->lun_num, cip, online, flags,
8037 	    plun->lun_mpxio);
8038 
8039 	/*
8040 	 * lun_mpxio needs checking here because we can end up in a race
8041 	 * condition where this task has been dispatched while lun_mpxio is
8042 	 * set, but an earlier FCP_ONLINE task for the same LUN tried to
8043 	 * enable MPXIO for the LUN, but was unable to, and hence cleared
8044 	 * the flag. We rely on the serialization of the tasks here. We return
8045 	 * NDI_SUCCESS so any callers continue without reporting spurious
8046 	 * errors, and the still think we're an MPXIO LUN.
8047 	 */
8048 
8049 	if (online == FCP_MPXIO_PATH_CLEAR_BUSY ||
8050 	    online == FCP_MPXIO_PATH_SET_BUSY) {
8051 		if (plun->lun_mpxio) {
8052 			rval = fcp_update_mpxio_path(plun, cip, online);
8053 		} else {
8054 			rval = NDI_SUCCESS;
8055 		}
8056 		return (rval);
8057 	}
8058 
8059 	/*
8060 	 * Explicit devfs_clean() due to ndi_devi_offline() not
8061 	 * executing devfs_clean() if parent lock is held.
8062 	 */
8063 	ASSERT(!servicing_interrupt());
8064 	if (online == FCP_OFFLINE) {
8065 		if (plun->lun_mpxio == 0) {
8066 			if (plun->lun_cip == cip) {
8067 				cdip = DIP(plun->lun_cip);
8068 			} else {
8069 				cdip = DIP(cip);
8070 			}
8071 		} else if ((plun->lun_cip == cip) && plun->lun_cip) {
8072 			cdip = mdi_pi_get_client(PIP(plun->lun_cip));
8073 		} else if ((plun->lun_cip != cip) && cip) {
8074 			/*
8075 			 * This means a DTYPE/GUID change, we shall get the
8076 			 * dip of the old cip instead of the current lun_cip.
8077 			 */
8078 			cdip = mdi_pi_get_client(PIP(cip));
8079 		}
8080 		if (cdip) {
8081 			if (i_ddi_devi_attached(cdip)) {
8082 				pdip = ddi_get_parent(cdip);
8083 				devname = kmem_alloc(MAXNAMELEN + 1, KM_SLEEP);
8084 				ndi_devi_enter(pdip, &circ);
8085 				(void) ddi_deviname(cdip, devname);
8086 				ndi_devi_exit(pdip, circ);
8087 				/*
8088 				 * Release parent lock before calling
8089 				 * devfs_clean().
8090 				 */
8091 				rval = devfs_clean(pdip, devname + 1,
8092 				    DV_CLEAN_FORCE);
8093 				kmem_free(devname, MAXNAMELEN + 1);
8094 				/*
8095 				 * Return if devfs_clean() fails for
8096 				 * non-MPXIO case.
8097 				 * For MPXIO case, another path could be
8098 				 * offlined.
8099 				 */
8100 				if (rval && plun->lun_mpxio == 0) {
8101 					FCP_TRACE(fcp_logq, pptr->port_instbuf,
8102 					    fcp_trace, FCP_BUF_LEVEL_3, 0,
8103 					    "fcp_trigger_lun: devfs_clean "
8104 					    "failed rval=%x  dip=%p",
8105 					    rval, pdip);
8106 					return (NDI_FAILURE);
8107 				}
8108 			}
8109 		}
8110 	}
8111 
8112 	if (fc_ulp_busy_port(pptr->port_fp_handle) != 0) {
8113 		return (NDI_FAILURE);
8114 	}
8115 
8116 	if (is_mpxio) {
8117 		mdi_devi_enter(pptr->port_dip, &circ);
8118 	} else {
8119 		ndi_devi_enter(pptr->port_dip, &circ);
8120 	}
8121 
8122 	mutex_enter(&pptr->port_mutex);
8123 	mutex_enter(&plun->lun_mutex);
8124 
8125 	if (online == FCP_ONLINE) {
8126 		ccip = fcp_get_cip(plun, cip, lcount, tcount);
8127 		if (ccip == NULL) {
8128 			goto fail;
8129 		}
8130 	} else {
8131 		if (fcp_is_child_present(plun, cip) != FC_SUCCESS) {
8132 			goto fail;
8133 		}
8134 		ccip = cip;
8135 	}
8136 
8137 	if (online == FCP_ONLINE) {
8138 		rval = fcp_online_child(plun, ccip, lcount, tcount, flags,
8139 		    &circ);
8140 		fc_ulp_log_device_event(pptr->port_fp_handle,
8141 		    FC_ULP_DEVICE_ONLINE);
8142 	} else {
8143 		rval = fcp_offline_child(plun, ccip, lcount, tcount, flags,
8144 		    &circ);
8145 		fc_ulp_log_device_event(pptr->port_fp_handle,
8146 		    FC_ULP_DEVICE_OFFLINE);
8147 	}
8148 
8149 fail:	mutex_exit(&plun->lun_mutex);
8150 	mutex_exit(&pptr->port_mutex);
8151 
8152 	if (is_mpxio) {
8153 		mdi_devi_exit(pptr->port_dip, circ);
8154 	} else {
8155 		ndi_devi_exit(pptr->port_dip, circ);
8156 	}
8157 
8158 	fc_ulp_idle_port(pptr->port_fp_handle);
8159 
8160 	return (rval);
8161 }
8162 
8163 
8164 /*
8165  * take a target offline by taking all of its LUNs offline
8166  */
8167 /*ARGSUSED*/
8168 static int
8169 fcp_offline_target(struct fcp_port *pptr, struct fcp_tgt *ptgt,
8170     int link_cnt, int tgt_cnt, int nowait, int flags)
8171 {
8172 	struct fcp_tgt_elem	*elem;
8173 
8174 	ASSERT(mutex_owned(&pptr->port_mutex));
8175 	ASSERT(mutex_owned(&ptgt->tgt_mutex));
8176 
8177 	ASSERT(!(ptgt->tgt_state & FCP_TGT_OFFLINE));
8178 
8179 	if (link_cnt != pptr->port_link_cnt || (tgt_cnt && tgt_cnt !=
8180 	    ptgt->tgt_change_cnt)) {
8181 		mutex_exit(&ptgt->tgt_mutex);
8182 		FCP_TGT_TRACE(ptgt, tgt_cnt, FCP_TGT_TRACE_25);
8183 		mutex_enter(&ptgt->tgt_mutex);
8184 
8185 		return (0);
8186 	}
8187 
8188 	ptgt->tgt_pd_handle = NULL;
8189 	mutex_exit(&ptgt->tgt_mutex);
8190 	FCP_TGT_TRACE(ptgt, tgt_cnt, FCP_TGT_TRACE_26);
8191 	mutex_enter(&ptgt->tgt_mutex);
8192 
8193 	tgt_cnt = tgt_cnt ? tgt_cnt : ptgt->tgt_change_cnt;
8194 
8195 	if (ptgt->tgt_tcap &&
8196 	    (elem = kmem_zalloc(sizeof (*elem), KM_NOSLEEP)) != NULL) {
8197 		elem->flags = flags;
8198 		elem->time = fcp_watchdog_time;
8199 		if (nowait == 0) {
8200 			elem->time += fcp_offline_delay;
8201 		}
8202 		elem->ptgt = ptgt;
8203 		elem->link_cnt = link_cnt;
8204 		elem->tgt_cnt = tgt_cnt;
8205 		elem->next = pptr->port_offline_tgts;
8206 		pptr->port_offline_tgts = elem;
8207 	} else {
8208 		fcp_offline_target_now(pptr, ptgt, link_cnt, tgt_cnt, flags);
8209 	}
8210 
8211 	return (1);
8212 }
8213 
8214 
8215 static void
8216 fcp_offline_target_now(struct fcp_port *pptr, struct fcp_tgt *ptgt,
8217     int link_cnt, int tgt_cnt, int flags)
8218 {
8219 	ASSERT(mutex_owned(&pptr->port_mutex));
8220 	ASSERT(mutex_owned(&ptgt->tgt_mutex));
8221 
8222 	fc_ulp_enable_relogin(pptr->port_fp_handle, &ptgt->tgt_port_wwn);
8223 	ptgt->tgt_state = FCP_TGT_OFFLINE;
8224 	ptgt->tgt_pd_handle = NULL;
8225 	fcp_offline_tgt_luns(ptgt, link_cnt, tgt_cnt, flags);
8226 }
8227 
8228 
8229 static void
8230 fcp_offline_tgt_luns(struct fcp_tgt *ptgt, int link_cnt, int tgt_cnt,
8231     int flags)
8232 {
8233 	struct	fcp_lun	*plun;
8234 
8235 	ASSERT(mutex_owned(&ptgt->tgt_port->port_mutex));
8236 	ASSERT(mutex_owned(&ptgt->tgt_mutex));
8237 
8238 	for (plun = ptgt->tgt_lun; plun != NULL; plun = plun->lun_next) {
8239 		if (!(plun->lun_state & FCP_LUN_OFFLINE)) {
8240 			fcp_offline_lun(plun, link_cnt, tgt_cnt, 1, flags);
8241 		}
8242 	}
8243 }
8244 
8245 
8246 /*
8247  * take a LUN offline
8248  *
8249  * enters and leaves with the target mutex held, releasing it in the process
8250  *
8251  * allocates memory in non-sleep mode
8252  */
8253 static void
8254 fcp_offline_lun(struct fcp_lun *plun, int link_cnt, int tgt_cnt,
8255     int nowait, int flags)
8256 {
8257 	struct fcp_port	*pptr = plun->lun_tgt->tgt_port;
8258 	struct fcp_lun_elem	*elem;
8259 
8260 	ASSERT(plun != NULL);
8261 	ASSERT(mutex_owned(&LUN_TGT->tgt_mutex));
8262 
8263 	if (nowait) {
8264 		fcp_offline_lun_now(plun, link_cnt, tgt_cnt, flags);
8265 		return;
8266 	}
8267 
8268 	if ((elem = kmem_zalloc(sizeof (*elem), KM_NOSLEEP)) != NULL) {
8269 		elem->flags = flags;
8270 		elem->time = fcp_watchdog_time;
8271 		if (nowait == 0) {
8272 			elem->time += fcp_offline_delay;
8273 		}
8274 		elem->plun = plun;
8275 		elem->link_cnt = link_cnt;
8276 		elem->tgt_cnt = plun->lun_tgt->tgt_change_cnt;
8277 		elem->next = pptr->port_offline_luns;
8278 		pptr->port_offline_luns = elem;
8279 	} else {
8280 		fcp_offline_lun_now(plun, link_cnt, tgt_cnt, flags);
8281 	}
8282 }
8283 
8284 
8285 static void
8286 fcp_prepare_offline_lun(struct fcp_lun *plun, int link_cnt, int tgt_cnt)
8287 {
8288 	struct fcp_pkt	*head = NULL;
8289 
8290 	ASSERT(mutex_owned(&LUN_TGT->tgt_mutex));
8291 
8292 	mutex_exit(&LUN_TGT->tgt_mutex);
8293 
8294 	head = fcp_scan_commands(plun);
8295 	if (head != NULL) {
8296 		fcp_abort_commands(head, LUN_PORT);
8297 	}
8298 
8299 	mutex_enter(&LUN_TGT->tgt_mutex);
8300 
8301 	if (plun->lun_cip && plun->lun_mpxio) {
8302 		/*
8303 		 * Intimate MPxIO lun busy is cleared
8304 		 */
8305 		if (!fcp_pass_to_hp(LUN_PORT, plun, plun->lun_cip,
8306 		    FCP_MPXIO_PATH_CLEAR_BUSY, link_cnt, tgt_cnt,
8307 		    0, 0)) {
8308 			fcp_log(CE_NOTE, LUN_PORT->port_dip,
8309 			    "Can not ENABLE LUN; D_ID=%x, LUN=%x",
8310 			    LUN_TGT->tgt_d_id, plun->lun_num);
8311 		}
8312 		/*
8313 		 * Intimate MPxIO that the lun is now marked for offline
8314 		 */
8315 		mutex_exit(&LUN_TGT->tgt_mutex);
8316 		(void) mdi_pi_disable_path(PIP(plun->lun_cip), DRIVER_DISABLE);
8317 		mutex_enter(&LUN_TGT->tgt_mutex);
8318 	}
8319 }
8320 
8321 static void
8322 fcp_offline_lun_now(struct fcp_lun *plun, int link_cnt, int tgt_cnt,
8323     int flags)
8324 {
8325 	ASSERT(mutex_owned(&LUN_TGT->tgt_mutex));
8326 
8327 	mutex_exit(&LUN_TGT->tgt_mutex);
8328 	fcp_update_offline_flags(plun);
8329 	mutex_enter(&LUN_TGT->tgt_mutex);
8330 
8331 	fcp_prepare_offline_lun(plun, link_cnt, tgt_cnt);
8332 
8333 	FCP_TRACE(fcp_logq, LUN_PORT->port_instbuf,
8334 	    fcp_trace, FCP_BUF_LEVEL_4, 0,
8335 	    "offline_lun: passing OFFLINE elem to HP thread");
8336 
8337 	if (plun->lun_cip) {
8338 		fcp_log(CE_NOTE, LUN_PORT->port_dip,
8339 		    "!offlining lun=%x (trace=%x), target=%x (trace=%x)",
8340 		    plun->lun_num, plun->lun_trace, LUN_TGT->tgt_d_id,
8341 		    LUN_TGT->tgt_trace);
8342 
8343 		if (!fcp_pass_to_hp(LUN_PORT, plun, plun->lun_cip, FCP_OFFLINE,
8344 		    link_cnt, tgt_cnt, flags, 0)) {
8345 			fcp_log(CE_CONT, LUN_PORT->port_dip,
8346 			    "Can not OFFLINE LUN; D_ID=%x, LUN=%x\n",
8347 			    LUN_TGT->tgt_d_id, plun->lun_num);
8348 		}
8349 	}
8350 }
8351 
8352 static void
8353 fcp_scan_offline_luns(struct fcp_port *pptr)
8354 {
8355 	struct fcp_lun_elem	*elem;
8356 	struct fcp_lun_elem	*prev;
8357 	struct fcp_lun_elem	*next;
8358 
8359 	ASSERT(MUTEX_HELD(&pptr->port_mutex));
8360 
8361 	prev = NULL;
8362 	elem = pptr->port_offline_luns;
8363 	while (elem) {
8364 		next = elem->next;
8365 		if (elem->time <= fcp_watchdog_time) {
8366 			int			changed = 1;
8367 			struct fcp_tgt	*ptgt = elem->plun->lun_tgt;
8368 
8369 			mutex_enter(&ptgt->tgt_mutex);
8370 			if (pptr->port_link_cnt == elem->link_cnt &&
8371 			    ptgt->tgt_change_cnt == elem->tgt_cnt) {
8372 				changed = 0;
8373 			}
8374 
8375 			if (!changed &&
8376 			    !(elem->plun->lun_state & FCP_TGT_OFFLINE)) {
8377 				fcp_offline_lun_now(elem->plun,
8378 				    elem->link_cnt, elem->tgt_cnt, elem->flags);
8379 			}
8380 			mutex_exit(&ptgt->tgt_mutex);
8381 
8382 			kmem_free(elem, sizeof (*elem));
8383 
8384 			if (prev) {
8385 				prev->next = next;
8386 			} else {
8387 				pptr->port_offline_luns = next;
8388 			}
8389 		} else {
8390 			prev = elem;
8391 		}
8392 		elem = next;
8393 	}
8394 }
8395 
8396 
8397 static void
8398 fcp_scan_offline_tgts(struct fcp_port *pptr)
8399 {
8400 	struct fcp_tgt_elem	*elem;
8401 	struct fcp_tgt_elem	*prev;
8402 	struct fcp_tgt_elem	*next;
8403 
8404 	ASSERT(MUTEX_HELD(&pptr->port_mutex));
8405 
8406 	prev = NULL;
8407 	elem = pptr->port_offline_tgts;
8408 	while (elem) {
8409 		next = elem->next;
8410 		if (elem->time <= fcp_watchdog_time) {
8411 			int			changed = 1;
8412 			struct fcp_tgt	*ptgt = elem->ptgt;
8413 
8414 			if (ptgt->tgt_change_cnt == elem->tgt_cnt) {
8415 				changed = 0;
8416 			}
8417 
8418 			mutex_enter(&ptgt->tgt_mutex);
8419 			if (!changed && !(ptgt->tgt_state &
8420 			    FCP_TGT_OFFLINE)) {
8421 				fcp_offline_target_now(pptr,
8422 				    ptgt, elem->link_cnt, elem->tgt_cnt,
8423 				    elem->flags);
8424 			}
8425 			mutex_exit(&ptgt->tgt_mutex);
8426 
8427 			kmem_free(elem, sizeof (*elem));
8428 
8429 			if (prev) {
8430 				prev->next = next;
8431 			} else {
8432 				pptr->port_offline_tgts = next;
8433 			}
8434 		} else {
8435 			prev = elem;
8436 		}
8437 		elem = next;
8438 	}
8439 }
8440 
8441 
8442 static void
8443 fcp_update_offline_flags(struct fcp_lun *plun)
8444 {
8445 	struct fcp_port	*pptr = LUN_PORT;
8446 	ASSERT(plun != NULL);
8447 
8448 	mutex_enter(&LUN_TGT->tgt_mutex);
8449 	plun->lun_state |= FCP_LUN_OFFLINE;
8450 	plun->lun_state &= ~(FCP_LUN_INIT | FCP_LUN_BUSY | FCP_LUN_MARK);
8451 
8452 	mutex_enter(&plun->lun_mutex);
8453 	if (plun->lun_cip && plun->lun_state & FCP_SCSI_LUN_TGT_INIT) {
8454 		dev_info_t *cdip = NULL;
8455 
8456 		mutex_exit(&LUN_TGT->tgt_mutex);
8457 
8458 		if (plun->lun_mpxio == 0) {
8459 			cdip = DIP(plun->lun_cip);
8460 		} else if (plun->lun_cip) {
8461 			cdip = mdi_pi_get_client(PIP(plun->lun_cip));
8462 		}
8463 
8464 		mutex_exit(&plun->lun_mutex);
8465 		if (cdip) {
8466 			(void) ndi_event_retrieve_cookie(
8467 			    pptr->port_ndi_event_hdl, cdip, FCAL_REMOVE_EVENT,
8468 			    &fcp_remove_eid, NDI_EVENT_NOPASS);
8469 			(void) ndi_event_run_callbacks(
8470 			    pptr->port_ndi_event_hdl, cdip,
8471 			    fcp_remove_eid, NULL);
8472 		}
8473 	} else {
8474 		mutex_exit(&plun->lun_mutex);
8475 		mutex_exit(&LUN_TGT->tgt_mutex);
8476 	}
8477 }
8478 
8479 
8480 /*
8481  * Scan all of the command pkts for this port, moving pkts that
8482  * match our LUN onto our own list (headed by "head")
8483  */
8484 static struct fcp_pkt *
8485 fcp_scan_commands(struct fcp_lun *plun)
8486 {
8487 	struct fcp_port	*pptr = LUN_PORT;
8488 
8489 	struct fcp_pkt	*cmd = NULL;	/* pkt cmd ptr */
8490 	struct fcp_pkt	*ncmd = NULL;	/* next pkt ptr */
8491 	struct fcp_pkt	*pcmd = NULL;	/* the previous command */
8492 
8493 	struct fcp_pkt	*head = NULL;	/* head of our list */
8494 	struct fcp_pkt	*tail = NULL;	/* tail of our list */
8495 
8496 	int			cmds_found = 0;
8497 
8498 	mutex_enter(&pptr->port_pkt_mutex);
8499 	for (cmd = pptr->port_pkt_head; cmd != NULL; cmd = ncmd) {
8500 		struct fcp_lun *tlun =
8501 		    ADDR2LUN(&cmd->cmd_pkt->pkt_address);
8502 
8503 		ncmd = cmd->cmd_next;	/* set next command */
8504 
8505 		/*
8506 		 * if this pkt is for a different LUN  or the
8507 		 * command is sent down, skip it.
8508 		 */
8509 		if (tlun != plun || cmd->cmd_state == FCP_PKT_ISSUED ||
8510 		    (cmd->cmd_pkt->pkt_flags & FLAG_NOINTR)) {
8511 			pcmd = cmd;
8512 			continue;
8513 		}
8514 		cmds_found++;
8515 		if (pcmd != NULL) {
8516 			ASSERT(pptr->port_pkt_head != cmd);
8517 			pcmd->cmd_next = cmd->cmd_next;
8518 		} else {
8519 			ASSERT(cmd == pptr->port_pkt_head);
8520 			pptr->port_pkt_head = cmd->cmd_next;
8521 		}
8522 
8523 		if (cmd == pptr->port_pkt_tail) {
8524 			pptr->port_pkt_tail = pcmd;
8525 			if (pcmd) {
8526 				pcmd->cmd_next = NULL;
8527 			}
8528 		}
8529 
8530 		if (head == NULL) {
8531 			head = tail = cmd;
8532 		} else {
8533 			ASSERT(tail != NULL);
8534 
8535 			tail->cmd_next = cmd;
8536 			tail = cmd;
8537 		}
8538 		cmd->cmd_next = NULL;
8539 	}
8540 	mutex_exit(&pptr->port_pkt_mutex);
8541 
8542 	FCP_DTRACE(fcp_logq, pptr->port_instbuf,
8543 	    fcp_trace, FCP_BUF_LEVEL_8, 0,
8544 	    "scan commands: %d cmd(s) found", cmds_found);
8545 
8546 	return (head);
8547 }
8548 
8549 
8550 /*
8551  * Abort all the commands in the command queue
8552  */
8553 static void
8554 fcp_abort_commands(struct fcp_pkt *head, struct fcp_port *pptr)
8555 {
8556 	struct fcp_pkt	*cmd = NULL;	/* pkt cmd ptr */
8557 	struct	fcp_pkt	*ncmd = NULL;	/* next pkt ptr */
8558 
8559 	ASSERT(mutex_owned(&pptr->port_mutex));
8560 
8561 	/* scan through the pkts and invalid them */
8562 	for (cmd = head; cmd != NULL; cmd = ncmd) {
8563 		struct scsi_pkt *pkt = cmd->cmd_pkt;
8564 
8565 		ncmd = cmd->cmd_next;
8566 		ASSERT(pkt != NULL);
8567 
8568 		/*
8569 		 * The lun is going to be marked offline. Indicate
8570 		 * the target driver not to requeue or retry this command
8571 		 * as the device is going to be offlined pretty soon.
8572 		 */
8573 		pkt->pkt_reason = CMD_DEV_GONE;
8574 		pkt->pkt_statistics = 0;
8575 		pkt->pkt_state = 0;
8576 
8577 		/* reset cmd flags/state */
8578 		cmd->cmd_flags &= ~CFLAG_IN_QUEUE;
8579 		cmd->cmd_state = FCP_PKT_IDLE;
8580 
8581 		/*
8582 		 * ensure we have a packet completion routine,
8583 		 * then call it.
8584 		 */
8585 		ASSERT(pkt->pkt_comp != NULL);
8586 
8587 		mutex_exit(&pptr->port_mutex);
8588 		fcp_post_callback(cmd);
8589 		mutex_enter(&pptr->port_mutex);
8590 	}
8591 }
8592 
8593 
8594 /*
8595  * the pkt_comp callback for command packets
8596  */
8597 static void
8598 fcp_cmd_callback(fc_packet_t *fpkt)
8599 {
8600 	struct fcp_pkt *cmd = (struct fcp_pkt *)fpkt->pkt_ulp_private;
8601 	struct scsi_pkt *pkt = cmd->cmd_pkt;
8602 	struct fcp_port *pptr = ADDR2FCP(&pkt->pkt_address);
8603 
8604 	ASSERT(cmd->cmd_state != FCP_PKT_IDLE);
8605 
8606 	if (cmd->cmd_state == FCP_PKT_IDLE) {
8607 		cmn_err(CE_PANIC, "Packet already completed %p",
8608 		    (void *)cmd);
8609 	}
8610 
8611 	/*
8612 	 * Watch thread should be freeing the packet, ignore the pkt.
8613 	 */
8614 	if (cmd->cmd_state == FCP_PKT_ABORTING) {
8615 		fcp_log(CE_CONT, pptr->port_dip,
8616 		    "!FCP: Pkt completed while aborting\n");
8617 		return;
8618 	}
8619 	cmd->cmd_state = FCP_PKT_IDLE;
8620 
8621 	fcp_complete_pkt(fpkt);
8622 
8623 #ifdef	DEBUG
8624 	mutex_enter(&pptr->port_pkt_mutex);
8625 	pptr->port_npkts--;
8626 	mutex_exit(&pptr->port_pkt_mutex);
8627 #endif /* DEBUG */
8628 
8629 	fcp_post_callback(cmd);
8630 }
8631 
8632 
8633 static void
8634 fcp_complete_pkt(fc_packet_t *fpkt)
8635 {
8636 	int			error = 0;
8637 	struct fcp_pkt	*cmd = (struct fcp_pkt *)
8638 	    fpkt->pkt_ulp_private;
8639 	struct scsi_pkt		*pkt = cmd->cmd_pkt;
8640 	struct fcp_port		*pptr = ADDR2FCP(&pkt->pkt_address);
8641 	struct fcp_lun	*plun;
8642 	struct fcp_tgt	*ptgt;
8643 	struct fcp_rsp		*rsp;
8644 	struct scsi_address	save;
8645 
8646 #ifdef	DEBUG
8647 	save = pkt->pkt_address;
8648 #endif /* DEBUG */
8649 
8650 	rsp = (struct fcp_rsp *)cmd->cmd_fcp_rsp;
8651 
8652 	if (fpkt->pkt_state == FC_PKT_SUCCESS) {
8653 		if (pptr->port_fcp_dma != FC_NO_DVMA_SPACE) {
8654 			FCP_CP_IN(fpkt->pkt_resp, rsp, fpkt->pkt_resp_acc,
8655 			    sizeof (struct fcp_rsp));
8656 		}
8657 
8658 		pkt->pkt_state = STATE_GOT_BUS | STATE_GOT_TARGET |
8659 		    STATE_SENT_CMD | STATE_GOT_STATUS;
8660 
8661 		pkt->pkt_resid = 0;
8662 
8663 		if (cmd->cmd_pkt->pkt_numcookies) {
8664 			pkt->pkt_state |= STATE_XFERRED_DATA;
8665 			if (fpkt->pkt_data_resid) {
8666 				error++;
8667 			}
8668 		}
8669 
8670 		if ((pkt->pkt_scbp != NULL) && ((*(pkt->pkt_scbp) =
8671 		    rsp->fcp_u.fcp_status.scsi_status) != STATUS_GOOD)) {
8672 			/*
8673 			 * The next two checks make sure that if there
8674 			 * is no sense data or a valid response and
8675 			 * the command came back with check condition,
8676 			 * the command should be retried.
8677 			 */
8678 			if (!rsp->fcp_u.fcp_status.rsp_len_set &&
8679 			    !rsp->fcp_u.fcp_status.sense_len_set) {
8680 				pkt->pkt_state &= ~STATE_XFERRED_DATA;
8681 				pkt->pkt_resid = cmd->cmd_dmacount;
8682 			}
8683 		}
8684 
8685 		if ((error | rsp->fcp_u.i_fcp_status | rsp->fcp_resid) == 0) {
8686 			return;
8687 		}
8688 
8689 		plun = ADDR2LUN(&pkt->pkt_address);
8690 		ptgt = plun->lun_tgt;
8691 		ASSERT(ptgt != NULL);
8692 
8693 		/*
8694 		 * Update the transfer resid, if appropriate
8695 		 */
8696 		if (rsp->fcp_u.fcp_status.resid_over ||
8697 		    rsp->fcp_u.fcp_status.resid_under) {
8698 			pkt->pkt_resid = rsp->fcp_resid;
8699 		}
8700 
8701 		/*
8702 		 * First see if we got a FCP protocol error.
8703 		 */
8704 		if (rsp->fcp_u.fcp_status.rsp_len_set) {
8705 			struct fcp_rsp_info	*bep;
8706 			bep = (struct fcp_rsp_info *)(cmd->cmd_fcp_rsp +
8707 			    sizeof (struct fcp_rsp));
8708 
8709 			if (fcp_validate_fcp_response(rsp, pptr) !=
8710 			    FC_SUCCESS) {
8711 				pkt->pkt_reason = CMD_CMPLT;
8712 				*(pkt->pkt_scbp) = STATUS_CHECK;
8713 
8714 				fcp_log(CE_WARN, pptr->port_dip,
8715 				    "!SCSI command to d_id=0x%x lun=0x%x"
8716 				    " failed, Bad FCP response values:"
8717 				    " rsvd1=%x, rsvd2=%x, sts-rsvd1=%x,"
8718 				    " sts-rsvd2=%x, rsplen=%x, senselen=%x",
8719 				    ptgt->tgt_d_id, plun->lun_num,
8720 				    rsp->reserved_0, rsp->reserved_1,
8721 				    rsp->fcp_u.fcp_status.reserved_0,
8722 				    rsp->fcp_u.fcp_status.reserved_1,
8723 				    rsp->fcp_response_len, rsp->fcp_sense_len);
8724 
8725 				return;
8726 			}
8727 
8728 			if (pptr->port_fcp_dma != FC_NO_DVMA_SPACE) {
8729 				FCP_CP_IN(fpkt->pkt_resp +
8730 				    sizeof (struct fcp_rsp), bep,
8731 				    fpkt->pkt_resp_acc,
8732 				    sizeof (struct fcp_rsp_info));
8733 			}
8734 
8735 			if (bep->rsp_code != FCP_NO_FAILURE) {
8736 				child_info_t	*cip;
8737 
8738 				pkt->pkt_reason = CMD_TRAN_ERR;
8739 
8740 				mutex_enter(&plun->lun_mutex);
8741 				cip = plun->lun_cip;
8742 				mutex_exit(&plun->lun_mutex);
8743 
8744 				FCP_TRACE(fcp_logq, pptr->port_instbuf,
8745 				    fcp_trace, FCP_BUF_LEVEL_2, 0,
8746 				    "FCP response error on cmd=%p"
8747 				    " target=0x%x, cip=%p", cmd,
8748 				    ptgt->tgt_d_id, cip);
8749 			}
8750 		}
8751 
8752 		/*
8753 		 * See if we got a SCSI error with sense data
8754 		 */
8755 		if (rsp->fcp_u.fcp_status.sense_len_set) {
8756 			uchar_t				rqlen;
8757 			caddr_t				sense_from;
8758 			child_info_t			*cip;
8759 			timeout_id_t			tid;
8760 			struct scsi_arq_status		*arq;
8761 			struct scsi_extended_sense	*sense_to;
8762 
8763 			arq = (struct scsi_arq_status *)pkt->pkt_scbp;
8764 			sense_to = &arq->sts_sensedata;
8765 
8766 			rqlen = (uchar_t)min(rsp->fcp_sense_len,
8767 			    sizeof (struct scsi_extended_sense));
8768 
8769 			sense_from = (caddr_t)fpkt->pkt_resp +
8770 			    sizeof (struct fcp_rsp) + rsp->fcp_response_len;
8771 
8772 			if (fcp_validate_fcp_response(rsp, pptr) !=
8773 			    FC_SUCCESS) {
8774 				pkt->pkt_reason = CMD_CMPLT;
8775 				*(pkt->pkt_scbp) = STATUS_CHECK;
8776 
8777 				fcp_log(CE_WARN, pptr->port_dip,
8778 				    "!SCSI command to d_id=0x%x lun=0x%x"
8779 				    " failed, Bad FCP response values:"
8780 				    " rsvd1=%x, rsvd2=%x, sts-rsvd1=%x,"
8781 				    " sts-rsvd2=%x, rsplen=%x, senselen=%x",
8782 				    ptgt->tgt_d_id, plun->lun_num,
8783 				    rsp->reserved_0, rsp->reserved_1,
8784 				    rsp->fcp_u.fcp_status.reserved_0,
8785 				    rsp->fcp_u.fcp_status.reserved_1,
8786 				    rsp->fcp_response_len, rsp->fcp_sense_len);
8787 
8788 				return;
8789 			}
8790 
8791 			/*
8792 			 * copy in sense information
8793 			 */
8794 			if (pptr->port_fcp_dma != FC_NO_DVMA_SPACE) {
8795 				FCP_CP_IN(sense_from, sense_to,
8796 				    fpkt->pkt_resp_acc, rqlen);
8797 			} else {
8798 				bcopy(sense_from, sense_to, rqlen);
8799 			}
8800 
8801 			if ((FCP_SENSE_REPORTLUN_CHANGED(sense_to)) ||
8802 			    (FCP_SENSE_NO_LUN(sense_to))) {
8803 				mutex_enter(&ptgt->tgt_mutex);
8804 				if (ptgt->tgt_tid == NULL) {
8805 					/*
8806 					 * Kick off rediscovery
8807 					 */
8808 					tid = timeout(fcp_reconfigure_luns,
8809 					    (caddr_t)ptgt, drv_usectohz(1));
8810 
8811 					ptgt->tgt_tid = tid;
8812 					ptgt->tgt_state |= FCP_TGT_BUSY;
8813 				}
8814 				mutex_exit(&ptgt->tgt_mutex);
8815 				if (FCP_SENSE_REPORTLUN_CHANGED(sense_to)) {
8816 					FCP_TRACE(fcp_logq, pptr->port_instbuf,
8817 					    fcp_trace, FCP_BUF_LEVEL_3, 0,
8818 					    "!FCP: Report Lun Has Changed"
8819 					    " target=%x", ptgt->tgt_d_id);
8820 				} else if (FCP_SENSE_NO_LUN(sense_to)) {
8821 					FCP_TRACE(fcp_logq, pptr->port_instbuf,
8822 					    fcp_trace, FCP_BUF_LEVEL_3, 0,
8823 					    "!FCP: LU Not Supported"
8824 					    " target=%x", ptgt->tgt_d_id);
8825 				}
8826 			}
8827 			ASSERT(pkt->pkt_scbp != NULL);
8828 
8829 			pkt->pkt_state |= STATE_ARQ_DONE;
8830 
8831 			arq->sts_rqpkt_resid = SENSE_LENGTH - rqlen;
8832 
8833 			*((uchar_t *)&arq->sts_rqpkt_status) = STATUS_GOOD;
8834 			arq->sts_rqpkt_reason = 0;
8835 			arq->sts_rqpkt_statistics = 0;
8836 
8837 			arq->sts_rqpkt_state = STATE_GOT_BUS |
8838 			    STATE_GOT_TARGET | STATE_SENT_CMD |
8839 			    STATE_GOT_STATUS | STATE_ARQ_DONE |
8840 			    STATE_XFERRED_DATA;
8841 
8842 			mutex_enter(&plun->lun_mutex);
8843 			cip = plun->lun_cip;
8844 			mutex_exit(&plun->lun_mutex);
8845 
8846 			FCP_DTRACE(fcp_logq, pptr->port_instbuf,
8847 			    fcp_trace, FCP_BUF_LEVEL_8, 0,
8848 			    "SCSI Check condition on cmd=%p target=0x%x"
8849 			    " LUN=%p, cmd=%x SCSI status=%x, es key=%x"
8850 			    " ASC=%x ASCQ=%x", cmd, ptgt->tgt_d_id, cip,
8851 			    cmd->cmd_fcp_cmd.fcp_cdb[0],
8852 			    rsp->fcp_u.fcp_status.scsi_status,
8853 			    sense_to->es_key, sense_to->es_add_code,
8854 			    sense_to->es_qual_code);
8855 		}
8856 	} else {
8857 		plun = ADDR2LUN(&pkt->pkt_address);
8858 		ptgt = plun->lun_tgt;
8859 		ASSERT(ptgt != NULL);
8860 
8861 		/*
8862 		 * Work harder to translate errors into target driver
8863 		 * understandable ones. Note with despair that the target
8864 		 * drivers don't decode pkt_state and pkt_reason exhaustively
8865 		 * They resort to using the big hammer most often, which
8866 		 * may not get fixed in the life time of this driver.
8867 		 */
8868 		pkt->pkt_state = 0;
8869 		pkt->pkt_statistics = 0;
8870 
8871 		switch (fpkt->pkt_state) {
8872 		case FC_PKT_TRAN_ERROR:
8873 			switch (fpkt->pkt_reason) {
8874 			case FC_REASON_OVERRUN:
8875 				pkt->pkt_reason = CMD_CMD_OVR;
8876 				pkt->pkt_statistics |= STAT_ABORTED;
8877 				break;
8878 
8879 			case FC_REASON_XCHG_BSY: {
8880 				caddr_t ptr;
8881 
8882 				pkt->pkt_reason = CMD_CMPLT;	/* Lie */
8883 
8884 				ptr = (caddr_t)pkt->pkt_scbp;
8885 				if (ptr) {
8886 					*ptr = STATUS_BUSY;
8887 				}
8888 				break;
8889 			}
8890 
8891 			case FC_REASON_ABORTED:
8892 				pkt->pkt_reason = CMD_TRAN_ERR;
8893 				pkt->pkt_statistics |= STAT_ABORTED;
8894 				break;
8895 
8896 			case FC_REASON_ABORT_FAILED:
8897 				pkt->pkt_reason = CMD_ABORT_FAIL;
8898 				break;
8899 
8900 			case FC_REASON_NO_SEQ_INIT:
8901 			case FC_REASON_CRC_ERROR:
8902 				pkt->pkt_reason = CMD_TRAN_ERR;
8903 				pkt->pkt_statistics |= STAT_ABORTED;
8904 				break;
8905 			default:
8906 				pkt->pkt_reason = CMD_TRAN_ERR;
8907 				break;
8908 			}
8909 			break;
8910 
8911 		case FC_PKT_PORT_OFFLINE: {
8912 			dev_info_t	*cdip = NULL;
8913 			caddr_t		ptr;
8914 
8915 			if (fpkt->pkt_reason == FC_REASON_LOGIN_REQUIRED) {
8916 				FCP_DTRACE(fcp_logq, pptr->port_instbuf,
8917 				    fcp_trace, FCP_BUF_LEVEL_8, 0,
8918 				    "SCSI cmd; LOGIN REQUIRED from FCA for %x",
8919 				    ptgt->tgt_d_id);
8920 			}
8921 
8922 			mutex_enter(&plun->lun_mutex);
8923 			if (plun->lun_mpxio == 0) {
8924 				cdip = DIP(plun->lun_cip);
8925 			} else if (plun->lun_cip) {
8926 				cdip = mdi_pi_get_client(PIP(plun->lun_cip));
8927 			}
8928 
8929 			mutex_exit(&plun->lun_mutex);
8930 
8931 			if (cdip) {
8932 				(void) ndi_event_retrieve_cookie(
8933 				    pptr->port_ndi_event_hdl, cdip,
8934 				    FCAL_REMOVE_EVENT, &fcp_remove_eid,
8935 				    NDI_EVENT_NOPASS);
8936 				(void) ndi_event_run_callbacks(
8937 				    pptr->port_ndi_event_hdl, cdip,
8938 				    fcp_remove_eid, NULL);
8939 			}
8940 
8941 			/*
8942 			 * If the link goes off-line for a lip,
8943 			 * this will cause a error to the ST SG
8944 			 * SGEN drivers. By setting BUSY we will
8945 			 * give the drivers the chance to retry
8946 			 * before it blows of the job. ST will
8947 			 * remember how many times it has retried.
8948 			 */
8949 
8950 			if ((plun->lun_type == DTYPE_SEQUENTIAL) ||
8951 			    (plun->lun_type == DTYPE_CHANGER)) {
8952 				pkt->pkt_reason = CMD_CMPLT;	/* Lie */
8953 				ptr = (caddr_t)pkt->pkt_scbp;
8954 				if (ptr) {
8955 					*ptr = STATUS_BUSY;
8956 				}
8957 			} else {
8958 				pkt->pkt_reason = CMD_TRAN_ERR;
8959 				pkt->pkt_statistics |= STAT_BUS_RESET;
8960 			}
8961 			break;
8962 		}
8963 
8964 		case FC_PKT_TRAN_BSY:
8965 			/*
8966 			 * Use the ssd Qfull handling here.
8967 			 */
8968 			*pkt->pkt_scbp = STATUS_INTERMEDIATE;
8969 			pkt->pkt_state = STATE_GOT_BUS;
8970 			break;
8971 
8972 		case FC_PKT_TIMEOUT:
8973 			pkt->pkt_reason = CMD_TIMEOUT;
8974 			if (fpkt->pkt_reason == FC_REASON_ABORT_FAILED) {
8975 				pkt->pkt_statistics |= STAT_TIMEOUT;
8976 			} else {
8977 				pkt->pkt_statistics |= STAT_ABORTED;
8978 			}
8979 			break;
8980 
8981 		case FC_PKT_LOCAL_RJT:
8982 			switch (fpkt->pkt_reason) {
8983 			case FC_REASON_OFFLINE: {
8984 				dev_info_t	*cdip = NULL;
8985 
8986 				mutex_enter(&plun->lun_mutex);
8987 				if (plun->lun_mpxio == 0) {
8988 					cdip = DIP(plun->lun_cip);
8989 				} else if (plun->lun_cip) {
8990 					cdip = mdi_pi_get_client(
8991 					    PIP(plun->lun_cip));
8992 				}
8993 				mutex_exit(&plun->lun_mutex);
8994 
8995 				if (cdip) {
8996 					(void) ndi_event_retrieve_cookie(
8997 					    pptr->port_ndi_event_hdl, cdip,
8998 					    FCAL_REMOVE_EVENT,
8999 					    &fcp_remove_eid,
9000 					    NDI_EVENT_NOPASS);
9001 					(void) ndi_event_run_callbacks(
9002 					    pptr->port_ndi_event_hdl,
9003 					    cdip, fcp_remove_eid, NULL);
9004 				}
9005 
9006 				pkt->pkt_reason = CMD_TRAN_ERR;
9007 				pkt->pkt_statistics |= STAT_BUS_RESET;
9008 
9009 				break;
9010 			}
9011 
9012 			case FC_REASON_NOMEM:
9013 			case FC_REASON_QFULL: {
9014 				caddr_t ptr;
9015 
9016 				pkt->pkt_reason = CMD_CMPLT;	/* Lie */
9017 				ptr = (caddr_t)pkt->pkt_scbp;
9018 				if (ptr) {
9019 					*ptr = STATUS_BUSY;
9020 				}
9021 				break;
9022 			}
9023 
9024 			case FC_REASON_DMA_ERROR:
9025 				pkt->pkt_reason = CMD_DMA_DERR;
9026 				pkt->pkt_statistics |= STAT_ABORTED;
9027 				break;
9028 
9029 			case FC_REASON_CRC_ERROR:
9030 			case FC_REASON_UNDERRUN: {
9031 				uchar_t		status;
9032 				/*
9033 				 * Work around for Bugid: 4240945.
9034 				 * IB on A5k doesn't set the Underrun bit
9035 				 * in the fcp status, when it is transferring
9036 				 * less than requested amount of data. Work
9037 				 * around the ses problem to keep luxadm
9038 				 * happy till ibfirmware is fixed.
9039 				 */
9040 				if (pptr->port_fcp_dma != FC_NO_DVMA_SPACE) {
9041 					FCP_CP_IN(fpkt->pkt_resp, rsp,
9042 					    fpkt->pkt_resp_acc,
9043 					    sizeof (struct fcp_rsp));
9044 				}
9045 				status = rsp->fcp_u.fcp_status.scsi_status;
9046 				if (((plun->lun_type & DTYPE_MASK) ==
9047 				    DTYPE_ESI) && (status == STATUS_GOOD)) {
9048 					pkt->pkt_reason = CMD_CMPLT;
9049 					*pkt->pkt_scbp = status;
9050 					pkt->pkt_resid = 0;
9051 				} else {
9052 					pkt->pkt_reason = CMD_TRAN_ERR;
9053 					pkt->pkt_statistics |= STAT_ABORTED;
9054 				}
9055 				break;
9056 			}
9057 
9058 			case FC_REASON_NO_CONNECTION:
9059 			case FC_REASON_UNSUPPORTED:
9060 			case FC_REASON_ILLEGAL_REQ:
9061 			case FC_REASON_BAD_SID:
9062 			case FC_REASON_DIAG_BUSY:
9063 			case FC_REASON_FCAL_OPN_FAIL:
9064 			case FC_REASON_BAD_XID:
9065 			default:
9066 				pkt->pkt_reason = CMD_TRAN_ERR;
9067 				pkt->pkt_statistics |= STAT_ABORTED;
9068 				break;
9069 
9070 			}
9071 			break;
9072 
9073 		case FC_PKT_NPORT_RJT:
9074 		case FC_PKT_FABRIC_RJT:
9075 		case FC_PKT_NPORT_BSY:
9076 		case FC_PKT_FABRIC_BSY:
9077 		default:
9078 			FCP_DTRACE(fcp_logq, pptr->port_instbuf,
9079 			    fcp_trace, FCP_BUF_LEVEL_8, 0,
9080 			    "FC Status 0x%x, reason 0x%x",
9081 			    fpkt->pkt_state, fpkt->pkt_reason);
9082 			pkt->pkt_reason = CMD_TRAN_ERR;
9083 			pkt->pkt_statistics |= STAT_ABORTED;
9084 			break;
9085 		}
9086 
9087 		FCP_DTRACE(fcp_logq, pptr->port_instbuf,
9088 		    fcp_trace, FCP_BUF_LEVEL_9, 0,
9089 		    "!FC error on cmd=%p target=0x%x: pkt state=0x%x "
9090 		    " pkt reason=0x%x", cmd, ptgt->tgt_d_id, fpkt->pkt_state,
9091 		    fpkt->pkt_reason);
9092 	}
9093 
9094 	ASSERT(save.a_hba_tran == pkt->pkt_address.a_hba_tran);
9095 }
9096 
9097 
9098 static int
9099 fcp_validate_fcp_response(struct fcp_rsp *rsp, struct fcp_port *pptr)
9100 {
9101 	if (rsp->reserved_0 || rsp->reserved_1 ||
9102 	    rsp->fcp_u.fcp_status.reserved_0 ||
9103 	    rsp->fcp_u.fcp_status.reserved_1) {
9104 		/*
9105 		 * These reserved fields should ideally be zero. FCP-2 does say
9106 		 * that the recipient need not check for reserved fields to be
9107 		 * zero. If they are not zero, we will not make a fuss about it
9108 		 * - just log it (in debug to both trace buffer and messages
9109 		 * file and to trace buffer only in non-debug) and move on.
9110 		 *
9111 		 * Non-zero reserved fields were seen with minnows.
9112 		 *
9113 		 * qlc takes care of some of this but we cannot assume that all
9114 		 * FCAs will do so.
9115 		 */
9116 		FCP_TRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
9117 		    FCP_BUF_LEVEL_5, 0,
9118 		    "Got fcp response packet with non-zero reserved fields "
9119 		    "rsp->reserved_0:0x%x, rsp_reserved_1:0x%x, "
9120 		    "status.reserved_0:0x%x, status.reserved_1:0x%x",
9121 		    rsp->reserved_0, rsp->reserved_1,
9122 		    rsp->fcp_u.fcp_status.reserved_0,
9123 		    rsp->fcp_u.fcp_status.reserved_1);
9124 	}
9125 
9126 	if (rsp->fcp_u.fcp_status.rsp_len_set && (rsp->fcp_response_len >
9127 	    (FCP_MAX_RSP_IU_SIZE - sizeof (struct fcp_rsp)))) {
9128 		return (FC_FAILURE);
9129 	}
9130 
9131 	if (rsp->fcp_u.fcp_status.sense_len_set && rsp->fcp_sense_len >
9132 	    (FCP_MAX_RSP_IU_SIZE - rsp->fcp_response_len -
9133 	    sizeof (struct fcp_rsp))) {
9134 		return (FC_FAILURE);
9135 	}
9136 
9137 	return (FC_SUCCESS);
9138 }
9139 
9140 
9141 /*
9142  * This is called when there is a change the in device state. The case we're
9143  * handling here is, if the d_id s does not match, offline this tgt and online
9144  * a new tgt with the new d_id.	 called from fcp_handle_devices with
9145  * port_mutex held.
9146  */
9147 static int
9148 fcp_device_changed(struct fcp_port *pptr, struct fcp_tgt *ptgt,
9149     fc_portmap_t *map_entry, int link_cnt, int tgt_cnt, int cause)
9150 {
9151 	ASSERT(mutex_owned(&pptr->port_mutex));
9152 
9153 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
9154 	    fcp_trace, FCP_BUF_LEVEL_3, 0,
9155 	    "Starting fcp_device_changed...");
9156 
9157 	/*
9158 	 * The two cases where the port_device_changed is called is
9159 	 * either it changes it's d_id or it's hard address.
9160 	 */
9161 	if ((ptgt->tgt_d_id != map_entry->map_did.port_id) ||
9162 	    (FC_TOP_EXTERNAL(pptr->port_topology) &&
9163 	    (ptgt->tgt_hard_addr != map_entry->map_hard_addr.hard_addr))) {
9164 
9165 		/* offline this target */
9166 		mutex_enter(&ptgt->tgt_mutex);
9167 		if (!(ptgt->tgt_state & FCP_TGT_OFFLINE)) {
9168 			(void) fcp_offline_target(pptr, ptgt, link_cnt,
9169 			    0, 1, NDI_DEVI_REMOVE);
9170 		}
9171 		mutex_exit(&ptgt->tgt_mutex);
9172 
9173 		fcp_log(CE_NOTE, pptr->port_dip,
9174 		    "Change in target properties: Old D_ID=%x New D_ID=%x"
9175 		    " Old HA=%x New HA=%x", ptgt->tgt_d_id,
9176 		    map_entry->map_did.port_id, ptgt->tgt_hard_addr,
9177 		    map_entry->map_hard_addr.hard_addr);
9178 	}
9179 
9180 	return (fcp_handle_mapflags(pptr, ptgt, map_entry,
9181 	    link_cnt, tgt_cnt, cause));
9182 }
9183 
9184 /*
9185  *     Function: fcp_alloc_lun
9186  *
9187  *  Description: Creates a new lun structure and adds it to the list
9188  *		 of luns of the target.
9189  *
9190  *     Argument: ptgt		Target the lun will belong to.
9191  *
9192  * Return Value: NULL		Failed
9193  *		 Not NULL	Succeeded
9194  *
9195  *	Context: Kernel context
9196  */
9197 static struct fcp_lun *
9198 fcp_alloc_lun(struct fcp_tgt *ptgt)
9199 {
9200 	struct fcp_lun *plun;
9201 
9202 	plun = kmem_zalloc(sizeof (struct fcp_lun), KM_NOSLEEP);
9203 	if (plun != NULL) {
9204 		/*
9205 		 * Initialize the mutex before putting in the target list
9206 		 * especially before releasing the target mutex.
9207 		 */
9208 		mutex_init(&plun->lun_mutex, NULL, MUTEX_DRIVER, NULL);
9209 		plun->lun_tgt = ptgt;
9210 
9211 		mutex_enter(&ptgt->tgt_mutex);
9212 		plun->lun_next = ptgt->tgt_lun;
9213 		ptgt->tgt_lun = plun;
9214 		plun->lun_old_guid = NULL;
9215 		plun->lun_old_guid_size = 0;
9216 		mutex_exit(&ptgt->tgt_mutex);
9217 	}
9218 
9219 	return (plun);
9220 }
9221 
9222 /*
9223  *     Function: fcp_dealloc_lun
9224  *
9225  *  Description: Frees the LUN structure passed by the caller.
9226  *
9227  *     Argument: plun		LUN structure to free.
9228  *
9229  * Return Value: None
9230  *
9231  *	Context: Kernel context.
9232  */
9233 static void
9234 fcp_dealloc_lun(struct fcp_lun *plun)
9235 {
9236 	mutex_enter(&plun->lun_mutex);
9237 	if (plun->lun_cip) {
9238 		fcp_remove_child(plun);
9239 	}
9240 	mutex_exit(&plun->lun_mutex);
9241 
9242 	mutex_destroy(&plun->lun_mutex);
9243 	if (plun->lun_guid) {
9244 		kmem_free(plun->lun_guid, plun->lun_guid_size);
9245 	}
9246 	if (plun->lun_old_guid) {
9247 		kmem_free(plun->lun_old_guid, plun->lun_old_guid_size);
9248 	}
9249 	kmem_free(plun, sizeof (*plun));
9250 }
9251 
9252 /*
9253  *     Function: fcp_alloc_tgt
9254  *
9255  *  Description: Creates a new target structure and adds it to the port
9256  *		 hash list.
9257  *
9258  *     Argument: pptr		fcp port structure
9259  *		 *map_entry	entry describing the target to create
9260  *		 link_cnt	Link state change counter
9261  *
9262  * Return Value: NULL		Failed
9263  *		 Not NULL	Succeeded
9264  *
9265  *	Context: Kernel context.
9266  */
9267 static struct fcp_tgt *
9268 fcp_alloc_tgt(struct fcp_port *pptr, fc_portmap_t *map_entry, int link_cnt)
9269 {
9270 	int			hash;
9271 	uchar_t			*wwn;
9272 	struct fcp_tgt	*ptgt;
9273 
9274 	ptgt = kmem_zalloc(sizeof (*ptgt), KM_NOSLEEP);
9275 	if (ptgt != NULL) {
9276 		mutex_enter(&pptr->port_mutex);
9277 		if (link_cnt != pptr->port_link_cnt) {
9278 			/*
9279 			 * oh oh -- another link reset
9280 			 * in progress -- give up
9281 			 */
9282 			mutex_exit(&pptr->port_mutex);
9283 			kmem_free(ptgt, sizeof (*ptgt));
9284 			ptgt = NULL;
9285 		} else {
9286 			/*
9287 			 * initialize the mutex before putting in the port
9288 			 * wwn list, especially before releasing the port
9289 			 * mutex.
9290 			 */
9291 			mutex_init(&ptgt->tgt_mutex, NULL, MUTEX_DRIVER, NULL);
9292 
9293 			/* add new target entry to the port's hash list */
9294 			wwn = (uchar_t *)&map_entry->map_pwwn;
9295 			hash = FCP_HASH(wwn);
9296 
9297 			ptgt->tgt_next = pptr->port_tgt_hash_table[hash];
9298 			pptr->port_tgt_hash_table[hash] = ptgt;
9299 
9300 			/* save cross-ptr */
9301 			ptgt->tgt_port = pptr;
9302 
9303 			ptgt->tgt_change_cnt = 1;
9304 
9305 			/* initialize the target manual_config_only flag */
9306 			if (fcp_enable_auto_configuration) {
9307 				ptgt->tgt_manual_config_only = 0;
9308 			} else {
9309 				ptgt->tgt_manual_config_only = 1;
9310 			}
9311 
9312 			mutex_exit(&pptr->port_mutex);
9313 		}
9314 	}
9315 
9316 	return (ptgt);
9317 }
9318 
9319 /*
9320  *     Function: fcp_dealloc_tgt
9321  *
9322  *  Description: Frees the target structure passed by the caller.
9323  *
9324  *     Argument: ptgt		Target structure to free.
9325  *
9326  * Return Value: None
9327  *
9328  *	Context: Kernel context.
9329  */
9330 static void
9331 fcp_dealloc_tgt(struct fcp_tgt *ptgt)
9332 {
9333 	mutex_destroy(&ptgt->tgt_mutex);
9334 	kmem_free(ptgt, sizeof (*ptgt));
9335 }
9336 
9337 
9338 /*
9339  * Handle STATUS_QFULL and STATUS_BUSY by performing delayed retry
9340  *
9341  *	Device discovery commands will not be retried for-ever as
9342  *	this will have repercussions on other devices that need to
9343  *	be submitted to the hotplug thread. After a quick glance
9344  *	at the SCSI-3 spec, it was found that the spec doesn't
9345  *	mandate a forever retry, rather recommends a delayed retry.
9346  *
9347  *	Since Photon IB is single threaded, STATUS_BUSY is common
9348  *	in a 4+initiator environment. Make sure the total time
9349  *	spent on retries (including command timeout) does not
9350  *	60 seconds
9351  */
9352 static void
9353 fcp_queue_ipkt(struct fcp_port *pptr, fc_packet_t *fpkt)
9354 {
9355 	struct fcp_ipkt *icmd = (struct fcp_ipkt *)fpkt->pkt_ulp_private;
9356 	struct fcp_tgt *ptgt = icmd->ipkt_tgt;
9357 
9358 	mutex_enter(&pptr->port_mutex);
9359 	mutex_enter(&ptgt->tgt_mutex);
9360 	if (FCP_STATE_CHANGED(pptr, ptgt, icmd)) {
9361 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
9362 		    fcp_trace, FCP_BUF_LEVEL_2, 0,
9363 		    "fcp_queue_ipkt,1:state change occured"
9364 		    " for D_ID=0x%x", ptgt->tgt_d_id);
9365 		mutex_exit(&ptgt->tgt_mutex);
9366 		mutex_exit(&pptr->port_mutex);
9367 		(void) fcp_call_finish_init(pptr, ptgt, icmd->ipkt_link_cnt,
9368 		    icmd->ipkt_change_cnt, icmd->ipkt_cause);
9369 		fcp_icmd_free(pptr, icmd);
9370 		return;
9371 	}
9372 	mutex_exit(&ptgt->tgt_mutex);
9373 
9374 	icmd->ipkt_restart = fcp_watchdog_time + icmd->ipkt_retries++;
9375 
9376 	if (pptr->port_ipkt_list != NULL) {
9377 		/* add pkt to front of doubly-linked list */
9378 		pptr->port_ipkt_list->ipkt_prev = icmd;
9379 		icmd->ipkt_next = pptr->port_ipkt_list;
9380 		pptr->port_ipkt_list = icmd;
9381 		icmd->ipkt_prev = NULL;
9382 	} else {
9383 		/* this is the first/only pkt on the list */
9384 		pptr->port_ipkt_list = icmd;
9385 		icmd->ipkt_next = NULL;
9386 		icmd->ipkt_prev = NULL;
9387 	}
9388 	mutex_exit(&pptr->port_mutex);
9389 }
9390 
9391 /*
9392  *     Function: fcp_transport
9393  *
9394  *  Description: This function submits the Fibre Channel packet to the transort
9395  *		 layer by calling fc_ulp_transport().  If fc_ulp_transport()
9396  *		 fails the submission, the treatment depends on the value of
9397  *		 the variable internal.
9398  *
9399  *     Argument: port_handle	fp/fctl port handle.
9400  *		 *fpkt		Packet to submit to the transport layer.
9401  *		 internal	Not zero when it's an internal packet.
9402  *
9403  * Return Value: FC_TRAN_BUSY
9404  *		 FC_STATEC_BUSY
9405  *		 FC_OFFLINE
9406  *		 FC_LOGINREQ
9407  *		 FC_DEVICE_BUSY
9408  *		 FC_SUCCESS
9409  */
9410 static int
9411 fcp_transport(opaque_t port_handle, fc_packet_t *fpkt, int internal)
9412 {
9413 	int	rval;
9414 
9415 	rval = fc_ulp_transport(port_handle, fpkt);
9416 	if (rval == FC_SUCCESS) {
9417 		return (rval);
9418 	}
9419 
9420 	/*
9421 	 * LUN isn't marked BUSY or OFFLINE, so we got here to transport
9422 	 * a command, if the underlying modules see that there is a state
9423 	 * change, or if a port is OFFLINE, that means, that state change
9424 	 * hasn't reached FCP yet, so re-queue the command for deferred
9425 	 * submission.
9426 	 */
9427 	if ((rval == FC_STATEC_BUSY) || (rval == FC_OFFLINE) ||
9428 	    (rval == FC_LOGINREQ) || (rval == FC_DEVICE_BUSY) ||
9429 	    (rval == FC_DEVICE_BUSY_NEW_RSCN) || (rval == FC_TRAN_BUSY)) {
9430 		/*
9431 		 * Defer packet re-submission. Life hang is possible on
9432 		 * internal commands if the port driver sends FC_STATEC_BUSY
9433 		 * for ever, but that shouldn't happen in a good environment.
9434 		 * Limiting re-transport for internal commands is probably a
9435 		 * good idea..
9436 		 * A race condition can happen when a port sees barrage of
9437 		 * link transitions offline to online. If the FCTL has
9438 		 * returned FC_STATEC_BUSY or FC_OFFLINE then none of the
9439 		 * internal commands should be queued to do the discovery.
9440 		 * The race condition is when an online comes and FCP starts
9441 		 * its internal discovery and the link goes offline. It is
9442 		 * possible that the statec_callback has not reached FCP
9443 		 * and FCP is carrying on with its internal discovery.
9444 		 * FC_STATEC_BUSY or FC_OFFLINE will be the first indication
9445 		 * that the link has gone offline. At this point FCP should
9446 		 * drop all the internal commands and wait for the
9447 		 * statec_callback. It will be facilitated by incrementing
9448 		 * port_link_cnt.
9449 		 *
9450 		 * For external commands, the (FC)pkt_timeout is decremented
9451 		 * by the QUEUE Delay added by our driver, Care is taken to
9452 		 * ensure that it doesn't become zero (zero means no timeout)
9453 		 * If the time expires right inside driver queue itself,
9454 		 * the watch thread will return it to the original caller
9455 		 * indicating that the command has timed-out.
9456 		 */
9457 		if (internal) {
9458 			char			*op;
9459 			struct fcp_ipkt	*icmd;
9460 
9461 			icmd = (struct fcp_ipkt *)fpkt->pkt_ulp_private;
9462 			switch (icmd->ipkt_opcode) {
9463 			case SCMD_REPORT_LUN:
9464 				op = "REPORT LUN";
9465 				break;
9466 
9467 			case SCMD_INQUIRY:
9468 				op = "INQUIRY";
9469 				break;
9470 
9471 			case SCMD_INQUIRY_PAGE83:
9472 				op = "INQUIRY-83";
9473 				break;
9474 
9475 			default:
9476 				op = "Internal SCSI COMMAND";
9477 				break;
9478 			}
9479 
9480 			if (fcp_handle_ipkt_errors(icmd->ipkt_port,
9481 			    icmd->ipkt_tgt, icmd, rval, op) == DDI_SUCCESS) {
9482 				rval = FC_SUCCESS;
9483 			}
9484 		} else {
9485 			struct fcp_pkt *cmd;
9486 			struct fcp_port *pptr;
9487 
9488 			cmd = (struct fcp_pkt *)fpkt->pkt_ulp_private;
9489 			cmd->cmd_state = FCP_PKT_IDLE;
9490 			pptr = ADDR2FCP(&cmd->cmd_pkt->pkt_address);
9491 
9492 			if (cmd->cmd_pkt->pkt_flags & FLAG_NOQUEUE) {
9493 				FCP_DTRACE(fcp_logq, pptr->port_instbuf,
9494 				    fcp_trace, FCP_BUF_LEVEL_9, 0,
9495 				    "fcp_transport: xport busy for pkt %p",
9496 				    cmd->cmd_pkt);
9497 				rval = FC_TRAN_BUSY;
9498 			} else {
9499 				fcp_queue_pkt(pptr, cmd);
9500 				rval = FC_SUCCESS;
9501 			}
9502 		}
9503 	}
9504 
9505 	return (rval);
9506 }
9507 
9508 /*VARARGS3*/
9509 static void
9510 fcp_log(int level, dev_info_t *dip, const char *fmt, ...)
9511 {
9512 	char		buf[256];
9513 	va_list		ap;
9514 
9515 	if (dip == NULL) {
9516 		dip = fcp_global_dip;
9517 	}
9518 
9519 	va_start(ap, fmt);
9520 	(void) vsprintf(buf, fmt, ap);
9521 	va_end(ap);
9522 
9523 	scsi_log(dip, "fcp", level, buf);
9524 }
9525 
9526 /*
9527  * This function retries NS registry of FC4 type.
9528  * It assumes that fcp_mutex is held.
9529  * The function does nothing if topology is not fabric
9530  * So, the topology has to be set before this function can be called
9531  */
9532 static void
9533 fcp_retry_ns_registry(struct fcp_port *pptr, uint32_t s_id)
9534 {
9535 	int	rval;
9536 
9537 	ASSERT(MUTEX_HELD(&pptr->port_mutex));
9538 
9539 	if (((pptr->port_state & FCP_STATE_NS_REG_FAILED) == 0) ||
9540 	    ((pptr->port_topology != FC_TOP_FABRIC) &&
9541 	    (pptr->port_topology != FC_TOP_PUBLIC_LOOP))) {
9542 		if (pptr->port_state & FCP_STATE_NS_REG_FAILED) {
9543 			pptr->port_state &= ~FCP_STATE_NS_REG_FAILED;
9544 		}
9545 		return;
9546 	}
9547 	mutex_exit(&pptr->port_mutex);
9548 	rval = fcp_do_ns_registry(pptr, s_id);
9549 	mutex_enter(&pptr->port_mutex);
9550 
9551 	if (rval == 0) {
9552 		/* Registry successful. Reset flag */
9553 		pptr->port_state &= ~(FCP_STATE_NS_REG_FAILED);
9554 	}
9555 }
9556 
9557 /*
9558  * This function registers the ULP with the switch by calling transport i/f
9559  */
9560 static int
9561 fcp_do_ns_registry(struct fcp_port *pptr, uint32_t s_id)
9562 {
9563 	fc_ns_cmd_t		ns_cmd;
9564 	ns_rfc_type_t		rfc;
9565 	uint32_t		types[8];
9566 
9567 	/*
9568 	 * Prepare the Name server structure to
9569 	 * register with the transport in case of
9570 	 * Fabric configuration.
9571 	 */
9572 	bzero(&rfc, sizeof (rfc));
9573 	bzero(types, sizeof (types));
9574 
9575 	types[FC4_TYPE_WORD_POS(FC_TYPE_SCSI_FCP)] =
9576 	    (1 << FC4_TYPE_BIT_POS(FC_TYPE_SCSI_FCP));
9577 
9578 	rfc.rfc_port_id.port_id = s_id;
9579 	bcopy(types, rfc.rfc_types, sizeof (types));
9580 
9581 	ns_cmd.ns_flags = 0;
9582 	ns_cmd.ns_cmd = NS_RFT_ID;
9583 	ns_cmd.ns_req_len = sizeof (rfc);
9584 	ns_cmd.ns_req_payload = (caddr_t)&rfc;
9585 	ns_cmd.ns_resp_len = 0;
9586 	ns_cmd.ns_resp_payload = NULL;
9587 
9588 	/*
9589 	 * Perform the Name Server Registration for SCSI_FCP FC4 Type.
9590 	 */
9591 	if (fc_ulp_port_ns(pptr->port_fp_handle, NULL, &ns_cmd)) {
9592 		fcp_log(CE_WARN, pptr->port_dip,
9593 		    "!ns_registry: failed name server registration");
9594 		return (1);
9595 	}
9596 
9597 	return (0);
9598 }
9599 
9600 /*
9601  *     Function: fcp_handle_port_attach
9602  *
9603  *  Description: This function is called from fcp_port_attach() to attach a
9604  *		 new port. This routine does the following:
9605  *
9606  *		1) Allocates an fcp_port structure and initializes it.
9607  *		2) Tries to register the new FC-4 (FCP) capablity with the name
9608  *		   server.
9609  *		3) Kicks off the enumeration of the targets/luns visible
9610  *		   through this new port.  That is done by calling
9611  *		   fcp_statec_callback() if the port is online.
9612  *
9613  *     Argument: ulph		fp/fctl port handle.
9614  *		 *pinfo		Port information.
9615  *		 s_id		Port ID.
9616  *		 instance	Device instance number for the local port
9617  *				(returned by ddi_get_instance()).
9618  *
9619  * Return Value: DDI_SUCCESS
9620  *		 DDI_FAILURE
9621  *
9622  *	Context: User and Kernel context.
9623  */
9624 /*ARGSUSED*/
9625 int
9626 fcp_handle_port_attach(opaque_t ulph, fc_ulp_port_info_t *pinfo,
9627     uint32_t s_id, int instance)
9628 {
9629 	int			res = DDI_FAILURE;
9630 	scsi_hba_tran_t		*tran;
9631 	int			mutex_initted = FALSE;
9632 	int			hba_attached = FALSE;
9633 	int			soft_state_linked = FALSE;
9634 	int			event_bind = FALSE;
9635 	struct fcp_port		*pptr;
9636 	fc_portmap_t		*tmp_list = NULL;
9637 	uint32_t		max_cnt, alloc_cnt;
9638 	uchar_t			*boot_wwn = NULL;
9639 	uint_t			nbytes;
9640 	int			manual_cfg;
9641 
9642 	/*
9643 	 * this port instance attaching for the first time (or after
9644 	 * being detached before)
9645 	 */
9646 	FCP_TRACE(fcp_logq, "fcp", fcp_trace,
9647 	    FCP_BUF_LEVEL_3, 0, "port attach: for port %d", instance);
9648 
9649 	if (ddi_soft_state_zalloc(fcp_softstate, instance) != DDI_SUCCESS) {
9650 		cmn_err(CE_WARN, "fcp: Softstate struct alloc failed"
9651 		    "parent dip: %p; instance: %d", (void *)pinfo->port_dip,
9652 		    instance);
9653 		return (res);
9654 	}
9655 
9656 	if ((pptr = ddi_get_soft_state(fcp_softstate, instance)) == NULL) {
9657 		/* this shouldn't happen */
9658 		ddi_soft_state_free(fcp_softstate, instance);
9659 		cmn_err(CE_WARN, "fcp: bad soft state");
9660 		return (res);
9661 	}
9662 
9663 	(void) sprintf(pptr->port_instbuf, "fcp(%d)", instance);
9664 
9665 	/*
9666 	 * Make a copy of ulp_port_info as fctl allocates
9667 	 * a temp struct.
9668 	 */
9669 	(void) fcp_cp_pinfo(pptr, pinfo);
9670 
9671 	/*
9672 	 * Check for manual_configuration_only property.
9673 	 * Enable manual configurtion if the property is
9674 	 * set to 1, otherwise disable manual configuration.
9675 	 */
9676 	if ((manual_cfg = ddi_prop_get_int(DDI_DEV_T_ANY, pptr->port_dip,
9677 	    DDI_PROP_NOTPROM | DDI_PROP_DONTPASS,
9678 	    MANUAL_CFG_ONLY,
9679 	    -1)) != -1) {
9680 		if (manual_cfg == 1) {
9681 			char	*pathname;
9682 			pathname = kmem_zalloc(MAXPATHLEN, KM_SLEEP);
9683 			(void) ddi_pathname(pptr->port_dip, pathname);
9684 			cmn_err(CE_NOTE,
9685 			    "%s (%s%d) %s is enabled via %s.conf.",
9686 			    pathname,
9687 			    ddi_driver_name(pptr->port_dip),
9688 			    ddi_get_instance(pptr->port_dip),
9689 			    MANUAL_CFG_ONLY,
9690 			    ddi_driver_name(pptr->port_dip));
9691 			fcp_enable_auto_configuration = 0;
9692 			kmem_free(pathname, MAXPATHLEN);
9693 		}
9694 	}
9695 	_NOTE(NOW_INVISIBLE_TO_OTHER_THREADS(pptr->port_link_cnt))
9696 	pptr->port_link_cnt = 1;
9697 	_NOTE(NOW_VISIBLE_TO_OTHER_THREADS(pptr->port_link_cnt))
9698 	pptr->port_id = s_id;
9699 	pptr->port_instance = instance;
9700 	_NOTE(NOW_INVISIBLE_TO_OTHER_THREADS(pptr->port_state))
9701 	pptr->port_state = FCP_STATE_INIT;
9702 	_NOTE(NOW_VISIBLE_TO_OTHER_THREADS(pptr->port_state))
9703 
9704 	pptr->port_dmacookie_sz = (pptr->port_data_dma_attr.dma_attr_sgllen *
9705 	    sizeof (ddi_dma_cookie_t));
9706 
9707 	/*
9708 	 * The two mutexes of fcp_port are initialized.	 The variable
9709 	 * mutex_initted is incremented to remember that fact.	That variable
9710 	 * is checked when the routine fails and the mutexes have to be
9711 	 * destroyed.
9712 	 */
9713 	mutex_init(&pptr->port_mutex, NULL, MUTEX_DRIVER, NULL);
9714 	mutex_init(&pptr->port_pkt_mutex, NULL, MUTEX_DRIVER, NULL);
9715 	mutex_initted++;
9716 
9717 	/*
9718 	 * The SCSI tran structure is allocate and initialized now.
9719 	 */
9720 	if ((tran = scsi_hba_tran_alloc(pptr->port_dip, 0)) == NULL) {
9721 		fcp_log(CE_WARN, pptr->port_dip,
9722 		    "!fcp%d: scsi_hba_tran_alloc failed", instance);
9723 		goto fail;
9724 	}
9725 
9726 	/* link in the transport structure then fill it in */
9727 	pptr->port_tran = tran;
9728 	tran->tran_hba_private		= pptr;
9729 	tran->tran_tgt_init		= fcp_scsi_tgt_init;
9730 	tran->tran_tgt_probe		= NULL;
9731 	tran->tran_tgt_free		= fcp_scsi_tgt_free;
9732 	tran->tran_start		= fcp_scsi_start;
9733 	tran->tran_reset		= fcp_scsi_reset;
9734 	tran->tran_abort		= fcp_scsi_abort;
9735 	tran->tran_getcap		= fcp_scsi_getcap;
9736 	tran->tran_setcap		= fcp_scsi_setcap;
9737 	tran->tran_init_pkt		= NULL;
9738 	tran->tran_destroy_pkt		= NULL;
9739 	tran->tran_dmafree		= NULL;
9740 	tran->tran_sync_pkt		= NULL;
9741 	tran->tran_reset_notify		= fcp_scsi_reset_notify;
9742 	tran->tran_get_bus_addr		= fcp_scsi_get_bus_addr;
9743 	tran->tran_get_name		= fcp_scsi_get_name;
9744 	tran->tran_clear_aca		= NULL;
9745 	tran->tran_clear_task_set	= NULL;
9746 	tran->tran_terminate_task	= NULL;
9747 	tran->tran_get_eventcookie	= fcp_scsi_bus_get_eventcookie;
9748 	tran->tran_add_eventcall	= fcp_scsi_bus_add_eventcall;
9749 	tran->tran_remove_eventcall	= fcp_scsi_bus_remove_eventcall;
9750 	tran->tran_post_event		= fcp_scsi_bus_post_event;
9751 	tran->tran_quiesce		= NULL;
9752 	tran->tran_unquiesce		= NULL;
9753 	tran->tran_bus_reset		= NULL;
9754 	tran->tran_bus_config		= fcp_scsi_bus_config;
9755 	tran->tran_bus_unconfig		= fcp_scsi_bus_unconfig;
9756 	tran->tran_bus_power		= NULL;
9757 	tran->tran_interconnect_type	= INTERCONNECT_FABRIC;
9758 
9759 	tran->tran_pkt_constructor	= fcp_kmem_cache_constructor;
9760 	tran->tran_pkt_destructor	= fcp_kmem_cache_destructor;
9761 	tran->tran_setup_pkt		= fcp_pkt_setup;
9762 	tran->tran_teardown_pkt		= fcp_pkt_teardown;
9763 	tran->tran_hba_len		= pptr->port_priv_pkt_len +
9764 	    sizeof (struct fcp_pkt) + pptr->port_dmacookie_sz;
9765 
9766 	/*
9767 	 * Allocate an ndi event handle
9768 	 */
9769 	pptr->port_ndi_event_defs = (ndi_event_definition_t *)
9770 	    kmem_zalloc(sizeof (fcp_ndi_event_defs), KM_SLEEP);
9771 
9772 	bcopy(fcp_ndi_event_defs, pptr->port_ndi_event_defs,
9773 	    sizeof (fcp_ndi_event_defs));
9774 
9775 	(void) ndi_event_alloc_hdl(pptr->port_dip, NULL,
9776 	    &pptr->port_ndi_event_hdl, NDI_SLEEP);
9777 
9778 	pptr->port_ndi_events.ndi_events_version = NDI_EVENTS_REV1;
9779 	pptr->port_ndi_events.ndi_n_events = FCP_N_NDI_EVENTS;
9780 	pptr->port_ndi_events.ndi_event_defs = pptr->port_ndi_event_defs;
9781 
9782 	if (DEVI_IS_ATTACHING(pptr->port_dip) &&
9783 	    (ndi_event_bind_set(pptr->port_ndi_event_hdl,
9784 	    &pptr->port_ndi_events, NDI_SLEEP) != NDI_SUCCESS)) {
9785 		goto fail;
9786 	}
9787 	event_bind++;	/* Checked in fail case */
9788 
9789 	if (scsi_hba_attach_setup(pptr->port_dip, &pptr->port_data_dma_attr,
9790 	    tran, SCSI_HBA_ADDR_COMPLEX | SCSI_HBA_TRAN_SCB)
9791 	    != DDI_SUCCESS) {
9792 		fcp_log(CE_WARN, pptr->port_dip,
9793 		    "!fcp%d: scsi_hba_attach_setup failed", instance);
9794 		goto fail;
9795 	}
9796 	hba_attached++;	/* Checked in fail case */
9797 
9798 	pptr->port_mpxio = 0;
9799 	if (mdi_phci_register(MDI_HCI_CLASS_SCSI, pptr->port_dip, 0) ==
9800 	    MDI_SUCCESS) {
9801 		pptr->port_mpxio++;
9802 	}
9803 
9804 	/*
9805 	 * The following code is putting the new port structure in the global
9806 	 * list of ports and, if it is the first port to attach, it start the
9807 	 * fcp_watchdog_tick.
9808 	 *
9809 	 * Why put this new port in the global before we are done attaching it?
9810 	 * We are actually making the structure globally known before we are
9811 	 * done attaching it.  The reason for that is: because of the code that
9812 	 * follows.  At this point the resources to handle the port are
9813 	 * allocated.  This function is now going to do the following:
9814 	 *
9815 	 *   1) It is going to try to register with the name server advertizing
9816 	 *	the new FCP capability of the port.
9817 	 *   2) It is going to play the role of the fp/fctl layer by building
9818 	 *	a list of worlwide names reachable through this port and call
9819 	 *	itself on fcp_statec_callback().  That requires the port to
9820 	 *	be part of the global list.
9821 	 */
9822 	mutex_enter(&fcp_global_mutex);
9823 	if (fcp_port_head == NULL) {
9824 		fcp_read_blacklist(pinfo->port_dip, &fcp_lun_blacklist);
9825 	}
9826 	pptr->port_next = fcp_port_head;
9827 	fcp_port_head = pptr;
9828 	soft_state_linked++;
9829 
9830 	if (fcp_watchdog_init++ == 0) {
9831 		fcp_watchdog_tick = fcp_watchdog_timeout *
9832 		    drv_usectohz(1000000);
9833 		fcp_watchdog_id = timeout(fcp_watch, NULL,
9834 		    fcp_watchdog_tick);
9835 	}
9836 	mutex_exit(&fcp_global_mutex);
9837 
9838 	/*
9839 	 * Here an attempt is made to register with the name server, the new
9840 	 * FCP capability.  That is done using an RTF_ID to the name server.
9841 	 * It is done synchronously.  The function fcp_do_ns_registry()
9842 	 * doesn't return till the name server responded.
9843 	 * On failures, just ignore it for now and it will get retried during
9844 	 * state change callbacks. We'll set a flag to show this failure
9845 	 */
9846 	if (fcp_do_ns_registry(pptr, s_id)) {
9847 		mutex_enter(&pptr->port_mutex);
9848 		pptr->port_state |= FCP_STATE_NS_REG_FAILED;
9849 		mutex_exit(&pptr->port_mutex);
9850 	} else {
9851 		mutex_enter(&pptr->port_mutex);
9852 		pptr->port_state &= ~(FCP_STATE_NS_REG_FAILED);
9853 		mutex_exit(&pptr->port_mutex);
9854 	}
9855 
9856 	/*
9857 	 * Lookup for boot WWN property
9858 	 */
9859 	if (modrootloaded != 1) {
9860 		if ((ddi_prop_lookup_byte_array(DDI_DEV_T_ANY,
9861 		    ddi_get_parent(pinfo->port_dip),
9862 		    DDI_PROP_DONTPASS, OBP_BOOT_WWN,
9863 		    &boot_wwn, &nbytes) == DDI_PROP_SUCCESS) &&
9864 		    (nbytes == FC_WWN_SIZE)) {
9865 			bcopy(boot_wwn, pptr->port_boot_wwn, FC_WWN_SIZE);
9866 		}
9867 		if (boot_wwn) {
9868 			ddi_prop_free(boot_wwn);
9869 		}
9870 	}
9871 
9872 	/*
9873 	 * Handle various topologies and link states.
9874 	 */
9875 	switch (FC_PORT_STATE_MASK(pptr->port_phys_state)) {
9876 	case FC_STATE_OFFLINE:
9877 
9878 		/*
9879 		 * we're attaching a port where the link is offline
9880 		 *
9881 		 * Wait for ONLINE, at which time a state
9882 		 * change will cause a statec_callback
9883 		 *
9884 		 * in the mean time, do not do anything
9885 		 */
9886 		res = DDI_SUCCESS;
9887 		pptr->port_state |= FCP_STATE_OFFLINE;
9888 		break;
9889 
9890 	case FC_STATE_ONLINE: {
9891 		if (pptr->port_topology == FC_TOP_UNKNOWN) {
9892 			(void) fcp_linkreset(pptr, NULL, KM_NOSLEEP);
9893 			res = DDI_SUCCESS;
9894 			break;
9895 		}
9896 		/*
9897 		 * discover devices and create nodes (a private
9898 		 * loop or point-to-point)
9899 		 */
9900 		ASSERT(pptr->port_topology != FC_TOP_UNKNOWN);
9901 
9902 		/*
9903 		 * At this point we are going to build a list of all the ports
9904 		 * that	can be reached through this local port.	 It looks like
9905 		 * we cannot handle more than FCP_MAX_DEVICES per local port
9906 		 * (128).
9907 		 */
9908 		if ((tmp_list = (fc_portmap_t *)kmem_zalloc(
9909 		    sizeof (fc_portmap_t) * FCP_MAX_DEVICES,
9910 		    KM_NOSLEEP)) == NULL) {
9911 			fcp_log(CE_WARN, pptr->port_dip,
9912 			    "!fcp%d: failed to allocate portmap",
9913 			    instance);
9914 			goto fail;
9915 		}
9916 
9917 		/*
9918 		 * fc_ulp_getportmap() is going to provide us with the list of
9919 		 * remote ports in the buffer we just allocated.  The way the
9920 		 * list is going to be retrieved depends on the topology.
9921 		 * However, if we are connected to a Fabric, a name server
9922 		 * request may be sent to get the list of FCP capable ports.
9923 		 * It should be noted that is the case the request is
9924 		 * synchronous.	 This means we are stuck here till the name
9925 		 * server replies.  A lot of things can change during that time
9926 		 * and including, may be, being called on
9927 		 * fcp_statec_callback() for different reasons. I'm not sure
9928 		 * the code can handle that.
9929 		 */
9930 		max_cnt = FCP_MAX_DEVICES;
9931 		alloc_cnt = FCP_MAX_DEVICES;
9932 		if ((res = fc_ulp_getportmap(pptr->port_fp_handle,
9933 		    &tmp_list, &max_cnt, FC_ULP_PLOGI_PRESERVE)) !=
9934 		    FC_SUCCESS) {
9935 			caddr_t msg;
9936 
9937 			(void) fc_ulp_error(res, &msg);
9938 
9939 			/*
9940 			 * this	 just means the transport is
9941 			 * busy perhaps building a portmap so,
9942 			 * for now, succeed this port attach
9943 			 * when the transport has a new map,
9944 			 * it'll send us a state change then
9945 			 */
9946 			fcp_log(CE_WARN, pptr->port_dip,
9947 			    "!failed to get port map : %s", msg);
9948 
9949 			res = DDI_SUCCESS;
9950 			break;	/* go return result */
9951 		}
9952 		if (max_cnt > alloc_cnt) {
9953 			alloc_cnt = max_cnt;
9954 		}
9955 
9956 		/*
9957 		 * We are now going to call fcp_statec_callback() ourselves.
9958 		 * By issuing this call we are trying to kick off the enumera-
9959 		 * tion process.
9960 		 */
9961 		/*
9962 		 * let the state change callback do the SCSI device
9963 		 * discovery and create the devinfos
9964 		 */
9965 		fcp_statec_callback(ulph, pptr->port_fp_handle,
9966 		    pptr->port_phys_state, pptr->port_topology, tmp_list,
9967 		    max_cnt, pptr->port_id);
9968 
9969 		res = DDI_SUCCESS;
9970 		break;
9971 	}
9972 
9973 	default:
9974 		/* unknown port state */
9975 		fcp_log(CE_WARN, pptr->port_dip,
9976 		    "!fcp%d: invalid port state at attach=0x%x",
9977 		    instance, pptr->port_phys_state);
9978 
9979 		mutex_enter(&pptr->port_mutex);
9980 		pptr->port_phys_state = FCP_STATE_OFFLINE;
9981 		mutex_exit(&pptr->port_mutex);
9982 
9983 		res = DDI_SUCCESS;
9984 		break;
9985 	}
9986 
9987 	/* free temp list if used */
9988 	if (tmp_list != NULL) {
9989 		kmem_free(tmp_list, sizeof (fc_portmap_t) * alloc_cnt);
9990 	}
9991 
9992 	/* note the attach time */
9993 	pptr->port_attach_time = lbolt64;
9994 
9995 	/* all done */
9996 	return (res);
9997 
9998 	/* a failure we have to clean up after */
9999 fail:
10000 	fcp_log(CE_WARN, pptr->port_dip, "!failed to attach to port");
10001 
10002 	if (soft_state_linked) {
10003 		/* remove this fcp_port from the linked list */
10004 		(void) fcp_soft_state_unlink(pptr);
10005 	}
10006 
10007 	/* unbind and free event set */
10008 	if (pptr->port_ndi_event_hdl) {
10009 		if (event_bind) {
10010 			(void) ndi_event_unbind_set(pptr->port_ndi_event_hdl,
10011 			    &pptr->port_ndi_events, NDI_SLEEP);
10012 		}
10013 		(void) ndi_event_free_hdl(pptr->port_ndi_event_hdl);
10014 	}
10015 
10016 	if (pptr->port_ndi_event_defs) {
10017 		(void) kmem_free(pptr->port_ndi_event_defs,
10018 		    sizeof (fcp_ndi_event_defs));
10019 	}
10020 
10021 	/*
10022 	 * Clean up mpxio stuff
10023 	 */
10024 	if (pptr->port_mpxio) {
10025 		(void) mdi_phci_unregister(pptr->port_dip, 0);
10026 		pptr->port_mpxio--;
10027 	}
10028 
10029 	/* undo SCSI HBA setup */
10030 	if (hba_attached) {
10031 		(void) scsi_hba_detach(pptr->port_dip);
10032 	}
10033 	if (pptr->port_tran != NULL) {
10034 		scsi_hba_tran_free(pptr->port_tran);
10035 	}
10036 
10037 	mutex_enter(&fcp_global_mutex);
10038 
10039 	/*
10040 	 * We check soft_state_linked, because it is incremented right before
10041 	 * we call increment fcp_watchdog_init.	 Therefore, we know if
10042 	 * soft_state_linked is still FALSE, we do not want to decrement
10043 	 * fcp_watchdog_init or possibly call untimeout.
10044 	 */
10045 
10046 	if (soft_state_linked) {
10047 		if (--fcp_watchdog_init == 0) {
10048 			timeout_id_t	tid = fcp_watchdog_id;
10049 
10050 			mutex_exit(&fcp_global_mutex);
10051 			(void) untimeout(tid);
10052 		} else {
10053 			mutex_exit(&fcp_global_mutex);
10054 		}
10055 	} else {
10056 		mutex_exit(&fcp_global_mutex);
10057 	}
10058 
10059 	if (mutex_initted) {
10060 		mutex_destroy(&pptr->port_mutex);
10061 		mutex_destroy(&pptr->port_pkt_mutex);
10062 	}
10063 
10064 	if (tmp_list != NULL) {
10065 		kmem_free(tmp_list, sizeof (fc_portmap_t) * alloc_cnt);
10066 	}
10067 
10068 	/* this makes pptr invalid */
10069 	ddi_soft_state_free(fcp_softstate, instance);
10070 
10071 	return (DDI_FAILURE);
10072 }
10073 
10074 
10075 static int
10076 fcp_handle_port_detach(struct fcp_port *pptr, int flag, int instance)
10077 {
10078 	int count = 0;
10079 
10080 	mutex_enter(&pptr->port_mutex);
10081 
10082 	/*
10083 	 * if the port is powered down or suspended, nothing else
10084 	 * to do; just return.
10085 	 */
10086 	if (flag != FCP_STATE_DETACHING) {
10087 		if (pptr->port_state & (FCP_STATE_POWER_DOWN |
10088 		    FCP_STATE_SUSPENDED)) {
10089 			pptr->port_state |= flag;
10090 			mutex_exit(&pptr->port_mutex);
10091 			return (FC_SUCCESS);
10092 		}
10093 	}
10094 
10095 	if (pptr->port_state & FCP_STATE_IN_MDI) {
10096 		mutex_exit(&pptr->port_mutex);
10097 		return (FC_FAILURE);
10098 	}
10099 
10100 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
10101 	    fcp_trace, FCP_BUF_LEVEL_2, 0,
10102 	    "fcp_handle_port_detach: port is detaching");
10103 
10104 	pptr->port_state |= flag;
10105 
10106 	/*
10107 	 * Wait for any ongoing reconfig/ipkt to complete, that
10108 	 * ensures the freeing to targets/luns is safe.
10109 	 * No more ref to this port should happen from statec/ioctl
10110 	 * after that as it was removed from the global port list.
10111 	 */
10112 	while (pptr->port_tmp_cnt || pptr->port_ipkt_cnt ||
10113 	    (pptr->port_state & FCP_STATE_IN_WATCHDOG)) {
10114 		/*
10115 		 * Let's give sufficient time for reconfig/ipkt
10116 		 * to complete.
10117 		 */
10118 		if (count++ >= FCP_ICMD_DEADLINE) {
10119 			break;
10120 		}
10121 		mutex_exit(&pptr->port_mutex);
10122 		delay(drv_usectohz(1000000));
10123 		mutex_enter(&pptr->port_mutex);
10124 	}
10125 
10126 	/*
10127 	 * if the driver is still busy then fail to
10128 	 * suspend/power down.
10129 	 */
10130 	if (pptr->port_tmp_cnt || pptr->port_ipkt_cnt ||
10131 	    (pptr->port_state & FCP_STATE_IN_WATCHDOG)) {
10132 		pptr->port_state &= ~flag;
10133 		mutex_exit(&pptr->port_mutex);
10134 		return (FC_FAILURE);
10135 	}
10136 
10137 	if (flag == FCP_STATE_DETACHING) {
10138 		pptr = fcp_soft_state_unlink(pptr);
10139 		ASSERT(pptr != NULL);
10140 	}
10141 
10142 	pptr->port_link_cnt++;
10143 	pptr->port_state |= FCP_STATE_OFFLINE;
10144 	pptr->port_state &= ~(FCP_STATE_ONLINING | FCP_STATE_ONLINE);
10145 
10146 	fcp_update_state(pptr, (FCP_LUN_BUSY | FCP_LUN_MARK),
10147 	    FCP_CAUSE_LINK_DOWN);
10148 	mutex_exit(&pptr->port_mutex);
10149 
10150 	/* kill watch dog timer if we're the last */
10151 	mutex_enter(&fcp_global_mutex);
10152 	if (--fcp_watchdog_init == 0) {
10153 		timeout_id_t	tid = fcp_watchdog_id;
10154 		mutex_exit(&fcp_global_mutex);
10155 		(void) untimeout(tid);
10156 	} else {
10157 		mutex_exit(&fcp_global_mutex);
10158 	}
10159 
10160 	/* clean up the port structures */
10161 	if (flag == FCP_STATE_DETACHING) {
10162 		fcp_cleanup_port(pptr, instance);
10163 	}
10164 
10165 	return (FC_SUCCESS);
10166 }
10167 
10168 
10169 static void
10170 fcp_cleanup_port(struct fcp_port *pptr, int instance)
10171 {
10172 	ASSERT(pptr != NULL);
10173 
10174 	/* unbind and free event set */
10175 	if (pptr->port_ndi_event_hdl) {
10176 		(void) ndi_event_unbind_set(pptr->port_ndi_event_hdl,
10177 		    &pptr->port_ndi_events, NDI_SLEEP);
10178 		(void) ndi_event_free_hdl(pptr->port_ndi_event_hdl);
10179 	}
10180 
10181 	if (pptr->port_ndi_event_defs) {
10182 		(void) kmem_free(pptr->port_ndi_event_defs,
10183 		    sizeof (fcp_ndi_event_defs));
10184 	}
10185 
10186 	/* free the lun/target structures and devinfos */
10187 	fcp_free_targets(pptr);
10188 
10189 	/*
10190 	 * Clean up mpxio stuff
10191 	 */
10192 	if (pptr->port_mpxio) {
10193 		(void) mdi_phci_unregister(pptr->port_dip, 0);
10194 		pptr->port_mpxio--;
10195 	}
10196 
10197 	/* clean up SCSA stuff */
10198 	(void) scsi_hba_detach(pptr->port_dip);
10199 	if (pptr->port_tran != NULL) {
10200 		scsi_hba_tran_free(pptr->port_tran);
10201 	}
10202 
10203 #ifdef	KSTATS_CODE
10204 	/* clean up kstats */
10205 	if (pptr->fcp_ksp != NULL) {
10206 		kstat_delete(pptr->fcp_ksp);
10207 	}
10208 #endif
10209 
10210 	/* clean up soft state mutexes/condition variables */
10211 	mutex_destroy(&pptr->port_mutex);
10212 	mutex_destroy(&pptr->port_pkt_mutex);
10213 
10214 	/* all done with soft state */
10215 	ddi_soft_state_free(fcp_softstate, instance);
10216 }
10217 
10218 /*
10219  *     Function: fcp_kmem_cache_constructor
10220  *
10221  *  Description: This function allocates and initializes the resources required
10222  *		 to build a scsi_pkt structure the target driver.  The result
10223  *		 of the allocation and initialization will be cached in the
10224  *		 memory cache.	As DMA resources may be allocated here, that
10225  *		 means DMA resources will be tied up in the cache manager.
10226  *		 This is a tradeoff that has been made for performance reasons.
10227  *
10228  *     Argument: *buf		Memory to preinitialize.
10229  *		 *arg		FCP port structure (fcp_port).
10230  *		 kmflags	Value passed to kmem_cache_alloc() and
10231  *				propagated to the constructor.
10232  *
10233  * Return Value: 0	Allocation/Initialization was successful.
10234  *		 -1	Allocation or Initialization failed.
10235  *
10236  *
10237  * If the returned value is 0, the buffer is initialized like this:
10238  *
10239  *		    +================================+
10240  *	     +----> |	      struct scsi_pkt	     |
10241  *	     |	    |				     |
10242  *	     | +--- | pkt_ha_private		     |
10243  *	     | |    |				     |
10244  *	     | |    +================================+
10245  *	     | |
10246  *	     | |    +================================+
10247  *	     | +--> |	    struct fcp_pkt	     | <---------+
10248  *	     |	    |				     |		 |
10249  *	     +----- | cmd_pkt			     |		 |
10250  *		    |			  cmd_fp_pkt | ---+	 |
10251  *	  +-------->| cmd_fcp_rsp[]		     |	  |	 |
10252  *	  |    +--->| cmd_fcp_cmd[]		     |	  |	 |
10253  *	  |    |    |--------------------------------|	  |	 |
10254  *	  |    |    |	      struct fc_packet	     | <--+	 |
10255  *	  |    |    |				     |		 |
10256  *	  |    |    |		     pkt_ulp_private | ----------+
10257  *	  |    |    |		     pkt_fca_private | -----+
10258  *	  |    |    |		     pkt_data_cookie | ---+ |
10259  *	  |    |    | pkt_cmdlen		     |	  | |
10260  *	  |    |(a) | pkt_rsplen		     |	  | |
10261  *	  |    +----| .......... pkt_cmd ........... | ---|-|---------------+
10262  *	  |	(b) |		      pkt_cmd_cookie | ---|-|----------+    |
10263  *	  +---------| .......... pkt_resp .......... | ---|-|------+   |    |
10264  *		    |		     pkt_resp_cookie | ---|-|--+   |   |    |
10265  *		    | pkt_cmd_dma		     |	  | |  |   |   |    |
10266  *		    | pkt_cmd_acc		     |	  | |  |   |   |    |
10267  *		    +================================+	  | |  |   |   |    |
10268  *		    |	      dma_cookies	     | <--+ |  |   |   |    |
10269  *		    |				     |	    |  |   |   |    |
10270  *		    +================================+	    |  |   |   |    |
10271  *		    |	      fca_private	     | <----+  |   |   |    |
10272  *		    |				     |	       |   |   |    |
10273  *		    +================================+	       |   |   |    |
10274  *							       |   |   |    |
10275  *							       |   |   |    |
10276  *		    +================================+	 (d)   |   |   |    |
10277  *		    |	     fcp_resp cookies	     | <-------+   |   |    |
10278  *		    |				     |		   |   |    |
10279  *		    +================================+		   |   |    |
10280  *								   |   |    |
10281  *		    +================================+	 (d)	   |   |    |
10282  *		    |		fcp_resp	     | <-----------+   |    |
10283  *		    |	(DMA resources associated)   |		       |    |
10284  *		    +================================+		       |    |
10285  *								       |    |
10286  *								       |    |
10287  *								       |    |
10288  *		    +================================+	 (c)	       |    |
10289  *		    |	     fcp_cmd cookies	     | <---------------+    |
10290  *		    |				     |			    |
10291  *		    +================================+			    |
10292  *									    |
10293  *		    +================================+	 (c)		    |
10294  *		    |		 fcp_cmd	     | <--------------------+
10295  *		    |	(DMA resources associated)   |
10296  *		    +================================+
10297  *
10298  * (a) Only if DMA is NOT used for the FCP_CMD buffer.
10299  * (b) Only if DMA is NOT used for the FCP_RESP buffer
10300  * (c) Only if DMA is used for the FCP_CMD buffer.
10301  * (d) Only if DMA is used for the FCP_RESP buffer
10302  */
10303 static int
10304 fcp_kmem_cache_constructor(struct scsi_pkt *pkt, scsi_hba_tran_t *tran,
10305     int kmflags)
10306 {
10307 	struct fcp_pkt	*cmd;
10308 	struct fcp_port	*pptr;
10309 	fc_packet_t	*fpkt;
10310 
10311 	pptr = (struct fcp_port *)tran->tran_hba_private;
10312 	cmd = (struct fcp_pkt *)pkt->pkt_ha_private;
10313 	bzero(cmd, tran->tran_hba_len);
10314 
10315 	cmd->cmd_pkt = pkt;
10316 	pkt->pkt_cdbp = cmd->cmd_fcp_cmd.fcp_cdb;
10317 	fpkt = (fc_packet_t *)&cmd->cmd_fc_packet;
10318 	cmd->cmd_fp_pkt = fpkt;
10319 
10320 	cmd->cmd_pkt->pkt_ha_private = (opaque_t)cmd;
10321 	cmd->cmd_fp_pkt->pkt_ulp_private = (opaque_t)cmd;
10322 	cmd->cmd_fp_pkt->pkt_fca_private = (opaque_t)((caddr_t)cmd +
10323 	    sizeof (struct fcp_pkt) + pptr->port_dmacookie_sz);
10324 
10325 	fpkt->pkt_data_cookie = (ddi_dma_cookie_t *)((caddr_t)cmd +
10326 	    sizeof (struct fcp_pkt));
10327 
10328 	fpkt->pkt_cmdlen = sizeof (struct fcp_cmd);
10329 	fpkt->pkt_rsplen = FCP_MAX_RSP_IU_SIZE;
10330 
10331 	if (pptr->port_fcp_dma == FC_NO_DVMA_SPACE) {
10332 		/*
10333 		 * The underlying HBA doesn't want to DMA the fcp_cmd or
10334 		 * fcp_resp.  The transfer of information will be done by
10335 		 * bcopy.
10336 		 * The naming of the flags (that is actually a value) is
10337 		 * unfortunate.	 FC_NO_DVMA_SPACE doesn't mean "NO VIRTUAL
10338 		 * DMA" but instead "NO DMA".
10339 		 */
10340 		fpkt->pkt_resp_acc = fpkt->pkt_cmd_acc = NULL;
10341 		fpkt->pkt_cmd = (caddr_t)&cmd->cmd_fcp_cmd;
10342 		fpkt->pkt_resp = cmd->cmd_fcp_rsp;
10343 	} else {
10344 		/*
10345 		 * The underlying HBA will dma the fcp_cmd buffer and fcp_resp
10346 		 * buffer.  A buffer is allocated for each one the ddi_dma_*
10347 		 * interfaces.
10348 		 */
10349 		if (fcp_alloc_cmd_resp(pptr, fpkt, kmflags) != FC_SUCCESS) {
10350 			return (-1);
10351 		}
10352 	}
10353 
10354 	return (0);
10355 }
10356 
10357 /*
10358  *     Function: fcp_kmem_cache_destructor
10359  *
10360  *  Description: Called by the destructor of the cache managed by SCSA.
10361  *		 All the resources pre-allocated in fcp_pkt_constructor
10362  *		 and the data also pre-initialized in fcp_pkt_constructor
10363  *		 are freed and uninitialized here.
10364  *
10365  *     Argument: *buf		Memory to uninitialize.
10366  *		 *arg		FCP port structure (fcp_port).
10367  *
10368  * Return Value: None
10369  *
10370  *	Context: kernel
10371  */
10372 static void
10373 fcp_kmem_cache_destructor(struct scsi_pkt *pkt, scsi_hba_tran_t *tran)
10374 {
10375 	struct fcp_pkt	*cmd;
10376 	struct fcp_port	*pptr;
10377 
10378 	pptr = (struct fcp_port *)(tran->tran_hba_private);
10379 	cmd = pkt->pkt_ha_private;
10380 
10381 	if (pptr->port_fcp_dma != FC_NO_DVMA_SPACE) {
10382 		/*
10383 		 * If DMA was used to transfer the FCP_CMD and FCP_RESP, the
10384 		 * buffer and DMA resources allocated to do so are released.
10385 		 */
10386 		fcp_free_cmd_resp(pptr, cmd->cmd_fp_pkt);
10387 	}
10388 }
10389 
10390 /*
10391  *     Function: fcp_alloc_cmd_resp
10392  *
10393  *  Description: This function allocated an FCP_CMD and FCP_RESP buffer that
10394  *		 will be DMAed by the HBA.  The buffer is allocated applying
10395  *		 the DMA requirements for the HBA.  The buffers allocated will
10396  *		 also be bound.	 DMA resources are allocated in the process.
10397  *		 They will be released by fcp_free_cmd_resp().
10398  *
10399  *     Argument: *pptr	FCP port.
10400  *		 *fpkt	fc packet for which the cmd and resp packet should be
10401  *			allocated.
10402  *		 flags	Allocation flags.
10403  *
10404  * Return Value: FC_FAILURE
10405  *		 FC_SUCCESS
10406  *
10407  *	Context: User or Kernel context only if flags == KM_SLEEP.
10408  *		 Interrupt context if the KM_SLEEP is not specified.
10409  */
10410 static int
10411 fcp_alloc_cmd_resp(struct fcp_port *pptr, fc_packet_t *fpkt, int flags)
10412 {
10413 	int			rval;
10414 	int			cmd_len;
10415 	int			resp_len;
10416 	ulong_t			real_len;
10417 	int			(*cb) (caddr_t);
10418 	ddi_dma_cookie_t	pkt_cookie;
10419 	ddi_dma_cookie_t	*cp;
10420 	uint32_t		cnt;
10421 
10422 	cb = (flags == KM_SLEEP) ? DDI_DMA_SLEEP : DDI_DMA_DONTWAIT;
10423 
10424 	cmd_len = fpkt->pkt_cmdlen;
10425 	resp_len = fpkt->pkt_rsplen;
10426 
10427 	ASSERT(fpkt->pkt_cmd_dma == NULL);
10428 
10429 	/* Allocation of a DMA handle used in subsequent calls. */
10430 	if (ddi_dma_alloc_handle(pptr->port_dip, &pptr->port_cmd_dma_attr,
10431 	    cb, NULL, &fpkt->pkt_cmd_dma) != DDI_SUCCESS) {
10432 		return (FC_FAILURE);
10433 	}
10434 
10435 	/* A buffer is allocated that satisfies the DMA requirements. */
10436 	rval = ddi_dma_mem_alloc(fpkt->pkt_cmd_dma, cmd_len,
10437 	    &pptr->port_dma_acc_attr, DDI_DMA_CONSISTENT, cb, NULL,
10438 	    (caddr_t *)&fpkt->pkt_cmd, &real_len, &fpkt->pkt_cmd_acc);
10439 
10440 	if (rval != DDI_SUCCESS) {
10441 		ddi_dma_free_handle(&fpkt->pkt_cmd_dma);
10442 		return (FC_FAILURE);
10443 	}
10444 
10445 	if (real_len < cmd_len) {
10446 		ddi_dma_mem_free(&fpkt->pkt_cmd_acc);
10447 		ddi_dma_free_handle(&fpkt->pkt_cmd_dma);
10448 		return (FC_FAILURE);
10449 	}
10450 
10451 	/* The buffer allocated is DMA bound. */
10452 	rval = ddi_dma_addr_bind_handle(fpkt->pkt_cmd_dma, NULL,
10453 	    fpkt->pkt_cmd, real_len, DDI_DMA_WRITE | DDI_DMA_CONSISTENT,
10454 	    cb, NULL, &pkt_cookie, &fpkt->pkt_cmd_cookie_cnt);
10455 
10456 	if (rval != DDI_DMA_MAPPED) {
10457 		ddi_dma_mem_free(&fpkt->pkt_cmd_acc);
10458 		ddi_dma_free_handle(&fpkt->pkt_cmd_dma);
10459 		return (FC_FAILURE);
10460 	}
10461 
10462 	if (fpkt->pkt_cmd_cookie_cnt >
10463 	    pptr->port_cmd_dma_attr.dma_attr_sgllen) {
10464 		(void) ddi_dma_unbind_handle(fpkt->pkt_cmd_dma);
10465 		ddi_dma_mem_free(&fpkt->pkt_cmd_acc);
10466 		ddi_dma_free_handle(&fpkt->pkt_cmd_dma);
10467 		return (FC_FAILURE);
10468 	}
10469 
10470 	ASSERT(fpkt->pkt_cmd_cookie_cnt != 0);
10471 
10472 	/*
10473 	 * The buffer where the scatter/gather list is going to be built is
10474 	 * allocated.
10475 	 */
10476 	cp = fpkt->pkt_cmd_cookie = (ddi_dma_cookie_t *)kmem_alloc(
10477 	    fpkt->pkt_cmd_cookie_cnt * sizeof (pkt_cookie),
10478 	    KM_NOSLEEP);
10479 
10480 	if (cp == NULL) {
10481 		(void) ddi_dma_unbind_handle(fpkt->pkt_cmd_dma);
10482 		ddi_dma_mem_free(&fpkt->pkt_cmd_acc);
10483 		ddi_dma_free_handle(&fpkt->pkt_cmd_dma);
10484 		return (FC_FAILURE);
10485 	}
10486 
10487 	/*
10488 	 * The scatter/gather list for the buffer we just allocated is built
10489 	 * here.
10490 	 */
10491 	*cp = pkt_cookie;
10492 	cp++;
10493 
10494 	for (cnt = 1; cnt < fpkt->pkt_cmd_cookie_cnt; cnt++, cp++) {
10495 		ddi_dma_nextcookie(fpkt->pkt_cmd_dma,
10496 		    &pkt_cookie);
10497 		*cp = pkt_cookie;
10498 	}
10499 
10500 	ASSERT(fpkt->pkt_resp_dma == NULL);
10501 	if (ddi_dma_alloc_handle(pptr->port_dip, &pptr->port_resp_dma_attr,
10502 	    cb, NULL, &fpkt->pkt_resp_dma) != DDI_SUCCESS) {
10503 		(void) ddi_dma_unbind_handle(fpkt->pkt_cmd_dma);
10504 		ddi_dma_mem_free(&fpkt->pkt_cmd_acc);
10505 		ddi_dma_free_handle(&fpkt->pkt_cmd_dma);
10506 		return (FC_FAILURE);
10507 	}
10508 
10509 	rval = ddi_dma_mem_alloc(fpkt->pkt_resp_dma, resp_len,
10510 	    &pptr->port_dma_acc_attr, DDI_DMA_CONSISTENT, cb, NULL,
10511 	    (caddr_t *)&fpkt->pkt_resp, &real_len,
10512 	    &fpkt->pkt_resp_acc);
10513 
10514 	if (rval != DDI_SUCCESS) {
10515 		ddi_dma_free_handle(&fpkt->pkt_resp_dma);
10516 		(void) ddi_dma_unbind_handle(fpkt->pkt_cmd_dma);
10517 		ddi_dma_mem_free(&fpkt->pkt_cmd_acc);
10518 		ddi_dma_free_handle(&fpkt->pkt_cmd_dma);
10519 		kmem_free(fpkt->pkt_cmd_cookie,
10520 		    fpkt->pkt_cmd_cookie_cnt * sizeof (pkt_cookie));
10521 		return (FC_FAILURE);
10522 	}
10523 
10524 	if (real_len < resp_len) {
10525 		ddi_dma_mem_free(&fpkt->pkt_resp_acc);
10526 		ddi_dma_free_handle(&fpkt->pkt_resp_dma);
10527 		(void) ddi_dma_unbind_handle(fpkt->pkt_cmd_dma);
10528 		ddi_dma_mem_free(&fpkt->pkt_cmd_acc);
10529 		ddi_dma_free_handle(&fpkt->pkt_cmd_dma);
10530 		kmem_free(fpkt->pkt_cmd_cookie,
10531 		    fpkt->pkt_cmd_cookie_cnt * sizeof (pkt_cookie));
10532 		return (FC_FAILURE);
10533 	}
10534 
10535 	rval = ddi_dma_addr_bind_handle(fpkt->pkt_resp_dma, NULL,
10536 	    fpkt->pkt_resp, real_len, DDI_DMA_READ | DDI_DMA_CONSISTENT,
10537 	    cb, NULL, &pkt_cookie, &fpkt->pkt_resp_cookie_cnt);
10538 
10539 	if (rval != DDI_DMA_MAPPED) {
10540 		ddi_dma_mem_free(&fpkt->pkt_resp_acc);
10541 		ddi_dma_free_handle(&fpkt->pkt_resp_dma);
10542 		(void) ddi_dma_unbind_handle(fpkt->pkt_cmd_dma);
10543 		ddi_dma_mem_free(&fpkt->pkt_cmd_acc);
10544 		ddi_dma_free_handle(&fpkt->pkt_cmd_dma);
10545 		kmem_free(fpkt->pkt_cmd_cookie,
10546 		    fpkt->pkt_cmd_cookie_cnt * sizeof (pkt_cookie));
10547 		return (FC_FAILURE);
10548 	}
10549 
10550 	if (fpkt->pkt_resp_cookie_cnt >
10551 	    pptr->port_resp_dma_attr.dma_attr_sgllen) {
10552 		ddi_dma_mem_free(&fpkt->pkt_resp_acc);
10553 		ddi_dma_free_handle(&fpkt->pkt_resp_dma);
10554 		(void) ddi_dma_unbind_handle(fpkt->pkt_cmd_dma);
10555 		ddi_dma_mem_free(&fpkt->pkt_cmd_acc);
10556 		ddi_dma_free_handle(&fpkt->pkt_cmd_dma);
10557 		kmem_free(fpkt->pkt_cmd_cookie,
10558 		    fpkt->pkt_cmd_cookie_cnt * sizeof (pkt_cookie));
10559 		return (FC_FAILURE);
10560 	}
10561 
10562 	ASSERT(fpkt->pkt_resp_cookie_cnt != 0);
10563 
10564 	cp = fpkt->pkt_resp_cookie = (ddi_dma_cookie_t *)kmem_alloc(
10565 	    fpkt->pkt_resp_cookie_cnt * sizeof (pkt_cookie),
10566 	    KM_NOSLEEP);
10567 
10568 	if (cp == NULL) {
10569 		ddi_dma_mem_free(&fpkt->pkt_resp_acc);
10570 		ddi_dma_free_handle(&fpkt->pkt_resp_dma);
10571 		(void) ddi_dma_unbind_handle(fpkt->pkt_cmd_dma);
10572 		ddi_dma_mem_free(&fpkt->pkt_cmd_acc);
10573 		ddi_dma_free_handle(&fpkt->pkt_cmd_dma);
10574 		kmem_free(fpkt->pkt_cmd_cookie,
10575 		    fpkt->pkt_cmd_cookie_cnt * sizeof (pkt_cookie));
10576 		return (FC_FAILURE);
10577 	}
10578 
10579 	*cp = pkt_cookie;
10580 	cp++;
10581 
10582 	for (cnt = 1; cnt < fpkt->pkt_resp_cookie_cnt; cnt++, cp++) {
10583 		ddi_dma_nextcookie(fpkt->pkt_resp_dma,
10584 		    &pkt_cookie);
10585 		*cp = pkt_cookie;
10586 	}
10587 
10588 	return (FC_SUCCESS);
10589 }
10590 
10591 /*
10592  *     Function: fcp_free_cmd_resp
10593  *
10594  *  Description: This function releases the FCP_CMD and FCP_RESP buffer
10595  *		 allocated by fcp_alloc_cmd_resp() and all the resources
10596  *		 associated with them.	That includes the DMA resources and the
10597  *		 buffer allocated for the cookies of each one of them.
10598  *
10599  *     Argument: *pptr		FCP port context.
10600  *		 *fpkt		fc packet containing the cmd and resp packet
10601  *				to be released.
10602  *
10603  * Return Value: None
10604  *
10605  *	Context: Interrupt, User and Kernel context.
10606  */
10607 /* ARGSUSED */
10608 static void
10609 fcp_free_cmd_resp(struct fcp_port *pptr, fc_packet_t *fpkt)
10610 {
10611 	ASSERT(fpkt->pkt_resp_dma != NULL && fpkt->pkt_cmd_dma != NULL);
10612 
10613 	if (fpkt->pkt_resp_dma) {
10614 		(void) ddi_dma_unbind_handle(fpkt->pkt_resp_dma);
10615 		ddi_dma_mem_free(&fpkt->pkt_resp_acc);
10616 		ddi_dma_free_handle(&fpkt->pkt_resp_dma);
10617 	}
10618 
10619 	if (fpkt->pkt_resp_cookie) {
10620 		kmem_free(fpkt->pkt_resp_cookie,
10621 		    fpkt->pkt_resp_cookie_cnt * sizeof (ddi_dma_cookie_t));
10622 		fpkt->pkt_resp_cookie = NULL;
10623 	}
10624 
10625 	if (fpkt->pkt_cmd_dma) {
10626 		(void) ddi_dma_unbind_handle(fpkt->pkt_cmd_dma);
10627 		ddi_dma_mem_free(&fpkt->pkt_cmd_acc);
10628 		ddi_dma_free_handle(&fpkt->pkt_cmd_dma);
10629 	}
10630 
10631 	if (fpkt->pkt_cmd_cookie) {
10632 		kmem_free(fpkt->pkt_cmd_cookie,
10633 		    fpkt->pkt_cmd_cookie_cnt * sizeof (ddi_dma_cookie_t));
10634 		fpkt->pkt_cmd_cookie = NULL;
10635 	}
10636 }
10637 
10638 
10639 /*
10640  * called by the transport to do our own target initialization
10641  *
10642  * can acquire and release the global mutex
10643  */
10644 /* ARGSUSED */
10645 static int
10646 fcp_phys_tgt_init(dev_info_t *hba_dip, dev_info_t *tgt_dip,
10647     scsi_hba_tran_t *hba_tran, struct scsi_device *sd)
10648 {
10649 	uchar_t			*bytes;
10650 	uint_t			nbytes;
10651 	uint16_t		lun_num;
10652 	struct fcp_tgt	*ptgt;
10653 	struct fcp_lun	*plun;
10654 	struct fcp_port	*pptr = (struct fcp_port *)
10655 	    hba_tran->tran_hba_private;
10656 
10657 	ASSERT(pptr != NULL);
10658 
10659 	FCP_DTRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
10660 	    FCP_BUF_LEVEL_8, 0,
10661 	    "fcp_phys_tgt_init: called for %s (instance %d)",
10662 	    ddi_get_name(tgt_dip), ddi_get_instance(tgt_dip));
10663 
10664 	/* get our port WWN property */
10665 	bytes = NULL;
10666 	if ((scsi_device_prop_lookup_byte_array(sd, SCSI_DEVICE_PROP_PATH,
10667 	    PORT_WWN_PROP, &bytes, &nbytes) != DDI_PROP_SUCCESS) ||
10668 	    (nbytes != FC_WWN_SIZE)) {
10669 		/* no port WWN property */
10670 		FCP_DTRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
10671 		    FCP_BUF_LEVEL_8, 0,
10672 		    "fcp_phys_tgt_init: Returning DDI_NOT_WELL_FORMED"
10673 		    " for %s (instance %d): bytes=%p nbytes=%x",
10674 		    ddi_get_name(tgt_dip), ddi_get_instance(tgt_dip), bytes,
10675 		    nbytes);
10676 
10677 		if (bytes != NULL) {
10678 			scsi_device_prop_free(sd, SCSI_DEVICE_PROP_PATH, bytes);
10679 		}
10680 
10681 		return (DDI_NOT_WELL_FORMED);
10682 	}
10683 	ASSERT(bytes != NULL);
10684 
10685 	lun_num = scsi_device_prop_get_int(sd, SCSI_DEVICE_PROP_PATH,
10686 	    LUN_PROP, 0xFFFF);
10687 	if (lun_num == 0xFFFF) {
10688 		FCP_DTRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
10689 		    FCP_BUF_LEVEL_8, 0,
10690 		    "fcp_phys_tgt_init: Returning DDI_FAILURE:lun"
10691 		    " for %s (instance %d)", ddi_get_name(tgt_dip),
10692 		    ddi_get_instance(tgt_dip));
10693 
10694 		scsi_device_prop_free(sd, SCSI_DEVICE_PROP_PATH, bytes);
10695 		return (DDI_NOT_WELL_FORMED);
10696 	}
10697 
10698 	mutex_enter(&pptr->port_mutex);
10699 	if ((plun = fcp_lookup_lun(pptr, bytes, lun_num)) == NULL) {
10700 		mutex_exit(&pptr->port_mutex);
10701 		FCP_DTRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
10702 		    FCP_BUF_LEVEL_8, 0,
10703 		    "fcp_phys_tgt_init: Returning DDI_FAILURE: No Lun"
10704 		    " for %s (instance %d)", ddi_get_name(tgt_dip),
10705 		    ddi_get_instance(tgt_dip));
10706 
10707 		scsi_device_prop_free(sd, SCSI_DEVICE_PROP_PATH, bytes);
10708 		return (DDI_FAILURE);
10709 	}
10710 
10711 	ASSERT(bcmp(plun->lun_tgt->tgt_port_wwn.raw_wwn, bytes,
10712 	    FC_WWN_SIZE) == 0);
10713 	ASSERT(plun->lun_num == lun_num);
10714 
10715 	scsi_device_prop_free(sd, SCSI_DEVICE_PROP_PATH, bytes);
10716 
10717 	ptgt = plun->lun_tgt;
10718 
10719 	mutex_enter(&ptgt->tgt_mutex);
10720 	plun->lun_tgt_count++;
10721 	scsi_device_hba_private_set(sd, plun);
10722 	plun->lun_state |= FCP_SCSI_LUN_TGT_INIT;
10723 	plun->lun_tran = hba_tran;
10724 	mutex_exit(&ptgt->tgt_mutex);
10725 	mutex_exit(&pptr->port_mutex);
10726 
10727 	return (DDI_SUCCESS);
10728 }
10729 
10730 /*ARGSUSED*/
10731 static int
10732 fcp_virt_tgt_init(dev_info_t *hba_dip, dev_info_t *tgt_dip,
10733     scsi_hba_tran_t *hba_tran, struct scsi_device *sd)
10734 {
10735 	uchar_t			*bytes;
10736 	uint_t			nbytes;
10737 	uint16_t		lun_num;
10738 	struct fcp_tgt	*ptgt;
10739 	struct fcp_lun	*plun;
10740 	struct fcp_port	*pptr = (struct fcp_port *)
10741 	    hba_tran->tran_hba_private;
10742 	child_info_t		*cip;
10743 
10744 	ASSERT(pptr != NULL);
10745 
10746 	FCP_DTRACE(fcp_logq, pptr->port_instbuf,
10747 	    fcp_trace, FCP_BUF_LEVEL_8, 0,
10748 	    "fcp_virt_tgt_init: called for %s (instance %d) (hba_dip %p),"
10749 	    " (tgt_dip %p)", ddi_get_name(tgt_dip),
10750 	    ddi_get_instance(tgt_dip), hba_dip, tgt_dip);
10751 
10752 	cip = (child_info_t *)sd->sd_pathinfo;
10753 	if (cip == NULL) {
10754 		FCP_DTRACE(fcp_logq, pptr->port_instbuf,
10755 		    fcp_trace, FCP_BUF_LEVEL_8, 0,
10756 		    "fcp_virt_tgt_init: Returning DDI_NOT_WELL_FORMED"
10757 		    " for %s (instance %d)", ddi_get_name(tgt_dip),
10758 		    ddi_get_instance(tgt_dip));
10759 
10760 		return (DDI_NOT_WELL_FORMED);
10761 	}
10762 
10763 	/* get our port WWN property */
10764 	bytes = NULL;
10765 	if ((scsi_device_prop_lookup_byte_array(sd, SCSI_DEVICE_PROP_PATH,
10766 	    PORT_WWN_PROP, &bytes, &nbytes) != DDI_PROP_SUCCESS) ||
10767 	    (nbytes != FC_WWN_SIZE)) {
10768 		if (bytes)
10769 			scsi_device_prop_free(sd, SCSI_DEVICE_PROP_PATH, bytes);
10770 		return (DDI_NOT_WELL_FORMED);
10771 	}
10772 
10773 	ASSERT(bytes != NULL);
10774 
10775 	lun_num = scsi_device_prop_get_int(sd, SCSI_DEVICE_PROP_PATH,
10776 	    LUN_PROP, 0xFFFF);
10777 	if (lun_num == 0xFFFF) {
10778 		FCP_DTRACE(fcp_logq, pptr->port_instbuf,
10779 		    fcp_trace, FCP_BUF_LEVEL_8, 0,
10780 		    "fcp_virt_tgt_init: Returning DDI_FAILURE:lun"
10781 		    " for %s (instance %d)", ddi_get_name(tgt_dip),
10782 		    ddi_get_instance(tgt_dip));
10783 
10784 		scsi_device_prop_free(sd, SCSI_DEVICE_PROP_PATH, bytes);
10785 		return (DDI_NOT_WELL_FORMED);
10786 	}
10787 
10788 	mutex_enter(&pptr->port_mutex);
10789 	if ((plun = fcp_lookup_lun(pptr, bytes, lun_num)) == NULL) {
10790 		mutex_exit(&pptr->port_mutex);
10791 		FCP_DTRACE(fcp_logq, pptr->port_instbuf,
10792 		    fcp_trace, FCP_BUF_LEVEL_8, 0,
10793 		    "fcp_virt_tgt_init: Returning DDI_FAILURE: No Lun"
10794 		    " for %s (instance %d)", ddi_get_name(tgt_dip),
10795 		    ddi_get_instance(tgt_dip));
10796 
10797 		scsi_device_prop_free(sd, SCSI_DEVICE_PROP_PATH, bytes);
10798 		return (DDI_FAILURE);
10799 	}
10800 
10801 	ASSERT(bcmp(plun->lun_tgt->tgt_port_wwn.raw_wwn, bytes,
10802 	    FC_WWN_SIZE) == 0);
10803 	ASSERT(plun->lun_num == lun_num);
10804 
10805 	scsi_device_prop_free(sd, SCSI_DEVICE_PROP_PATH, bytes);
10806 
10807 	ptgt = plun->lun_tgt;
10808 
10809 	mutex_enter(&ptgt->tgt_mutex);
10810 	plun->lun_tgt_count++;
10811 	scsi_device_hba_private_set(sd, plun);
10812 	plun->lun_state |= FCP_SCSI_LUN_TGT_INIT;
10813 	plun->lun_tran = hba_tran;
10814 	mutex_exit(&ptgt->tgt_mutex);
10815 	mutex_exit(&pptr->port_mutex);
10816 
10817 	return (DDI_SUCCESS);
10818 }
10819 
10820 
10821 /*
10822  * called by the transport to do our own target initialization
10823  *
10824  * can acquire and release the global mutex
10825  */
10826 /* ARGSUSED */
10827 static int
10828 fcp_scsi_tgt_init(dev_info_t *hba_dip, dev_info_t *tgt_dip,
10829     scsi_hba_tran_t *hba_tran, struct scsi_device *sd)
10830 {
10831 	struct fcp_port	*pptr = (struct fcp_port *)
10832 	    hba_tran->tran_hba_private;
10833 	int			rval;
10834 
10835 	ASSERT(pptr != NULL);
10836 
10837 	/*
10838 	 * Child node is getting initialized.  Look at the mpxio component
10839 	 * type on the child device to see if this device is mpxio managed
10840 	 * or not.
10841 	 */
10842 	if (mdi_component_is_client(tgt_dip, NULL) == MDI_SUCCESS) {
10843 		rval = fcp_virt_tgt_init(hba_dip, tgt_dip, hba_tran, sd);
10844 	} else {
10845 		rval = fcp_phys_tgt_init(hba_dip, tgt_dip, hba_tran, sd);
10846 	}
10847 
10848 	return (rval);
10849 }
10850 
10851 
10852 /* ARGSUSED */
10853 static void
10854 fcp_scsi_tgt_free(dev_info_t *hba_dip, dev_info_t *tgt_dip,
10855     scsi_hba_tran_t *hba_tran, struct scsi_device *sd)
10856 {
10857 	struct fcp_lun	*plun = scsi_device_hba_private_get(sd);
10858 	struct fcp_tgt	*ptgt;
10859 
10860 	FCP_DTRACE(fcp_logq, LUN_PORT->port_instbuf,
10861 	    fcp_trace, FCP_BUF_LEVEL_8, 0,
10862 	    "fcp_scsi_tgt_free: called for tran %s%d, dev %s%d",
10863 	    ddi_get_name(hba_dip), ddi_get_instance(hba_dip),
10864 	    ddi_get_name(tgt_dip), ddi_get_instance(tgt_dip));
10865 
10866 	if (plun == NULL) {
10867 		return;
10868 	}
10869 	ptgt = plun->lun_tgt;
10870 
10871 	ASSERT(ptgt != NULL);
10872 
10873 	mutex_enter(&ptgt->tgt_mutex);
10874 	ASSERT(plun->lun_tgt_count > 0);
10875 
10876 	if (--plun->lun_tgt_count == 0) {
10877 		plun->lun_state &= ~FCP_SCSI_LUN_TGT_INIT;
10878 	}
10879 	plun->lun_tran = NULL;
10880 	mutex_exit(&ptgt->tgt_mutex);
10881 }
10882 
10883 /*
10884  *     Function: fcp_scsi_start
10885  *
10886  *  Description: This function is called by the target driver to request a
10887  *		 command to be sent.
10888  *
10889  *     Argument: *ap		SCSI address of the device.
10890  *		 *pkt		SCSI packet containing the cmd to send.
10891  *
10892  * Return Value: TRAN_ACCEPT
10893  *		 TRAN_BUSY
10894  *		 TRAN_BADPKT
10895  *		 TRAN_FATAL_ERROR
10896  */
10897 static int
10898 fcp_scsi_start(struct scsi_address *ap, struct scsi_pkt *pkt)
10899 {
10900 	struct fcp_port	*pptr = ADDR2FCP(ap);
10901 	struct fcp_lun	*plun = ADDR2LUN(ap);
10902 	struct fcp_pkt	*cmd = PKT2CMD(pkt);
10903 	struct fcp_tgt	*ptgt = plun->lun_tgt;
10904 	int			rval;
10905 
10906 	/* ensure command isn't already issued */
10907 	ASSERT(cmd->cmd_state != FCP_PKT_ISSUED);
10908 
10909 	FCP_DTRACE(fcp_logq, pptr->port_instbuf,
10910 	    fcp_trace, FCP_BUF_LEVEL_9, 0,
10911 	    "fcp_transport Invoked for %x", plun->lun_tgt->tgt_d_id);
10912 
10913 	/*
10914 	 * It is strange that we enter the fcp_port mutex and the target
10915 	 * mutex to check the lun state (which has a mutex of its own).
10916 	 */
10917 	mutex_enter(&pptr->port_mutex);
10918 	mutex_enter(&ptgt->tgt_mutex);
10919 
10920 	/*
10921 	 * If the device is offline and is not in the process of coming
10922 	 * online, fail the request.
10923 	 */
10924 
10925 	if ((plun->lun_state & FCP_LUN_OFFLINE) &&
10926 	    !(plun->lun_state & FCP_LUN_ONLINING)) {
10927 		mutex_exit(&ptgt->tgt_mutex);
10928 		mutex_exit(&pptr->port_mutex);
10929 
10930 		if (cmd->cmd_fp_pkt->pkt_pd == NULL) {
10931 			pkt->pkt_reason = CMD_DEV_GONE;
10932 		}
10933 
10934 		return (TRAN_FATAL_ERROR);
10935 	}
10936 	cmd->cmd_fp_pkt->pkt_timeout = pkt->pkt_time;
10937 
10938 	/*
10939 	 * If we are suspended, kernel is trying to dump, so don't
10940 	 * block, fail or defer requests - send them down right away.
10941 	 * NOTE: If we are in panic (i.e. trying to dump), we can't
10942 	 * assume we have been suspended.  There is hardware such as
10943 	 * the v880 that doesn't do PM.	 Thus, the check for
10944 	 * ddi_in_panic.
10945 	 *
10946 	 * If FCP_STATE_IN_CB_DEVC is set, devices are in the process
10947 	 * of changing.	 So, if we can queue the packet, do it.	 Eventually,
10948 	 * either the device will have gone away or changed and we can fail
10949 	 * the request, or we can proceed if the device didn't change.
10950 	 *
10951 	 * If the pd in the target or the packet is NULL it's probably
10952 	 * because the device has gone away, we allow the request to be
10953 	 * put on the internal queue here in case the device comes back within
10954 	 * the offline timeout. fctl will fix up the pd's if the tgt_pd_handle
10955 	 * has gone NULL, while fcp deals cases where pkt_pd is NULL. pkt_pd
10956 	 * could be NULL because the device was disappearing during or since
10957 	 * packet initialization.
10958 	 */
10959 
10960 	if (((plun->lun_state & FCP_LUN_BUSY) && (!(pptr->port_state &
10961 	    FCP_STATE_SUSPENDED)) && !ddi_in_panic()) ||
10962 	    (pptr->port_state & (FCP_STATE_ONLINING | FCP_STATE_IN_CB_DEVC)) ||
10963 	    (ptgt->tgt_pd_handle == NULL) ||
10964 	    (cmd->cmd_fp_pkt->pkt_pd == NULL)) {
10965 		/*
10966 		 * If ((LUN is busy AND
10967 		 *	LUN not suspended AND
10968 		 *	The system is not in panic state) OR
10969 		 *	(The port is coming up))
10970 		 *
10971 		 * We check to see if the any of the flags FLAG_NOINTR or
10972 		 * FLAG_NOQUEUE is set.	 If one of them is set the value
10973 		 * returned will be TRAN_BUSY.	If not, the request is queued.
10974 		 */
10975 		mutex_exit(&ptgt->tgt_mutex);
10976 		mutex_exit(&pptr->port_mutex);
10977 
10978 		/* see if using interrupts is allowed (so queueing'll work) */
10979 		if (pkt->pkt_flags & FLAG_NOINTR) {
10980 			pkt->pkt_resid = 0;
10981 			return (TRAN_BUSY);
10982 		}
10983 		if (pkt->pkt_flags & FLAG_NOQUEUE) {
10984 			FCP_DTRACE(fcp_logq, pptr->port_instbuf,
10985 			    fcp_trace, FCP_BUF_LEVEL_9, 0,
10986 			    "fcp_scsi_start: lun busy for pkt %p", pkt);
10987 			return (TRAN_BUSY);
10988 		}
10989 #ifdef	DEBUG
10990 		mutex_enter(&pptr->port_pkt_mutex);
10991 		pptr->port_npkts++;
10992 		mutex_exit(&pptr->port_pkt_mutex);
10993 #endif /* DEBUG */
10994 
10995 		/* got queue up the pkt for later */
10996 		fcp_queue_pkt(pptr, cmd);
10997 		return (TRAN_ACCEPT);
10998 	}
10999 	cmd->cmd_state = FCP_PKT_ISSUED;
11000 
11001 	mutex_exit(&ptgt->tgt_mutex);
11002 	mutex_exit(&pptr->port_mutex);
11003 
11004 	/*
11005 	 * Now that we released the mutexes, what was protected by them can
11006 	 * change.
11007 	 */
11008 
11009 	/*
11010 	 * If there is a reconfiguration in progress, wait for it to complete.
11011 	 */
11012 	fcp_reconfig_wait(pptr);
11013 
11014 	cmd->cmd_timeout = pkt->pkt_time ? fcp_watchdog_time +
11015 	    pkt->pkt_time : 0;
11016 
11017 	/* prepare the packet */
11018 
11019 	fcp_prepare_pkt(pptr, cmd, plun);
11020 
11021 	if (cmd->cmd_pkt->pkt_time) {
11022 		cmd->cmd_fp_pkt->pkt_timeout = cmd->cmd_pkt->pkt_time;
11023 	} else {
11024 		cmd->cmd_fp_pkt->pkt_timeout = 5 * 60 * 60;
11025 	}
11026 
11027 	/*
11028 	 * if interrupts aren't allowed (e.g. at dump time) then we'll
11029 	 * have to do polled I/O
11030 	 */
11031 	if (pkt->pkt_flags & FLAG_NOINTR) {
11032 		cmd->cmd_state &= ~FCP_PKT_ISSUED;
11033 		return (fcp_dopoll(pptr, cmd));
11034 	}
11035 
11036 #ifdef	DEBUG
11037 	mutex_enter(&pptr->port_pkt_mutex);
11038 	pptr->port_npkts++;
11039 	mutex_exit(&pptr->port_pkt_mutex);
11040 #endif /* DEBUG */
11041 
11042 	rval = fcp_transport(pptr->port_fp_handle, cmd->cmd_fp_pkt, 0);
11043 	if (rval == FC_SUCCESS) {
11044 		FCP_DTRACE(fcp_logq, pptr->port_instbuf,
11045 		    fcp_trace, FCP_BUF_LEVEL_9, 0,
11046 		    "fcp_transport success for %x", plun->lun_tgt->tgt_d_id);
11047 		return (TRAN_ACCEPT);
11048 	}
11049 
11050 	cmd->cmd_state = FCP_PKT_IDLE;
11051 
11052 #ifdef	DEBUG
11053 	mutex_enter(&pptr->port_pkt_mutex);
11054 	pptr->port_npkts--;
11055 	mutex_exit(&pptr->port_pkt_mutex);
11056 #endif /* DEBUG */
11057 
11058 	/*
11059 	 * For lack of clearer definitions, choose
11060 	 * between TRAN_BUSY and TRAN_FATAL_ERROR.
11061 	 */
11062 
11063 	if (rval == FC_TRAN_BUSY) {
11064 		pkt->pkt_resid = 0;
11065 		rval = TRAN_BUSY;
11066 	} else {
11067 		mutex_enter(&ptgt->tgt_mutex);
11068 		if (plun->lun_state & FCP_LUN_OFFLINE) {
11069 			child_info_t	*cip;
11070 
11071 			mutex_enter(&plun->lun_mutex);
11072 			cip = plun->lun_cip;
11073 			mutex_exit(&plun->lun_mutex);
11074 
11075 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
11076 			    fcp_trace, FCP_BUF_LEVEL_6, 0,
11077 			    "fcp_transport failed 2 for %x: %x; dip=%p",
11078 			    plun->lun_tgt->tgt_d_id, rval, cip);
11079 
11080 			rval = TRAN_FATAL_ERROR;
11081 		} else {
11082 			if (pkt->pkt_flags & FLAG_NOQUEUE) {
11083 				FCP_DTRACE(fcp_logq, pptr->port_instbuf,
11084 				    fcp_trace, FCP_BUF_LEVEL_9, 0,
11085 				    "fcp_scsi_start: FC_BUSY for pkt %p",
11086 				    pkt);
11087 				rval = TRAN_BUSY;
11088 			} else {
11089 				rval = TRAN_ACCEPT;
11090 				fcp_queue_pkt(pptr, cmd);
11091 			}
11092 		}
11093 		mutex_exit(&ptgt->tgt_mutex);
11094 	}
11095 
11096 	return (rval);
11097 }
11098 
11099 /*
11100  * called by the transport to abort a packet
11101  */
11102 /*ARGSUSED*/
11103 static int
11104 fcp_scsi_abort(struct scsi_address *ap, struct scsi_pkt *pkt)
11105 {
11106 	int tgt_cnt;
11107 	struct fcp_port		*pptr = ADDR2FCP(ap);
11108 	struct fcp_lun	*plun = ADDR2LUN(ap);
11109 	struct fcp_tgt	*ptgt = plun->lun_tgt;
11110 
11111 	if (pkt == NULL) {
11112 		if (ptgt) {
11113 			mutex_enter(&ptgt->tgt_mutex);
11114 			tgt_cnt = ptgt->tgt_change_cnt;
11115 			mutex_exit(&ptgt->tgt_mutex);
11116 			fcp_abort_all(pptr, ptgt, plun, tgt_cnt);
11117 			return (TRUE);
11118 		}
11119 	}
11120 	return (FALSE);
11121 }
11122 
11123 
11124 /*
11125  * Perform reset
11126  */
11127 int
11128 fcp_scsi_reset(struct scsi_address *ap, int level)
11129 {
11130 	int			rval = 0;
11131 	struct fcp_port		*pptr = ADDR2FCP(ap);
11132 	struct fcp_lun	*plun = ADDR2LUN(ap);
11133 	struct fcp_tgt	*ptgt = plun->lun_tgt;
11134 
11135 	if (level == RESET_ALL) {
11136 		if (fcp_linkreset(pptr, ap, KM_NOSLEEP) == FC_SUCCESS) {
11137 			rval = 1;
11138 		}
11139 	} else if (level == RESET_TARGET || level == RESET_LUN) {
11140 		/*
11141 		 * If we are in the middle of discovery, return
11142 		 * SUCCESS as this target will be rediscovered
11143 		 * anyway
11144 		 */
11145 		mutex_enter(&ptgt->tgt_mutex);
11146 		if (ptgt->tgt_state & (FCP_TGT_OFFLINE | FCP_TGT_BUSY)) {
11147 			mutex_exit(&ptgt->tgt_mutex);
11148 			return (1);
11149 		}
11150 		mutex_exit(&ptgt->tgt_mutex);
11151 
11152 		if (fcp_reset_target(ap, level) == FC_SUCCESS) {
11153 			rval = 1;
11154 		}
11155 	}
11156 	return (rval);
11157 }
11158 
11159 
11160 /*
11161  * called by the framework to get a SCSI capability
11162  */
11163 static int
11164 fcp_scsi_getcap(struct scsi_address *ap, char *cap, int whom)
11165 {
11166 	return (fcp_commoncap(ap, cap, 0, whom, 0));
11167 }
11168 
11169 
11170 /*
11171  * called by the framework to set a SCSI capability
11172  */
11173 static int
11174 fcp_scsi_setcap(struct scsi_address *ap, char *cap, int value, int whom)
11175 {
11176 	return (fcp_commoncap(ap, cap, value, whom, 1));
11177 }
11178 
11179 /*
11180  *     Function: fcp_pkt_setup
11181  *
11182  *  Description: This function sets up the scsi_pkt structure passed by the
11183  *		 caller. This function assumes fcp_pkt_constructor has been
11184  *		 called previously for the packet passed by the caller.	 If
11185  *		 successful this call will have the following results:
11186  *
11187  *		   - The resources needed that will be constant through out
11188  *		     the whole transaction are allocated.
11189  *		   - The fields that will be constant through out the whole
11190  *		     transaction are initialized.
11191  *		   - The scsi packet will be linked to the LUN structure
11192  *		     addressed by the transaction.
11193  *
11194  *     Argument:
11195  *		 *pkt		Pointer to a scsi_pkt structure.
11196  *		 callback
11197  *		 arg
11198  *
11199  * Return Value: 0	Success
11200  *		 !0	Failure
11201  *
11202  *	Context: Kernel context or interrupt context
11203  */
11204 /* ARGSUSED */
11205 static int
11206 fcp_pkt_setup(struct scsi_pkt *pkt,
11207     int (*callback)(caddr_t arg),
11208     caddr_t arg)
11209 {
11210 	struct fcp_pkt	*cmd;
11211 	struct fcp_port	*pptr;
11212 	struct fcp_lun	*plun;
11213 	struct fcp_tgt	*ptgt;
11214 	int		kf;
11215 	fc_packet_t	*fpkt;
11216 	fc_frame_hdr_t	*hp;
11217 
11218 	pptr = ADDR2FCP(&pkt->pkt_address);
11219 	plun = ADDR2LUN(&pkt->pkt_address);
11220 	ptgt = plun->lun_tgt;
11221 
11222 	cmd = (struct fcp_pkt *)pkt->pkt_ha_private;
11223 	fpkt = cmd->cmd_fp_pkt;
11224 
11225 	/*
11226 	 * this request is for dma allocation only
11227 	 */
11228 	/*
11229 	 * First step of fcp_scsi_init_pkt: pkt allocation
11230 	 * We determine if the caller is willing to wait for the
11231 	 * resources.
11232 	 */
11233 	kf = (callback == SLEEP_FUNC) ? KM_SLEEP: KM_NOSLEEP;
11234 
11235 	/*
11236 	 * Selective zeroing of the pkt.
11237 	 */
11238 	cmd->cmd_back = NULL;
11239 	cmd->cmd_next = NULL;
11240 
11241 	/*
11242 	 * Zero out fcp command
11243 	 */
11244 	bzero(&cmd->cmd_fcp_cmd, sizeof (cmd->cmd_fcp_cmd));
11245 
11246 	cmd->cmd_state = FCP_PKT_IDLE;
11247 
11248 	fpkt = cmd->cmd_fp_pkt;
11249 	fpkt->pkt_data_acc = NULL;
11250 
11251 	mutex_enter(&ptgt->tgt_mutex);
11252 	fpkt->pkt_pd = ptgt->tgt_pd_handle;
11253 
11254 	if (fc_ulp_init_packet(pptr->port_fp_handle, fpkt, kf)
11255 	    != FC_SUCCESS) {
11256 		mutex_exit(&ptgt->tgt_mutex);
11257 		return (-1);
11258 	}
11259 
11260 	mutex_exit(&ptgt->tgt_mutex);
11261 
11262 	/* Fill in the Fabric Channel Header */
11263 	hp = &fpkt->pkt_cmd_fhdr;
11264 	hp->r_ctl = R_CTL_COMMAND;
11265 	hp->rsvd = 0;
11266 	hp->type = FC_TYPE_SCSI_FCP;
11267 	hp->f_ctl = F_CTL_SEQ_INITIATIVE | F_CTL_FIRST_SEQ;
11268 	hp->seq_id = 0;
11269 	hp->df_ctl  = 0;
11270 	hp->seq_cnt = 0;
11271 	hp->ox_id = 0xffff;
11272 	hp->rx_id = 0xffff;
11273 	hp->ro = 0;
11274 
11275 	/*
11276 	 * A doubly linked list (cmd_forw, cmd_back) is built
11277 	 * out of every allocated packet on a per-lun basis
11278 	 *
11279 	 * The packets are maintained in the list so as to satisfy
11280 	 * scsi_abort() requests. At present (which is unlikely to
11281 	 * change in the future) nobody performs a real scsi_abort
11282 	 * in the SCSI target drivers (as they don't keep the packets
11283 	 * after doing scsi_transport - so they don't know how to
11284 	 * abort a packet other than sending a NULL to abort all
11285 	 * outstanding packets)
11286 	 */
11287 	mutex_enter(&plun->lun_mutex);
11288 	if ((cmd->cmd_forw = plun->lun_pkt_head) != NULL) {
11289 		plun->lun_pkt_head->cmd_back = cmd;
11290 	} else {
11291 		plun->lun_pkt_tail = cmd;
11292 	}
11293 	plun->lun_pkt_head = cmd;
11294 	mutex_exit(&plun->lun_mutex);
11295 	return (0);
11296 }
11297 
11298 /*
11299  *     Function: fcp_pkt_teardown
11300  *
11301  *  Description: This function releases a scsi_pkt structure and all the
11302  *		 resources attached to it.
11303  *
11304  *     Argument: *pkt		Pointer to a scsi_pkt structure.
11305  *
11306  * Return Value: None
11307  *
11308  *	Context: User, Kernel or Interrupt context.
11309  */
11310 static void
11311 fcp_pkt_teardown(struct scsi_pkt *pkt)
11312 {
11313 	struct fcp_port	*pptr = ADDR2FCP(&pkt->pkt_address);
11314 	struct fcp_lun	*plun = ADDR2LUN(&pkt->pkt_address);
11315 	struct fcp_pkt	*cmd = (struct fcp_pkt *)pkt->pkt_ha_private;
11316 
11317 	/*
11318 	 * Remove the packet from the per-lun list
11319 	 */
11320 	mutex_enter(&plun->lun_mutex);
11321 	if (cmd->cmd_back) {
11322 		ASSERT(cmd != plun->lun_pkt_head);
11323 		cmd->cmd_back->cmd_forw = cmd->cmd_forw;
11324 	} else {
11325 		ASSERT(cmd == plun->lun_pkt_head);
11326 		plun->lun_pkt_head = cmd->cmd_forw;
11327 	}
11328 
11329 	if (cmd->cmd_forw) {
11330 		cmd->cmd_forw->cmd_back = cmd->cmd_back;
11331 	} else {
11332 		ASSERT(cmd == plun->lun_pkt_tail);
11333 		plun->lun_pkt_tail = cmd->cmd_back;
11334 	}
11335 
11336 	mutex_exit(&plun->lun_mutex);
11337 
11338 	(void) fc_ulp_uninit_packet(pptr->port_fp_handle, cmd->cmd_fp_pkt);
11339 }
11340 
11341 /*
11342  * Routine for reset notification setup, to register or cancel.
11343  * This function is called by SCSA
11344  */
11345 /*ARGSUSED*/
11346 static int
11347 fcp_scsi_reset_notify(struct scsi_address *ap, int flag,
11348     void (*callback)(caddr_t), caddr_t arg)
11349 {
11350 	struct fcp_port *pptr = ADDR2FCP(ap);
11351 
11352 	return (scsi_hba_reset_notify_setup(ap, flag, callback, arg,
11353 	    &pptr->port_mutex, &pptr->port_reset_notify_listf));
11354 }
11355 
11356 
11357 static int
11358 fcp_scsi_bus_get_eventcookie(dev_info_t *dip, dev_info_t *rdip, char *name,
11359     ddi_eventcookie_t *event_cookiep)
11360 {
11361 	struct fcp_port *pptr = fcp_dip2port(dip);
11362 
11363 	if (pptr == NULL) {
11364 		return (DDI_FAILURE);
11365 	}
11366 
11367 	return (ndi_event_retrieve_cookie(pptr->port_ndi_event_hdl, rdip, name,
11368 	    event_cookiep, NDI_EVENT_NOPASS));
11369 }
11370 
11371 
11372 static int
11373 fcp_scsi_bus_add_eventcall(dev_info_t *dip, dev_info_t *rdip,
11374     ddi_eventcookie_t eventid, void (*callback)(), void *arg,
11375     ddi_callback_id_t *cb_id)
11376 {
11377 	struct fcp_port *pptr = fcp_dip2port(dip);
11378 
11379 	if (pptr == NULL) {
11380 		return (DDI_FAILURE);
11381 	}
11382 
11383 	return (ndi_event_add_callback(pptr->port_ndi_event_hdl, rdip,
11384 	    eventid, callback, arg, NDI_SLEEP, cb_id));
11385 }
11386 
11387 
11388 static int
11389 fcp_scsi_bus_remove_eventcall(dev_info_t *dip, ddi_callback_id_t cb_id)
11390 {
11391 
11392 	struct fcp_port *pptr = fcp_dip2port(dip);
11393 
11394 	if (pptr == NULL) {
11395 		return (DDI_FAILURE);
11396 	}
11397 	return (ndi_event_remove_callback(pptr->port_ndi_event_hdl, cb_id));
11398 }
11399 
11400 
11401 /*
11402  * called by the transport to post an event
11403  */
11404 static int
11405 fcp_scsi_bus_post_event(dev_info_t *dip, dev_info_t *rdip,
11406     ddi_eventcookie_t eventid, void *impldata)
11407 {
11408 	struct fcp_port *pptr = fcp_dip2port(dip);
11409 
11410 	if (pptr == NULL) {
11411 		return (DDI_FAILURE);
11412 	}
11413 
11414 	return (ndi_event_run_callbacks(pptr->port_ndi_event_hdl, rdip,
11415 	    eventid, impldata));
11416 }
11417 
11418 
11419 /*
11420  * A target in in many cases in Fibre Channel has a one to one relation
11421  * with a port identifier (which is also known as D_ID and also as AL_PA
11422  * in private Loop) On Fibre Channel-to-SCSI bridge boxes a target reset
11423  * will most likely result in resetting all LUNs (which means a reset will
11424  * occur on all the SCSI devices connected at the other end of the bridge)
11425  * That is the latest favorite topic for discussion, for, one can debate as
11426  * hot as one likes and come up with arguably a best solution to one's
11427  * satisfaction
11428  *
11429  * To stay on track and not digress much, here are the problems stated
11430  * briefly:
11431  *
11432  *	SCSA doesn't define RESET_LUN, It defines RESET_TARGET, but the
11433  *	target drivers use RESET_TARGET even if their instance is on a
11434  *	LUN. Doesn't that sound a bit broken ?
11435  *
11436  *	FCP SCSI (the current spec) only defines RESET TARGET in the
11437  *	control fields of an FCP_CMND structure. It should have been
11438  *	fixed right there, giving flexibility to the initiators to
11439  *	minimize havoc that could be caused by resetting a target.
11440  */
11441 static int
11442 fcp_reset_target(struct scsi_address *ap, int level)
11443 {
11444 	int			rval = FC_FAILURE;
11445 	char			lun_id[25];
11446 	struct fcp_port		*pptr = ADDR2FCP(ap);
11447 	struct fcp_lun	*plun = ADDR2LUN(ap);
11448 	struct fcp_tgt	*ptgt = plun->lun_tgt;
11449 	struct scsi_pkt		*pkt;
11450 	struct fcp_pkt	*cmd;
11451 	struct fcp_rsp		*rsp;
11452 	uint32_t		tgt_cnt;
11453 	struct fcp_rsp_info	*rsp_info;
11454 	struct fcp_reset_elem	*p;
11455 	int			bval;
11456 
11457 	if ((p = kmem_alloc(sizeof (struct fcp_reset_elem),
11458 	    KM_NOSLEEP)) == NULL) {
11459 		return (rval);
11460 	}
11461 
11462 	mutex_enter(&ptgt->tgt_mutex);
11463 	if (level == RESET_TARGET) {
11464 		if (ptgt->tgt_state & (FCP_TGT_OFFLINE | FCP_TGT_BUSY)) {
11465 			mutex_exit(&ptgt->tgt_mutex);
11466 			kmem_free(p, sizeof (struct fcp_reset_elem));
11467 			return (rval);
11468 		}
11469 		fcp_update_tgt_state(ptgt, FCP_SET, FCP_LUN_BUSY);
11470 		(void) strcpy(lun_id, " ");
11471 	} else {
11472 		if (plun->lun_state & (FCP_LUN_OFFLINE | FCP_LUN_BUSY)) {
11473 			mutex_exit(&ptgt->tgt_mutex);
11474 			kmem_free(p, sizeof (struct fcp_reset_elem));
11475 			return (rval);
11476 		}
11477 		fcp_update_lun_state(plun, FCP_SET, FCP_LUN_BUSY);
11478 
11479 		(void) sprintf(lun_id, ", LUN=%d", plun->lun_num);
11480 	}
11481 	tgt_cnt = ptgt->tgt_change_cnt;
11482 
11483 	mutex_exit(&ptgt->tgt_mutex);
11484 
11485 	if ((pkt = scsi_init_pkt(ap, NULL, NULL, 0, 0,
11486 	    0, 0, NULL, 0)) == NULL) {
11487 		kmem_free(p, sizeof (struct fcp_reset_elem));
11488 		mutex_enter(&ptgt->tgt_mutex);
11489 		fcp_update_tgt_state(ptgt, FCP_RESET, FCP_LUN_BUSY);
11490 		mutex_exit(&ptgt->tgt_mutex);
11491 		return (rval);
11492 	}
11493 	pkt->pkt_time = FCP_POLL_TIMEOUT;
11494 
11495 	/* fill in cmd part of packet */
11496 	cmd = PKT2CMD(pkt);
11497 	if (level == RESET_TARGET) {
11498 		cmd->cmd_fcp_cmd.fcp_cntl.cntl_reset_tgt = 1;
11499 	} else {
11500 		cmd->cmd_fcp_cmd.fcp_cntl.cntl_reset_lun = 1;
11501 	}
11502 	cmd->cmd_fp_pkt->pkt_comp = NULL;
11503 	cmd->cmd_pkt->pkt_flags |= FLAG_NOINTR;
11504 
11505 	/* prepare a packet for transport */
11506 	fcp_prepare_pkt(pptr, cmd, plun);
11507 
11508 	if (cmd->cmd_pkt->pkt_time) {
11509 		cmd->cmd_fp_pkt->pkt_timeout = cmd->cmd_pkt->pkt_time;
11510 	} else {
11511 		cmd->cmd_fp_pkt->pkt_timeout = 5 * 60 * 60;
11512 	}
11513 
11514 	(void) fc_ulp_busy_port(pptr->port_fp_handle);
11515 	bval = fcp_dopoll(pptr, cmd);
11516 	fc_ulp_idle_port(pptr->port_fp_handle);
11517 
11518 	/* submit the packet */
11519 	if (bval == TRAN_ACCEPT) {
11520 		int error = 3;
11521 
11522 		rsp = (struct fcp_rsp *)cmd->cmd_fcp_rsp;
11523 		rsp_info = (struct fcp_rsp_info *)(cmd->cmd_fcp_rsp +
11524 		    sizeof (struct fcp_rsp));
11525 
11526 		if (rsp->fcp_u.fcp_status.rsp_len_set) {
11527 			if (fcp_validate_fcp_response(rsp, pptr) ==
11528 			    FC_SUCCESS) {
11529 				if (pptr->port_fcp_dma != FC_NO_DVMA_SPACE) {
11530 					FCP_CP_IN(cmd->cmd_fp_pkt->pkt_resp +
11531 					    sizeof (struct fcp_rsp), rsp_info,
11532 					    cmd->cmd_fp_pkt->pkt_resp_acc,
11533 					    sizeof (struct fcp_rsp_info));
11534 				}
11535 				if (rsp_info->rsp_code == FCP_NO_FAILURE) {
11536 					rval = FC_SUCCESS;
11537 					error = 0;
11538 				} else {
11539 					error = 1;
11540 				}
11541 			} else {
11542 				error = 2;
11543 			}
11544 		}
11545 
11546 		switch (error) {
11547 		case 0:
11548 			fcp_log(CE_WARN, pptr->port_dip,
11549 			    "!FCP: WWN 0x%08x%08x %s reset successfully",
11550 			    *((int *)&ptgt->tgt_port_wwn.raw_wwn[0]),
11551 			    *((int *)&ptgt->tgt_port_wwn.raw_wwn[4]), lun_id);
11552 			break;
11553 
11554 		case 1:
11555 			fcp_log(CE_WARN, pptr->port_dip,
11556 			    "!FCP: Reset to WWN	 0x%08x%08x %s failed,"
11557 			    " response code=%x",
11558 			    *((int *)&ptgt->tgt_port_wwn.raw_wwn[0]),
11559 			    *((int *)&ptgt->tgt_port_wwn.raw_wwn[4]), lun_id,
11560 			    rsp_info->rsp_code);
11561 			break;
11562 
11563 		case 2:
11564 			fcp_log(CE_WARN, pptr->port_dip,
11565 			    "!FCP: Reset to WWN 0x%08x%08x %s failed,"
11566 			    " Bad FCP response values: rsvd1=%x,"
11567 			    " rsvd2=%x, sts-rsvd1=%x, sts-rsvd2=%x,"
11568 			    " rsplen=%x, senselen=%x",
11569 			    *((int *)&ptgt->tgt_port_wwn.raw_wwn[0]),
11570 			    *((int *)&ptgt->tgt_port_wwn.raw_wwn[4]), lun_id,
11571 			    rsp->reserved_0, rsp->reserved_1,
11572 			    rsp->fcp_u.fcp_status.reserved_0,
11573 			    rsp->fcp_u.fcp_status.reserved_1,
11574 			    rsp->fcp_response_len, rsp->fcp_sense_len);
11575 			break;
11576 
11577 		default:
11578 			fcp_log(CE_WARN, pptr->port_dip,
11579 			    "!FCP: Reset to WWN	 0x%08x%08x %s failed",
11580 			    *((int *)&ptgt->tgt_port_wwn.raw_wwn[0]),
11581 			    *((int *)&ptgt->tgt_port_wwn.raw_wwn[4]), lun_id);
11582 			break;
11583 		}
11584 	}
11585 	scsi_destroy_pkt(pkt);
11586 
11587 	if (rval == FC_FAILURE) {
11588 		mutex_enter(&ptgt->tgt_mutex);
11589 		if (level == RESET_TARGET) {
11590 			fcp_update_tgt_state(ptgt, FCP_RESET, FCP_LUN_BUSY);
11591 		} else {
11592 			fcp_update_lun_state(plun, FCP_RESET, FCP_LUN_BUSY);
11593 		}
11594 		mutex_exit(&ptgt->tgt_mutex);
11595 		kmem_free(p, sizeof (struct fcp_reset_elem));
11596 		return (rval);
11597 	}
11598 
11599 	mutex_enter(&pptr->port_mutex);
11600 	if (level == RESET_TARGET) {
11601 		p->tgt = ptgt;
11602 		p->lun = NULL;
11603 	} else {
11604 		p->tgt = NULL;
11605 		p->lun = plun;
11606 	}
11607 	p->tgt = ptgt;
11608 	p->tgt_cnt = tgt_cnt;
11609 	p->timeout = fcp_watchdog_time + FCP_RESET_DELAY;
11610 	p->next = pptr->port_reset_list;
11611 	pptr->port_reset_list = p;
11612 
11613 	FCP_TRACE(fcp_logq, pptr->port_instbuf,
11614 	    fcp_trace, FCP_BUF_LEVEL_3, 0,
11615 	    "Notify ssd of the reset to reinstate the reservations");
11616 
11617 	scsi_hba_reset_notify_callback(&pptr->port_mutex,
11618 	    &pptr->port_reset_notify_listf);
11619 
11620 	mutex_exit(&pptr->port_mutex);
11621 
11622 	return (rval);
11623 }
11624 
11625 
11626 /*
11627  * called by fcp_getcap and fcp_setcap to get and set (respectively)
11628  * SCSI capabilities
11629  */
11630 /* ARGSUSED */
11631 static int
11632 fcp_commoncap(struct scsi_address *ap, char *cap,
11633     int val, int tgtonly, int doset)
11634 {
11635 	struct fcp_port		*pptr = ADDR2FCP(ap);
11636 	struct fcp_lun	*plun = ADDR2LUN(ap);
11637 	struct fcp_tgt	*ptgt = plun->lun_tgt;
11638 	int			cidx;
11639 	int			rval = FALSE;
11640 
11641 	if (cap == (char *)0) {
11642 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
11643 		    fcp_trace, FCP_BUF_LEVEL_3, 0,
11644 		    "fcp_commoncap: invalid arg");
11645 		return (rval);
11646 	}
11647 
11648 	if ((cidx = scsi_hba_lookup_capstr(cap)) == -1) {
11649 		return (UNDEFINED);
11650 	}
11651 
11652 	/*
11653 	 * Process setcap request.
11654 	 */
11655 	if (doset) {
11656 		/*
11657 		 * At present, we can only set binary (0/1) values
11658 		 */
11659 		switch (cidx) {
11660 		case SCSI_CAP_ARQ:
11661 			if (val == 0) {
11662 				rval = FALSE;
11663 			} else {
11664 				rval = TRUE;
11665 			}
11666 			break;
11667 
11668 		case SCSI_CAP_LUN_RESET:
11669 			if (val) {
11670 				plun->lun_cap |= FCP_LUN_CAP_RESET;
11671 			} else {
11672 				plun->lun_cap &= ~FCP_LUN_CAP_RESET;
11673 			}
11674 			rval = TRUE;
11675 			break;
11676 
11677 		case SCSI_CAP_SECTOR_SIZE:
11678 			rval = TRUE;
11679 			break;
11680 		default:
11681 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
11682 			    fcp_trace, FCP_BUF_LEVEL_4, 0,
11683 			    "fcp_setcap: unsupported %d", cidx);
11684 			rval = UNDEFINED;
11685 			break;
11686 		}
11687 
11688 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
11689 		    fcp_trace, FCP_BUF_LEVEL_5, 0,
11690 		    "set cap: cap=%s, val/tgtonly/doset/rval = "
11691 		    "0x%x/0x%x/0x%x/%d",
11692 		    cap, val, tgtonly, doset, rval);
11693 
11694 	} else {
11695 		/*
11696 		 * Process getcap request.
11697 		 */
11698 		switch (cidx) {
11699 		case SCSI_CAP_DMA_MAX:
11700 			rval = (int)pptr->port_data_dma_attr.dma_attr_maxxfer;
11701 
11702 			/*
11703 			 * Need to make an adjustment qlc is uint_t 64
11704 			 * st is int, so we will make the adjustment here
11705 			 * being as nobody wants to touch this.
11706 			 * It still leaves the max single block length
11707 			 * of 2 gig. This should last .
11708 			 */
11709 
11710 			if (rval == -1) {
11711 				rval = MAX_INT_DMA;
11712 			}
11713 
11714 			break;
11715 
11716 		case SCSI_CAP_INITIATOR_ID:
11717 			rval = pptr->port_id;
11718 			break;
11719 
11720 		case SCSI_CAP_ARQ:
11721 		case SCSI_CAP_RESET_NOTIFICATION:
11722 		case SCSI_CAP_TAGGED_QING:
11723 			rval = TRUE;
11724 			break;
11725 
11726 		case SCSI_CAP_SCSI_VERSION:
11727 			rval = 3;
11728 			break;
11729 
11730 		case SCSI_CAP_INTERCONNECT_TYPE:
11731 			if (FC_TOP_EXTERNAL(pptr->port_topology) ||
11732 			    (ptgt->tgt_hard_addr == 0)) {
11733 				rval = INTERCONNECT_FABRIC;
11734 			} else {
11735 				rval = INTERCONNECT_FIBRE;
11736 			}
11737 			break;
11738 
11739 		case SCSI_CAP_LUN_RESET:
11740 			rval = ((plun->lun_cap & FCP_LUN_CAP_RESET) != 0) ?
11741 			    TRUE : FALSE;
11742 			break;
11743 
11744 		default:
11745 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
11746 			    fcp_trace, FCP_BUF_LEVEL_4, 0,
11747 			    "fcp_getcap: unsupported %d", cidx);
11748 			rval = UNDEFINED;
11749 			break;
11750 		}
11751 
11752 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
11753 		    fcp_trace, FCP_BUF_LEVEL_8, 0,
11754 		    "get cap: cap=%s, val/tgtonly/doset/rval = "
11755 		    "0x%x/0x%x/0x%x/%d",
11756 		    cap, val, tgtonly, doset, rval);
11757 	}
11758 
11759 	return (rval);
11760 }
11761 
11762 /*
11763  * called by the transport to get the port-wwn and lun
11764  * properties of this device, and to create a "name" based on them
11765  *
11766  * these properties don't exist on sun4m
11767  *
11768  * return 1 for success else return 0
11769  */
11770 /* ARGSUSED */
11771 static int
11772 fcp_scsi_get_name(struct scsi_device *sd, char *name, int len)
11773 {
11774 	int			i;
11775 	int			*lun;
11776 	int			numChars;
11777 	uint_t			nlun;
11778 	uint_t			count;
11779 	uint_t			nbytes;
11780 	uchar_t			*bytes;
11781 	uint16_t		lun_num;
11782 	uint32_t		tgt_id;
11783 	char			**conf_wwn;
11784 	char			tbuf[(FC_WWN_SIZE << 1) + 1];
11785 	uchar_t			barray[FC_WWN_SIZE];
11786 	dev_info_t		*tgt_dip;
11787 	struct fcp_tgt	*ptgt;
11788 	struct fcp_port	*pptr;
11789 	struct fcp_lun	*plun;
11790 
11791 	ASSERT(sd != NULL);
11792 	ASSERT(name != NULL);
11793 
11794 	tgt_dip = sd->sd_dev;
11795 	pptr = ddi_get_soft_state(fcp_softstate,
11796 	    ddi_get_instance(ddi_get_parent(tgt_dip)));
11797 	if (pptr == NULL) {
11798 		return (0);
11799 	}
11800 
11801 	ASSERT(tgt_dip != NULL);
11802 
11803 	if (ddi_prop_lookup_int_array(DDI_DEV_T_ANY, sd->sd_dev,
11804 	    DDI_PROP_DONTPASS | DDI_PROP_NOTPROM,
11805 	    LUN_PROP, &lun, &nlun) != DDI_SUCCESS) {
11806 		name[0] = '\0';
11807 		return (0);
11808 	}
11809 
11810 	if (nlun == 0) {
11811 		ddi_prop_free(lun);
11812 		return (0);
11813 	}
11814 
11815 	lun_num = lun[0];
11816 	ddi_prop_free(lun);
11817 
11818 	/*
11819 	 * Lookup for .conf WWN property
11820 	 */
11821 	if (ddi_prop_lookup_string_array(DDI_DEV_T_ANY, tgt_dip,
11822 	    DDI_PROP_DONTPASS | DDI_PROP_NOTPROM, CONF_WWN_PROP,
11823 	    &conf_wwn, &count) == DDI_PROP_SUCCESS) {
11824 		ASSERT(count >= 1);
11825 
11826 		fcp_ascii_to_wwn(conf_wwn[0], barray, FC_WWN_SIZE);
11827 		ddi_prop_free(conf_wwn);
11828 		mutex_enter(&pptr->port_mutex);
11829 		if ((plun = fcp_lookup_lun(pptr, barray, lun_num)) == NULL) {
11830 			mutex_exit(&pptr->port_mutex);
11831 			return (0);
11832 		}
11833 		ptgt = plun->lun_tgt;
11834 		mutex_exit(&pptr->port_mutex);
11835 
11836 		(void) ndi_prop_update_byte_array(DDI_DEV_T_NONE,
11837 		    tgt_dip, PORT_WWN_PROP, barray, FC_WWN_SIZE);
11838 
11839 		if (!FC_TOP_EXTERNAL(pptr->port_topology) &&
11840 		    ptgt->tgt_hard_addr != 0) {
11841 			tgt_id = (uint32_t)fcp_alpa_to_switch[
11842 			    ptgt->tgt_hard_addr];
11843 		} else {
11844 			tgt_id = ptgt->tgt_d_id;
11845 		}
11846 
11847 		(void) ndi_prop_update_int(DDI_DEV_T_NONE, tgt_dip,
11848 		    TARGET_PROP, tgt_id);
11849 	}
11850 
11851 	/* get the our port-wwn property */
11852 	bytes = NULL;
11853 	if ((ddi_prop_lookup_byte_array(DDI_DEV_T_ANY, tgt_dip,
11854 	    DDI_PROP_DONTPASS | DDI_PROP_NOTPROM, PORT_WWN_PROP, &bytes,
11855 	    &nbytes) != DDI_PROP_SUCCESS) || nbytes != FC_WWN_SIZE) {
11856 		if (bytes != NULL) {
11857 			ddi_prop_free(bytes);
11858 		}
11859 		return (0);
11860 	}
11861 
11862 	for (i = 0; i < FC_WWN_SIZE; i++) {
11863 		(void) sprintf(&tbuf[i << 1], "%02x", *(bytes + i));
11864 	}
11865 
11866 	/* Stick in the address of the form "wWWN,LUN" */
11867 	numChars = snprintf(name, len, "w%s,%x", tbuf, lun_num);
11868 
11869 	ASSERT(numChars < len);
11870 	if (numChars >= len) {
11871 		fcp_log(CE_WARN, pptr->port_dip,
11872 		    "!fcp_scsi_get_name: "
11873 		    "name parameter length too small, it needs to be %d",
11874 		    numChars+1);
11875 	}
11876 
11877 	ddi_prop_free(bytes);
11878 
11879 	return (1);
11880 }
11881 
11882 
11883 /*
11884  * called by the transport to get the SCSI target id value, returning
11885  * it in "name"
11886  *
11887  * this isn't needed/used on sun4m
11888  *
11889  * return 1 for success else return 0
11890  */
11891 /* ARGSUSED */
11892 static int
11893 fcp_scsi_get_bus_addr(struct scsi_device *sd, char *name, int len)
11894 {
11895 	struct fcp_lun	*plun = ADDR2LUN(&sd->sd_address);
11896 	struct fcp_tgt	*ptgt;
11897 	int    numChars;
11898 
11899 	if (plun == NULL) {
11900 		return (0);
11901 	}
11902 
11903 	if ((ptgt = plun->lun_tgt) == NULL) {
11904 		return (0);
11905 	}
11906 
11907 	numChars = snprintf(name, len, "%x", ptgt->tgt_d_id);
11908 
11909 	ASSERT(numChars < len);
11910 	if (numChars >= len) {
11911 		fcp_log(CE_WARN, NULL,
11912 		    "!fcp_scsi_get_bus_addr: "
11913 		    "name parameter length too small, it needs to be %d",
11914 		    numChars+1);
11915 	}
11916 
11917 	return (1);
11918 }
11919 
11920 
11921 /*
11922  * called internally to reset the link where the specified port lives
11923  */
11924 static int
11925 fcp_linkreset(struct fcp_port *pptr, struct scsi_address *ap, int sleep)
11926 {
11927 	la_wwn_t		wwn;
11928 	struct fcp_lun	*plun;
11929 	struct fcp_tgt	*ptgt;
11930 
11931 	/* disable restart of lip if we're suspended */
11932 	mutex_enter(&pptr->port_mutex);
11933 
11934 	if (pptr->port_state & (FCP_STATE_SUSPENDED |
11935 	    FCP_STATE_POWER_DOWN)) {
11936 		mutex_exit(&pptr->port_mutex);
11937 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
11938 		    fcp_trace, FCP_BUF_LEVEL_2, 0,
11939 		    "fcp_linkreset, fcp%d: link reset "
11940 		    "disabled due to DDI_SUSPEND",
11941 		    ddi_get_instance(pptr->port_dip));
11942 		return (FC_FAILURE);
11943 	}
11944 
11945 	if (pptr->port_state & (FCP_STATE_OFFLINE | FCP_STATE_ONLINING)) {
11946 		mutex_exit(&pptr->port_mutex);
11947 		return (FC_SUCCESS);
11948 	}
11949 
11950 	FCP_DTRACE(fcp_logq, pptr->port_instbuf,
11951 	    fcp_trace, FCP_BUF_LEVEL_8, 0, "Forcing link reset");
11952 
11953 	/*
11954 	 * If ap == NULL assume local link reset.
11955 	 */
11956 	if (FC_TOP_EXTERNAL(pptr->port_topology) && (ap != NULL)) {
11957 		plun = ADDR2LUN(ap);
11958 		ptgt = plun->lun_tgt;
11959 		bcopy(&ptgt->tgt_port_wwn.raw_wwn[0], &wwn, sizeof (wwn));
11960 	} else {
11961 		bzero((caddr_t)&wwn, sizeof (wwn));
11962 	}
11963 	mutex_exit(&pptr->port_mutex);
11964 
11965 	return (fc_ulp_linkreset(pptr->port_fp_handle, &wwn, sleep));
11966 }
11967 
11968 
11969 /*
11970  * called from fcp_port_attach() to resume a port
11971  * return DDI_* success/failure status
11972  * acquires and releases the global mutex
11973  * acquires and releases the port mutex
11974  */
11975 /*ARGSUSED*/
11976 
11977 static int
11978 fcp_handle_port_resume(opaque_t ulph, fc_ulp_port_info_t *pinfo,
11979     uint32_t s_id, fc_attach_cmd_t cmd, int instance)
11980 {
11981 	int			res = DDI_FAILURE; /* default result */
11982 	struct fcp_port	*pptr;		/* port state ptr */
11983 	uint32_t		alloc_cnt;
11984 	uint32_t		max_cnt;
11985 	fc_portmap_t		*tmp_list = NULL;
11986 
11987 	FCP_DTRACE(fcp_logq, "fcp", fcp_trace,
11988 	    FCP_BUF_LEVEL_8, 0, "port resume: for port %d",
11989 	    instance);
11990 
11991 	if ((pptr = ddi_get_soft_state(fcp_softstate, instance)) == NULL) {
11992 		cmn_err(CE_WARN, "fcp: bad soft state");
11993 		return (res);
11994 	}
11995 
11996 	mutex_enter(&pptr->port_mutex);
11997 	switch (cmd) {
11998 	case FC_CMD_RESUME:
11999 		ASSERT((pptr->port_state & FCP_STATE_POWER_DOWN) == 0);
12000 		pptr->port_state &= ~FCP_STATE_SUSPENDED;
12001 		break;
12002 
12003 	case FC_CMD_POWER_UP:
12004 		/*
12005 		 * If the port is DDI_SUSPENded, defer rediscovery
12006 		 * until DDI_RESUME occurs
12007 		 */
12008 		if (pptr->port_state & FCP_STATE_SUSPENDED) {
12009 			pptr->port_state &= ~FCP_STATE_POWER_DOWN;
12010 			mutex_exit(&pptr->port_mutex);
12011 			return (DDI_SUCCESS);
12012 		}
12013 		pptr->port_state &= ~FCP_STATE_POWER_DOWN;
12014 	}
12015 	pptr->port_id = s_id;
12016 	pptr->port_state = FCP_STATE_INIT;
12017 	mutex_exit(&pptr->port_mutex);
12018 
12019 	/*
12020 	 * Make a copy of ulp_port_info as fctl allocates
12021 	 * a temp struct.
12022 	 */
12023 	(void) fcp_cp_pinfo(pptr, pinfo);
12024 
12025 	mutex_enter(&fcp_global_mutex);
12026 	if (fcp_watchdog_init++ == 0) {
12027 		fcp_watchdog_tick = fcp_watchdog_timeout *
12028 		    drv_usectohz(1000000);
12029 		fcp_watchdog_id = timeout(fcp_watch,
12030 		    NULL, fcp_watchdog_tick);
12031 	}
12032 	mutex_exit(&fcp_global_mutex);
12033 
12034 	/*
12035 	 * Handle various topologies and link states.
12036 	 */
12037 	switch (FC_PORT_STATE_MASK(pptr->port_phys_state)) {
12038 	case FC_STATE_OFFLINE:
12039 		/*
12040 		 * Wait for ONLINE, at which time a state
12041 		 * change will cause a statec_callback
12042 		 */
12043 		res = DDI_SUCCESS;
12044 		break;
12045 
12046 	case FC_STATE_ONLINE:
12047 
12048 		if (pptr->port_topology == FC_TOP_UNKNOWN) {
12049 			(void) fcp_linkreset(pptr, NULL, KM_NOSLEEP);
12050 			res = DDI_SUCCESS;
12051 			break;
12052 		}
12053 
12054 		if (FC_TOP_EXTERNAL(pptr->port_topology) &&
12055 		    !fcp_enable_auto_configuration) {
12056 			tmp_list = fcp_construct_map(pptr, &alloc_cnt);
12057 			if (tmp_list == NULL) {
12058 				if (!alloc_cnt) {
12059 					res = DDI_SUCCESS;
12060 				}
12061 				break;
12062 			}
12063 			max_cnt = alloc_cnt;
12064 		} else {
12065 			ASSERT(pptr->port_topology != FC_TOP_UNKNOWN);
12066 
12067 			alloc_cnt = FCP_MAX_DEVICES;
12068 
12069 			if ((tmp_list = (fc_portmap_t *)kmem_zalloc(
12070 			    (sizeof (fc_portmap_t)) * alloc_cnt,
12071 			    KM_NOSLEEP)) == NULL) {
12072 				fcp_log(CE_WARN, pptr->port_dip,
12073 				    "!fcp%d: failed to allocate portmap",
12074 				    instance);
12075 				break;
12076 			}
12077 
12078 			max_cnt = alloc_cnt;
12079 			if ((res = fc_ulp_getportmap(pptr->port_fp_handle,
12080 			    &tmp_list, &max_cnt, FC_ULP_PLOGI_PRESERVE)) !=
12081 			    FC_SUCCESS) {
12082 				caddr_t msg;
12083 
12084 				(void) fc_ulp_error(res, &msg);
12085 
12086 				FCP_TRACE(fcp_logq, pptr->port_instbuf,
12087 				    fcp_trace, FCP_BUF_LEVEL_2, 0,
12088 				    "resume failed getportmap: reason=0x%x",
12089 				    res);
12090 
12091 				fcp_log(CE_WARN, pptr->port_dip,
12092 				    "!failed to get port map : %s", msg);
12093 				break;
12094 			}
12095 			if (max_cnt > alloc_cnt) {
12096 				alloc_cnt = max_cnt;
12097 			}
12098 		}
12099 
12100 		/*
12101 		 * do the SCSI device discovery and create
12102 		 * the devinfos
12103 		 */
12104 		fcp_statec_callback(ulph, pptr->port_fp_handle,
12105 		    pptr->port_phys_state, pptr->port_topology, tmp_list,
12106 		    max_cnt, pptr->port_id);
12107 
12108 		res = DDI_SUCCESS;
12109 		break;
12110 
12111 	default:
12112 		fcp_log(CE_WARN, pptr->port_dip,
12113 		    "!fcp%d: invalid port state at attach=0x%x",
12114 		    instance, pptr->port_phys_state);
12115 
12116 		mutex_enter(&pptr->port_mutex);
12117 		pptr->port_phys_state = FCP_STATE_OFFLINE;
12118 		mutex_exit(&pptr->port_mutex);
12119 		res = DDI_SUCCESS;
12120 
12121 		break;
12122 	}
12123 
12124 	if (tmp_list != NULL) {
12125 		kmem_free(tmp_list, sizeof (fc_portmap_t) * alloc_cnt);
12126 	}
12127 
12128 	return (res);
12129 }
12130 
12131 
12132 static void
12133 fcp_cp_pinfo(struct fcp_port *pptr, fc_ulp_port_info_t *pinfo)
12134 {
12135 	pptr->port_fp_modlinkage = *pinfo->port_linkage;
12136 	pptr->port_dip = pinfo->port_dip;
12137 	pptr->port_fp_handle = pinfo->port_handle;
12138 	pptr->port_data_dma_attr = *pinfo->port_data_dma_attr;
12139 	pptr->port_cmd_dma_attr = *pinfo->port_cmd_dma_attr;
12140 	pptr->port_resp_dma_attr = *pinfo->port_resp_dma_attr;
12141 	pptr->port_dma_acc_attr = *pinfo->port_acc_attr;
12142 	pptr->port_priv_pkt_len = pinfo->port_fca_pkt_size;
12143 	pptr->port_max_exch = pinfo->port_fca_max_exch;
12144 	pptr->port_phys_state = pinfo->port_state;
12145 	pptr->port_topology = pinfo->port_flags;
12146 	pptr->port_reset_action = pinfo->port_reset_action;
12147 	pptr->port_cmds_dma_flags = pinfo->port_dma_behavior;
12148 	pptr->port_fcp_dma = pinfo->port_fcp_dma;
12149 	bcopy(&pinfo->port_nwwn, &pptr->port_nwwn, sizeof (la_wwn_t));
12150 	bcopy(&pinfo->port_pwwn, &pptr->port_pwwn, sizeof (la_wwn_t));
12151 }
12152 
12153 /*
12154  * If the elements wait field is set to 1 then
12155  * another thread is waiting for the operation to complete. Once
12156  * it is complete, the waiting thread is signaled and the element is
12157  * freed by the waiting thread. If the elements wait field is set to 0
12158  * the element is freed.
12159  */
12160 static void
12161 fcp_process_elem(struct fcp_hp_elem *elem, int result)
12162 {
12163 	ASSERT(elem != NULL);
12164 	mutex_enter(&elem->mutex);
12165 	elem->result = result;
12166 	if (elem->wait) {
12167 		elem->wait = 0;
12168 		cv_signal(&elem->cv);
12169 		mutex_exit(&elem->mutex);
12170 	} else {
12171 		mutex_exit(&elem->mutex);
12172 		cv_destroy(&elem->cv);
12173 		mutex_destroy(&elem->mutex);
12174 		kmem_free(elem, sizeof (struct fcp_hp_elem));
12175 	}
12176 }
12177 
12178 /*
12179  * This function is invoked from the taskq thread to allocate
12180  * devinfo nodes and to online/offline them.
12181  */
12182 static void
12183 fcp_hp_task(void *arg)
12184 {
12185 	struct fcp_hp_elem	*elem = (struct fcp_hp_elem *)arg;
12186 	struct fcp_lun	*plun = elem->lun;
12187 	struct fcp_port		*pptr = elem->port;
12188 	int			result;
12189 
12190 	ASSERT(elem->what == FCP_ONLINE ||
12191 	    elem->what == FCP_OFFLINE ||
12192 	    elem->what == FCP_MPXIO_PATH_CLEAR_BUSY ||
12193 	    elem->what == FCP_MPXIO_PATH_SET_BUSY);
12194 
12195 	mutex_enter(&pptr->port_mutex);
12196 	mutex_enter(&plun->lun_mutex);
12197 	if (((elem->what == FCP_ONLINE || elem->what == FCP_OFFLINE) &&
12198 	    plun->lun_event_count != elem->event_cnt) ||
12199 	    pptr->port_state & (FCP_STATE_SUSPENDED |
12200 	    FCP_STATE_DETACHING | FCP_STATE_POWER_DOWN)) {
12201 		mutex_exit(&plun->lun_mutex);
12202 		mutex_exit(&pptr->port_mutex);
12203 		fcp_process_elem(elem, NDI_FAILURE);
12204 		return;
12205 	}
12206 	mutex_exit(&plun->lun_mutex);
12207 	mutex_exit(&pptr->port_mutex);
12208 
12209 	result = fcp_trigger_lun(plun, elem->cip, elem->old_lun_mpxio,
12210 	    elem->what, elem->link_cnt, elem->tgt_cnt, elem->flags);
12211 	fcp_process_elem(elem, result);
12212 }
12213 
12214 
12215 static child_info_t *
12216 fcp_get_cip(struct fcp_lun *plun, child_info_t *cip, int lcount,
12217     int tcount)
12218 {
12219 	ASSERT(MUTEX_HELD(&plun->lun_mutex));
12220 
12221 	if (fcp_is_child_present(plun, cip) == FC_FAILURE) {
12222 		struct fcp_port *pptr = plun->lun_tgt->tgt_port;
12223 
12224 		ASSERT(MUTEX_HELD(&pptr->port_mutex));
12225 		/*
12226 		 * Child has not been created yet. Create the child device
12227 		 * based on the per-Lun flags.
12228 		 */
12229 		if (pptr->port_mpxio == 0 || plun->lun_mpxio == 0) {
12230 			plun->lun_cip =
12231 			    CIP(fcp_create_dip(plun, lcount, tcount));
12232 			plun->lun_mpxio = 0;
12233 		} else {
12234 			plun->lun_cip =
12235 			    CIP(fcp_create_pip(plun, lcount, tcount));
12236 			plun->lun_mpxio = 1;
12237 		}
12238 	} else {
12239 		plun->lun_cip = cip;
12240 	}
12241 
12242 	return (plun->lun_cip);
12243 }
12244 
12245 
12246 static int
12247 fcp_is_dip_present(struct fcp_lun *plun, dev_info_t *cdip)
12248 {
12249 	int		rval = FC_FAILURE;
12250 	dev_info_t	*pdip;
12251 	struct dev_info	*dip;
12252 	int		circular;
12253 
12254 	ASSERT(MUTEX_HELD(&plun->lun_mutex));
12255 
12256 	pdip = plun->lun_tgt->tgt_port->port_dip;
12257 
12258 	if (plun->lun_cip == NULL) {
12259 		FCP_TRACE(fcp_logq, LUN_PORT->port_instbuf,
12260 		    fcp_trace, FCP_BUF_LEVEL_3, 0,
12261 		    "fcp_is_dip_present: plun->lun_cip is NULL: "
12262 		    "plun: %p lun state: %x num: %d target state: %x",
12263 		    plun, plun->lun_state, plun->lun_num,
12264 		    plun->lun_tgt->tgt_port->port_state);
12265 		return (rval);
12266 	}
12267 	ndi_devi_enter(pdip, &circular);
12268 	dip = DEVI(pdip)->devi_child;
12269 	while (dip) {
12270 		if (dip == DEVI(cdip)) {
12271 			rval = FC_SUCCESS;
12272 			break;
12273 		}
12274 		dip = dip->devi_sibling;
12275 	}
12276 	ndi_devi_exit(pdip, circular);
12277 	return (rval);
12278 }
12279 
12280 static int
12281 fcp_is_child_present(struct fcp_lun *plun, child_info_t *cip)
12282 {
12283 	int		rval = FC_FAILURE;
12284 
12285 	ASSERT(plun != NULL);
12286 	ASSERT(MUTEX_HELD(&plun->lun_mutex));
12287 
12288 	if (plun->lun_mpxio == 0) {
12289 		rval = fcp_is_dip_present(plun, DIP(cip));
12290 	} else {
12291 		rval = fcp_is_pip_present(plun, PIP(cip));
12292 	}
12293 
12294 	return (rval);
12295 }
12296 
12297 /*
12298  *     Function: fcp_create_dip
12299  *
12300  *  Description: Creates a dev_info_t structure for the LUN specified by the
12301  *		 caller.
12302  *
12303  *     Argument: plun		Lun structure
12304  *		 link_cnt	Link state count.
12305  *		 tgt_cnt	Target state change count.
12306  *
12307  * Return Value: NULL if it failed
12308  *		 dev_info_t structure address if it succeeded
12309  *
12310  *	Context: Kernel context
12311  */
12312 static dev_info_t *
12313 fcp_create_dip(struct fcp_lun *plun, int link_cnt, int tgt_cnt)
12314 {
12315 	int			failure = 0;
12316 	uint32_t		tgt_id;
12317 	uint64_t		sam_lun;
12318 	struct fcp_tgt	*ptgt = plun->lun_tgt;
12319 	struct fcp_port	*pptr = ptgt->tgt_port;
12320 	dev_info_t		*pdip = pptr->port_dip;
12321 	dev_info_t		*cdip = NULL;
12322 	dev_info_t		*old_dip = DIP(plun->lun_cip);
12323 	char			*nname = NULL;
12324 	char			**compatible = NULL;
12325 	int			ncompatible;
12326 	char			*scsi_binding_set;
12327 	char			t_pwwn[17];
12328 
12329 	ASSERT(MUTEX_HELD(&plun->lun_mutex));
12330 	ASSERT(MUTEX_HELD(&pptr->port_mutex));
12331 
12332 	/* get the 'scsi-binding-set' property */
12333 	if (ddi_prop_lookup_string(DDI_DEV_T_ANY, pdip,
12334 	    DDI_PROP_NOTPROM | DDI_PROP_DONTPASS, "scsi-binding-set",
12335 	    &scsi_binding_set) != DDI_PROP_SUCCESS) {
12336 		scsi_binding_set = NULL;
12337 	}
12338 
12339 	/* determine the node name and compatible */
12340 	scsi_hba_nodename_compatible_get(&plun->lun_inq, scsi_binding_set,
12341 	    plun->lun_inq.inq_dtype, NULL, &nname, &compatible, &ncompatible);
12342 	if (scsi_binding_set) {
12343 		ddi_prop_free(scsi_binding_set);
12344 	}
12345 
12346 	if (nname == NULL) {
12347 #ifdef	DEBUG
12348 		cmn_err(CE_WARN, "%s%d: no driver for "
12349 		    "device @w%02x%02x%02x%02x%02x%02x%02x%02x,%d:"
12350 		    "	 compatible: %s",
12351 		    ddi_driver_name(pdip), ddi_get_instance(pdip),
12352 		    ptgt->tgt_port_wwn.raw_wwn[0],
12353 		    ptgt->tgt_port_wwn.raw_wwn[1],
12354 		    ptgt->tgt_port_wwn.raw_wwn[2],
12355 		    ptgt->tgt_port_wwn.raw_wwn[3],
12356 		    ptgt->tgt_port_wwn.raw_wwn[4],
12357 		    ptgt->tgt_port_wwn.raw_wwn[5],
12358 		    ptgt->tgt_port_wwn.raw_wwn[6],
12359 		    ptgt->tgt_port_wwn.raw_wwn[7], plun->lun_num,
12360 		    *compatible);
12361 #endif	/* DEBUG */
12362 		failure++;
12363 		goto end_of_fcp_create_dip;
12364 	}
12365 
12366 	cdip = fcp_find_existing_dip(plun, pdip, nname);
12367 
12368 	/*
12369 	 * if the old_dip does not match the cdip, that means there is
12370 	 * some property change. since we'll be using the cdip, we need
12371 	 * to offline the old_dip. If the state contains FCP_LUN_CHANGED
12372 	 * then the dtype for the device has been updated. Offline the
12373 	 * the old device and create a new device with the new device type
12374 	 * Refer to bug: 4764752
12375 	 */
12376 	if (old_dip && (cdip != old_dip ||
12377 	    plun->lun_state & FCP_LUN_CHANGED)) {
12378 		plun->lun_state &= ~(FCP_LUN_INIT);
12379 		mutex_exit(&plun->lun_mutex);
12380 		mutex_exit(&pptr->port_mutex);
12381 
12382 		mutex_enter(&ptgt->tgt_mutex);
12383 		(void) fcp_pass_to_hp(pptr, plun, CIP(old_dip), FCP_OFFLINE,
12384 		    link_cnt, tgt_cnt, NDI_DEVI_REMOVE, 0);
12385 		mutex_exit(&ptgt->tgt_mutex);
12386 
12387 #ifdef DEBUG
12388 		if (cdip != NULL) {
12389 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
12390 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
12391 			    "Old dip=%p; New dip=%p don't match", old_dip,
12392 			    cdip);
12393 		} else {
12394 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
12395 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
12396 			    "Old dip=%p; New dip=NULL don't match", old_dip);
12397 		}
12398 #endif
12399 
12400 		mutex_enter(&pptr->port_mutex);
12401 		mutex_enter(&plun->lun_mutex);
12402 	}
12403 
12404 	if (cdip == NULL || plun->lun_state & FCP_LUN_CHANGED) {
12405 		plun->lun_state &= ~(FCP_LUN_CHANGED);
12406 		if (ndi_devi_alloc(pptr->port_dip, nname,
12407 		    DEVI_SID_NODEID, &cdip) != NDI_SUCCESS) {
12408 			failure++;
12409 			goto end_of_fcp_create_dip;
12410 		}
12411 	}
12412 
12413 	/*
12414 	 * Previously all the properties for the devinfo were destroyed here
12415 	 * with a call to ndi_prop_remove_all(). Since this may cause loss of
12416 	 * the devid property (and other properties established by the target
12417 	 * driver or framework) which the code does not always recreate, this
12418 	 * call was removed.
12419 	 * This opens a theoretical possibility that we may return with a
12420 	 * stale devid on the node if the scsi entity behind the fibre channel
12421 	 * lun has changed.
12422 	 */
12423 
12424 	/* decorate the node with compatible */
12425 	if (ndi_prop_update_string_array(DDI_DEV_T_NONE, cdip,
12426 	    "compatible", compatible, ncompatible) != DDI_PROP_SUCCESS) {
12427 		failure++;
12428 		goto end_of_fcp_create_dip;
12429 	}
12430 
12431 	if (ndi_prop_update_byte_array(DDI_DEV_T_NONE, cdip, NODE_WWN_PROP,
12432 	    ptgt->tgt_node_wwn.raw_wwn, FC_WWN_SIZE) != DDI_PROP_SUCCESS) {
12433 		failure++;
12434 		goto end_of_fcp_create_dip;
12435 	}
12436 
12437 	if (ndi_prop_update_byte_array(DDI_DEV_T_NONE, cdip, PORT_WWN_PROP,
12438 	    ptgt->tgt_port_wwn.raw_wwn, FC_WWN_SIZE) != DDI_PROP_SUCCESS) {
12439 		failure++;
12440 		goto end_of_fcp_create_dip;
12441 	}
12442 
12443 	fcp_wwn_to_ascii(ptgt->tgt_port_wwn.raw_wwn, t_pwwn);
12444 	t_pwwn[16] = '\0';
12445 	if (ndi_prop_update_string(DDI_DEV_T_NONE, cdip, TGT_PORT_PROP, t_pwwn)
12446 	    != DDI_PROP_SUCCESS) {
12447 		failure++;
12448 		goto end_of_fcp_create_dip;
12449 	}
12450 
12451 	/*
12452 	 * If there is no hard address - We might have to deal with
12453 	 * that by using WWN - Having said that it is important to
12454 	 * recognize this problem early so ssd can be informed of
12455 	 * the right interconnect type.
12456 	 */
12457 	if (!FC_TOP_EXTERNAL(pptr->port_topology) && ptgt->tgt_hard_addr != 0) {
12458 		tgt_id = (uint32_t)fcp_alpa_to_switch[ptgt->tgt_hard_addr];
12459 	} else {
12460 		tgt_id = ptgt->tgt_d_id;
12461 	}
12462 
12463 	if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, TARGET_PROP,
12464 	    tgt_id) != DDI_PROP_SUCCESS) {
12465 		failure++;
12466 		goto end_of_fcp_create_dip;
12467 	}
12468 
12469 	if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, LUN_PROP,
12470 	    (int)plun->lun_num) != DDI_PROP_SUCCESS) {
12471 		failure++;
12472 		goto end_of_fcp_create_dip;
12473 	}
12474 	bcopy(&plun->lun_addr, &sam_lun, FCP_LUN_SIZE);
12475 	if (ndi_prop_update_int64(DDI_DEV_T_NONE, cdip, SAM_LUN_PROP,
12476 	    sam_lun) != DDI_PROP_SUCCESS) {
12477 		failure++;
12478 		goto end_of_fcp_create_dip;
12479 	}
12480 
12481 end_of_fcp_create_dip:
12482 	scsi_hba_nodename_compatible_free(nname, compatible);
12483 
12484 	if (cdip != NULL && failure) {
12485 		(void) ndi_prop_remove_all(cdip);
12486 		(void) ndi_devi_free(cdip);
12487 		cdip = NULL;
12488 	}
12489 
12490 	return (cdip);
12491 }
12492 
12493 /*
12494  *     Function: fcp_create_pip
12495  *
12496  *  Description: Creates a Path Id for the LUN specified by the caller.
12497  *
12498  *     Argument: plun		Lun structure
12499  *		 link_cnt	Link state count.
12500  *		 tgt_cnt	Target state count.
12501  *
12502  * Return Value: NULL if it failed
12503  *		 mdi_pathinfo_t structure address if it succeeded
12504  *
12505  *	Context: Kernel context
12506  */
12507 static mdi_pathinfo_t *
12508 fcp_create_pip(struct fcp_lun *plun, int lcount, int tcount)
12509 {
12510 	int			i;
12511 	char			buf[MAXNAMELEN];
12512 	char			uaddr[MAXNAMELEN];
12513 	int			failure = 0;
12514 	uint32_t		tgt_id;
12515 	uint64_t		sam_lun;
12516 	struct fcp_tgt	*ptgt = plun->lun_tgt;
12517 	struct fcp_port	*pptr = ptgt->tgt_port;
12518 	dev_info_t		*pdip = pptr->port_dip;
12519 	mdi_pathinfo_t		*pip = NULL;
12520 	mdi_pathinfo_t		*old_pip = PIP(plun->lun_cip);
12521 	char			*nname = NULL;
12522 	char			**compatible = NULL;
12523 	int			ncompatible;
12524 	char			*scsi_binding_set;
12525 	char			t_pwwn[17];
12526 
12527 	ASSERT(MUTEX_HELD(&plun->lun_mutex));
12528 	ASSERT(MUTEX_HELD(&pptr->port_mutex));
12529 
12530 	scsi_binding_set = "vhci";
12531 
12532 	/* determine the node name and compatible */
12533 	scsi_hba_nodename_compatible_get(&plun->lun_inq, scsi_binding_set,
12534 	    plun->lun_inq.inq_dtype, NULL, &nname, &compatible, &ncompatible);
12535 
12536 	if (nname == NULL) {
12537 #ifdef	DEBUG
12538 		cmn_err(CE_WARN, "fcp_create_dip: %s%d: no driver for "
12539 		    "device @w%02x%02x%02x%02x%02x%02x%02x%02x,%d:"
12540 		    "	 compatible: %s",
12541 		    ddi_driver_name(pdip), ddi_get_instance(pdip),
12542 		    ptgt->tgt_port_wwn.raw_wwn[0],
12543 		    ptgt->tgt_port_wwn.raw_wwn[1],
12544 		    ptgt->tgt_port_wwn.raw_wwn[2],
12545 		    ptgt->tgt_port_wwn.raw_wwn[3],
12546 		    ptgt->tgt_port_wwn.raw_wwn[4],
12547 		    ptgt->tgt_port_wwn.raw_wwn[5],
12548 		    ptgt->tgt_port_wwn.raw_wwn[6],
12549 		    ptgt->tgt_port_wwn.raw_wwn[7], plun->lun_num,
12550 		    *compatible);
12551 #endif	/* DEBUG */
12552 		failure++;
12553 		goto end_of_fcp_create_pip;
12554 	}
12555 
12556 	pip = fcp_find_existing_pip(plun, pdip);
12557 
12558 	/*
12559 	 * if the old_dip does not match the cdip, that means there is
12560 	 * some property change. since we'll be using the cdip, we need
12561 	 * to offline the old_dip. If the state contains FCP_LUN_CHANGED
12562 	 * then the dtype for the device has been updated. Offline the
12563 	 * the old device and create a new device with the new device type
12564 	 * Refer to bug: 4764752
12565 	 */
12566 	if (old_pip && (pip != old_pip ||
12567 	    plun->lun_state & FCP_LUN_CHANGED)) {
12568 		plun->lun_state &= ~(FCP_LUN_INIT);
12569 		mutex_exit(&plun->lun_mutex);
12570 		mutex_exit(&pptr->port_mutex);
12571 
12572 		mutex_enter(&ptgt->tgt_mutex);
12573 		(void) fcp_pass_to_hp(pptr, plun, CIP(old_pip),
12574 		    FCP_OFFLINE, lcount, tcount,
12575 		    NDI_DEVI_REMOVE, 0);
12576 		mutex_exit(&ptgt->tgt_mutex);
12577 
12578 		if (pip != NULL) {
12579 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
12580 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
12581 			    "Old pip=%p; New pip=%p don't match",
12582 			    old_pip, pip);
12583 		} else {
12584 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
12585 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
12586 			    "Old pip=%p; New pip=NULL don't match",
12587 			    old_pip);
12588 		}
12589 
12590 		mutex_enter(&pptr->port_mutex);
12591 		mutex_enter(&plun->lun_mutex);
12592 	}
12593 
12594 	/*
12595 	 * Since FC_WWN_SIZE is 8 bytes and its not like the
12596 	 * lun_guid_size which is dependent on the target, I don't
12597 	 * believe the same trancation happens here UNLESS the standards
12598 	 * change the FC_WWN_SIZE value to something larger than
12599 	 * MAXNAMELEN(currently 255 bytes).
12600 	 */
12601 
12602 	for (i = 0; i < FC_WWN_SIZE; i++) {
12603 		(void) sprintf(&buf[i << 1], "%02x",
12604 		    ptgt->tgt_port_wwn.raw_wwn[i]);
12605 	}
12606 
12607 	(void) snprintf(uaddr, MAXNAMELEN, "w%s,%x",
12608 	    buf, plun->lun_num);
12609 
12610 	if (pip == NULL || plun->lun_state & FCP_LUN_CHANGED) {
12611 		/*
12612 		 * Release the locks before calling into
12613 		 * mdi_pi_alloc_compatible() since this can result in a
12614 		 * callback into fcp which can result in a deadlock
12615 		 * (see bug # 4870272).
12616 		 *
12617 		 * Basically, what we are trying to avoid is the scenario where
12618 		 * one thread does ndi_devi_enter() and tries to grab
12619 		 * fcp_mutex and another does it the other way round.
12620 		 *
12621 		 * But before we do that, make sure that nobody releases the
12622 		 * port in the meantime. We can do this by setting a flag.
12623 		 */
12624 		plun->lun_state &= ~(FCP_LUN_CHANGED);
12625 		pptr->port_state |= FCP_STATE_IN_MDI;
12626 		mutex_exit(&plun->lun_mutex);
12627 		mutex_exit(&pptr->port_mutex);
12628 		if (mdi_pi_alloc_compatible(pdip, nname, plun->lun_guid,
12629 		    uaddr, compatible, ncompatible, 0, &pip) != MDI_SUCCESS) {
12630 			fcp_log(CE_WARN, pptr->port_dip,
12631 			    "!path alloc failed:0x%x", plun);
12632 			mutex_enter(&pptr->port_mutex);
12633 			mutex_enter(&plun->lun_mutex);
12634 			pptr->port_state &= ~FCP_STATE_IN_MDI;
12635 			failure++;
12636 			goto end_of_fcp_create_pip;
12637 		}
12638 		mutex_enter(&pptr->port_mutex);
12639 		mutex_enter(&plun->lun_mutex);
12640 		pptr->port_state &= ~FCP_STATE_IN_MDI;
12641 	} else {
12642 		(void) mdi_prop_remove(pip, NULL);
12643 	}
12644 
12645 	mdi_pi_set_phci_private(pip, (caddr_t)plun);
12646 
12647 	if (mdi_prop_update_byte_array(pip, NODE_WWN_PROP,
12648 	    ptgt->tgt_node_wwn.raw_wwn, FC_WWN_SIZE)
12649 	    != DDI_PROP_SUCCESS) {
12650 		failure++;
12651 		goto end_of_fcp_create_pip;
12652 	}
12653 
12654 	if (mdi_prop_update_byte_array(pip, PORT_WWN_PROP,
12655 	    ptgt->tgt_port_wwn.raw_wwn, FC_WWN_SIZE)
12656 	    != DDI_PROP_SUCCESS) {
12657 		failure++;
12658 		goto end_of_fcp_create_pip;
12659 	}
12660 
12661 	fcp_wwn_to_ascii(ptgt->tgt_port_wwn.raw_wwn, t_pwwn);
12662 	t_pwwn[16] = '\0';
12663 	if (mdi_prop_update_string(pip, TGT_PORT_PROP, t_pwwn)
12664 	    != DDI_PROP_SUCCESS) {
12665 		failure++;
12666 		goto end_of_fcp_create_pip;
12667 	}
12668 
12669 	/*
12670 	 * If there is no hard address - We might have to deal with
12671 	 * that by using WWN - Having said that it is important to
12672 	 * recognize this problem early so ssd can be informed of
12673 	 * the right interconnect type.
12674 	 */
12675 	if (!FC_TOP_EXTERNAL(pptr->port_topology) &&
12676 	    ptgt->tgt_hard_addr != 0) {
12677 		tgt_id = (uint32_t)
12678 		    fcp_alpa_to_switch[ptgt->tgt_hard_addr];
12679 	} else {
12680 		tgt_id = ptgt->tgt_d_id;
12681 	}
12682 
12683 	if (mdi_prop_update_int(pip, TARGET_PROP, tgt_id)
12684 	    != DDI_PROP_SUCCESS) {
12685 		failure++;
12686 		goto end_of_fcp_create_pip;
12687 	}
12688 
12689 	if (mdi_prop_update_int(pip, LUN_PROP, (int)plun->lun_num)
12690 	    != DDI_PROP_SUCCESS) {
12691 		failure++;
12692 		goto end_of_fcp_create_pip;
12693 	}
12694 	bcopy(&plun->lun_addr, &sam_lun, FCP_LUN_SIZE);
12695 	if (mdi_prop_update_int64(pip, SAM_LUN_PROP, sam_lun)
12696 	    != DDI_PROP_SUCCESS) {
12697 		failure++;
12698 		goto end_of_fcp_create_pip;
12699 	}
12700 
12701 end_of_fcp_create_pip:
12702 	scsi_hba_nodename_compatible_free(nname, compatible);
12703 
12704 	if (pip != NULL && failure) {
12705 		(void) mdi_prop_remove(pip, NULL);
12706 		mutex_exit(&plun->lun_mutex);
12707 		mutex_exit(&pptr->port_mutex);
12708 		(void) mdi_pi_free(pip, 0);
12709 		mutex_enter(&pptr->port_mutex);
12710 		mutex_enter(&plun->lun_mutex);
12711 		pip = NULL;
12712 	}
12713 
12714 	return (pip);
12715 }
12716 
12717 static dev_info_t *
12718 fcp_find_existing_dip(struct fcp_lun *plun, dev_info_t *pdip, caddr_t name)
12719 {
12720 	uint_t			nbytes;
12721 	uchar_t			*bytes;
12722 	uint_t			nwords;
12723 	uint32_t		tgt_id;
12724 	int			*words;
12725 	dev_info_t		*cdip;
12726 	dev_info_t		*ndip;
12727 	struct fcp_tgt	*ptgt = plun->lun_tgt;
12728 	struct fcp_port	*pptr = ptgt->tgt_port;
12729 	int			circular;
12730 
12731 	ndi_devi_enter(pdip, &circular);
12732 
12733 	ndip = (dev_info_t *)DEVI(pdip)->devi_child;
12734 	while ((cdip = ndip) != NULL) {
12735 		ndip = (dev_info_t *)DEVI(cdip)->devi_sibling;
12736 
12737 		if (strcmp(DEVI(cdip)->devi_node_name, name)) {
12738 			continue;
12739 		}
12740 
12741 		if (ddi_prop_lookup_byte_array(DDI_DEV_T_ANY, cdip,
12742 		    DDI_PROP_DONTPASS | DDI_PROP_NOTPROM, NODE_WWN_PROP, &bytes,
12743 		    &nbytes) != DDI_PROP_SUCCESS) {
12744 			continue;
12745 		}
12746 
12747 		if (nbytes != FC_WWN_SIZE || bytes == NULL) {
12748 			if (bytes != NULL) {
12749 				ddi_prop_free(bytes);
12750 			}
12751 			continue;
12752 		}
12753 		ASSERT(bytes != NULL);
12754 
12755 		if (bcmp(bytes, ptgt->tgt_node_wwn.raw_wwn, nbytes) != 0) {
12756 			ddi_prop_free(bytes);
12757 			continue;
12758 		}
12759 
12760 		ddi_prop_free(bytes);
12761 
12762 		if (ddi_prop_lookup_byte_array(DDI_DEV_T_ANY, cdip,
12763 		    DDI_PROP_DONTPASS | DDI_PROP_NOTPROM, PORT_WWN_PROP, &bytes,
12764 		    &nbytes) != DDI_PROP_SUCCESS) {
12765 			continue;
12766 		}
12767 
12768 		if (nbytes != FC_WWN_SIZE || bytes == NULL) {
12769 			if (bytes != NULL) {
12770 				ddi_prop_free(bytes);
12771 			}
12772 			continue;
12773 		}
12774 		ASSERT(bytes != NULL);
12775 
12776 		if (bcmp(bytes, ptgt->tgt_port_wwn.raw_wwn, nbytes) != 0) {
12777 			ddi_prop_free(bytes);
12778 			continue;
12779 		}
12780 
12781 		ddi_prop_free(bytes);
12782 
12783 		if (ddi_prop_lookup_int_array(DDI_DEV_T_ANY, cdip,
12784 		    DDI_PROP_DONTPASS | DDI_PROP_NOTPROM, TARGET_PROP, &words,
12785 		    &nwords) != DDI_PROP_SUCCESS) {
12786 			continue;
12787 		}
12788 
12789 		if (nwords != 1 || words == NULL) {
12790 			if (words != NULL) {
12791 				ddi_prop_free(words);
12792 			}
12793 			continue;
12794 		}
12795 		ASSERT(words != NULL);
12796 
12797 		/*
12798 		 * If there is no hard address - We might have to deal with
12799 		 * that by using WWN - Having said that it is important to
12800 		 * recognize this problem early so ssd can be informed of
12801 		 * the right interconnect type.
12802 		 */
12803 		if (!FC_TOP_EXTERNAL(pptr->port_topology) &&
12804 		    ptgt->tgt_hard_addr != 0) {
12805 			tgt_id =
12806 			    (uint32_t)fcp_alpa_to_switch[ptgt->tgt_hard_addr];
12807 		} else {
12808 			tgt_id = ptgt->tgt_d_id;
12809 		}
12810 
12811 		if (tgt_id != (uint32_t)*words) {
12812 			ddi_prop_free(words);
12813 			continue;
12814 		}
12815 		ddi_prop_free(words);
12816 
12817 		if (ddi_prop_lookup_int_array(DDI_DEV_T_ANY, cdip,
12818 		    DDI_PROP_DONTPASS | DDI_PROP_NOTPROM, LUN_PROP, &words,
12819 		    &nwords) != DDI_PROP_SUCCESS) {
12820 			continue;
12821 		}
12822 
12823 		if (nwords != 1 || words == NULL) {
12824 			if (words != NULL) {
12825 				ddi_prop_free(words);
12826 			}
12827 			continue;
12828 		}
12829 		ASSERT(words != NULL);
12830 
12831 		if (plun->lun_num == (uint16_t)*words) {
12832 			ddi_prop_free(words);
12833 			break;
12834 		}
12835 		ddi_prop_free(words);
12836 	}
12837 	ndi_devi_exit(pdip, circular);
12838 
12839 	return (cdip);
12840 }
12841 
12842 
12843 static int
12844 fcp_is_pip_present(struct fcp_lun *plun, mdi_pathinfo_t *pip)
12845 {
12846 	dev_info_t	*pdip;
12847 	char		buf[MAXNAMELEN];
12848 	char		uaddr[MAXNAMELEN];
12849 	int		rval = FC_FAILURE;
12850 
12851 	ASSERT(MUTEX_HELD(&plun->lun_mutex));
12852 
12853 	pdip = plun->lun_tgt->tgt_port->port_dip;
12854 
12855 	/*
12856 	 * Check if pip (and not plun->lun_cip) is NULL. plun->lun_cip can be
12857 	 * non-NULL even when the LUN is not there as in the case when a LUN is
12858 	 * configured and then deleted on the device end (for T3/T4 case). In
12859 	 * such cases, pip will be NULL.
12860 	 *
12861 	 * If the device generates an RSCN, it will end up getting offlined when
12862 	 * it disappeared and a new LUN will get created when it is rediscovered
12863 	 * on the device. If we check for lun_cip here, the LUN will not end
12864 	 * up getting onlined since this function will end up returning a
12865 	 * FC_SUCCESS.
12866 	 *
12867 	 * The behavior is different on other devices. For instance, on a HDS,
12868 	 * there was no RSCN generated by the device but the next I/O generated
12869 	 * a check condition and rediscovery got triggered that way. So, in
12870 	 * such cases, this path will not be exercised
12871 	 */
12872 	if (pip == NULL) {
12873 		FCP_TRACE(fcp_logq, LUN_PORT->port_instbuf,
12874 		    fcp_trace, FCP_BUF_LEVEL_4, 0,
12875 		    "fcp_is_pip_present: plun->lun_cip is NULL: "
12876 		    "plun: %p lun state: %x num: %d target state: %x",
12877 		    plun, plun->lun_state, plun->lun_num,
12878 		    plun->lun_tgt->tgt_port->port_state);
12879 		return (rval);
12880 	}
12881 
12882 	fcp_wwn_to_ascii(plun->lun_tgt->tgt_port_wwn.raw_wwn, buf);
12883 
12884 	(void) snprintf(uaddr, MAXNAMELEN, "w%s,%x", buf, plun->lun_num);
12885 
12886 	if (plun->lun_old_guid) {
12887 		if (mdi_pi_find(pdip, plun->lun_old_guid, uaddr) == pip) {
12888 			rval = FC_SUCCESS;
12889 		}
12890 	} else {
12891 		if (mdi_pi_find(pdip, plun->lun_guid, uaddr) == pip) {
12892 			rval = FC_SUCCESS;
12893 		}
12894 	}
12895 	return (rval);
12896 }
12897 
12898 static mdi_pathinfo_t *
12899 fcp_find_existing_pip(struct fcp_lun *plun, dev_info_t *pdip)
12900 {
12901 	char			buf[MAXNAMELEN];
12902 	char			uaddr[MAXNAMELEN];
12903 	mdi_pathinfo_t		*pip;
12904 	struct fcp_tgt	*ptgt = plun->lun_tgt;
12905 	struct fcp_port	*pptr = ptgt->tgt_port;
12906 
12907 	ASSERT(MUTEX_HELD(&pptr->port_mutex));
12908 
12909 	fcp_wwn_to_ascii(ptgt->tgt_port_wwn.raw_wwn, buf);
12910 	(void) snprintf(uaddr, MAXNAMELEN, "w%s,%x", buf, plun->lun_num);
12911 
12912 	pip = mdi_pi_find(pdip, plun->lun_guid, uaddr);
12913 
12914 	return (pip);
12915 }
12916 
12917 
12918 static int
12919 fcp_online_child(struct fcp_lun *plun, child_info_t *cip, int lcount,
12920     int tcount, int flags, int *circ)
12921 {
12922 	int			rval;
12923 	struct fcp_port		*pptr = plun->lun_tgt->tgt_port;
12924 	struct fcp_tgt	*ptgt = plun->lun_tgt;
12925 	dev_info_t		*cdip = NULL;
12926 
12927 	ASSERT(MUTEX_HELD(&pptr->port_mutex));
12928 	ASSERT(MUTEX_HELD(&plun->lun_mutex));
12929 
12930 	if (plun->lun_cip == NULL) {
12931 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
12932 		    fcp_trace, FCP_BUF_LEVEL_3, 0,
12933 		    "fcp_online_child: plun->lun_cip is NULL: "
12934 		    "plun: %p state: %x num: %d target state: %x",
12935 		    plun, plun->lun_state, plun->lun_num,
12936 		    plun->lun_tgt->tgt_port->port_state);
12937 		return (NDI_FAILURE);
12938 	}
12939 again:
12940 	if (plun->lun_mpxio == 0) {
12941 		cdip = DIP(cip);
12942 		mutex_exit(&plun->lun_mutex);
12943 		mutex_exit(&pptr->port_mutex);
12944 
12945 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
12946 		    fcp_trace, FCP_BUF_LEVEL_3, 0,
12947 		    "!Invoking ndi_devi_online for %s: target=%x lun=%x",
12948 		    ddi_get_name(cdip), ptgt->tgt_d_id, plun->lun_num);
12949 
12950 		/*
12951 		 * We could check for FCP_LUN_INIT here but chances
12952 		 * of getting here when it's already in FCP_LUN_INIT
12953 		 * is rare and a duplicate ndi_devi_online wouldn't
12954 		 * hurt either (as the node would already have been
12955 		 * in CF2)
12956 		 */
12957 		if (!i_ddi_devi_attached(ddi_get_parent(cdip))) {
12958 			rval = ndi_devi_bind_driver(cdip, flags);
12959 		} else {
12960 			rval = ndi_devi_online(cdip, flags);
12961 		}
12962 		/*
12963 		 * We log the message into trace buffer if the device
12964 		 * is "ses" and into syslog for any other device
12965 		 * type. This is to prevent the ndi_devi_online failure
12966 		 * message that appears for V880/A5K ses devices.
12967 		 */
12968 		if (rval == NDI_SUCCESS) {
12969 			mutex_enter(&ptgt->tgt_mutex);
12970 			plun->lun_state |= FCP_LUN_INIT;
12971 			mutex_exit(&ptgt->tgt_mutex);
12972 		} else if (strncmp(ddi_node_name(cdip), "ses", 3) != 0) {
12973 			fcp_log(CE_NOTE, pptr->port_dip,
12974 			    "!ndi_devi_online:"
12975 			    " failed for %s: target=%x lun=%x %x",
12976 			    ddi_get_name(cdip), ptgt->tgt_d_id,
12977 			    plun->lun_num, rval);
12978 		} else {
12979 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
12980 			    fcp_trace, FCP_BUF_LEVEL_3, 0,
12981 			    " !ndi_devi_online:"
12982 			    " failed for %s: target=%x lun=%x %x",
12983 			    ddi_get_name(cdip), ptgt->tgt_d_id,
12984 			    plun->lun_num, rval);
12985 		}
12986 	} else {
12987 		cdip = mdi_pi_get_client(PIP(cip));
12988 		mutex_exit(&plun->lun_mutex);
12989 		mutex_exit(&pptr->port_mutex);
12990 
12991 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
12992 		    fcp_trace, FCP_BUF_LEVEL_3, 0,
12993 		    "!Invoking mdi_pi_online for %s: target=%x lun=%x",
12994 		    ddi_get_name(cdip), ptgt->tgt_d_id, plun->lun_num);
12995 
12996 		/*
12997 		 * Hold path and exit phci to avoid deadlock with power
12998 		 * management code during mdi_pi_online.
12999 		 */
13000 		mdi_hold_path(PIP(cip));
13001 		mdi_devi_exit_phci(pptr->port_dip, *circ);
13002 
13003 		rval = mdi_pi_online(PIP(cip), flags);
13004 
13005 		mdi_devi_enter_phci(pptr->port_dip, circ);
13006 		mdi_rele_path(PIP(cip));
13007 
13008 		if (rval == MDI_SUCCESS) {
13009 			mutex_enter(&ptgt->tgt_mutex);
13010 			plun->lun_state |= FCP_LUN_INIT;
13011 			mutex_exit(&ptgt->tgt_mutex);
13012 
13013 			/*
13014 			 * Clear MPxIO path permanent disable in case
13015 			 * fcp hotplug dropped the offline event.
13016 			 */
13017 			(void) mdi_pi_enable_path(PIP(cip), DRIVER_DISABLE);
13018 
13019 		} else if (rval == MDI_NOT_SUPPORTED) {
13020 			child_info_t	*old_cip = cip;
13021 
13022 			/*
13023 			 * MPxIO does not support this device yet.
13024 			 * Enumerate in legacy mode.
13025 			 */
13026 			mutex_enter(&pptr->port_mutex);
13027 			mutex_enter(&plun->lun_mutex);
13028 			plun->lun_mpxio = 0;
13029 			plun->lun_cip = NULL;
13030 			cdip = fcp_create_dip(plun, lcount, tcount);
13031 			plun->lun_cip = cip = CIP(cdip);
13032 			if (cip == NULL) {
13033 				fcp_log(CE_WARN, pptr->port_dip,
13034 				    "!fcp_online_child: "
13035 				    "Create devinfo failed for LU=%p", plun);
13036 				mutex_exit(&plun->lun_mutex);
13037 
13038 				mutex_enter(&ptgt->tgt_mutex);
13039 				plun->lun_state |= FCP_LUN_OFFLINE;
13040 				mutex_exit(&ptgt->tgt_mutex);
13041 
13042 				mutex_exit(&pptr->port_mutex);
13043 
13044 				/*
13045 				 * free the mdi_pathinfo node
13046 				 */
13047 				(void) mdi_pi_free(PIP(old_cip), 0);
13048 			} else {
13049 				FCP_TRACE(fcp_logq, pptr->port_instbuf,
13050 				    fcp_trace, FCP_BUF_LEVEL_3, 0,
13051 				    "fcp_online_child: creating devinfo "
13052 				    "node 0x%p for plun 0x%p",
13053 				    cip, plun);
13054 				mutex_exit(&plun->lun_mutex);
13055 				mutex_exit(&pptr->port_mutex);
13056 				/*
13057 				 * free the mdi_pathinfo node
13058 				 */
13059 				(void) mdi_pi_free(PIP(old_cip), 0);
13060 				mutex_enter(&pptr->port_mutex);
13061 				mutex_enter(&plun->lun_mutex);
13062 				goto again;
13063 			}
13064 		} else {
13065 			if (cdip) {
13066 				fcp_log(CE_NOTE, pptr->port_dip,
13067 				    "!fcp_online_child: mdi_pi_online:"
13068 				    " failed for %s: target=%x lun=%x %x",
13069 				    ddi_get_name(cdip), ptgt->tgt_d_id,
13070 				    plun->lun_num, rval);
13071 			}
13072 		}
13073 		rval = (rval == MDI_SUCCESS) ? NDI_SUCCESS : NDI_FAILURE;
13074 	}
13075 
13076 	if (rval == NDI_SUCCESS) {
13077 		if (cdip) {
13078 			(void) ndi_event_retrieve_cookie(
13079 			    pptr->port_ndi_event_hdl, cdip, FCAL_INSERT_EVENT,
13080 			    &fcp_insert_eid, NDI_EVENT_NOPASS);
13081 			(void) ndi_event_run_callbacks(pptr->port_ndi_event_hdl,
13082 			    cdip, fcp_insert_eid, NULL);
13083 		}
13084 	}
13085 	mutex_enter(&pptr->port_mutex);
13086 	mutex_enter(&plun->lun_mutex);
13087 	return (rval);
13088 }
13089 
13090 /* ARGSUSED */
13091 static int
13092 fcp_offline_child(struct fcp_lun *plun, child_info_t *cip, int lcount,
13093     int tcount, int flags, int *circ)
13094 {
13095 	int rval;
13096 	struct fcp_port		*pptr = plun->lun_tgt->tgt_port;
13097 	struct fcp_tgt	*ptgt = plun->lun_tgt;
13098 	dev_info_t		*cdip;
13099 
13100 	ASSERT(MUTEX_HELD(&plun->lun_mutex));
13101 	ASSERT(MUTEX_HELD(&pptr->port_mutex));
13102 
13103 	if (plun->lun_cip == NULL) {
13104 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
13105 		    fcp_trace, FCP_BUF_LEVEL_3, 0,
13106 		    "fcp_offline_child: plun->lun_cip is NULL: "
13107 		    "plun: %p lun state: %x num: %d target state: %x",
13108 		    plun, plun->lun_state, plun->lun_num,
13109 		    plun->lun_tgt->tgt_port->port_state);
13110 		return (NDI_FAILURE);
13111 	}
13112 
13113 	if (plun->lun_mpxio == 0) {
13114 		cdip = DIP(cip);
13115 		mutex_exit(&plun->lun_mutex);
13116 		mutex_exit(&pptr->port_mutex);
13117 		rval = ndi_devi_offline(DIP(cip), flags);
13118 		if (rval != NDI_SUCCESS) {
13119 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
13120 			    fcp_trace, FCP_BUF_LEVEL_3, 0,
13121 			    "fcp_offline_child: ndi_devi_offline failed "
13122 			    "rval=%x cip=%p", rval, cip);
13123 		}
13124 	} else {
13125 		cdip = mdi_pi_get_client(PIP(cip));
13126 		mutex_exit(&plun->lun_mutex);
13127 		mutex_exit(&pptr->port_mutex);
13128 
13129 		/*
13130 		 * Exit phci to avoid deadlock with power management code
13131 		 * during mdi_pi_offline
13132 		 */
13133 		mdi_hold_path(PIP(cip));
13134 		mdi_devi_exit_phci(pptr->port_dip, *circ);
13135 
13136 		rval = mdi_pi_offline(PIP(cip), flags);
13137 
13138 		mdi_devi_enter_phci(pptr->port_dip, circ);
13139 		mdi_rele_path(PIP(cip));
13140 
13141 		if (rval == MDI_SUCCESS) {
13142 			/*
13143 			 * Clear MPxIO path permanent disable as the path is
13144 			 * already offlined.
13145 			 */
13146 			(void) mdi_pi_enable_path(PIP(cip), DRIVER_DISABLE);
13147 
13148 			if (flags & NDI_DEVI_REMOVE) {
13149 				(void) mdi_pi_free(PIP(cip), 0);
13150 			}
13151 		} else {
13152 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
13153 			    fcp_trace, FCP_BUF_LEVEL_3, 0,
13154 			    "fcp_offline_child: mdi_pi_offline failed "
13155 			    "rval=%x cip=%p", rval, cip);
13156 		}
13157 		rval = (rval == MDI_SUCCESS) ? NDI_SUCCESS : NDI_FAILURE;
13158 	}
13159 
13160 	mutex_enter(&ptgt->tgt_mutex);
13161 	plun->lun_state &= ~FCP_LUN_INIT;
13162 	mutex_exit(&ptgt->tgt_mutex);
13163 
13164 	mutex_enter(&pptr->port_mutex);
13165 	mutex_enter(&plun->lun_mutex);
13166 
13167 	if (rval == NDI_SUCCESS) {
13168 		cdip = NULL;
13169 		if (flags & NDI_DEVI_REMOVE) {
13170 			/*
13171 			 * If the guid of the LUN changes, lun_cip will not
13172 			 * equal to cip, and after offlining the LUN with the
13173 			 * old guid, we should keep lun_cip since it's the cip
13174 			 * of the LUN with the new guid.
13175 			 * Otherwise remove our reference to child node.
13176 			 */
13177 			if (plun->lun_cip == cip) {
13178 				plun->lun_cip = NULL;
13179 			}
13180 			if (plun->lun_old_guid) {
13181 				kmem_free(plun->lun_old_guid,
13182 				    plun->lun_old_guid_size);
13183 				plun->lun_old_guid = NULL;
13184 				plun->lun_old_guid_size = 0;
13185 			}
13186 		}
13187 	}
13188 
13189 	if (cdip) {
13190 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
13191 		    fcp_trace, FCP_BUF_LEVEL_3, 0, "!%s failed for %s:"
13192 		    " target=%x lun=%x", "ndi_offline",
13193 		    ddi_get_name(cdip), ptgt->tgt_d_id, plun->lun_num);
13194 	}
13195 
13196 	return (rval);
13197 }
13198 
13199 static void
13200 fcp_remove_child(struct fcp_lun *plun)
13201 {
13202 	ASSERT(MUTEX_HELD(&plun->lun_mutex));
13203 
13204 	if (fcp_is_child_present(plun, plun->lun_cip) == FC_SUCCESS) {
13205 		if (plun->lun_mpxio == 0) {
13206 			(void) ndi_prop_remove_all(DIP(plun->lun_cip));
13207 			(void) ndi_devi_free(DIP(plun->lun_cip));
13208 		} else {
13209 			mutex_exit(&plun->lun_mutex);
13210 			mutex_exit(&plun->lun_tgt->tgt_mutex);
13211 			mutex_exit(&plun->lun_tgt->tgt_port->port_mutex);
13212 			FCP_TRACE(fcp_logq,
13213 			    plun->lun_tgt->tgt_port->port_instbuf,
13214 			    fcp_trace, FCP_BUF_LEVEL_3, 0,
13215 			    "lun=%p pip freed %p", plun, plun->lun_cip);
13216 			(void) mdi_prop_remove(PIP(plun->lun_cip), NULL);
13217 			(void) mdi_pi_free(PIP(plun->lun_cip), 0);
13218 			mutex_enter(&plun->lun_tgt->tgt_port->port_mutex);
13219 			mutex_enter(&plun->lun_tgt->tgt_mutex);
13220 			mutex_enter(&plun->lun_mutex);
13221 		}
13222 	}
13223 
13224 	plun->lun_cip = NULL;
13225 }
13226 
13227 /*
13228  * called when a timeout occurs
13229  *
13230  * can be scheduled during an attach or resume (if not already running)
13231  *
13232  * one timeout is set up for all ports
13233  *
13234  * acquires and releases the global mutex
13235  */
13236 /*ARGSUSED*/
13237 static void
13238 fcp_watch(void *arg)
13239 {
13240 	struct fcp_port	*pptr;
13241 	struct fcp_ipkt	*icmd;
13242 	struct fcp_ipkt	*nicmd;
13243 	struct fcp_pkt	*cmd;
13244 	struct fcp_pkt	*ncmd;
13245 	struct fcp_pkt	*tail;
13246 	struct fcp_pkt	*pcmd;
13247 	struct fcp_pkt	*save_head;
13248 	struct fcp_port	*save_port;
13249 
13250 	/* increment global watchdog time */
13251 	fcp_watchdog_time += fcp_watchdog_timeout;
13252 
13253 	mutex_enter(&fcp_global_mutex);
13254 
13255 	/* scan each port in our list */
13256 	for (pptr = fcp_port_head; pptr != NULL; pptr = pptr->port_next) {
13257 		save_port = fcp_port_head;
13258 		pptr->port_state |= FCP_STATE_IN_WATCHDOG;
13259 		mutex_exit(&fcp_global_mutex);
13260 
13261 		mutex_enter(&pptr->port_mutex);
13262 		if (pptr->port_ipkt_list == NULL &&
13263 		    (pptr->port_state & (FCP_STATE_SUSPENDED |
13264 		    FCP_STATE_DETACHING | FCP_STATE_POWER_DOWN))) {
13265 			pptr->port_state &= ~FCP_STATE_IN_WATCHDOG;
13266 			mutex_exit(&pptr->port_mutex);
13267 			mutex_enter(&fcp_global_mutex);
13268 			goto end_of_watchdog;
13269 		}
13270 
13271 		/*
13272 		 * We check if a list of targets need to be offlined.
13273 		 */
13274 		if (pptr->port_offline_tgts) {
13275 			fcp_scan_offline_tgts(pptr);
13276 		}
13277 
13278 		/*
13279 		 * We check if a list of luns need to be offlined.
13280 		 */
13281 		if (pptr->port_offline_luns) {
13282 			fcp_scan_offline_luns(pptr);
13283 		}
13284 
13285 		/*
13286 		 * We check if a list of targets or luns need to be reset.
13287 		 */
13288 		if (pptr->port_reset_list) {
13289 			fcp_check_reset_delay(pptr);
13290 		}
13291 
13292 		mutex_exit(&pptr->port_mutex);
13293 
13294 		/*
13295 		 * This is where the pending commands (pkt) are checked for
13296 		 * timeout.
13297 		 */
13298 		mutex_enter(&pptr->port_pkt_mutex);
13299 		tail = pptr->port_pkt_tail;
13300 
13301 		for (pcmd = NULL, cmd = pptr->port_pkt_head;
13302 		    cmd != NULL; cmd = ncmd) {
13303 			ncmd = cmd->cmd_next;
13304 			/*
13305 			 * If a command is in this queue the bit CFLAG_IN_QUEUE
13306 			 * must be set.
13307 			 */
13308 			ASSERT(cmd->cmd_flags & CFLAG_IN_QUEUE);
13309 			/*
13310 			 * FCP_INVALID_TIMEOUT will be set for those
13311 			 * command that need to be failed. Mostly those
13312 			 * cmds that could not be queued down for the
13313 			 * "timeout" value. cmd->cmd_timeout is used
13314 			 * to try and requeue the command regularly.
13315 			 */
13316 			if (cmd->cmd_timeout >= fcp_watchdog_time) {
13317 				/*
13318 				 * This command hasn't timed out yet.  Let's
13319 				 * go to the next one.
13320 				 */
13321 				pcmd = cmd;
13322 				goto end_of_loop;
13323 			}
13324 
13325 			if (cmd == pptr->port_pkt_head) {
13326 				ASSERT(pcmd == NULL);
13327 				pptr->port_pkt_head = cmd->cmd_next;
13328 			} else {
13329 				ASSERT(pcmd != NULL);
13330 				pcmd->cmd_next = cmd->cmd_next;
13331 			}
13332 
13333 			if (cmd == pptr->port_pkt_tail) {
13334 				ASSERT(cmd->cmd_next == NULL);
13335 				pptr->port_pkt_tail = pcmd;
13336 				if (pcmd) {
13337 					pcmd->cmd_next = NULL;
13338 				}
13339 			}
13340 			cmd->cmd_next = NULL;
13341 
13342 			/*
13343 			 * save the current head before dropping the
13344 			 * mutex - If the head doesn't remain the
13345 			 * same after re acquiring the mutex, just
13346 			 * bail out and revisit on next tick.
13347 			 *
13348 			 * PS: The tail pointer can change as the commands
13349 			 * get requeued after failure to retransport
13350 			 */
13351 			save_head = pptr->port_pkt_head;
13352 			mutex_exit(&pptr->port_pkt_mutex);
13353 
13354 			if (cmd->cmd_fp_pkt->pkt_timeout ==
13355 			    FCP_INVALID_TIMEOUT) {
13356 				struct scsi_pkt		*pkt = cmd->cmd_pkt;
13357 				struct fcp_lun	*plun;
13358 				struct fcp_tgt	*ptgt;
13359 
13360 				plun = ADDR2LUN(&pkt->pkt_address);
13361 				ptgt = plun->lun_tgt;
13362 
13363 				FCP_TRACE(fcp_logq, pptr->port_instbuf,
13364 				    fcp_trace, FCP_BUF_LEVEL_2, 0,
13365 				    "SCSI cmd 0x%x to D_ID=%x timed out",
13366 				    pkt->pkt_cdbp[0], ptgt->tgt_d_id);
13367 
13368 				cmd->cmd_state == FCP_PKT_ABORTING ?
13369 				    fcp_fail_cmd(cmd, CMD_RESET,
13370 				    STAT_DEV_RESET) : fcp_fail_cmd(cmd,
13371 				    CMD_TIMEOUT, STAT_ABORTED);
13372 			} else {
13373 				fcp_retransport_cmd(pptr, cmd);
13374 			}
13375 			mutex_enter(&pptr->port_pkt_mutex);
13376 			if (save_head && save_head != pptr->port_pkt_head) {
13377 				/*
13378 				 * Looks like linked list got changed (mostly
13379 				 * happens when an an OFFLINE LUN code starts
13380 				 * returning overflow queue commands in
13381 				 * parallel. So bail out and revisit during
13382 				 * next tick
13383 				 */
13384 				break;
13385 			}
13386 		end_of_loop:
13387 			/*
13388 			 * Scan only upto the previously known tail pointer
13389 			 * to avoid excessive processing - lots of new packets
13390 			 * could have been added to the tail or the old ones
13391 			 * re-queued.
13392 			 */
13393 			if (cmd == tail) {
13394 				break;
13395 			}
13396 		}
13397 		mutex_exit(&pptr->port_pkt_mutex);
13398 
13399 		mutex_enter(&pptr->port_mutex);
13400 		for (icmd = pptr->port_ipkt_list; icmd != NULL; icmd = nicmd) {
13401 			struct fcp_tgt *ptgt = icmd->ipkt_tgt;
13402 
13403 			nicmd = icmd->ipkt_next;
13404 			if ((icmd->ipkt_restart != 0) &&
13405 			    (icmd->ipkt_restart >= fcp_watchdog_time)) {
13406 				/* packet has not timed out */
13407 				continue;
13408 			}
13409 
13410 			/* time for packet re-transport */
13411 			if (icmd == pptr->port_ipkt_list) {
13412 				pptr->port_ipkt_list = icmd->ipkt_next;
13413 				if (pptr->port_ipkt_list) {
13414 					pptr->port_ipkt_list->ipkt_prev =
13415 					    NULL;
13416 				}
13417 			} else {
13418 				icmd->ipkt_prev->ipkt_next = icmd->ipkt_next;
13419 				if (icmd->ipkt_next) {
13420 					icmd->ipkt_next->ipkt_prev =
13421 					    icmd->ipkt_prev;
13422 				}
13423 			}
13424 			icmd->ipkt_next = NULL;
13425 			icmd->ipkt_prev = NULL;
13426 			mutex_exit(&pptr->port_mutex);
13427 
13428 			if (fcp_is_retryable(icmd)) {
13429 				fc_ulp_rscn_info_t *rscnp =
13430 				    (fc_ulp_rscn_info_t *)icmd->ipkt_fpkt->
13431 				    pkt_ulp_rscn_infop;
13432 
13433 				FCP_TRACE(fcp_logq, pptr->port_instbuf,
13434 				    fcp_trace, FCP_BUF_LEVEL_2, 0,
13435 				    "%x to D_ID=%x Retrying..",
13436 				    icmd->ipkt_opcode,
13437 				    icmd->ipkt_fpkt->pkt_cmd_fhdr.d_id);
13438 
13439 				/*
13440 				 * Update the RSCN count in the packet
13441 				 * before resending.
13442 				 */
13443 
13444 				if (rscnp != NULL) {
13445 					rscnp->ulp_rscn_count =
13446 					    fc_ulp_get_rscn_count(pptr->
13447 					    port_fp_handle);
13448 				}
13449 
13450 				mutex_enter(&pptr->port_mutex);
13451 				mutex_enter(&ptgt->tgt_mutex);
13452 				if (!FCP_STATE_CHANGED(pptr, ptgt, icmd)) {
13453 					mutex_exit(&ptgt->tgt_mutex);
13454 					mutex_exit(&pptr->port_mutex);
13455 					switch (icmd->ipkt_opcode) {
13456 						int rval;
13457 					case LA_ELS_PLOGI:
13458 						if ((rval = fc_ulp_login(
13459 						    pptr->port_fp_handle,
13460 						    &icmd->ipkt_fpkt, 1)) ==
13461 						    FC_SUCCESS) {
13462 							mutex_enter(
13463 							    &pptr->port_mutex);
13464 							continue;
13465 						}
13466 						if (fcp_handle_ipkt_errors(
13467 						    pptr, ptgt, icmd, rval,
13468 						    "PLOGI") == DDI_SUCCESS) {
13469 							mutex_enter(
13470 							    &pptr->port_mutex);
13471 							continue;
13472 						}
13473 						break;
13474 
13475 					case LA_ELS_PRLI:
13476 						if ((rval = fc_ulp_issue_els(
13477 						    pptr->port_fp_handle,
13478 						    icmd->ipkt_fpkt)) ==
13479 						    FC_SUCCESS) {
13480 							mutex_enter(
13481 							    &pptr->port_mutex);
13482 							continue;
13483 						}
13484 						if (fcp_handle_ipkt_errors(
13485 						    pptr, ptgt, icmd, rval,
13486 						    "PRLI") == DDI_SUCCESS) {
13487 							mutex_enter(
13488 							    &pptr->port_mutex);
13489 							continue;
13490 						}
13491 						break;
13492 
13493 					default:
13494 						if ((rval = fcp_transport(
13495 						    pptr->port_fp_handle,
13496 						    icmd->ipkt_fpkt, 1)) ==
13497 						    FC_SUCCESS) {
13498 							mutex_enter(
13499 							    &pptr->port_mutex);
13500 							continue;
13501 						}
13502 						if (fcp_handle_ipkt_errors(
13503 						    pptr, ptgt, icmd, rval,
13504 						    "PRLI") == DDI_SUCCESS) {
13505 							mutex_enter(
13506 							    &pptr->port_mutex);
13507 							continue;
13508 						}
13509 						break;
13510 					}
13511 				} else {
13512 					mutex_exit(&ptgt->tgt_mutex);
13513 					mutex_exit(&pptr->port_mutex);
13514 				}
13515 			} else {
13516 				fcp_print_error(icmd->ipkt_fpkt);
13517 			}
13518 
13519 			(void) fcp_call_finish_init(pptr, ptgt,
13520 			    icmd->ipkt_link_cnt, icmd->ipkt_change_cnt,
13521 			    icmd->ipkt_cause);
13522 			fcp_icmd_free(pptr, icmd);
13523 			mutex_enter(&pptr->port_mutex);
13524 		}
13525 
13526 		pptr->port_state &= ~FCP_STATE_IN_WATCHDOG;
13527 		mutex_exit(&pptr->port_mutex);
13528 		mutex_enter(&fcp_global_mutex);
13529 
13530 	end_of_watchdog:
13531 		/*
13532 		 * Bail out early before getting into trouble
13533 		 */
13534 		if (save_port != fcp_port_head) {
13535 			break;
13536 		}
13537 	}
13538 
13539 	if (fcp_watchdog_init > 0) {
13540 		/* reschedule timeout to go again */
13541 		fcp_watchdog_id =
13542 		    timeout(fcp_watch, NULL, fcp_watchdog_tick);
13543 	}
13544 	mutex_exit(&fcp_global_mutex);
13545 }
13546 
13547 
13548 static void
13549 fcp_check_reset_delay(struct fcp_port *pptr)
13550 {
13551 	uint32_t		tgt_cnt;
13552 	int			level;
13553 	struct fcp_tgt	*ptgt;
13554 	struct fcp_lun	*plun;
13555 	struct fcp_reset_elem *cur = NULL;
13556 	struct fcp_reset_elem *next = NULL;
13557 	struct fcp_reset_elem *prev = NULL;
13558 
13559 	ASSERT(mutex_owned(&pptr->port_mutex));
13560 
13561 	next = pptr->port_reset_list;
13562 	while ((cur = next) != NULL) {
13563 		next = cur->next;
13564 
13565 		if (cur->timeout < fcp_watchdog_time) {
13566 			prev = cur;
13567 			continue;
13568 		}
13569 
13570 		ptgt = cur->tgt;
13571 		plun = cur->lun;
13572 		tgt_cnt = cur->tgt_cnt;
13573 
13574 		if (ptgt) {
13575 			level = RESET_TARGET;
13576 		} else {
13577 			ASSERT(plun != NULL);
13578 			level = RESET_LUN;
13579 			ptgt = plun->lun_tgt;
13580 		}
13581 		if (prev) {
13582 			prev->next = next;
13583 		} else {
13584 			/*
13585 			 * Because we drop port mutex while doing aborts for
13586 			 * packets, we can't rely on reset_list pointing to
13587 			 * our head
13588 			 */
13589 			if (cur == pptr->port_reset_list) {
13590 				pptr->port_reset_list = next;
13591 			} else {
13592 				struct fcp_reset_elem *which;
13593 
13594 				which = pptr->port_reset_list;
13595 				while (which && which->next != cur) {
13596 					which = which->next;
13597 				}
13598 				ASSERT(which != NULL);
13599 
13600 				which->next = next;
13601 				prev = which;
13602 			}
13603 		}
13604 
13605 		kmem_free(cur, sizeof (*cur));
13606 
13607 		if (tgt_cnt == ptgt->tgt_change_cnt) {
13608 			mutex_enter(&ptgt->tgt_mutex);
13609 			if (level == RESET_TARGET) {
13610 				fcp_update_tgt_state(ptgt,
13611 				    FCP_RESET, FCP_LUN_BUSY);
13612 			} else {
13613 				fcp_update_lun_state(plun,
13614 				    FCP_RESET, FCP_LUN_BUSY);
13615 			}
13616 			mutex_exit(&ptgt->tgt_mutex);
13617 
13618 			mutex_exit(&pptr->port_mutex);
13619 			fcp_abort_all(pptr, ptgt, plun, tgt_cnt);
13620 			mutex_enter(&pptr->port_mutex);
13621 		}
13622 	}
13623 }
13624 
13625 
13626 static void
13627 fcp_abort_all(struct fcp_port *pptr, struct fcp_tgt *ttgt,
13628     struct fcp_lun *rlun, int tgt_cnt)
13629 {
13630 	int			rval;
13631 	struct fcp_lun	*tlun, *nlun;
13632 	struct fcp_pkt	*pcmd = NULL, *ncmd = NULL,
13633 	    *cmd = NULL, *head = NULL,
13634 	    *tail = NULL;
13635 
13636 	mutex_enter(&pptr->port_pkt_mutex);
13637 	for (cmd = pptr->port_pkt_head; cmd != NULL; cmd = ncmd) {
13638 		struct fcp_lun *plun = ADDR2LUN(&cmd->cmd_pkt->pkt_address);
13639 		struct fcp_tgt *ptgt = plun->lun_tgt;
13640 
13641 		ncmd = cmd->cmd_next;
13642 
13643 		if (ptgt != ttgt && plun != rlun) {
13644 			pcmd = cmd;
13645 			continue;
13646 		}
13647 
13648 		if (pcmd != NULL) {
13649 			ASSERT(pptr->port_pkt_head != cmd);
13650 			pcmd->cmd_next = ncmd;
13651 		} else {
13652 			ASSERT(cmd == pptr->port_pkt_head);
13653 			pptr->port_pkt_head = ncmd;
13654 		}
13655 		if (pptr->port_pkt_tail == cmd) {
13656 			ASSERT(cmd->cmd_next == NULL);
13657 			pptr->port_pkt_tail = pcmd;
13658 			if (pcmd != NULL) {
13659 				pcmd->cmd_next = NULL;
13660 			}
13661 		}
13662 
13663 		if (head == NULL) {
13664 			head = tail = cmd;
13665 		} else {
13666 			ASSERT(tail != NULL);
13667 			tail->cmd_next = cmd;
13668 			tail = cmd;
13669 		}
13670 		cmd->cmd_next = NULL;
13671 	}
13672 	mutex_exit(&pptr->port_pkt_mutex);
13673 
13674 	for (cmd = head; cmd != NULL; cmd = ncmd) {
13675 		struct scsi_pkt *pkt = cmd->cmd_pkt;
13676 
13677 		ncmd = cmd->cmd_next;
13678 		ASSERT(pkt != NULL);
13679 
13680 		mutex_enter(&pptr->port_mutex);
13681 		if (ttgt->tgt_change_cnt == tgt_cnt) {
13682 			mutex_exit(&pptr->port_mutex);
13683 			cmd->cmd_flags &= ~CFLAG_IN_QUEUE;
13684 			pkt->pkt_reason = CMD_RESET;
13685 			pkt->pkt_statistics |= STAT_DEV_RESET;
13686 			cmd->cmd_state = FCP_PKT_IDLE;
13687 			fcp_post_callback(cmd);
13688 		} else {
13689 			mutex_exit(&pptr->port_mutex);
13690 		}
13691 	}
13692 
13693 	/*
13694 	 * If the FCA will return all the commands in its queue then our
13695 	 * work is easy, just return.
13696 	 */
13697 
13698 	if (pptr->port_reset_action == FC_RESET_RETURN_ALL) {
13699 		return;
13700 	}
13701 
13702 	/*
13703 	 * For RESET_LUN get hold of target pointer
13704 	 */
13705 	if (ttgt == NULL) {
13706 		ASSERT(rlun != NULL);
13707 
13708 		ttgt = rlun->lun_tgt;
13709 
13710 		ASSERT(ttgt != NULL);
13711 	}
13712 
13713 	/*
13714 	 * There are some severe race conditions here.
13715 	 * While we are trying to abort the pkt, it might be completing
13716 	 * so mark it aborted and if the abort does not succeed then
13717 	 * handle it in the watch thread.
13718 	 */
13719 	mutex_enter(&ttgt->tgt_mutex);
13720 	nlun = ttgt->tgt_lun;
13721 	mutex_exit(&ttgt->tgt_mutex);
13722 	while ((tlun = nlun) != NULL) {
13723 		int restart = 0;
13724 		if (rlun && rlun != tlun) {
13725 			mutex_enter(&ttgt->tgt_mutex);
13726 			nlun = tlun->lun_next;
13727 			mutex_exit(&ttgt->tgt_mutex);
13728 			continue;
13729 		}
13730 		mutex_enter(&tlun->lun_mutex);
13731 		cmd = tlun->lun_pkt_head;
13732 		while (cmd != NULL) {
13733 			if (cmd->cmd_state == FCP_PKT_ISSUED) {
13734 				struct scsi_pkt *pkt;
13735 
13736 				restart = 1;
13737 				cmd->cmd_state = FCP_PKT_ABORTING;
13738 				mutex_exit(&tlun->lun_mutex);
13739 				rval = fc_ulp_abort(pptr->port_fp_handle,
13740 				    cmd->cmd_fp_pkt, KM_SLEEP);
13741 				if (rval == FC_SUCCESS) {
13742 					pkt = cmd->cmd_pkt;
13743 					pkt->pkt_reason = CMD_RESET;
13744 					pkt->pkt_statistics |= STAT_DEV_RESET;
13745 					cmd->cmd_state = FCP_PKT_IDLE;
13746 					fcp_post_callback(cmd);
13747 				} else {
13748 					caddr_t msg;
13749 
13750 					(void) fc_ulp_error(rval, &msg);
13751 
13752 					/*
13753 					 * This part is tricky. The abort
13754 					 * failed and now the command could
13755 					 * be completing.  The cmd_state ==
13756 					 * FCP_PKT_ABORTING should save
13757 					 * us in fcp_cmd_callback. If we
13758 					 * are already aborting ignore the
13759 					 * command in fcp_cmd_callback.
13760 					 * Here we leave this packet for 20
13761 					 * sec to be aborted in the
13762 					 * fcp_watch thread.
13763 					 */
13764 					fcp_log(CE_WARN, pptr->port_dip,
13765 					    "!Abort failed after reset %s",
13766 					    msg);
13767 
13768 					cmd->cmd_timeout =
13769 					    fcp_watchdog_time +
13770 					    cmd->cmd_pkt->pkt_time +
13771 					    FCP_FAILED_DELAY;
13772 
13773 					cmd->cmd_fp_pkt->pkt_timeout =
13774 					    FCP_INVALID_TIMEOUT;
13775 					/*
13776 					 * This is a hack, cmd is put in the
13777 					 * overflow queue so that it can be
13778 					 * timed out finally
13779 					 */
13780 					cmd->cmd_flags |= CFLAG_IN_QUEUE;
13781 
13782 					mutex_enter(&pptr->port_pkt_mutex);
13783 					if (pptr->port_pkt_head) {
13784 						ASSERT(pptr->port_pkt_tail
13785 						    != NULL);
13786 						pptr->port_pkt_tail->cmd_next
13787 						    = cmd;
13788 						pptr->port_pkt_tail = cmd;
13789 					} else {
13790 						ASSERT(pptr->port_pkt_tail
13791 						    == NULL);
13792 						pptr->port_pkt_head =
13793 						    pptr->port_pkt_tail
13794 						    = cmd;
13795 					}
13796 					cmd->cmd_next = NULL;
13797 					mutex_exit(&pptr->port_pkt_mutex);
13798 				}
13799 				mutex_enter(&tlun->lun_mutex);
13800 				cmd = tlun->lun_pkt_head;
13801 			} else {
13802 				cmd = cmd->cmd_forw;
13803 			}
13804 		}
13805 		mutex_exit(&tlun->lun_mutex);
13806 
13807 		mutex_enter(&ttgt->tgt_mutex);
13808 		restart == 1 ? (nlun = ttgt->tgt_lun) : (nlun = tlun->lun_next);
13809 		mutex_exit(&ttgt->tgt_mutex);
13810 
13811 		mutex_enter(&pptr->port_mutex);
13812 		if (tgt_cnt != ttgt->tgt_change_cnt) {
13813 			mutex_exit(&pptr->port_mutex);
13814 			return;
13815 		} else {
13816 			mutex_exit(&pptr->port_mutex);
13817 		}
13818 	}
13819 }
13820 
13821 
13822 /*
13823  * unlink the soft state, returning the soft state found (if any)
13824  *
13825  * acquires and releases the global mutex
13826  */
13827 struct fcp_port *
13828 fcp_soft_state_unlink(struct fcp_port *pptr)
13829 {
13830 	struct fcp_port	*hptr;		/* ptr index */
13831 	struct fcp_port	*tptr;		/* prev hptr */
13832 
13833 	mutex_enter(&fcp_global_mutex);
13834 	for (hptr = fcp_port_head, tptr = NULL;
13835 	    hptr != NULL;
13836 	    tptr = hptr, hptr = hptr->port_next) {
13837 		if (hptr == pptr) {
13838 			/* we found a match -- remove this item */
13839 			if (tptr == NULL) {
13840 				/* we're at the head of the list */
13841 				fcp_port_head = hptr->port_next;
13842 			} else {
13843 				tptr->port_next = hptr->port_next;
13844 			}
13845 			break;			/* success */
13846 		}
13847 	}
13848 	if (fcp_port_head == NULL) {
13849 		fcp_cleanup_blacklist(&fcp_lun_blacklist);
13850 	}
13851 	mutex_exit(&fcp_global_mutex);
13852 	return (hptr);
13853 }
13854 
13855 
13856 /*
13857  * called by fcp_scsi_hba_tgt_init to find a LUN given a
13858  * WWN and a LUN number
13859  */
13860 /* ARGSUSED */
13861 static struct fcp_lun *
13862 fcp_lookup_lun(struct fcp_port *pptr, uchar_t *wwn, uint16_t lun)
13863 {
13864 	int hash;
13865 	struct fcp_tgt *ptgt;
13866 	struct fcp_lun *plun;
13867 
13868 	ASSERT(mutex_owned(&pptr->port_mutex));
13869 
13870 	hash = FCP_HASH(wwn);
13871 	for (ptgt = pptr->port_tgt_hash_table[hash]; ptgt != NULL;
13872 	    ptgt = ptgt->tgt_next) {
13873 		if (bcmp((caddr_t)wwn, (caddr_t)&ptgt->tgt_port_wwn.raw_wwn[0],
13874 		    sizeof (ptgt->tgt_port_wwn)) == 0) {
13875 			mutex_enter(&ptgt->tgt_mutex);
13876 			for (plun = ptgt->tgt_lun;
13877 			    plun != NULL;
13878 			    plun = plun->lun_next) {
13879 				if (plun->lun_num == lun) {
13880 					mutex_exit(&ptgt->tgt_mutex);
13881 					return (plun);
13882 				}
13883 			}
13884 			mutex_exit(&ptgt->tgt_mutex);
13885 			return (NULL);
13886 		}
13887 	}
13888 	return (NULL);
13889 }
13890 
13891 /*
13892  *     Function: fcp_prepare_pkt
13893  *
13894  *  Description: This function prepares the SCSI cmd pkt, passed by the caller,
13895  *		 for fcp_start(). It binds the data or partially maps it.
13896  *		 Builds the FCP header and starts the initialization of the
13897  *		 Fibre Channel header.
13898  *
13899  *     Argument: *pptr		FCP port.
13900  *		 *cmd		FCP packet.
13901  *		 *plun		LUN the command will be sent to.
13902  *
13903  *	Context: User, Kernel and Interrupt context.
13904  */
13905 static void
13906 fcp_prepare_pkt(struct fcp_port *pptr, struct fcp_pkt *cmd,
13907     struct fcp_lun *plun)
13908 {
13909 	fc_packet_t		*fpkt = cmd->cmd_fp_pkt;
13910 	struct fcp_tgt		*ptgt = plun->lun_tgt;
13911 	struct fcp_cmd		*fcmd = &cmd->cmd_fcp_cmd;
13912 
13913 	ASSERT(cmd->cmd_pkt->pkt_comp ||
13914 	    (cmd->cmd_pkt->pkt_flags & FLAG_NOINTR));
13915 
13916 	if (cmd->cmd_pkt->pkt_numcookies) {
13917 		if (cmd->cmd_pkt->pkt_dma_flags & DDI_DMA_READ) {
13918 			fcmd->fcp_cntl.cntl_read_data = 1;
13919 			fcmd->fcp_cntl.cntl_write_data = 0;
13920 			fpkt->pkt_tran_type = FC_PKT_FCP_READ;
13921 		} else {
13922 			fcmd->fcp_cntl.cntl_read_data = 0;
13923 			fcmd->fcp_cntl.cntl_write_data = 1;
13924 			fpkt->pkt_tran_type = FC_PKT_FCP_WRITE;
13925 		}
13926 
13927 		fpkt->pkt_data_cookie = cmd->cmd_pkt->pkt_cookies;
13928 
13929 		fpkt->pkt_data_cookie_cnt = cmd->cmd_pkt->pkt_numcookies;
13930 		ASSERT(fpkt->pkt_data_cookie_cnt <=
13931 		    pptr->port_data_dma_attr.dma_attr_sgllen);
13932 
13933 		cmd->cmd_dmacount = cmd->cmd_pkt->pkt_dma_len;
13934 
13935 		/* FCA needs pkt_datalen to be set */
13936 		fpkt->pkt_datalen = cmd->cmd_dmacount;
13937 		fcmd->fcp_data_len = cmd->cmd_dmacount;
13938 	} else {
13939 		fcmd->fcp_cntl.cntl_read_data = 0;
13940 		fcmd->fcp_cntl.cntl_write_data = 0;
13941 		fpkt->pkt_tran_type = FC_PKT_EXCHANGE;
13942 		fpkt->pkt_datalen = 0;
13943 		fcmd->fcp_data_len = 0;
13944 	}
13945 
13946 	/* set up the Tagged Queuing type */
13947 	if (cmd->cmd_pkt->pkt_flags & FLAG_HTAG) {
13948 		fcmd->fcp_cntl.cntl_qtype = FCP_QTYPE_HEAD_OF_Q;
13949 	} else if (cmd->cmd_pkt->pkt_flags & FLAG_OTAG) {
13950 		fcmd->fcp_cntl.cntl_qtype = FCP_QTYPE_ORDERED;
13951 	} else if (cmd->cmd_pkt->pkt_flags & FLAG_STAG) {
13952 		fcmd->fcp_cntl.cntl_qtype = FCP_QTYPE_SIMPLE;
13953 	} else {
13954 		fcmd->fcp_cntl.cntl_qtype = FCP_QTYPE_UNTAGGED;
13955 	}
13956 
13957 	fcmd->fcp_ent_addr = plun->lun_addr;
13958 
13959 	if (pptr->port_fcp_dma != FC_NO_DVMA_SPACE) {
13960 		FCP_CP_OUT((uint8_t *)fcmd, fpkt->pkt_cmd,
13961 		    fpkt->pkt_cmd_acc, sizeof (struct fcp_cmd));
13962 	} else {
13963 		ASSERT(fpkt->pkt_cmd_dma == NULL && fpkt->pkt_resp_dma == NULL);
13964 	}
13965 
13966 	cmd->cmd_pkt->pkt_reason = CMD_CMPLT;
13967 	cmd->cmd_pkt->pkt_state = 0;
13968 	cmd->cmd_pkt->pkt_statistics = 0;
13969 	cmd->cmd_pkt->pkt_resid = 0;
13970 
13971 	cmd->cmd_fp_pkt->pkt_data_dma = cmd->cmd_pkt->pkt_handle;
13972 
13973 	if (cmd->cmd_pkt->pkt_flags & FLAG_NOINTR) {
13974 		fpkt->pkt_tran_flags = (FC_TRAN_CLASS3 | FC_TRAN_NO_INTR);
13975 		fpkt->pkt_comp = NULL;
13976 	} else {
13977 		fpkt->pkt_tran_flags = (FC_TRAN_CLASS3 | FC_TRAN_INTR);
13978 		if (cmd->cmd_pkt->pkt_flags & FLAG_IMMEDIATE_CB) {
13979 			fpkt->pkt_tran_flags |= FC_TRAN_IMMEDIATE_CB;
13980 		}
13981 		fpkt->pkt_comp = fcp_cmd_callback;
13982 	}
13983 
13984 	mutex_enter(&pptr->port_mutex);
13985 	if (pptr->port_state & FCP_STATE_SUSPENDED) {
13986 		fpkt->pkt_tran_flags |= FC_TRAN_DUMPING;
13987 	}
13988 	mutex_exit(&pptr->port_mutex);
13989 
13990 	fpkt->pkt_cmd_fhdr.d_id = ptgt->tgt_d_id;
13991 	fpkt->pkt_cmd_fhdr.s_id = pptr->port_id;
13992 
13993 	/*
13994 	 * Save a few kernel cycles here
13995 	 */
13996 #ifndef	__lock_lint
13997 	fpkt->pkt_fca_device = ptgt->tgt_fca_dev;
13998 #endif /* __lock_lint */
13999 }
14000 
14001 static void
14002 fcp_post_callback(struct fcp_pkt *cmd)
14003 {
14004 	scsi_hba_pkt_comp(cmd->cmd_pkt);
14005 }
14006 
14007 
14008 /*
14009  * called to do polled I/O by fcp_start()
14010  *
14011  * return a transport status value, i.e. TRAN_ACCECPT for success
14012  */
14013 static int
14014 fcp_dopoll(struct fcp_port *pptr, struct fcp_pkt *cmd)
14015 {
14016 	int	rval;
14017 
14018 #ifdef	DEBUG
14019 	mutex_enter(&pptr->port_pkt_mutex);
14020 	pptr->port_npkts++;
14021 	mutex_exit(&pptr->port_pkt_mutex);
14022 #endif /* DEBUG */
14023 
14024 	if (cmd->cmd_fp_pkt->pkt_timeout) {
14025 		cmd->cmd_fp_pkt->pkt_timeout = cmd->cmd_pkt->pkt_time;
14026 	} else {
14027 		cmd->cmd_fp_pkt->pkt_timeout = FCP_POLL_TIMEOUT;
14028 	}
14029 
14030 	ASSERT(cmd->cmd_fp_pkt->pkt_comp == NULL);
14031 
14032 	cmd->cmd_state = FCP_PKT_ISSUED;
14033 
14034 	rval = fc_ulp_transport(pptr->port_fp_handle, cmd->cmd_fp_pkt);
14035 
14036 #ifdef	DEBUG
14037 	mutex_enter(&pptr->port_pkt_mutex);
14038 	pptr->port_npkts--;
14039 	mutex_exit(&pptr->port_pkt_mutex);
14040 #endif /* DEBUG */
14041 
14042 	cmd->cmd_state = FCP_PKT_IDLE;
14043 
14044 	switch (rval) {
14045 	case FC_SUCCESS:
14046 		if (cmd->cmd_fp_pkt->pkt_state == FC_PKT_SUCCESS) {
14047 			fcp_complete_pkt(cmd->cmd_fp_pkt);
14048 			rval = TRAN_ACCEPT;
14049 		} else {
14050 			rval = TRAN_FATAL_ERROR;
14051 		}
14052 		break;
14053 
14054 	case FC_TRAN_BUSY:
14055 		rval = TRAN_BUSY;
14056 		cmd->cmd_pkt->pkt_resid = 0;
14057 		break;
14058 
14059 	case FC_BADPACKET:
14060 		rval = TRAN_BADPKT;
14061 		break;
14062 
14063 	default:
14064 		rval = TRAN_FATAL_ERROR;
14065 		break;
14066 	}
14067 
14068 	return (rval);
14069 }
14070 
14071 
14072 /*
14073  * called by some of the following transport-called routines to convert
14074  * a supplied dip ptr to a port struct ptr (i.e. to the soft state)
14075  */
14076 static struct fcp_port *
14077 fcp_dip2port(dev_info_t *dip)
14078 {
14079 	int	instance;
14080 
14081 	instance = ddi_get_instance(dip);
14082 	return (ddi_get_soft_state(fcp_softstate, instance));
14083 }
14084 
14085 
14086 /*
14087  * called internally to return a LUN given a dip
14088  */
14089 struct fcp_lun *
14090 fcp_get_lun_from_cip(struct fcp_port *pptr, child_info_t *cip)
14091 {
14092 	struct fcp_tgt *ptgt;
14093 	struct fcp_lun *plun;
14094 	int i;
14095 
14096 
14097 	ASSERT(mutex_owned(&pptr->port_mutex));
14098 
14099 	for (i = 0; i < FCP_NUM_HASH; i++) {
14100 		for (ptgt = pptr->port_tgt_hash_table[i];
14101 		    ptgt != NULL;
14102 		    ptgt = ptgt->tgt_next) {
14103 			mutex_enter(&ptgt->tgt_mutex);
14104 			for (plun = ptgt->tgt_lun; plun != NULL;
14105 			    plun = plun->lun_next) {
14106 				mutex_enter(&plun->lun_mutex);
14107 				if (plun->lun_cip == cip) {
14108 					mutex_exit(&plun->lun_mutex);
14109 					mutex_exit(&ptgt->tgt_mutex);
14110 					return (plun); /* match found */
14111 				}
14112 				mutex_exit(&plun->lun_mutex);
14113 			}
14114 			mutex_exit(&ptgt->tgt_mutex);
14115 		}
14116 	}
14117 	return (NULL);				/* no LUN found */
14118 }
14119 
14120 /*
14121  * pass an element to the hotplug list, kick the hotplug thread
14122  * and wait for the element to get processed by the hotplug thread.
14123  * on return the element is freed.
14124  *
14125  * return zero success and non-zero on failure
14126  *
14127  * acquires/releases the target mutex
14128  *
14129  */
14130 static int
14131 fcp_pass_to_hp_and_wait(struct fcp_port *pptr, struct fcp_lun *plun,
14132     child_info_t *cip, int what, int link_cnt, int tgt_cnt, int flags)
14133 {
14134 	struct fcp_hp_elem	*elem;
14135 	int			rval;
14136 
14137 	mutex_enter(&plun->lun_tgt->tgt_mutex);
14138 	if ((elem = fcp_pass_to_hp(pptr, plun, cip,
14139 	    what, link_cnt, tgt_cnt, flags, 1)) == NULL) {
14140 		mutex_exit(&plun->lun_tgt->tgt_mutex);
14141 		fcp_log(CE_CONT, pptr->port_dip,
14142 		    "Can not pass_to_hp: what: %d; D_ID=%x, LUN=%x\n",
14143 		    what, plun->lun_tgt->tgt_d_id, plun->lun_num);
14144 		return (NDI_FAILURE);
14145 	}
14146 	mutex_exit(&plun->lun_tgt->tgt_mutex);
14147 	mutex_enter(&elem->mutex);
14148 	if (elem->wait) {
14149 		while (elem->wait) {
14150 			cv_wait(&elem->cv, &elem->mutex);
14151 		}
14152 	}
14153 	rval = (elem->result);
14154 	mutex_exit(&elem->mutex);
14155 	mutex_destroy(&elem->mutex);
14156 	cv_destroy(&elem->cv);
14157 	kmem_free(elem, sizeof (struct fcp_hp_elem));
14158 	return (rval);
14159 }
14160 
14161 /*
14162  * pass an element to the hotplug list, and then
14163  * kick the hotplug thread
14164  *
14165  * return Boolean success, i.e. non-zero if all goes well, else zero on error
14166  *
14167  * acquires/releases the hotplug mutex
14168  *
14169  * called with the target mutex owned
14170  *
14171  * memory acquired in NOSLEEP mode
14172  * NOTE: if wait is set to 1 then the caller is responsible for waiting on
14173  *	 for the hp daemon to process the request and is responsible for
14174  *	 freeing the element
14175  */
14176 static struct fcp_hp_elem *
14177 fcp_pass_to_hp(struct fcp_port *pptr, struct fcp_lun *plun,
14178     child_info_t *cip, int what, int link_cnt, int tgt_cnt, int flags, int wait)
14179 {
14180 	struct fcp_hp_elem	*elem;
14181 	dev_info_t *pdip;
14182 
14183 	ASSERT(pptr != NULL);
14184 	ASSERT(plun != NULL);
14185 	ASSERT(plun->lun_tgt != NULL);
14186 	ASSERT(mutex_owned(&plun->lun_tgt->tgt_mutex));
14187 
14188 	/* create space for a hotplug element */
14189 	if ((elem = kmem_zalloc(sizeof (struct fcp_hp_elem), KM_NOSLEEP))
14190 	    == NULL) {
14191 		fcp_log(CE_WARN, NULL,
14192 		    "!can't allocate memory for hotplug element");
14193 		return (NULL);
14194 	}
14195 
14196 	/* fill in hotplug element */
14197 	elem->port = pptr;
14198 	elem->lun = plun;
14199 	elem->cip = cip;
14200 	elem->old_lun_mpxio = plun->lun_mpxio;
14201 	elem->what = what;
14202 	elem->flags = flags;
14203 	elem->link_cnt = link_cnt;
14204 	elem->tgt_cnt = tgt_cnt;
14205 	elem->wait = wait;
14206 	mutex_init(&elem->mutex, NULL, MUTEX_DRIVER, NULL);
14207 	cv_init(&elem->cv, NULL, CV_DRIVER, NULL);
14208 
14209 	/* schedule the hotplug task */
14210 	pdip = pptr->port_dip;
14211 	mutex_enter(&plun->lun_mutex);
14212 	if (elem->what == FCP_ONLINE || elem->what == FCP_OFFLINE) {
14213 		plun->lun_event_count++;
14214 		elem->event_cnt = plun->lun_event_count;
14215 	}
14216 	mutex_exit(&plun->lun_mutex);
14217 	if (taskq_dispatch(DEVI(pdip)->devi_taskq, fcp_hp_task,
14218 	    (void *)elem, KM_NOSLEEP) == NULL) {
14219 		mutex_enter(&plun->lun_mutex);
14220 		if (elem->what == FCP_ONLINE || elem->what == FCP_OFFLINE) {
14221 			plun->lun_event_count--;
14222 		}
14223 		mutex_exit(&plun->lun_mutex);
14224 		kmem_free(elem, sizeof (*elem));
14225 		return (0);
14226 	}
14227 
14228 	return (elem);
14229 }
14230 
14231 
14232 static void
14233 fcp_retransport_cmd(struct fcp_port *pptr, struct fcp_pkt *cmd)
14234 {
14235 	int			rval;
14236 	struct scsi_address	*ap;
14237 	struct fcp_lun	*plun;
14238 	struct fcp_tgt	*ptgt;
14239 	fc_packet_t	*fpkt;
14240 
14241 	ap = &cmd->cmd_pkt->pkt_address;
14242 	plun = ADDR2LUN(ap);
14243 	ptgt = plun->lun_tgt;
14244 
14245 	ASSERT(cmd->cmd_flags & CFLAG_IN_QUEUE);
14246 
14247 	cmd->cmd_state = FCP_PKT_IDLE;
14248 
14249 	mutex_enter(&pptr->port_mutex);
14250 	mutex_enter(&ptgt->tgt_mutex);
14251 	if (((plun->lun_state & (FCP_LUN_BUSY | FCP_LUN_OFFLINE)) == 0) &&
14252 	    (!(pptr->port_state & FCP_STATE_ONLINING))) {
14253 		fc_ulp_rscn_info_t *rscnp;
14254 
14255 		cmd->cmd_state = FCP_PKT_ISSUED;
14256 
14257 		/*
14258 		 * It is possible for pkt_pd to be NULL if tgt_pd_handle was
14259 		 * originally NULL, hence we try to set it to the pd pointed
14260 		 * to by the SCSI device we're trying to get to.
14261 		 */
14262 
14263 		fpkt = cmd->cmd_fp_pkt;
14264 		if ((fpkt->pkt_pd == NULL) && (ptgt->tgt_pd_handle != NULL)) {
14265 			fpkt->pkt_pd = ptgt->tgt_pd_handle;
14266 			/*
14267 			 * We need to notify the transport that we now have a
14268 			 * reference to the remote port handle.
14269 			 */
14270 			fc_ulp_hold_remote_port(ptgt->tgt_pd_handle);
14271 		}
14272 
14273 		mutex_exit(&ptgt->tgt_mutex);
14274 		mutex_exit(&pptr->port_mutex);
14275 
14276 		ASSERT((cmd->cmd_pkt->pkt_flags & FLAG_NOINTR) == 0);
14277 
14278 		/* prepare the packet */
14279 
14280 		fcp_prepare_pkt(pptr, cmd, plun);
14281 
14282 		rscnp = (fc_ulp_rscn_info_t *)cmd->cmd_fp_pkt->
14283 		    pkt_ulp_rscn_infop;
14284 
14285 		cmd->cmd_timeout = cmd->cmd_pkt->pkt_time ?
14286 		    fcp_watchdog_time + cmd->cmd_pkt->pkt_time : 0;
14287 
14288 		if (rscnp != NULL) {
14289 			rscnp->ulp_rscn_count =
14290 			    fc_ulp_get_rscn_count(pptr->
14291 			    port_fp_handle);
14292 		}
14293 
14294 		rval = fcp_transport(pptr->port_fp_handle,
14295 		    cmd->cmd_fp_pkt, 0);
14296 
14297 		if (rval == FC_SUCCESS) {
14298 			return;
14299 		}
14300 		cmd->cmd_state &= ~FCP_PKT_ISSUED;
14301 	} else {
14302 		mutex_exit(&ptgt->tgt_mutex);
14303 		mutex_exit(&pptr->port_mutex);
14304 	}
14305 
14306 	fcp_queue_pkt(pptr, cmd);
14307 }
14308 
14309 
14310 static void
14311 fcp_fail_cmd(struct fcp_pkt *cmd, uchar_t reason, uint_t statistics)
14312 {
14313 	ASSERT(cmd->cmd_flags & CFLAG_IN_QUEUE);
14314 
14315 	cmd->cmd_flags &= ~CFLAG_IN_QUEUE;
14316 	cmd->cmd_state = FCP_PKT_IDLE;
14317 
14318 	cmd->cmd_pkt->pkt_reason = reason;
14319 	cmd->cmd_pkt->pkt_state = 0;
14320 	cmd->cmd_pkt->pkt_statistics = statistics;
14321 
14322 	fcp_post_callback(cmd);
14323 }
14324 
14325 /*
14326  *     Function: fcp_queue_pkt
14327  *
14328  *  Description: This function queues the packet passed by the caller into
14329  *		 the list of packets of the FCP port.
14330  *
14331  *     Argument: *pptr		FCP port.
14332  *		 *cmd		FCP packet to queue.
14333  *
14334  * Return Value: None
14335  *
14336  *	Context: User, Kernel and Interrupt context.
14337  */
14338 static void
14339 fcp_queue_pkt(struct fcp_port *pptr, struct fcp_pkt *cmd)
14340 {
14341 	ASSERT((cmd->cmd_pkt->pkt_flags & FLAG_NOQUEUE) == NULL);
14342 
14343 	mutex_enter(&pptr->port_pkt_mutex);
14344 	cmd->cmd_flags |= CFLAG_IN_QUEUE;
14345 	ASSERT(cmd->cmd_state != FCP_PKT_ISSUED);
14346 	cmd->cmd_timeout = fcp_watchdog_time + FCP_QUEUE_DELAY;
14347 
14348 	/*
14349 	 * zero pkt_time means hang around for ever
14350 	 */
14351 	if (cmd->cmd_pkt->pkt_time) {
14352 		if (cmd->cmd_fp_pkt->pkt_timeout > FCP_QUEUE_DELAY) {
14353 			cmd->cmd_fp_pkt->pkt_timeout -= FCP_QUEUE_DELAY;
14354 		} else {
14355 			/*
14356 			 * Indicate the watch thread to fail the
14357 			 * command by setting it to highest value
14358 			 */
14359 			cmd->cmd_timeout = fcp_watchdog_time;
14360 			cmd->cmd_fp_pkt->pkt_timeout = FCP_INVALID_TIMEOUT;
14361 		}
14362 	}
14363 
14364 	if (pptr->port_pkt_head) {
14365 		ASSERT(pptr->port_pkt_tail != NULL);
14366 
14367 		pptr->port_pkt_tail->cmd_next = cmd;
14368 		pptr->port_pkt_tail = cmd;
14369 	} else {
14370 		ASSERT(pptr->port_pkt_tail == NULL);
14371 
14372 		pptr->port_pkt_head = pptr->port_pkt_tail = cmd;
14373 	}
14374 	cmd->cmd_next = NULL;
14375 	mutex_exit(&pptr->port_pkt_mutex);
14376 }
14377 
14378 /*
14379  *     Function: fcp_update_targets
14380  *
14381  *  Description: This function applies the specified change of state to all
14382  *		 the targets listed.  The operation applied is 'set'.
14383  *
14384  *     Argument: *pptr		FCP port.
14385  *		 *dev_list	Array of fc_portmap_t structures.
14386  *		 count		Length of dev_list.
14387  *		 state		State bits to update.
14388  *		 cause		Reason for the update.
14389  *
14390  * Return Value: None
14391  *
14392  *	Context: User, Kernel and Interrupt context.
14393  *		 The mutex pptr->port_mutex must be held.
14394  */
14395 static void
14396 fcp_update_targets(struct fcp_port *pptr, fc_portmap_t *dev_list,
14397     uint32_t count, uint32_t state, int cause)
14398 {
14399 	fc_portmap_t		*map_entry;
14400 	struct fcp_tgt	*ptgt;
14401 
14402 	ASSERT(MUTEX_HELD(&pptr->port_mutex));
14403 
14404 	while (count--) {
14405 		map_entry = &(dev_list[count]);
14406 		ptgt = fcp_lookup_target(pptr,
14407 		    (uchar_t *)&(map_entry->map_pwwn));
14408 		if (ptgt == NULL) {
14409 			continue;
14410 		}
14411 
14412 		mutex_enter(&ptgt->tgt_mutex);
14413 		ptgt->tgt_trace = 0;
14414 		ptgt->tgt_change_cnt++;
14415 		ptgt->tgt_statec_cause = cause;
14416 		ptgt->tgt_tmp_cnt = 1;
14417 		fcp_update_tgt_state(ptgt, FCP_SET, state);
14418 		mutex_exit(&ptgt->tgt_mutex);
14419 	}
14420 }
14421 
14422 static int
14423 fcp_call_finish_init(struct fcp_port *pptr, struct fcp_tgt *ptgt,
14424     int lcount, int tcount, int cause)
14425 {
14426 	int rval;
14427 
14428 	mutex_enter(&pptr->port_mutex);
14429 	rval = fcp_call_finish_init_held(pptr, ptgt, lcount, tcount, cause);
14430 	mutex_exit(&pptr->port_mutex);
14431 
14432 	return (rval);
14433 }
14434 
14435 
14436 static int
14437 fcp_call_finish_init_held(struct fcp_port *pptr, struct fcp_tgt *ptgt,
14438     int lcount, int tcount, int cause)
14439 {
14440 	int	finish_init = 0;
14441 	int	finish_tgt = 0;
14442 	int	do_finish_init = 0;
14443 	int	rval = FCP_NO_CHANGE;
14444 
14445 	if (cause == FCP_CAUSE_LINK_CHANGE ||
14446 	    cause == FCP_CAUSE_LINK_DOWN) {
14447 		do_finish_init = 1;
14448 	}
14449 
14450 	if (ptgt != NULL) {
14451 		FCP_TRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
14452 		    FCP_BUF_LEVEL_2, 0,
14453 		    "link_cnt: %d,%d; tgt_cnt: %d,%d; tmp_cnt: %d,%d;"
14454 		    " cause = %d, d_id = 0x%x, tgt_done = %d",
14455 		    pptr->port_link_cnt, lcount, ptgt->tgt_change_cnt, tcount,
14456 		    pptr->port_tmp_cnt, ptgt->tgt_tmp_cnt, cause,
14457 		    ptgt->tgt_d_id, ptgt->tgt_done);
14458 
14459 		mutex_enter(&ptgt->tgt_mutex);
14460 
14461 		if (tcount && (ptgt->tgt_change_cnt != tcount)) {
14462 			rval = FCP_DEV_CHANGE;
14463 			if (do_finish_init && ptgt->tgt_done == 0) {
14464 				ptgt->tgt_done++;
14465 				finish_init = 1;
14466 			}
14467 		} else {
14468 			if (--ptgt->tgt_tmp_cnt <= 0) {
14469 				ptgt->tgt_tmp_cnt = 0;
14470 				finish_tgt = 1;
14471 
14472 				if (do_finish_init) {
14473 					finish_init = 1;
14474 				}
14475 			}
14476 		}
14477 		mutex_exit(&ptgt->tgt_mutex);
14478 	} else {
14479 		FCP_TRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
14480 		    FCP_BUF_LEVEL_2, 0,
14481 		    "Call Finish Init for NO target");
14482 
14483 		if (do_finish_init) {
14484 			finish_init = 1;
14485 		}
14486 	}
14487 
14488 	if (finish_tgt) {
14489 		ASSERT(ptgt != NULL);
14490 
14491 		mutex_enter(&ptgt->tgt_mutex);
14492 #ifdef	DEBUG
14493 		bzero(ptgt->tgt_tmp_cnt_stack,
14494 		    sizeof (ptgt->tgt_tmp_cnt_stack));
14495 
14496 		ptgt->tgt_tmp_cnt_depth = getpcstack(ptgt->tgt_tmp_cnt_stack,
14497 		    FCP_STACK_DEPTH);
14498 #endif /* DEBUG */
14499 		mutex_exit(&ptgt->tgt_mutex);
14500 
14501 		(void) fcp_finish_tgt(pptr, ptgt, lcount, tcount, cause);
14502 	}
14503 
14504 	if (finish_init && lcount == pptr->port_link_cnt) {
14505 		ASSERT(pptr->port_tmp_cnt > 0);
14506 		if (--pptr->port_tmp_cnt == 0) {
14507 			fcp_finish_init(pptr);
14508 		}
14509 	} else if (lcount != pptr->port_link_cnt) {
14510 		FCP_TRACE(fcp_logq, pptr->port_instbuf,
14511 		    fcp_trace, FCP_BUF_LEVEL_2, 0,
14512 		    "fcp_call_finish_init_held,1: state change occured"
14513 		    " for D_ID=0x%x", (ptgt) ? ptgt->tgt_d_id : 0);
14514 	}
14515 
14516 	return (rval);
14517 }
14518 
14519 
14520 static void
14521 fcp_reconfigure_luns(void * tgt_handle)
14522 {
14523 	uint32_t		dev_cnt;
14524 	fc_portmap_t		*devlist;
14525 	struct fcp_tgt	*ptgt = (struct fcp_tgt *)tgt_handle;
14526 	struct fcp_port		*pptr = ptgt->tgt_port;
14527 
14528 	/*
14529 	 * If the timer that fires this off got canceled too late, the
14530 	 * target could have been destroyed.
14531 	 */
14532 
14533 	if (ptgt->tgt_tid == NULL) {
14534 		return;
14535 	}
14536 
14537 	devlist = kmem_zalloc(sizeof (*devlist), KM_NOSLEEP);
14538 	if (devlist == NULL) {
14539 		fcp_log(CE_WARN, pptr->port_dip,
14540 		    "!fcp%d: failed to allocate for portmap",
14541 		    pptr->port_instance);
14542 		return;
14543 	}
14544 
14545 	dev_cnt = 1;
14546 	devlist->map_pd = ptgt->tgt_pd_handle;
14547 	devlist->map_hard_addr.hard_addr = ptgt->tgt_hard_addr;
14548 	devlist->map_did.port_id = ptgt->tgt_d_id;
14549 
14550 	bcopy(&ptgt->tgt_node_wwn.raw_wwn[0], &devlist->map_nwwn, FC_WWN_SIZE);
14551 	bcopy(&ptgt->tgt_port_wwn.raw_wwn[0], &devlist->map_pwwn, FC_WWN_SIZE);
14552 
14553 	devlist->map_state = PORT_DEVICE_LOGGED_IN;
14554 	devlist->map_type = PORT_DEVICE_NEW;
14555 	devlist->map_flags = 0;
14556 
14557 	fcp_statec_callback(NULL, pptr->port_fp_handle, FC_STATE_DEVICE_CHANGE,
14558 	    pptr->port_topology, devlist, dev_cnt, pptr->port_id);
14559 
14560 	/*
14561 	 * Clear the tgt_tid after no more references to
14562 	 * the fcp_tgt
14563 	 */
14564 	mutex_enter(&ptgt->tgt_mutex);
14565 	ptgt->tgt_tid = NULL;
14566 	mutex_exit(&ptgt->tgt_mutex);
14567 
14568 	kmem_free(devlist, sizeof (*devlist));
14569 }
14570 
14571 
14572 static void
14573 fcp_free_targets(struct fcp_port *pptr)
14574 {
14575 	int			i;
14576 	struct fcp_tgt	*ptgt;
14577 
14578 	mutex_enter(&pptr->port_mutex);
14579 	for (i = 0; i < FCP_NUM_HASH; i++) {
14580 		ptgt = pptr->port_tgt_hash_table[i];
14581 		while (ptgt != NULL) {
14582 			struct fcp_tgt *next_tgt = ptgt->tgt_next;
14583 
14584 			fcp_free_target(ptgt);
14585 			ptgt = next_tgt;
14586 		}
14587 	}
14588 	mutex_exit(&pptr->port_mutex);
14589 }
14590 
14591 
14592 static void
14593 fcp_free_target(struct fcp_tgt *ptgt)
14594 {
14595 	struct fcp_lun	*plun;
14596 	timeout_id_t		tid;
14597 
14598 	mutex_enter(&ptgt->tgt_mutex);
14599 	tid = ptgt->tgt_tid;
14600 
14601 	/*
14602 	 * Cancel any pending timeouts for this target.
14603 	 */
14604 
14605 	if (tid != NULL) {
14606 		/*
14607 		 * Set tgt_tid to NULL first to avoid a race in the callback.
14608 		 * If tgt_tid is NULL, the callback will simply return.
14609 		 */
14610 		ptgt->tgt_tid = NULL;
14611 		mutex_exit(&ptgt->tgt_mutex);
14612 		(void) untimeout(tid);
14613 		mutex_enter(&ptgt->tgt_mutex);
14614 	}
14615 
14616 	plun = ptgt->tgt_lun;
14617 	while (plun != NULL) {
14618 		struct fcp_lun *next_lun = plun->lun_next;
14619 
14620 		fcp_dealloc_lun(plun);
14621 		plun = next_lun;
14622 	}
14623 
14624 	mutex_exit(&ptgt->tgt_mutex);
14625 	fcp_dealloc_tgt(ptgt);
14626 }
14627 
14628 /*
14629  *     Function: fcp_is_retryable
14630  *
14631  *  Description: Indicates if the internal packet is retryable.
14632  *
14633  *     Argument: *icmd		FCP internal packet.
14634  *
14635  * Return Value: 0	Not retryable
14636  *		 1	Retryable
14637  *
14638  *	Context: User, Kernel and Interrupt context
14639  */
14640 static int
14641 fcp_is_retryable(struct fcp_ipkt *icmd)
14642 {
14643 	if (icmd->ipkt_port->port_state & (FCP_STATE_SUSPENDED |
14644 	    FCP_STATE_DETACHING | FCP_STATE_POWER_DOWN)) {
14645 		return (0);
14646 	}
14647 
14648 	return (((fcp_watchdog_time + icmd->ipkt_fpkt->pkt_timeout) <
14649 	    icmd->ipkt_port->port_deadline) ? 1 : 0);
14650 }
14651 
14652 /*
14653  *     Function: fcp_create_on_demand
14654  *
14655  *     Argument: *pptr		FCP port.
14656  *		 *pwwn		Port WWN.
14657  *
14658  * Return Value: 0	Success
14659  *		 EIO
14660  *		 ENOMEM
14661  *		 EBUSY
14662  *		 EINVAL
14663  *
14664  *	Context: User and Kernel context
14665  */
14666 static int
14667 fcp_create_on_demand(struct fcp_port *pptr, uchar_t *pwwn)
14668 {
14669 	int			wait_ms;
14670 	int			tcount;
14671 	int			lcount;
14672 	int			ret;
14673 	int			error;
14674 	int			rval = EIO;
14675 	int			ntries;
14676 	fc_portmap_t		*devlist;
14677 	opaque_t		pd;
14678 	struct fcp_lun		*plun;
14679 	struct fcp_tgt		*ptgt;
14680 	int			old_manual = 0;
14681 
14682 	/* Allocates the fc_portmap_t structure. */
14683 	devlist = kmem_zalloc(sizeof (*devlist), KM_SLEEP);
14684 
14685 	/*
14686 	 * If FC_INVALID_RSCN_COUNT is non-zero, we will have to init as shown
14687 	 * in the commented statement below:
14688 	 *
14689 	 * devlist->map_rscn_info.ulp_rscn_count = FC_INVALID_RSCN_COUNT;
14690 	 *
14691 	 * Below, the deadline for the discovery process is set.
14692 	 */
14693 	mutex_enter(&pptr->port_mutex);
14694 	pptr->port_deadline = fcp_watchdog_time + FCP_ICMD_DEADLINE;
14695 	mutex_exit(&pptr->port_mutex);
14696 
14697 	/*
14698 	 * We try to find the remote port based on the WWN provided by the
14699 	 * caller.  We actually ask fp/fctl if it has it.
14700 	 */
14701 	pd = fc_ulp_get_remote_port(pptr->port_fp_handle,
14702 	    (la_wwn_t *)pwwn, &error, 1);
14703 
14704 	if (pd == NULL) {
14705 		kmem_free(devlist, sizeof (*devlist));
14706 		return (rval);
14707 	}
14708 
14709 	/*
14710 	 * The remote port was found.  We ask fp/fctl to update our
14711 	 * fc_portmap_t structure.
14712 	 */
14713 	ret = fc_ulp_pwwn_to_portmap(pptr->port_fp_handle,
14714 	    (la_wwn_t *)pwwn, devlist);
14715 	if (ret != FC_SUCCESS) {
14716 		kmem_free(devlist, sizeof (*devlist));
14717 		return (rval);
14718 	}
14719 
14720 	/*
14721 	 * The map flag field is set to indicates that the creation is being
14722 	 * done at the user request (Ioclt probably luxadm or cfgadm).
14723 	 */
14724 	devlist->map_type = PORT_DEVICE_USER_CREATE;
14725 
14726 	mutex_enter(&pptr->port_mutex);
14727 
14728 	/*
14729 	 * We check to see if fcp already has a target that describes the
14730 	 * device being created.  If not it is created.
14731 	 */
14732 	ptgt = fcp_lookup_target(pptr, pwwn);
14733 	if (ptgt == NULL) {
14734 		lcount = pptr->port_link_cnt;
14735 		mutex_exit(&pptr->port_mutex);
14736 
14737 		ptgt = fcp_alloc_tgt(pptr, devlist, lcount);
14738 		if (ptgt == NULL) {
14739 			fcp_log(CE_WARN, pptr->port_dip,
14740 			    "!FC target allocation failed");
14741 			return (ENOMEM);
14742 		}
14743 
14744 		mutex_enter(&pptr->port_mutex);
14745 	}
14746 
14747 	mutex_enter(&ptgt->tgt_mutex);
14748 	ptgt->tgt_statec_cause = FCP_CAUSE_USER_CREATE;
14749 	ptgt->tgt_tmp_cnt = 1;
14750 	ptgt->tgt_device_created = 0;
14751 	/*
14752 	 * If fabric and auto config is set but the target was
14753 	 * manually unconfigured then reset to the manual_config_only to
14754 	 * 0 so the device will get configured.
14755 	 */
14756 	if (FC_TOP_EXTERNAL(pptr->port_topology) &&
14757 	    fcp_enable_auto_configuration &&
14758 	    ptgt->tgt_manual_config_only == 1) {
14759 		old_manual = 1;
14760 		ptgt->tgt_manual_config_only = 0;
14761 	}
14762 	mutex_exit(&ptgt->tgt_mutex);
14763 
14764 	fcp_update_targets(pptr, devlist, 1,
14765 	    FCP_LUN_BUSY | FCP_LUN_MARK, FCP_CAUSE_USER_CREATE);
14766 
14767 	lcount = pptr->port_link_cnt;
14768 	tcount = ptgt->tgt_change_cnt;
14769 
14770 	if (fcp_handle_mapflags(pptr, ptgt, devlist, lcount,
14771 	    tcount, FCP_CAUSE_USER_CREATE) == TRUE) {
14772 		if (FC_TOP_EXTERNAL(pptr->port_topology) &&
14773 		    fcp_enable_auto_configuration && old_manual) {
14774 			mutex_enter(&ptgt->tgt_mutex);
14775 			ptgt->tgt_manual_config_only = 1;
14776 			mutex_exit(&ptgt->tgt_mutex);
14777 		}
14778 
14779 		if (pptr->port_link_cnt != lcount ||
14780 		    ptgt->tgt_change_cnt != tcount) {
14781 			rval = EBUSY;
14782 		}
14783 		mutex_exit(&pptr->port_mutex);
14784 
14785 		FCP_TRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
14786 		    FCP_BUF_LEVEL_3, 0,
14787 		    "fcp_create_on_demand: mapflags ptgt=%x, "
14788 		    "lcount=%x::port_link_cnt=%x, "
14789 		    "tcount=%x: tgt_change_cnt=%x, rval=%x",
14790 		    ptgt, lcount, pptr->port_link_cnt,
14791 		    tcount, ptgt->tgt_change_cnt, rval);
14792 		return (rval);
14793 	}
14794 
14795 	/*
14796 	 * Due to lack of synchronization mechanisms, we perform
14797 	 * periodic monitoring of our request; Because requests
14798 	 * get dropped when another one supercedes (either because
14799 	 * of a link change or a target change), it is difficult to
14800 	 * provide a clean synchronization mechanism (such as a
14801 	 * semaphore or a conditional variable) without exhaustively
14802 	 * rewriting the mainline discovery code of this driver.
14803 	 */
14804 	wait_ms = 500;
14805 
14806 	ntries = fcp_max_target_retries;
14807 
14808 	FCP_TRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
14809 	    FCP_BUF_LEVEL_3, 0,
14810 	    "fcp_create_on_demand(1): ntries=%x, ptgt=%x, "
14811 	    "lcount=%x::port_link_cnt=%x, "
14812 	    "tcount=%x::tgt_change_cnt=%x, rval=%x, tgt_device_created=%x "
14813 	    "tgt_tmp_cnt =%x",
14814 	    ntries, ptgt, lcount, pptr->port_link_cnt,
14815 	    tcount, ptgt->tgt_change_cnt, rval, ptgt->tgt_device_created,
14816 	    ptgt->tgt_tmp_cnt);
14817 
14818 	mutex_enter(&ptgt->tgt_mutex);
14819 	while (ntries-- != 0 && pptr->port_link_cnt == lcount &&
14820 	    ptgt->tgt_change_cnt == tcount && ptgt->tgt_device_created == 0) {
14821 		mutex_exit(&ptgt->tgt_mutex);
14822 		mutex_exit(&pptr->port_mutex);
14823 
14824 		delay(drv_usectohz(wait_ms * 1000));
14825 
14826 		mutex_enter(&pptr->port_mutex);
14827 		mutex_enter(&ptgt->tgt_mutex);
14828 	}
14829 
14830 
14831 	if (pptr->port_link_cnt != lcount || ptgt->tgt_change_cnt != tcount) {
14832 		rval = EBUSY;
14833 	} else {
14834 		if (ptgt->tgt_tmp_cnt == 0 && ptgt->tgt_node_state ==
14835 		    FCP_TGT_NODE_PRESENT) {
14836 			rval = 0;
14837 		}
14838 	}
14839 
14840 	FCP_TRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
14841 	    FCP_BUF_LEVEL_3, 0,
14842 	    "fcp_create_on_demand(2): ntries=%x, ptgt=%x, "
14843 	    "lcount=%x::port_link_cnt=%x, "
14844 	    "tcount=%x::tgt_change_cnt=%x, rval=%x, tgt_device_created=%x "
14845 	    "tgt_tmp_cnt =%x",
14846 	    ntries, ptgt, lcount, pptr->port_link_cnt,
14847 	    tcount, ptgt->tgt_change_cnt, rval, ptgt->tgt_device_created,
14848 	    ptgt->tgt_tmp_cnt);
14849 
14850 	if (rval) {
14851 		if (FC_TOP_EXTERNAL(pptr->port_topology) &&
14852 		    fcp_enable_auto_configuration && old_manual) {
14853 			ptgt->tgt_manual_config_only = 1;
14854 		}
14855 		mutex_exit(&ptgt->tgt_mutex);
14856 		mutex_exit(&pptr->port_mutex);
14857 		kmem_free(devlist, sizeof (*devlist));
14858 
14859 		FCP_TRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
14860 		    FCP_BUF_LEVEL_3, 0,
14861 		    "fcp_create_on_demand(3): ntries=%x, ptgt=%x, "
14862 		    "lcount=%x::port_link_cnt=%x, "
14863 		    "tcount=%x::tgt_change_cnt=%x, rval=%x, "
14864 		    "tgt_device_created=%x, tgt D_ID=%x",
14865 		    ntries, ptgt, lcount, pptr->port_link_cnt,
14866 		    tcount, ptgt->tgt_change_cnt, rval,
14867 		    ptgt->tgt_device_created, ptgt->tgt_d_id);
14868 		return (rval);
14869 	}
14870 
14871 	if ((plun = ptgt->tgt_lun) != NULL) {
14872 		tcount = plun->lun_tgt->tgt_change_cnt;
14873 	} else {
14874 		rval = EINVAL;
14875 	}
14876 	lcount = pptr->port_link_cnt;
14877 
14878 	/*
14879 	 * Configuring the target with no LUNs will fail. We
14880 	 * should reset the node state so that it is not
14881 	 * automatically configured when the LUNs are added
14882 	 * to this target.
14883 	 */
14884 	if (ptgt->tgt_lun_cnt == 0) {
14885 		ptgt->tgt_node_state = FCP_TGT_NODE_NONE;
14886 	}
14887 	mutex_exit(&ptgt->tgt_mutex);
14888 	mutex_exit(&pptr->port_mutex);
14889 
14890 	while (plun) {
14891 		child_info_t	*cip;
14892 
14893 		mutex_enter(&plun->lun_mutex);
14894 		cip = plun->lun_cip;
14895 		mutex_exit(&plun->lun_mutex);
14896 
14897 		mutex_enter(&ptgt->tgt_mutex);
14898 		if (!(plun->lun_state & FCP_LUN_OFFLINE)) {
14899 			mutex_exit(&ptgt->tgt_mutex);
14900 
14901 			rval = fcp_pass_to_hp_and_wait(pptr, plun, cip,
14902 			    FCP_ONLINE, lcount, tcount,
14903 			    NDI_ONLINE_ATTACH);
14904 			if (rval != NDI_SUCCESS) {
14905 				FCP_TRACE(fcp_logq,
14906 				    pptr->port_instbuf, fcp_trace,
14907 				    FCP_BUF_LEVEL_3, 0,
14908 				    "fcp_create_on_demand: "
14909 				    "pass_to_hp_and_wait failed "
14910 				    "rval=%x", rval);
14911 				rval = EIO;
14912 			} else {
14913 				mutex_enter(&LUN_TGT->tgt_mutex);
14914 				plun->lun_state &= ~(FCP_LUN_OFFLINE |
14915 				    FCP_LUN_BUSY);
14916 				mutex_exit(&LUN_TGT->tgt_mutex);
14917 			}
14918 			mutex_enter(&ptgt->tgt_mutex);
14919 		}
14920 
14921 		plun = plun->lun_next;
14922 		mutex_exit(&ptgt->tgt_mutex);
14923 	}
14924 
14925 	kmem_free(devlist, sizeof (*devlist));
14926 
14927 	if (FC_TOP_EXTERNAL(pptr->port_topology) &&
14928 	    fcp_enable_auto_configuration && old_manual) {
14929 		mutex_enter(&ptgt->tgt_mutex);
14930 		/* if successful then set manual to 0 */
14931 		if (rval == 0) {
14932 			ptgt->tgt_manual_config_only = 0;
14933 		} else {
14934 			/* reset to 1 so the user has to do the config */
14935 			ptgt->tgt_manual_config_only = 1;
14936 		}
14937 		mutex_exit(&ptgt->tgt_mutex);
14938 	}
14939 
14940 	return (rval);
14941 }
14942 
14943 
14944 static void
14945 fcp_ascii_to_wwn(caddr_t string, uchar_t bytes[], unsigned int byte_len)
14946 {
14947 	int		count;
14948 	uchar_t		byte;
14949 
14950 	count = 0;
14951 	while (*string) {
14952 		byte = FCP_ATOB(*string); string++;
14953 		byte = byte << 4 | FCP_ATOB(*string); string++;
14954 		bytes[count++] = byte;
14955 
14956 		if (count >= byte_len) {
14957 			break;
14958 		}
14959 	}
14960 }
14961 
14962 static void
14963 fcp_wwn_to_ascii(uchar_t wwn[], char *string)
14964 {
14965 	int		i;
14966 
14967 	for (i = 0; i < FC_WWN_SIZE; i++) {
14968 		(void) sprintf(string + (i * 2),
14969 		    "%02x", wwn[i]);
14970 	}
14971 
14972 }
14973 
14974 static void
14975 fcp_print_error(fc_packet_t *fpkt)
14976 {
14977 	struct fcp_ipkt	*icmd = (struct fcp_ipkt *)
14978 	    fpkt->pkt_ulp_private;
14979 	struct fcp_port	*pptr;
14980 	struct fcp_tgt	*ptgt;
14981 	struct fcp_lun	*plun;
14982 	caddr_t			buf;
14983 	int			scsi_cmd = 0;
14984 
14985 	ptgt = icmd->ipkt_tgt;
14986 	plun = icmd->ipkt_lun;
14987 	pptr = ptgt->tgt_port;
14988 
14989 	buf = kmem_zalloc(256, KM_NOSLEEP);
14990 	if (buf == NULL) {
14991 		return;
14992 	}
14993 
14994 	switch (icmd->ipkt_opcode) {
14995 	case SCMD_REPORT_LUN:
14996 		(void) sprintf(buf, "!REPORT LUN to D_ID=0x%%x"
14997 		    " lun=0x%%x failed");
14998 		scsi_cmd++;
14999 		break;
15000 
15001 	case SCMD_INQUIRY_PAGE83:
15002 		(void) sprintf(buf, "!INQUIRY-83 to D_ID=0x%%x"
15003 		    " lun=0x%%x failed");
15004 		scsi_cmd++;
15005 		break;
15006 
15007 	case SCMD_INQUIRY:
15008 		(void) sprintf(buf, "!INQUIRY to D_ID=0x%%x"
15009 		    " lun=0x%%x failed");
15010 		scsi_cmd++;
15011 		break;
15012 
15013 	case LA_ELS_PLOGI:
15014 		(void) sprintf(buf, "!PLOGI to D_ID=0x%%x failed");
15015 		break;
15016 
15017 	case LA_ELS_PRLI:
15018 		(void) sprintf(buf, "!PRLI to D_ID=0x%%x failed");
15019 		break;
15020 	}
15021 
15022 	if (scsi_cmd && fpkt->pkt_state == FC_PKT_SUCCESS) {
15023 		struct fcp_rsp		response, *rsp;
15024 		uchar_t			asc, ascq;
15025 		caddr_t			sense_key = NULL;
15026 		struct fcp_rsp_info	fcp_rsp_err, *bep;
15027 
15028 		if (icmd->ipkt_nodma) {
15029 			rsp = (struct fcp_rsp *)fpkt->pkt_resp;
15030 			bep = (struct fcp_rsp_info *)((caddr_t)rsp +
15031 			    sizeof (struct fcp_rsp));
15032 		} else {
15033 			rsp = &response;
15034 			bep = &fcp_rsp_err;
15035 
15036 			FCP_CP_IN(fpkt->pkt_resp, rsp, fpkt->pkt_resp_acc,
15037 			    sizeof (struct fcp_rsp));
15038 
15039 			FCP_CP_IN(fpkt->pkt_resp + sizeof (struct fcp_rsp),
15040 			    bep, fpkt->pkt_resp_acc,
15041 			    sizeof (struct fcp_rsp_info));
15042 		}
15043 
15044 
15045 		if (fcp_validate_fcp_response(rsp, pptr) != FC_SUCCESS) {
15046 			(void) sprintf(buf + strlen(buf),
15047 			    " : Bad FCP response values rsvd1=%%x, rsvd2=%%x,"
15048 			    " sts-rsvd1=%%x, sts-rsvd2=%%x, rsplen=%%x,"
15049 			    " senselen=%%x. Giving up");
15050 
15051 			fcp_log(CE_WARN, pptr->port_dip, buf,
15052 			    ptgt->tgt_d_id, plun->lun_num, rsp->reserved_0,
15053 			    rsp->reserved_1, rsp->fcp_u.fcp_status.reserved_0,
15054 			    rsp->fcp_u.fcp_status.reserved_1,
15055 			    rsp->fcp_response_len, rsp->fcp_sense_len);
15056 
15057 			kmem_free(buf, 256);
15058 			return;
15059 		}
15060 
15061 		if (rsp->fcp_u.fcp_status.rsp_len_set &&
15062 		    bep->rsp_code != FCP_NO_FAILURE) {
15063 			(void) sprintf(buf + strlen(buf),
15064 			    " FCP Response code = 0x%x", bep->rsp_code);
15065 		}
15066 
15067 		if (rsp->fcp_u.fcp_status.scsi_status & STATUS_CHECK) {
15068 			struct scsi_extended_sense sense_info, *sense_ptr;
15069 
15070 			if (icmd->ipkt_nodma) {
15071 				sense_ptr = (struct scsi_extended_sense *)
15072 				    ((caddr_t)fpkt->pkt_resp +
15073 				    sizeof (struct fcp_rsp) +
15074 				    rsp->fcp_response_len);
15075 			} else {
15076 				sense_ptr = &sense_info;
15077 
15078 				FCP_CP_IN(fpkt->pkt_resp +
15079 				    sizeof (struct fcp_rsp) +
15080 				    rsp->fcp_response_len, &sense_info,
15081 				    fpkt->pkt_resp_acc,
15082 				    sizeof (struct scsi_extended_sense));
15083 			}
15084 
15085 			if (sense_ptr->es_key < NUM_SENSE_KEYS +
15086 			    NUM_IMPL_SENSE_KEYS) {
15087 				sense_key = sense_keys[sense_ptr->es_key];
15088 			} else {
15089 				sense_key = "Undefined";
15090 			}
15091 
15092 			asc = sense_ptr->es_add_code;
15093 			ascq = sense_ptr->es_qual_code;
15094 
15095 			(void) sprintf(buf + strlen(buf),
15096 			    ": sense key=%%s, ASC=%%x," " ASCQ=%%x."
15097 			    " Giving up");
15098 
15099 			fcp_log(CE_WARN, pptr->port_dip, buf,
15100 			    ptgt->tgt_d_id, plun->lun_num, sense_key,
15101 			    asc, ascq);
15102 		} else {
15103 			(void) sprintf(buf + strlen(buf),
15104 			    " : SCSI status=%%x. Giving up");
15105 
15106 			fcp_log(CE_WARN, pptr->port_dip, buf,
15107 			    ptgt->tgt_d_id, plun->lun_num,
15108 			    rsp->fcp_u.fcp_status.scsi_status);
15109 		}
15110 	} else {
15111 		caddr_t state, reason, action, expln;
15112 
15113 		(void) fc_ulp_pkt_error(fpkt, &state, &reason,
15114 		    &action, &expln);
15115 
15116 		(void) sprintf(buf + strlen(buf), ": State:%%s,"
15117 		    " Reason:%%s. Giving up");
15118 
15119 		if (scsi_cmd) {
15120 			fcp_log(CE_WARN, pptr->port_dip, buf,
15121 			    ptgt->tgt_d_id, plun->lun_num, state, reason);
15122 		} else {
15123 			fcp_log(CE_WARN, pptr->port_dip, buf,
15124 			    ptgt->tgt_d_id, state, reason);
15125 		}
15126 	}
15127 
15128 	kmem_free(buf, 256);
15129 }
15130 
15131 
15132 static int
15133 fcp_handle_ipkt_errors(struct fcp_port *pptr, struct fcp_tgt *ptgt,
15134     struct fcp_ipkt *icmd, int rval, caddr_t op)
15135 {
15136 	int	ret = DDI_FAILURE;
15137 	char	*error;
15138 
15139 	switch (rval) {
15140 	case FC_DEVICE_BUSY_NEW_RSCN:
15141 		/*
15142 		 * This means that there was a new RSCN that the transport
15143 		 * knows about (which the ULP *may* know about too) but the
15144 		 * pkt that was sent down was related to an older RSCN. So, we
15145 		 * are just going to reset the retry count and deadline and
15146 		 * continue to retry. The idea is that transport is currently
15147 		 * working on the new RSCN and will soon let the ULPs know
15148 		 * about it and when it does the existing logic will kick in
15149 		 * where it will change the tcount to indicate that something
15150 		 * changed on the target. So, rediscovery will start and there
15151 		 * will not be an infinite retry.
15152 		 *
15153 		 * For a full flow of how the RSCN info is transferred back and
15154 		 * forth, see fp.c
15155 		 */
15156 		icmd->ipkt_retries = 0;
15157 		icmd->ipkt_port->port_deadline = fcp_watchdog_time +
15158 		    FCP_ICMD_DEADLINE;
15159 
15160 		FCP_TRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
15161 		    FCP_BUF_LEVEL_3, 0,
15162 		    "fcp_handle_ipkt_errors: rval=%x  for D_ID=%x",
15163 		    rval, ptgt->tgt_d_id);
15164 		/* FALLTHROUGH */
15165 
15166 	case FC_STATEC_BUSY:
15167 	case FC_DEVICE_BUSY:
15168 	case FC_PBUSY:
15169 	case FC_FBUSY:
15170 	case FC_TRAN_BUSY:
15171 	case FC_OFFLINE:
15172 		FCP_TRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
15173 		    FCP_BUF_LEVEL_3, 0,
15174 		    "fcp_handle_ipkt_errors: rval=%x  for D_ID=%x",
15175 		    rval, ptgt->tgt_d_id);
15176 		if (icmd->ipkt_retries < FCP_MAX_RETRIES &&
15177 		    fcp_is_retryable(icmd)) {
15178 			fcp_queue_ipkt(pptr, icmd->ipkt_fpkt);
15179 			ret = DDI_SUCCESS;
15180 		}
15181 		break;
15182 
15183 	case FC_LOGINREQ:
15184 		/*
15185 		 * FC_LOGINREQ used to be handled just like all the cases
15186 		 * above. It has been changed to handled a PRLI that fails
15187 		 * with FC_LOGINREQ different than other ipkts that fail
15188 		 * with FC_LOGINREQ. If a PRLI fails with FC_LOGINREQ it is
15189 		 * a simple matter to turn it into a PLOGI instead, so that's
15190 		 * exactly what we do here.
15191 		 */
15192 		if (icmd->ipkt_opcode == LA_ELS_PRLI) {
15193 			ret = fcp_send_els(icmd->ipkt_port, icmd->ipkt_tgt,
15194 			    icmd, LA_ELS_PLOGI, icmd->ipkt_link_cnt,
15195 			    icmd->ipkt_change_cnt, icmd->ipkt_cause);
15196 		} else {
15197 			FCP_TRACE(fcp_logq, pptr->port_instbuf, fcp_trace,
15198 			    FCP_BUF_LEVEL_3, 0,
15199 			    "fcp_handle_ipkt_errors: rval=%x  for D_ID=%x",
15200 			    rval, ptgt->tgt_d_id);
15201 			if (icmd->ipkt_retries < FCP_MAX_RETRIES &&
15202 			    fcp_is_retryable(icmd)) {
15203 				fcp_queue_ipkt(pptr, icmd->ipkt_fpkt);
15204 				ret = DDI_SUCCESS;
15205 			}
15206 		}
15207 		break;
15208 
15209 	default:
15210 		mutex_enter(&pptr->port_mutex);
15211 		mutex_enter(&ptgt->tgt_mutex);
15212 		if (!FCP_STATE_CHANGED(pptr, ptgt, icmd)) {
15213 			mutex_exit(&ptgt->tgt_mutex);
15214 			mutex_exit(&pptr->port_mutex);
15215 
15216 			(void) fc_ulp_error(rval, &error);
15217 			fcp_log(CE_WARN, pptr->port_dip,
15218 			    "!Failed to send %s to D_ID=%x error=%s",
15219 			    op, ptgt->tgt_d_id, error);
15220 		} else {
15221 			FCP_TRACE(fcp_logq, pptr->port_instbuf,
15222 			    fcp_trace, FCP_BUF_LEVEL_2, 0,
15223 			    "fcp_handle_ipkt_errors,1: state change occured"
15224 			    " for D_ID=0x%x", ptgt->tgt_d_id);
15225 			mutex_exit(&ptgt->tgt_mutex);
15226 			mutex_exit(&pptr->port_mutex);
15227 		}
15228 		break;
15229 	}
15230 
15231 	return (ret);
15232 }
15233 
15234 
15235 /*
15236  * Check of outstanding commands on any LUN for this target
15237  */
15238 static int
15239 fcp_outstanding_lun_cmds(struct fcp_tgt *ptgt)
15240 {
15241 	struct	fcp_lun	*plun;
15242 	struct	fcp_pkt	*cmd;
15243 
15244 	for (plun = ptgt->tgt_lun; plun != NULL; plun = plun->lun_next) {
15245 		mutex_enter(&plun->lun_mutex);
15246 		for (cmd = plun->lun_pkt_head; cmd != NULL;
15247 		    cmd = cmd->cmd_forw) {
15248 			if (cmd->cmd_state == FCP_PKT_ISSUED) {
15249 				mutex_exit(&plun->lun_mutex);
15250 				return (FC_SUCCESS);
15251 			}
15252 		}
15253 		mutex_exit(&plun->lun_mutex);
15254 	}
15255 
15256 	return (FC_FAILURE);
15257 }
15258 
15259 static fc_portmap_t *
15260 fcp_construct_map(struct fcp_port *pptr, uint32_t *dev_cnt)
15261 {
15262 	int			i;
15263 	fc_portmap_t		*devlist;
15264 	fc_portmap_t		*devptr = NULL;
15265 	struct fcp_tgt	*ptgt;
15266 
15267 	mutex_enter(&pptr->port_mutex);
15268 	for (i = 0, *dev_cnt = 0; i < FCP_NUM_HASH; i++) {
15269 		for (ptgt = pptr->port_tgt_hash_table[i]; ptgt != NULL;
15270 		    ptgt = ptgt->tgt_next) {
15271 			if (!(ptgt->tgt_state & FCP_TGT_ORPHAN)) {
15272 				++*dev_cnt;
15273 			}
15274 		}
15275 	}
15276 
15277 	devptr = devlist = kmem_zalloc(sizeof (*devlist) * *dev_cnt,
15278 	    KM_NOSLEEP);
15279 	if (devlist == NULL) {
15280 		mutex_exit(&pptr->port_mutex);
15281 		fcp_log(CE_WARN, pptr->port_dip,
15282 		    "!fcp%d: failed to allocate for portmap for construct map",
15283 		    pptr->port_instance);
15284 		return (devptr);
15285 	}
15286 
15287 	for (i = 0; i < FCP_NUM_HASH; i++) {
15288 		for (ptgt = pptr->port_tgt_hash_table[i]; ptgt != NULL;
15289 		    ptgt = ptgt->tgt_next) {
15290 			if (!(ptgt->tgt_state & FCP_TGT_ORPHAN)) {
15291 				int ret;
15292 
15293 				ret = fc_ulp_pwwn_to_portmap(
15294 				    pptr->port_fp_handle,
15295 				    (la_wwn_t *)&ptgt->tgt_port_wwn.raw_wwn[0],
15296 				    devlist);
15297 
15298 				if (ret == FC_SUCCESS) {
15299 					devlist++;
15300 					continue;
15301 				}
15302 
15303 				devlist->map_pd = NULL;
15304 				devlist->map_did.port_id = ptgt->tgt_d_id;
15305 				devlist->map_hard_addr.hard_addr =
15306 				    ptgt->tgt_hard_addr;
15307 
15308 				devlist->map_state = PORT_DEVICE_INVALID;
15309 				devlist->map_type = PORT_DEVICE_OLD;
15310 
15311 				bcopy(&ptgt->tgt_node_wwn.raw_wwn[0],
15312 				    &devlist->map_nwwn, FC_WWN_SIZE);
15313 
15314 				bcopy(&ptgt->tgt_port_wwn.raw_wwn[0],
15315 				    &devlist->map_pwwn, FC_WWN_SIZE);
15316 
15317 				devlist++;
15318 			}
15319 		}
15320 	}
15321 
15322 	mutex_exit(&pptr->port_mutex);
15323 
15324 	return (devptr);
15325 }
15326 /*
15327  * Inimate MPxIO that the lun is busy and cannot accept regular IO
15328  */
15329 static void
15330 fcp_update_mpxio_path_verifybusy(struct fcp_port *pptr)
15331 {
15332 	int i;
15333 	struct fcp_tgt	*ptgt;
15334 	struct fcp_lun	*plun;
15335 
15336 	for (i = 0; i < FCP_NUM_HASH; i++) {
15337 		for (ptgt = pptr->port_tgt_hash_table[i]; ptgt != NULL;
15338 		    ptgt = ptgt->tgt_next) {
15339 			mutex_enter(&ptgt->tgt_mutex);
15340 			for (plun = ptgt->tgt_lun; plun != NULL;
15341 			    plun = plun->lun_next) {
15342 				if (plun->lun_mpxio &&
15343 				    plun->lun_state & FCP_LUN_BUSY) {
15344 					if (!fcp_pass_to_hp(pptr, plun,
15345 					    plun->lun_cip,
15346 					    FCP_MPXIO_PATH_SET_BUSY,
15347 					    pptr->port_link_cnt,
15348 					    ptgt->tgt_change_cnt, 0, 0)) {
15349 						FCP_TRACE(fcp_logq,
15350 						    pptr->port_instbuf,
15351 						    fcp_trace,
15352 						    FCP_BUF_LEVEL_2, 0,
15353 						    "path_verifybusy: "
15354 						    "disable lun %p failed!",
15355 						    plun);
15356 					}
15357 				}
15358 			}
15359 			mutex_exit(&ptgt->tgt_mutex);
15360 		}
15361 	}
15362 }
15363 
15364 static int
15365 fcp_update_mpxio_path(struct fcp_lun *plun, child_info_t *cip, int what)
15366 {
15367 	dev_info_t		*cdip = NULL;
15368 	dev_info_t		*pdip = NULL;
15369 
15370 	ASSERT(plun);
15371 
15372 	mutex_enter(&plun->lun_mutex);
15373 	if (fcp_is_child_present(plun, cip) == FC_FAILURE) {
15374 		mutex_exit(&plun->lun_mutex);
15375 		return (NDI_FAILURE);
15376 	}
15377 	mutex_exit(&plun->lun_mutex);
15378 	cdip = mdi_pi_get_client(PIP(cip));
15379 	pdip = mdi_pi_get_phci(PIP(cip));
15380 
15381 	ASSERT(cdip != NULL);
15382 	ASSERT(pdip != NULL);
15383 
15384 	if (what == FCP_MPXIO_PATH_CLEAR_BUSY) {
15385 		/* LUN ready for IO */
15386 		(void) mdi_pi_enable_path(PIP(cip), DRIVER_DISABLE_TRANSIENT);
15387 	} else {
15388 		/* LUN busy to accept IO */
15389 		(void) mdi_pi_disable_path(PIP(cip), DRIVER_DISABLE_TRANSIENT);
15390 	}
15391 	return (NDI_SUCCESS);
15392 }
15393 
15394 /*
15395  * Caller must free the returned string of MAXPATHLEN len
15396  * If the device is offline (-1 instance number) NULL
15397  * will be returned.
15398  */
15399 static char *
15400 fcp_get_lun_path(struct fcp_lun *plun) {
15401 	dev_info_t	*dip = NULL;
15402 	char	*path = NULL;
15403 	if (plun == NULL) {
15404 		return (NULL);
15405 	}
15406 	if (plun->lun_mpxio == 0) {
15407 		dip = DIP(plun->lun_cip);
15408 	} else {
15409 		dip = mdi_pi_get_client(PIP(plun->lun_cip));
15410 	}
15411 	if (dip == NULL) {
15412 		return (NULL);
15413 	}
15414 	if (ddi_get_instance(dip) < 0) {
15415 		return (NULL);
15416 	}
15417 	path = kmem_alloc(MAXPATHLEN, KM_SLEEP);
15418 	if (path == NULL) {
15419 		return (NULL);
15420 	}
15421 
15422 	(void) ddi_pathname(dip, path);
15423 	/*
15424 	 * In reality, the user wants a fully valid path (one they can open)
15425 	 * but this string is lacking the mount point, and the minor node.
15426 	 * It would be nice if we could "figure these out" somehow
15427 	 * and fill them in.  Otherwise, the userland code has to understand
15428 	 * driver specific details of which minor node is the "best" or
15429 	 * "right" one to expose.  (Ex: which slice is the whole disk, or
15430 	 * which tape doesn't rewind)
15431 	 */
15432 	return (path);
15433 }
15434 
15435 static int
15436 fcp_scsi_bus_config(dev_info_t *parent, uint_t flag,
15437     ddi_bus_config_op_t op, void *arg, dev_info_t **childp)
15438 {
15439 	int64_t reset_delay;
15440 	int rval, retry = 0;
15441 	struct fcp_port *pptr = fcp_dip2port(parent);
15442 
15443 	reset_delay = (int64_t)(USEC_TO_TICK(FCP_INIT_WAIT_TIMEOUT)) -
15444 	    (lbolt64 - pptr->port_attach_time);
15445 	if (reset_delay < 0) {
15446 		reset_delay = 0;
15447 	}
15448 
15449 	if (fcp_bus_config_debug) {
15450 		flag |= NDI_DEVI_DEBUG;
15451 	}
15452 
15453 	switch (op) {
15454 	case BUS_CONFIG_ONE:
15455 		/*
15456 		 * Retry the command since we need to ensure
15457 		 * the fabric devices are available for root
15458 		 */
15459 		while (retry++ < fcp_max_bus_config_retries) {
15460 			rval =	(ndi_busop_bus_config(parent,
15461 			    flag | NDI_MDI_FALLBACK, op,
15462 			    arg, childp, (clock_t)reset_delay));
15463 			if (rval == 0) {
15464 				return (rval);
15465 			}
15466 		}
15467 
15468 		/*
15469 		 * drain taskq to make sure nodes are created and then
15470 		 * try again.
15471 		 */
15472 		taskq_wait(DEVI(parent)->devi_taskq);
15473 		return (ndi_busop_bus_config(parent, flag | NDI_MDI_FALLBACK,
15474 		    op, arg, childp, 0));
15475 
15476 	case BUS_CONFIG_DRIVER:
15477 	case BUS_CONFIG_ALL: {
15478 		/*
15479 		 * delay till all devices report in (port_tmp_cnt == 0)
15480 		 * or FCP_INIT_WAIT_TIMEOUT
15481 		 */
15482 		mutex_enter(&pptr->port_mutex);
15483 		while ((reset_delay > 0) && pptr->port_tmp_cnt) {
15484 			(void) cv_timedwait(&pptr->port_config_cv,
15485 			    &pptr->port_mutex,
15486 			    ddi_get_lbolt() + (clock_t)reset_delay);
15487 			reset_delay =
15488 			    (int64_t)(USEC_TO_TICK(FCP_INIT_WAIT_TIMEOUT)) -
15489 			    (lbolt64 - pptr->port_attach_time);
15490 		}
15491 		mutex_exit(&pptr->port_mutex);
15492 		/* drain taskq to make sure nodes are created */
15493 		taskq_wait(DEVI(parent)->devi_taskq);
15494 		return (ndi_busop_bus_config(parent, flag, op,
15495 		    arg, childp, 0));
15496 	}
15497 
15498 	default:
15499 		return (NDI_FAILURE);
15500 	}
15501 	/*NOTREACHED*/
15502 }
15503 
15504 static int
15505 fcp_scsi_bus_unconfig(dev_info_t *parent, uint_t flag,
15506     ddi_bus_config_op_t op, void *arg)
15507 {
15508 	if (fcp_bus_config_debug) {
15509 		flag |= NDI_DEVI_DEBUG;
15510 	}
15511 
15512 	return (ndi_busop_bus_unconfig(parent, flag, op, arg));
15513 }
15514 
15515 
15516 /*
15517  * Routine to copy GUID into the lun structure.
15518  * returns 0 if copy was successful and 1 if encountered a
15519  * failure and did not copy the guid.
15520  */
15521 static int
15522 fcp_copy_guid_2_lun_block(struct fcp_lun *plun, char *guidp)
15523 {
15524 
15525 	int retval = 0;
15526 
15527 	/* add one for the null terminator */
15528 	const unsigned int len = strlen(guidp) + 1;
15529 
15530 	if ((guidp == NULL) || (plun == NULL)) {
15531 		return (1);
15532 	}
15533 
15534 	/*
15535 	 * if the plun->lun_guid already has been allocated,
15536 	 * then check the size. if the size is exact, reuse
15537 	 * it....if not free it an allocate the required size.
15538 	 * The reallocation should NOT typically happen
15539 	 * unless the GUIDs reported changes between passes.
15540 	 * We free up and alloc again even if the
15541 	 * size was more than required. This is due to the
15542 	 * fact that the field lun_guid_size - serves
15543 	 * dual role of indicating the size of the wwn
15544 	 * size and ALSO the allocation size.
15545 	 */
15546 	if (plun->lun_guid) {
15547 		if (plun->lun_guid_size != len) {
15548 			/*
15549 			 * free the allocated memory and
15550 			 * initialize the field
15551 			 * lun_guid_size to 0.
15552 			 */
15553 			kmem_free(plun->lun_guid, plun->lun_guid_size);
15554 			plun->lun_guid = NULL;
15555 			plun->lun_guid_size = 0;
15556 		}
15557 	}
15558 	/*
15559 	 * alloc only if not already done.
15560 	 */
15561 	if (plun->lun_guid == NULL) {
15562 		plun->lun_guid = kmem_zalloc(len, KM_NOSLEEP);
15563 		if (plun->lun_guid == NULL) {
15564 			cmn_err(CE_WARN, "fcp_copy_guid_2_lun_block:"
15565 			    "Unable to allocate"
15566 			    "Memory for GUID!!! size %d", len);
15567 			retval = 1;
15568 		} else {
15569 			plun->lun_guid_size = len;
15570 		}
15571 	}
15572 	if (plun->lun_guid) {
15573 		/*
15574 		 * now copy the GUID
15575 		 */
15576 		bcopy(guidp, plun->lun_guid, plun->lun_guid_size);
15577 	}
15578 	return (retval);
15579 }
15580 
15581 /*
15582  * fcp_reconfig_wait
15583  *
15584  * Wait for a rediscovery/reconfiguration to complete before continuing.
15585  */
15586 
15587 static void
15588 fcp_reconfig_wait(struct fcp_port *pptr)
15589 {
15590 	clock_t		reconfig_start, wait_timeout;
15591 
15592 	/*
15593 	 * Quick check.	 If pptr->port_tmp_cnt is 0, there is no
15594 	 * reconfiguration in progress.
15595 	 */
15596 
15597 	mutex_enter(&pptr->port_mutex);
15598 	if (pptr->port_tmp_cnt == 0) {
15599 		mutex_exit(&pptr->port_mutex);
15600 		return;
15601 	}
15602 	mutex_exit(&pptr->port_mutex);
15603 
15604 	/*
15605 	 * If we cause a reconfig by raising power, delay until all devices
15606 	 * report in (port_tmp_cnt returns to 0)
15607 	 */
15608 
15609 	reconfig_start = ddi_get_lbolt();
15610 	wait_timeout = drv_usectohz(FCP_INIT_WAIT_TIMEOUT);
15611 
15612 	mutex_enter(&pptr->port_mutex);
15613 
15614 	while (((ddi_get_lbolt() - reconfig_start) < wait_timeout) &&
15615 	    pptr->port_tmp_cnt) {
15616 
15617 		(void) cv_timedwait(&pptr->port_config_cv, &pptr->port_mutex,
15618 		    reconfig_start + wait_timeout);
15619 	}
15620 
15621 	mutex_exit(&pptr->port_mutex);
15622 
15623 	/*
15624 	 * Even if fcp_tmp_count isn't 0, continue without error.  The port
15625 	 * we want may still be ok.  If not, it will error out later
15626 	 */
15627 }
15628 
15629 /*
15630  * Read masking info from fp.conf and construct the global fcp_lun_blacklist.
15631  * We rely on the fcp_global_mutex to provide protection against changes to
15632  * the fcp_lun_blacklist.
15633  *
15634  * You can describe a list of target port WWNs and LUN numbers which will
15635  * not be configured. LUN numbers will be interpreted as decimal. White
15636  * spaces and ',' can be used in the list of LUN numbers.
15637  *
15638  * To prevent LUNs 1 and 2 from being configured for target
15639  * port 510000f010fd92a1 and target port 510000e012079df1, set:
15640  *
15641  * pwwn-lun-blacklist=
15642  * "510000f010fd92a1,1,2",
15643  * "510000e012079df1,1,2";
15644  */
15645 static void
15646 fcp_read_blacklist(dev_info_t *dip,
15647     struct fcp_black_list_entry **pplun_blacklist) {
15648 	char **prop_array	= NULL;
15649 	char *curr_pwwn		= NULL;
15650 	char *curr_lun		= NULL;
15651 	uint32_t prop_item	= 0;
15652 	int idx			= 0;
15653 	int len			= 0;
15654 
15655 	ASSERT(mutex_owned(&fcp_global_mutex));
15656 	if (ddi_prop_lookup_string_array(DDI_DEV_T_ANY, dip,
15657 	    DDI_PROP_DONTPASS | DDI_PROP_NOTPROM,
15658 	    LUN_BLACKLIST_PROP, &prop_array, &prop_item) != DDI_PROP_SUCCESS) {
15659 		return;
15660 	}
15661 
15662 	for (idx = 0; idx < prop_item; idx++) {
15663 
15664 		curr_pwwn = prop_array[idx];
15665 		while (*curr_pwwn == ' ') {
15666 			curr_pwwn++;
15667 		}
15668 		if (strlen(curr_pwwn) <= (sizeof (la_wwn_t) * 2 + 1)) {
15669 			fcp_log(CE_WARN, NULL, "Invalid WWN %s in the blacklist"
15670 			    ", please check.", curr_pwwn);
15671 			continue;
15672 		}
15673 		if ((*(curr_pwwn + sizeof (la_wwn_t) * 2) != ' ') &&
15674 		    (*(curr_pwwn + sizeof (la_wwn_t) * 2) != ',')) {
15675 			fcp_log(CE_WARN, NULL, "Invalid WWN %s in the blacklist"
15676 			    ", please check.", curr_pwwn);
15677 			continue;
15678 		}
15679 		for (len = 0; len < sizeof (la_wwn_t) * 2; len++) {
15680 			if (isxdigit(curr_pwwn[len]) != TRUE) {
15681 				fcp_log(CE_WARN, NULL, "Invalid WWN %s in the "
15682 				    "blacklist, please check.", curr_pwwn);
15683 				break;
15684 			}
15685 		}
15686 		if (len != sizeof (la_wwn_t) * 2) {
15687 			continue;
15688 		}
15689 
15690 		curr_lun = curr_pwwn + sizeof (la_wwn_t) * 2 + 1;
15691 		*(curr_lun - 1) = '\0';
15692 		fcp_mask_pwwn_lun(curr_pwwn, curr_lun, pplun_blacklist);
15693 	}
15694 
15695 	ddi_prop_free(prop_array);
15696 }
15697 
15698 /*
15699  * Get the masking info about one remote target port designated by wwn.
15700  * Lun ids could be separated by ',' or white spaces.
15701  */
15702 static void
15703 fcp_mask_pwwn_lun(char *curr_pwwn, char *curr_lun,
15704     struct fcp_black_list_entry **pplun_blacklist) {
15705 	int		idx			= 0;
15706 	uint32_t	offset			= 0;
15707 	unsigned long	lun_id			= 0;
15708 	char		lunid_buf[16];
15709 	char		*pend			= NULL;
15710 	int		illegal_digit		= 0;
15711 
15712 	while (offset < strlen(curr_lun)) {
15713 		while ((curr_lun[offset + idx] != ',') &&
15714 		    (curr_lun[offset + idx] != '\0') &&
15715 		    (curr_lun[offset + idx] != ' ')) {
15716 			if (isdigit(curr_lun[offset + idx]) == 0) {
15717 				illegal_digit++;
15718 			}
15719 			idx++;
15720 		}
15721 		if (illegal_digit > 0) {
15722 			offset += (idx+1);	/* To the start of next lun */
15723 			idx = 0;
15724 			illegal_digit = 0;
15725 			fcp_log(CE_WARN, NULL, "Invalid LUN %s for WWN %s in "
15726 			    "the blacklist, please check digits.",
15727 			    curr_lun, curr_pwwn);
15728 			continue;
15729 		}
15730 		if (idx >= (sizeof (lunid_buf) / sizeof (lunid_buf[0]))) {
15731 			fcp_log(CE_WARN, NULL, "Invalid LUN %s for WWN %s in "
15732 			    "the blacklist, please check the length of LUN#.",
15733 			    curr_lun, curr_pwwn);
15734 			break;
15735 		}
15736 		if (idx == 0) {	/* ignore ' ' or ',' or '\0' */
15737 		    offset++;
15738 		    continue;
15739 		}
15740 
15741 		bcopy(curr_lun + offset, lunid_buf, idx);
15742 		lunid_buf[idx] = '\0';
15743 		if (ddi_strtoul(lunid_buf, &pend, 10, &lun_id) == 0) {
15744 			fcp_add_one_mask(curr_pwwn, lun_id, pplun_blacklist);
15745 		} else {
15746 			fcp_log(CE_WARN, NULL, "Invalid LUN %s for WWN %s in "
15747 			    "the blacklist, please check %s.",
15748 			    curr_lun, curr_pwwn, lunid_buf);
15749 		}
15750 		offset += (idx+1);	/* To the start of next lun */
15751 		idx = 0;
15752 	}
15753 }
15754 
15755 /*
15756  * Add one masking record
15757  */
15758 static void
15759 fcp_add_one_mask(char *curr_pwwn, uint32_t lun_id,
15760     struct fcp_black_list_entry **pplun_blacklist) {
15761 	struct fcp_black_list_entry	*tmp_entry	= *pplun_blacklist;
15762 	struct fcp_black_list_entry	*new_entry	= NULL;
15763 	la_wwn_t			wwn;
15764 
15765 	fcp_ascii_to_wwn(curr_pwwn, wwn.raw_wwn, sizeof (la_wwn_t));
15766 	while (tmp_entry) {
15767 		if ((bcmp(&tmp_entry->wwn, &wwn,
15768 		    sizeof (la_wwn_t)) == 0) && (tmp_entry->lun == lun_id)) {
15769 			return;
15770 		}
15771 
15772 		tmp_entry = tmp_entry->next;
15773 	}
15774 
15775 	/* add to black list */
15776 	new_entry = (struct fcp_black_list_entry *)kmem_zalloc
15777 	    (sizeof (struct fcp_black_list_entry), KM_SLEEP);
15778 	bcopy(&wwn, &new_entry->wwn, sizeof (la_wwn_t));
15779 	new_entry->lun = lun_id;
15780 	new_entry->masked = 0;
15781 	new_entry->next = *pplun_blacklist;
15782 	*pplun_blacklist = new_entry;
15783 }
15784 
15785 /*
15786  * Check if we should mask the specified lun of this fcp_tgt
15787  */
15788 static int
15789 fcp_should_mask(la_wwn_t *wwn, uint32_t lun_id) {
15790 	struct fcp_black_list_entry *remote_port;
15791 
15792 	remote_port = fcp_lun_blacklist;
15793 	while (remote_port != NULL) {
15794 		if (bcmp(wwn, &remote_port->wwn, sizeof (la_wwn_t)) == 0) {
15795 			if (remote_port->lun == lun_id) {
15796 				remote_port->masked++;
15797 				if (remote_port->masked == 1) {
15798 					fcp_log(CE_NOTE, NULL, "LUN %d of port "
15799 					    "%02x%02x%02x%02x%02x%02x%02x%02x "
15800 					    "is masked due to black listing.\n",
15801 					    lun_id, wwn->raw_wwn[0],
15802 					    wwn->raw_wwn[1], wwn->raw_wwn[2],
15803 					    wwn->raw_wwn[3], wwn->raw_wwn[4],
15804 					    wwn->raw_wwn[5], wwn->raw_wwn[6],
15805 					    wwn->raw_wwn[7]);
15806 				}
15807 				return (TRUE);
15808 			}
15809 		}
15810 		remote_port = remote_port->next;
15811 	}
15812 	return (FALSE);
15813 }
15814 
15815 /*
15816  * Release all allocated resources
15817  */
15818 static void
15819 fcp_cleanup_blacklist(struct fcp_black_list_entry **pplun_blacklist) {
15820 	struct fcp_black_list_entry	*tmp_entry	= *pplun_blacklist;
15821 	struct fcp_black_list_entry	*current_entry	= NULL;
15822 
15823 	ASSERT(mutex_owned(&fcp_global_mutex));
15824 	/*
15825 	 * Traverse all luns
15826 	 */
15827 	while (tmp_entry) {
15828 		current_entry = tmp_entry;
15829 		tmp_entry = tmp_entry->next;
15830 		kmem_free(current_entry, sizeof (struct fcp_black_list_entry));
15831 	}
15832 	*pplun_blacklist = NULL;
15833 }
15834