| blob | cab190af63455319ffaf009b486a69664b2a47d9 |
1 /*
2 * Adaptec AAC series RAID controller driver
3 * (c) Copyright 2001 Red Hat Inc.
4 *
5 * based on the old aacraid driver that is..
6 * Adaptec aacraid device driver for Linux.
7 *
8 * Copyright (c) 2000-2010 Adaptec, Inc.
9 * 2010 PMC-Sierra, Inc. (aacraid@pmc-sierra.com)
10 *
11 * This program is free software; you can redistribute it and/or modify
12 * it under the terms of the GNU General Public License as published by
13 * the Free Software Foundation; either version 2, or (at your option)
14 * any later version.
15 *
16 * This program is distributed in the hope that it will be useful,
17 * but WITHOUT ANY WARRANTY; without even the implied warranty of
18 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
19 * GNU General Public License for more details.
20 *
21 * You should have received a copy of the GNU General Public License
22 * along with this program; see the file COPYING. If not, write to
23 * the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
24 *
25 * Module Name:
26 * commsup.c
27 *
28 * Abstract: Contain all routines that are required for FSA host/adapter
29 * communication.
30 *
31 */
33 #include <linux/kernel.h>
34 #include <linux/init.h>
35 #include <linux/types.h>
36 #include <linux/sched.h>
37 #include <linux/pci.h>
38 #include <linux/spinlock.h>
39 #include <linux/slab.h>
40 #include <linux/completion.h>
41 #include <linux/blkdev.h>
42 #include <linux/delay.h>
43 #include <linux/kthread.h>
44 #include <linux/interrupt.h>
45 #include <linux/semaphore.h>
46 #include <scsi/scsi.h>
47 #include <scsi/scsi_host.h>
48 #include <scsi/scsi_device.h>
49 #include <scsi/scsi_cmnd.h>
53 /**
54 * fib_map_alloc - allocate the fib objects
55 * @dev: Adapter to allocate for
56 *
57 * Allocate and map the shared PCI space for the FIB blocks used to
58 * talk to the Adaptec firmware.
59 */
62 {
74 }
76 /**
77 * aac_fib_map_free - free the fib objects
78 * @dev: Adapter to free
79 *
80 * Free the PCI mappings and the memory allocated for FIB blocks
81 * on this adapter.
82 */
85 {
91 }
93 /**
94 * aac_fib_setup - setup the fibs
95 * @dev: Adapter to set up
96 *
97 * Allocate the PCI space for the fibs, map it and then initialise the
98 * fib area, the unmapped fib data and also the free list
99 */
102 {
105 dma_addr_t hw_fib_pa;
112 }
116 /* 32 byte alignment for PMC */
125 /* add Xport header */
132 /*
133 * Initialise the fibs
134 */
138 {
153 }
154 /*
155 * Add the fib chain to the free list
156 */
158 /*
159 * Enable this to debug out of queue space
160 */
163 }
165 /**
166 * aac_fib_alloc - allocate a fib
167 * @dev: Adapter to allocate the fib for
168 *
169 * Allocate a fib from the adapter fib pool. If the pool is empty we
170 * return NULL.
171 */
174 {
182 }
185 /*
186 * Set the proper node type code and node byte size
187 */
190 /*
191 * Null out fields that depend on being zero at the start of
192 * each I/O
193 */
200 }
202 /**
203 * aac_fib_free - free a fib
204 * @fibptr: fib to free up
205 *
206 * Frees up a fib and places it on the appropriate queue
207 */
210 {
217 }
227 }
231 }
233 /**
234 * aac_fib_init - initialise a fib
235 * @fibptr: The fib to initialize
236 *
237 * Set up the generic fib fields ready for use
238 */
241 {
247 hw_fib->header.XferState = cpu_to_le32(HostOwned | FibInitialized | FibEmpty | FastResponseCapable);
250 }
252 /**
253 * fib_deallocate - deallocate a fib
254 * @fibptr: fib to deallocate
255 *
256 * Will deallocate and return to the free pool the FIB pointed to by the
257 * caller.
258 */
261 {
264 }
266 /*
267 * Commuication primitives define and support the queuing method we use to
268 * support host to adapter commuication. All queue accesses happen through
269 * these routines and are the only routines which have a knowledge of the
270 * how these queues are implemented.
271 */
273 /**
274 * aac_get_entry - get a queue entry
275 * @dev: Adapter
276 * @qid: Queue Number
277 * @entry: Entry return
278 * @index: Index return
279 * @nonotify: notification control
280 *
281 * With a priority the routine returns a queue entry if the queue has free entries. If the queue
282 * is full(no free entries) than no entry is returned and the function returns 0 otherwise 1 is
283 * returned.
284 */
286 static int aac_get_entry (struct aac_dev * dev, u32 qid, struct aac_entry **entry, u32 * index, unsigned long *nonotify)
287 {
291 /*
292 * All of the queues wrap when they reach the end, so we check
293 * to see if they have reached the end and if they have we just
294 * set the index back to zero. This is a wrap. You could or off
295 * the high bits in all updates but this is a bit faster I think.
296 */
301 /* Interrupt Moderation, only interrupt for first two entries */
306 else
308 }
311 }
319 }
321 /* Queue is full */
329 }
330 }
332 /**
333 * aac_queue_get - get the next free QE
334 * @dev: Adapter
335 * @index: Returned index
336 * @priority: Priority of fib
337 * @fib: Fib to associate with the queue entry
338 * @wait: Wait if queue full
339 * @fibptr: Driver fib object to go with fib
340 * @nonotify: Don't notify the adapter
341 *
342 * Gets the next free QE off the requested priorty adapter command
343 * queue and associates the Fib with the QE. The QE represented by
344 * index is ready to insert on the queue when this routine returns
345 * success.
346 */
348 int aac_queue_get(struct aac_dev * dev, u32 * index, u32 qid, struct hw_fib * hw_fib, int wait, struct fib * fibptr, unsigned long *nonotify)
349 {
354 /* if no entries wait for some if caller wants to */
357 }
358 /*
359 * Setup queue entry with a command, status and fib mapped
360 */
365 /* if no entries wait for some if caller wants to */
366 }
367 /*
368 * Setup queue entry with command, status and fib mapped
369 */
372 /* Restore adapters pointer to the FIB */
373 hw_fib->header.u.ReceiverFibAddress = hw_fib->header.SenderFibAddress; /* Let the adapter now where to find its data */
375 }
376 /*
377 * If MapFib is true than we need to map the Fib and put pointers
378 * in the queue entry.
379 */
383 }
385 /*
386 * Define the highest level of host to adapter communication routines.
387 * These routines will support host to adapter FS commuication. These
388 * routines have no knowledge of the commuication method used. This level
389 * sends and receives FIBs. This level has no knowledge of how these FIBs
390 * get passed back and forth.
391 */
393 /**
394 * aac_fib_send - send a fib to the adapter
395 * @command: Command to send
396 * @fibptr: The fib
397 * @size: Size of fib data area
398 * @priority: Priority of Fib
399 * @wait: Async/sync select
400 * @reply: True if a reply is wanted
401 * @callback: Called with reply
402 * @callback_data: Passed to callback
403 *
404 * Sends the requested FIB to the adapter and optionally will wait for a
405 * response FIB. If the caller does not wish to wait for a response than
406 * an event to wait on must be supplied. This event will be set when a
407 * response FIB is received from the adapter.
408 */
413 {
424 /*
425 * There are 5 cases with the wait and response requested flags.
426 * The only invalid cases are if the caller requests to wait and
427 * does not request a response and if the caller does not want a
428 * response and the Fib is not allocated from pool. If a response
429 * is not requesed the Fib will just be deallocaed by the DPC
430 * routine when the response comes back from the adapter. No
431 * further processing will be done besides deleting the Fib. We
432 * will have a debug mode where the adapter can notify the host
433 * it had a problem and the host can log that fact.
434 */
447 }
448 /*
449 * Map the fib into 32bits by using the fib number
450 */
454 /*
455 * Set FIB state to indicate where it came from and if we want a
456 * response from the adapter. Also load the command from the
457 * caller.
458 *
459 * Map the hw fib pointer as a 32bit value
460 */
463 /*
464 * Set the size of the Fib we want to send to the adapter
465 */
469 }
470 /*
471 * Get a queue entry connect the FIB to it and send an notify
472 * the adapter a command is ready.
473 */
476 /*
477 * Fill in the Callback and CallbackContext if we are not
478 * going to wait.
479 */
484 }
492 dprintk((KERN_DEBUG " SubCommand = %d.\n", le32_to_cpu(((struct aac_query_mount *)fib_data(fibptr))->command)));
509 }
513 }
528 }
534 }
536 }
538 }
547 }
549 }
552 /*
553 * If the caller wanted us to wait for response wait now.
554 */
558 /* Only set for first known interruptable command */
560 /*
561 * *VERY* Dangerous to time out a command, the
562 * assumption is made that we have no hope of
563 * functioning because an interrupt routing or other
564 * hardware failure has occurred.
565 */
579 }
581 }
586 blink);
587 }
589 }
590 /* We used to udelay() here but that absorbed
591 * a CPU when a timeout occured. Not very
592 * useful. */
594 }
596 /* Do nothing ... satisfy
597 * down_interruptible must_check */
598 }
605 }
612 }
613 /*
614 * If the user does not want a response than return success otherwise
615 * return pending
616 */
619 else
621 }
623 /**
624 * aac_consumer_get - get the top of the queue
625 * @dev: Adapter
626 * @q: Queue
627 * @entry: Return entry
628 *
629 * Will return a pointer to the entry on the top of the queue requested that
630 * we are a consumer of, and return the address of the queue entry. It does
631 * not change the state of the queue.
632 */
635 {
636 u32 index;
641 /*
642 * The consumer index must be wrapped if we have reached
643 * the end of the queue, else we just use the entry
644 * pointed to by the header index
645 */
648 else
652 }
654 }
656 /**
657 * aac_consumer_free - free consumer entry
658 * @dev: Adapter
659 * @q: Queue
660 * @qid: Queue ident
661 *
662 * Frees up the current top of the queue we are a consumer of. If the
663 * queue was full notify the producer that the queue is no longer full.
664 */
667 {
669 u32 notify;
676 else
691 }
693 }
694 }
696 /**
697 * aac_fib_adapter_complete - complete adapter issued fib
698 * @fibptr: fib to complete
699 * @size: size of fib
700 *
701 * Will do all necessary work to complete a FIB that was sent from
702 * the adapter.
703 */
706 {
717 }
723 }
724 /*
725 * If we plan to do anything check the structure type first.
726 */
733 }
734 /*
735 * This block handles the case where the adapter had sent us a
736 * command and we have finished processing the command. We
737 * call completeFib when we are done processing the command
738 * and want to send a response back to the adapter. This will
739 * send the completed cdb to the adapter.
740 */
745 u32 index;
752 }
760 }
765 }
767 }
769 /**
770 * aac_fib_complete - fib completion handler
771 * @fib: FIB to complete
772 *
773 * Will do all necessary work to complete a FIB.
774 */
777 {
781 /*
782 * Check for a fib which has already been completed
783 */
787 /*
788 * If we plan to do anything check the structure type first.
789 */
795 /*
796 * This block completes a cdb which orginated on the host and we
797 * just need to deallocate the cdb or reinit it. At this point the
798 * command is complete that we had sent to the adapter and this
799 * cdb could be reused.
800 */
805 }
810 {
812 }
814 {
815 /*
816 * This handles the case when the host has aborted the I/O
817 * to the adapter because the adapter is not responding
818 */
824 }
826 }
828 /**
829 * aac_printf - handle printf from firmware
830 * @dev: Adapter
831 * @val: Message info
832 *
833 * Print a message passed to us by the controller firmware on the
834 * Adaptec board
835 */
838 {
841 {
845 /*
846 * The size of the printfbuf is set in port.c
847 * There is no variable or define for it
848 */
855 else
857 }
859 }
862 /**
863 * aac_handle_aif - Handle a message from the firmware
864 * @dev: Which adapter this fib is from
865 * @fibptr: Pointer to fibptr from adapter
866 *
867 * This routine handles a driver notify fib from the adapter and
868 * dispatches it to the appropriate routine for handling.
869 */
871 #define AIF_SNIFF_TIMEOUT (30*HZ)
873 {
879 NOTHING,
880 DELETE,
881 ADD,
882 CHANGE
885 /* Sniff for container changes */
891 /*
892 * We have set this up to try and minimize the number of
893 * re-configures that take place. As a result of this when
894 * certain AIF's come in we will set a flag waiting for another
895 * type of AIF before setting the re-config flag.
896 */
900 /*
901 * Morph or Expand complete
902 */
909 /*
910 * Find the scsi_device associated with the SCSI
911 * address. Make sure we have the right array, and if
912 * so set the flag to initiate a new re-config once we
913 * see an AifEnConfigChange AIF come through.
914 */
926 }
927 }
928 }
930 /*
931 * If we are waiting on something and this happens to be
932 * that thing then set the re-configure flag.
933 */
947 }
956 /*
957 * Add an Array.
958 */
965 AifEnConfigChange;
969 /*
970 * Delete an Array.
971 */
978 AifEnConfigChange;
982 /*
983 * Container change detected. If we currently are not
984 * waiting on something else, setup to wait on a Config Change.
985 */
995 AifEnConfigChange;
1008 }
1013 }
1018 }
1022 device_config_needed =
1027 channel,
1028 id,
1029 lun);
1033 }
1034 }
1038 /*
1039 * If in JBOD mode, automatic exposure of new
1040 * physical target to be suppressed until configured.
1041 */
1052 }
1057 }
1062 /* legacy dev_t ? */
1069 }
1071 device_config_needed =
1076 }
1078 }
1080 /*
1081 * If we are waiting on something and this happens to be
1082 * that thing then set the re-configure flag.
1083 */
1097 }
1101 /*
1102 * These are job progress AIF's. When a Clear is being
1103 * done on a container it is initially created then hidden from
1104 * the OS. When the clear completes we don't get a config
1105 * change so we monitor the job status complete on a clear then
1106 * wait for a container change.
1107 */
1115 /*
1116 * Stomp on all config sequencing for all
1117 * containers?
1118 */
1120 AifEnContainerChange;
1123 jiffies;
1124 }
1125 }
1132 /*
1133 * Stomp on all config sequencing for all
1134 * containers?
1135 */
1137 AifEnContainerChange;
1140 jiffies;
1141 }
1142 }
1144 }
1147 retry_next:
1153 device_config_needed =
1160 }
1161 }
1165 /*
1166 * If we decided that a re-configuration needs to be done,
1167 * schedule it here on the way out the door, please close the door
1168 * behind you.
1169 */
1171 /*
1172 * Find the scsi_device associated with the SCSI address,
1173 * and mark it as changed, invalidating the cache. This deals
1174 * with changes to existing device IDs.
1175 */
1179 /*
1180 * force reload of disk info via aac_probe_container
1181 */
1187 }
1192 #if (defined(AAC_DEBUG_INSTRUMENT_AIF_DELETE))
1194 #else
1202 }
1203 #endif
1213 }
1214 /* FALLTHRU */
1218 #if (defined(AAC_DEBUG_INSTRUMENT_AIF_DELETE))
1220 #else
1227 #endif
1229 }
1234 }
1237 }
1241 container++;
1244 }
1245 }
1248 {
1257 /*
1258 * Assumptions:
1259 * - host is locked, unless called by the aacraid thread.
1260 * (a matter of convenience, due to legacy issues surrounding
1261 * eh_host_adapter_reset).
1262 * - in_reset is asserted, so no new i/o is getting to the
1263 * card.
1264 * - The card is dead, or will be very shortly ;-/ so no new
1265 * commands are completing in the interrupt service.
1266 */
1274 }
1276 /*
1277 * If a positive health, means in a known DEAD PANIC
1278 * state and the adapter could be reset to `try again'.
1279 */
1285 /*
1286 * Loop through the fibs, close the synchronous FIBS
1287 */
1288 for (retval = 1, index = 0; index < (aac->scsi_host_ptr->can_queue + AAC_NUM_MGT_FIB); index++) {
1298 }
1299 }
1300 /* Give some extra time for ioctls to complete. */
1305 /*
1306 * Re-initialize the adapter, first free resources, then carefully
1307 * apply the initialization sequence to come back again. Only risk
1308 * is a change in Firmware dropping cache, it is assumed the caller
1309 * will ensure that i/o is queisced and the card is flushed in that
1310 * case.
1311 */
1332 }
1344 }
1345 }
1350 }
1354 }
1357 /*
1358 * This is where the assumption that the Adapter is quiesced
1359 * is important.
1360 */
1369 }
1371 }
1380 }
1383 out:
1388 }
1390 }
1393 {
1404 }
1408 /*
1409 * Wait for all commands to complete to this specific
1410 * target (block maximum 60 seconds). Although not necessary,
1411 * it does make us a good storage citizen.
1412 */
1424 active++;
1426 }
1427 }
1432 }
1433 /*
1434 * We can exit If all the commands are complete
1435 */
1439 }
1441 /* Quiesce build, flush cache, write through mode */
1445 retval = _aac_reset_adapter(aac, forced ? forced : ((aac_check_reset != 0) && (aac_check_reset != 1)));
1449 /* Unwind aac_send_shutdown() IOP_RESET unsupported/disabled */
1467 fibctx,
1469 FsaNormal,
1475 /* FIB should be freed only after getting
1476 * the response from the F/W */
1479 }
1480 }
1483 }
1486 {
1492 /* Extending the scope of fib_lock slightly to protect aac->in_reset */
1499 }
1503 /* Fake up an AIF:
1504 * aac_aifcmd.command = AifCmdEventNotify = 1
1505 * aac_aifcmd.seqnum = 0xFFFFFFFF
1506 * aac_aifcmd.data[0] = AifEnExpEvent = 23
1507 * aac_aifcmd.data[1] = AifExeFirmwarePanic = 3
1508 * aac.aifcmd.data[2] = AifHighPriority = 3
1509 * aac.aifcmd.data[3] = BlinkLED
1510 */
1515 /*
1516 * For each Context that is on the
1517 * fibctxList, make a copy of the
1518 * fib, and then set the event to wake up the
1519 * thread that is waiting for it.
1520 */
1522 /*
1523 * Extract the fibctx
1524 */
1528 /*
1529 * Check if the queue is getting
1530 * backlogged
1531 */
1533 /*
1534 * It's *not* jiffies folks,
1535 * but jiffies / HZ, so do not
1536 * panic ...
1537 */
1539 /*
1540 * Has it been > 2 minutes
1541 * since the last read off
1542 * the queue?
1543 */
1548 }
1549 }
1550 /*
1551 * Warning: no sleep allowed while
1552 * holding spinlock
1553 */
1573 /*
1574 * Put the FIB onto the
1575 * fibctx's fibs
1576 */
1579 /*
1580 * Set the event to wake up the
1581 * thread that will waiting.
1582 */
1588 }
1590 }
1597 }
1603 AAC_OPTION_IGNORE_RESET)))
1613 out:
1616 }
1619 /**
1620 * aac_command_thread - command processing thread
1621 * @dev: Adapter to monitor
1622 *
1623 * Waits on the commandready event in it's queue. When the event gets set
1624 * it will pull FIBs off it's queue. It will continue to pull FIBs off
1625 * until the queue is empty. When the queue is empty it will wait for
1626 * more FIBs.
1627 */
1630 {
1641 /*
1642 * We can only have one thread per adapter for AIF's.
1643 */
1647 /*
1648 * Let the DPC know it has a place to send the AIF's to.
1649 */
1667 /*
1668 * We will process the FIB here or pass it to a
1669 * worker thread that is TBD. We Really can't
1670 * do anything at this point since we don't have
1671 * anything defined for this thread to do.
1672 */
1680 /*
1681 * We only handle AifRequest fibs from the adapter.
1682 */
1685 /* Handle Driver Notify Events */
1690 /* The u32 here is important and intended. We are using
1691 32bit wrapping time to fit the adapter field */
1699 /* Sniff events */
1705 }
1709 /*
1710 * Warning: no sleep allowed while
1711 * holding spinlock. We take the estimate
1712 * and pre-allocate a set of fibs outside the
1713 * lock.
1714 */
1722 }
1735 }
1739 }
1740 }
1746 }
1750 }
1753 /*
1754 * For each Context that is on the
1755 * fibctxList, make a copy of the
1756 * fib, and then set the event to wake up the
1757 * thread that is waiting for it.
1758 */
1762 /*
1763 * Extract the fibctx
1764 */
1766 /*
1767 * Check if the queue is getting
1768 * backlogged
1769 */
1771 {
1772 /*
1773 * It's *not* jiffies folks,
1774 * but jiffies / HZ so do not
1775 * panic ...
1776 */
1778 /*
1779 * Has it been > 2 minutes
1780 * since the last read off
1781 * the queue?
1782 */
1787 }
1788 }
1789 /*
1790 * Warning: no sleep allowed while
1791 * holding spinlock
1792 */
1798 /*
1799 * Make the copy of the FIB
1800 */
1804 /*
1805 * Put the FIB onto the
1806 * fibctx's fibs
1807 */
1810 /*
1811 * Set the event to wake up the
1812 * thread that is waiting.
1813 */
1817 }
1819 }
1820 /*
1821 * Set the status of this FIB
1822 */
1826 /* Free up the remaining resources */
1834 }
1837 }
1840 }
1841 /*
1842 * There are no more AIF's
1843 */
1846 /*
1847 * Background activity
1848 */
1858 }
1864 /* Don't even try to talk to adapter if its sick */
1868 next_check_jiffies = jiffies
1873 /* Synchronize our watches */
1894 fibptr,
1896 FsaNormal,
1898 NULL,
1899 NULL);
1900 /* Do not set XferState to zero unless
1901 * receives a response from F/W */
1904 /* FIB should be freed only after
1905 * getting the response from the F/W */
1908 }
1911 /* retry shortly */
1913 }
1917 }
1925 }
1930 }