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1 /*
2 
3   Linux Driver for Mylex DAC960/AcceleRAID/eXtremeRAID PCI RAID Controllers
4 
5   Copyright 1998-2001 by Leonard N. Zubkoff <lnz@dandelion.com>
6   Portions Copyright 2002 by Mylex (An IBM Business Unit)
7 
8   This program is free software; you may redistribute and/or modify it under
9   the terms of the GNU General Public License Version 2 as published by the
10   Free Software Foundation.
11 
12   This program is distributed in the hope that it will be useful, but
13   WITHOUT ANY WARRANTY, without even the implied warranty of MERCHANTABILITY
14   or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
15   for complete details.
16 
17 */
18 
19 
20 #define DAC960_DriverVersion			"2.5.49"
21 #define DAC960_DriverDate			"21 Aug 2007"
22 
23 
24 #include <linux/module.h>
25 #include <linux/types.h>
26 #include <linux/miscdevice.h>
27 #include <linux/blkdev.h>
28 #include <linux/bio.h>
29 #include <linux/completion.h>
30 #include <linux/delay.h>
31 #include <linux/genhd.h>
32 #include <linux/hdreg.h>
33 #include <linux/blkpg.h>
34 #include <linux/dma-mapping.h>
35 #include <linux/interrupt.h>
36 #include <linux/ioport.h>
37 #include <linux/mm.h>
38 #include <linux/slab.h>
39 #include <linux/mutex.h>
40 #include <linux/proc_fs.h>
41 #include <linux/seq_file.h>
42 #include <linux/reboot.h>
43 #include <linux/spinlock.h>
44 #include <linux/timer.h>
45 #include <linux/pci.h>
46 #include <linux/init.h>
47 #include <linux/jiffies.h>
48 #include <linux/random.h>
49 #include <linux/scatterlist.h>
50 #include <asm/io.h>
51 #include <asm/uaccess.h>
52 #include "DAC960.h"
53 
54 #define DAC960_GAM_MINOR	252
55 
56 
57 static DEFINE_MUTEX(DAC960_mutex);
58 static DAC960_Controller_T *DAC960_Controllers[DAC960_MaxControllers];
59 static int DAC960_ControllerCount;
60 static struct proc_dir_entry *DAC960_ProcDirectoryEntry;
61 
disk_size(DAC960_Controller_T * p,int drive_nr)62 static long disk_size(DAC960_Controller_T *p, int drive_nr)
63 {
64 	if (p->FirmwareType == DAC960_V1_Controller) {
65 		if (drive_nr >= p->LogicalDriveCount)
66 			return 0;
67 		return p->V1.LogicalDriveInformation[drive_nr].
68 			LogicalDriveSize;
69 	} else {
70 		DAC960_V2_LogicalDeviceInfo_T *i =
71 			p->V2.LogicalDeviceInformation[drive_nr];
72 		if (i == NULL)
73 			return 0;
74 		return i->ConfigurableDeviceSize;
75 	}
76 }
77 
DAC960_open(struct block_device * bdev,fmode_t mode)78 static int DAC960_open(struct block_device *bdev, fmode_t mode)
79 {
80 	struct gendisk *disk = bdev->bd_disk;
81 	DAC960_Controller_T *p = disk->queue->queuedata;
82 	int drive_nr = (long)disk->private_data;
83 	int ret = -ENXIO;
84 
85 	mutex_lock(&DAC960_mutex);
86 	if (p->FirmwareType == DAC960_V1_Controller) {
87 		if (p->V1.LogicalDriveInformation[drive_nr].
88 		    LogicalDriveState == DAC960_V1_LogicalDrive_Offline)
89 			goto out;
90 	} else {
91 		DAC960_V2_LogicalDeviceInfo_T *i =
92 			p->V2.LogicalDeviceInformation[drive_nr];
93 		if (!i || i->LogicalDeviceState == DAC960_V2_LogicalDevice_Offline)
94 			goto out;
95 	}
96 
97 	check_disk_change(bdev);
98 
99 	if (!get_capacity(p->disks[drive_nr]))
100 		goto out;
101 	ret = 0;
102 out:
103 	mutex_unlock(&DAC960_mutex);
104 	return ret;
105 }
106 
DAC960_getgeo(struct block_device * bdev,struct hd_geometry * geo)107 static int DAC960_getgeo(struct block_device *bdev, struct hd_geometry *geo)
108 {
109 	struct gendisk *disk = bdev->bd_disk;
110 	DAC960_Controller_T *p = disk->queue->queuedata;
111 	int drive_nr = (long)disk->private_data;
112 
113 	if (p->FirmwareType == DAC960_V1_Controller) {
114 		geo->heads = p->V1.GeometryTranslationHeads;
115 		geo->sectors = p->V1.GeometryTranslationSectors;
116 		geo->cylinders = p->V1.LogicalDriveInformation[drive_nr].
117 			LogicalDriveSize / (geo->heads * geo->sectors);
118 	} else {
119 		DAC960_V2_LogicalDeviceInfo_T *i =
120 			p->V2.LogicalDeviceInformation[drive_nr];
121 		switch (i->DriveGeometry) {
122 		case DAC960_V2_Geometry_128_32:
123 			geo->heads = 128;
124 			geo->sectors = 32;
125 			break;
126 		case DAC960_V2_Geometry_255_63:
127 			geo->heads = 255;
128 			geo->sectors = 63;
129 			break;
130 		default:
131 			DAC960_Error("Illegal Logical Device Geometry %d\n",
132 					p, i->DriveGeometry);
133 			return -EINVAL;
134 		}
135 
136 		geo->cylinders = i->ConfigurableDeviceSize /
137 			(geo->heads * geo->sectors);
138 	}
139 
140 	return 0;
141 }
142 
DAC960_check_events(struct gendisk * disk,unsigned int clearing)143 static unsigned int DAC960_check_events(struct gendisk *disk,
144 					unsigned int clearing)
145 {
146 	DAC960_Controller_T *p = disk->queue->queuedata;
147 	int drive_nr = (long)disk->private_data;
148 
149 	if (!p->LogicalDriveInitiallyAccessible[drive_nr])
150 		return DISK_EVENT_MEDIA_CHANGE;
151 	return 0;
152 }
153 
DAC960_revalidate_disk(struct gendisk * disk)154 static int DAC960_revalidate_disk(struct gendisk *disk)
155 {
156 	DAC960_Controller_T *p = disk->queue->queuedata;
157 	int unit = (long)disk->private_data;
158 
159 	set_capacity(disk, disk_size(p, unit));
160 	return 0;
161 }
162 
163 static const struct block_device_operations DAC960_BlockDeviceOperations = {
164 	.owner			= THIS_MODULE,
165 	.open			= DAC960_open,
166 	.getgeo			= DAC960_getgeo,
167 	.check_events		= DAC960_check_events,
168 	.revalidate_disk	= DAC960_revalidate_disk,
169 };
170 
171 
172 /*
173   DAC960_AnnounceDriver announces the Driver Version and Date, Author's Name,
174   Copyright Notice, and Electronic Mail Address.
175 */
176 
DAC960_AnnounceDriver(DAC960_Controller_T * Controller)177 static void DAC960_AnnounceDriver(DAC960_Controller_T *Controller)
178 {
179   DAC960_Announce("***** DAC960 RAID Driver Version "
180 		  DAC960_DriverVersion " of "
181 		  DAC960_DriverDate " *****\n", Controller);
182   DAC960_Announce("Copyright 1998-2001 by Leonard N. Zubkoff "
183 		  "<lnz@dandelion.com>\n", Controller);
184 }
185 
186 
187 /*
188   DAC960_Failure prints a standardized error message, and then returns false.
189 */
190 
DAC960_Failure(DAC960_Controller_T * Controller,unsigned char * ErrorMessage)191 static bool DAC960_Failure(DAC960_Controller_T *Controller,
192 			      unsigned char *ErrorMessage)
193 {
194   DAC960_Error("While configuring DAC960 PCI RAID Controller at\n",
195 	       Controller);
196   if (Controller->IO_Address == 0)
197     DAC960_Error("PCI Bus %d Device %d Function %d I/O Address N/A "
198 		 "PCI Address 0x%X\n", Controller,
199 		 Controller->Bus, Controller->Device,
200 		 Controller->Function, Controller->PCI_Address);
201   else DAC960_Error("PCI Bus %d Device %d Function %d I/O Address "
202 		    "0x%X PCI Address 0x%X\n", Controller,
203 		    Controller->Bus, Controller->Device,
204 		    Controller->Function, Controller->IO_Address,
205 		    Controller->PCI_Address);
206   DAC960_Error("%s FAILED - DETACHING\n", Controller, ErrorMessage);
207   return false;
208 }
209 
210 /*
211   init_dma_loaf() and slice_dma_loaf() are helper functions for
212   aggregating the dma-mapped memory for a well-known collection of
213   data structures that are of different lengths.
214 
215   These routines don't guarantee any alignment.  The caller must
216   include any space needed for alignment in the sizes of the structures
217   that are passed in.
218  */
219 
init_dma_loaf(struct pci_dev * dev,struct dma_loaf * loaf,size_t len)220 static bool init_dma_loaf(struct pci_dev *dev, struct dma_loaf *loaf,
221 								 size_t len)
222 {
223 	void *cpu_addr;
224 	dma_addr_t dma_handle;
225 
226 	cpu_addr = pci_alloc_consistent(dev, len, &dma_handle);
227 	if (cpu_addr == NULL)
228 		return false;
229 
230 	loaf->cpu_free = loaf->cpu_base = cpu_addr;
231 	loaf->dma_free =loaf->dma_base = dma_handle;
232 	loaf->length = len;
233 	memset(cpu_addr, 0, len);
234 	return true;
235 }
236 
slice_dma_loaf(struct dma_loaf * loaf,size_t len,dma_addr_t * dma_handle)237 static void *slice_dma_loaf(struct dma_loaf *loaf, size_t len,
238 					dma_addr_t *dma_handle)
239 {
240 	void *cpu_end = loaf->cpu_free + len;
241 	void *cpu_addr = loaf->cpu_free;
242 
243 	BUG_ON(cpu_end > loaf->cpu_base + loaf->length);
244 	*dma_handle = loaf->dma_free;
245 	loaf->cpu_free = cpu_end;
246 	loaf->dma_free += len;
247 	return cpu_addr;
248 }
249 
free_dma_loaf(struct pci_dev * dev,struct dma_loaf * loaf_handle)250 static void free_dma_loaf(struct pci_dev *dev, struct dma_loaf *loaf_handle)
251 {
252 	if (loaf_handle->cpu_base != NULL)
253 		pci_free_consistent(dev, loaf_handle->length,
254 			loaf_handle->cpu_base, loaf_handle->dma_base);
255 }
256 
257 
258 /*
259   DAC960_CreateAuxiliaryStructures allocates and initializes the auxiliary
260   data structures for Controller.  It returns true on success and false on
261   failure.
262 */
263 
DAC960_CreateAuxiliaryStructures(DAC960_Controller_T * Controller)264 static bool DAC960_CreateAuxiliaryStructures(DAC960_Controller_T *Controller)
265 {
266   int CommandAllocationLength, CommandAllocationGroupSize;
267   int CommandsRemaining = 0, CommandIdentifier, CommandGroupByteCount;
268   void *AllocationPointer = NULL;
269   void *ScatterGatherCPU = NULL;
270   dma_addr_t ScatterGatherDMA;
271   struct pci_pool *ScatterGatherPool;
272   void *RequestSenseCPU = NULL;
273   dma_addr_t RequestSenseDMA;
274   struct pci_pool *RequestSensePool = NULL;
275 
276   if (Controller->FirmwareType == DAC960_V1_Controller)
277     {
278       CommandAllocationLength = offsetof(DAC960_Command_T, V1.EndMarker);
279       CommandAllocationGroupSize = DAC960_V1_CommandAllocationGroupSize;
280       ScatterGatherPool = pci_pool_create("DAC960_V1_ScatterGather",
281 		Controller->PCIDevice,
282 	DAC960_V1_ScatterGatherLimit * sizeof(DAC960_V1_ScatterGatherSegment_T),
283 	sizeof(DAC960_V1_ScatterGatherSegment_T), 0);
284       if (ScatterGatherPool == NULL)
285 	    return DAC960_Failure(Controller,
286 			"AUXILIARY STRUCTURE CREATION (SG)");
287       Controller->ScatterGatherPool = ScatterGatherPool;
288     }
289   else
290     {
291       CommandAllocationLength = offsetof(DAC960_Command_T, V2.EndMarker);
292       CommandAllocationGroupSize = DAC960_V2_CommandAllocationGroupSize;
293       ScatterGatherPool = pci_pool_create("DAC960_V2_ScatterGather",
294 		Controller->PCIDevice,
295 	DAC960_V2_ScatterGatherLimit * sizeof(DAC960_V2_ScatterGatherSegment_T),
296 	sizeof(DAC960_V2_ScatterGatherSegment_T), 0);
297       if (ScatterGatherPool == NULL)
298 	    return DAC960_Failure(Controller,
299 			"AUXILIARY STRUCTURE CREATION (SG)");
300       RequestSensePool = pci_pool_create("DAC960_V2_RequestSense",
301 		Controller->PCIDevice, sizeof(DAC960_SCSI_RequestSense_T),
302 		sizeof(int), 0);
303       if (RequestSensePool == NULL) {
304 	    pci_pool_destroy(ScatterGatherPool);
305 	    return DAC960_Failure(Controller,
306 			"AUXILIARY STRUCTURE CREATION (SG)");
307       }
308       Controller->ScatterGatherPool = ScatterGatherPool;
309       Controller->V2.RequestSensePool = RequestSensePool;
310     }
311   Controller->CommandAllocationGroupSize = CommandAllocationGroupSize;
312   Controller->FreeCommands = NULL;
313   for (CommandIdentifier = 1;
314        CommandIdentifier <= Controller->DriverQueueDepth;
315        CommandIdentifier++)
316     {
317       DAC960_Command_T *Command;
318       if (--CommandsRemaining <= 0)
319 	{
320 	  CommandsRemaining =
321 		Controller->DriverQueueDepth - CommandIdentifier + 1;
322 	  if (CommandsRemaining > CommandAllocationGroupSize)
323 		CommandsRemaining = CommandAllocationGroupSize;
324 	  CommandGroupByteCount =
325 		CommandsRemaining * CommandAllocationLength;
326 	  AllocationPointer = kzalloc(CommandGroupByteCount, GFP_ATOMIC);
327 	  if (AllocationPointer == NULL)
328 		return DAC960_Failure(Controller,
329 					"AUXILIARY STRUCTURE CREATION");
330 	 }
331       Command = (DAC960_Command_T *) AllocationPointer;
332       AllocationPointer += CommandAllocationLength;
333       Command->CommandIdentifier = CommandIdentifier;
334       Command->Controller = Controller;
335       Command->Next = Controller->FreeCommands;
336       Controller->FreeCommands = Command;
337       Controller->Commands[CommandIdentifier-1] = Command;
338       ScatterGatherCPU = pci_pool_alloc(ScatterGatherPool, GFP_ATOMIC,
339 							&ScatterGatherDMA);
340       if (ScatterGatherCPU == NULL)
341 	  return DAC960_Failure(Controller, "AUXILIARY STRUCTURE CREATION");
342 
343       if (RequestSensePool != NULL) {
344   	  RequestSenseCPU = pci_pool_alloc(RequestSensePool, GFP_ATOMIC,
345 						&RequestSenseDMA);
346   	  if (RequestSenseCPU == NULL) {
347                 pci_pool_free(ScatterGatherPool, ScatterGatherCPU,
348                                 ScatterGatherDMA);
349     		return DAC960_Failure(Controller,
350 					"AUXILIARY STRUCTURE CREATION");
351 	  }
352         }
353      if (Controller->FirmwareType == DAC960_V1_Controller) {
354         Command->cmd_sglist = Command->V1.ScatterList;
355 	Command->V1.ScatterGatherList =
356 		(DAC960_V1_ScatterGatherSegment_T *)ScatterGatherCPU;
357 	Command->V1.ScatterGatherListDMA = ScatterGatherDMA;
358 	sg_init_table(Command->cmd_sglist, DAC960_V1_ScatterGatherLimit);
359       } else {
360         Command->cmd_sglist = Command->V2.ScatterList;
361 	Command->V2.ScatterGatherList =
362 		(DAC960_V2_ScatterGatherSegment_T *)ScatterGatherCPU;
363 	Command->V2.ScatterGatherListDMA = ScatterGatherDMA;
364 	Command->V2.RequestSense =
365 				(DAC960_SCSI_RequestSense_T *)RequestSenseCPU;
366 	Command->V2.RequestSenseDMA = RequestSenseDMA;
367 	sg_init_table(Command->cmd_sglist, DAC960_V2_ScatterGatherLimit);
368       }
369     }
370   return true;
371 }
372 
373 
374 /*
375   DAC960_DestroyAuxiliaryStructures deallocates the auxiliary data
376   structures for Controller.
377 */
378 
DAC960_DestroyAuxiliaryStructures(DAC960_Controller_T * Controller)379 static void DAC960_DestroyAuxiliaryStructures(DAC960_Controller_T *Controller)
380 {
381   int i;
382   struct pci_pool *ScatterGatherPool = Controller->ScatterGatherPool;
383   struct pci_pool *RequestSensePool = NULL;
384   void *ScatterGatherCPU;
385   dma_addr_t ScatterGatherDMA;
386   void *RequestSenseCPU;
387   dma_addr_t RequestSenseDMA;
388   DAC960_Command_T *CommandGroup = NULL;
389 
390 
391   if (Controller->FirmwareType == DAC960_V2_Controller)
392         RequestSensePool = Controller->V2.RequestSensePool;
393 
394   Controller->FreeCommands = NULL;
395   for (i = 0; i < Controller->DriverQueueDepth; i++)
396     {
397       DAC960_Command_T *Command = Controller->Commands[i];
398 
399       if (Command == NULL)
400 	  continue;
401 
402       if (Controller->FirmwareType == DAC960_V1_Controller) {
403 	  ScatterGatherCPU = (void *)Command->V1.ScatterGatherList;
404 	  ScatterGatherDMA = Command->V1.ScatterGatherListDMA;
405 	  RequestSenseCPU = NULL;
406 	  RequestSenseDMA = (dma_addr_t)0;
407       } else {
408           ScatterGatherCPU = (void *)Command->V2.ScatterGatherList;
409 	  ScatterGatherDMA = Command->V2.ScatterGatherListDMA;
410 	  RequestSenseCPU = (void *)Command->V2.RequestSense;
411 	  RequestSenseDMA = Command->V2.RequestSenseDMA;
412       }
413       if (ScatterGatherCPU != NULL)
414           pci_pool_free(ScatterGatherPool, ScatterGatherCPU, ScatterGatherDMA);
415       if (RequestSenseCPU != NULL)
416           pci_pool_free(RequestSensePool, RequestSenseCPU, RequestSenseDMA);
417 
418       if ((Command->CommandIdentifier
419 	   % Controller->CommandAllocationGroupSize) == 1) {
420 	   /*
421 	    * We can't free the group of commands until all of the
422 	    * request sense and scatter gather dma structures are free.
423             * Remember the beginning of the group, but don't free it
424 	    * until we've reached the beginning of the next group.
425 	    */
426 	   kfree(CommandGroup);
427 	   CommandGroup = Command;
428       }
429       Controller->Commands[i] = NULL;
430     }
431   kfree(CommandGroup);
432 
433   if (Controller->CombinedStatusBuffer != NULL)
434     {
435       kfree(Controller->CombinedStatusBuffer);
436       Controller->CombinedStatusBuffer = NULL;
437       Controller->CurrentStatusBuffer = NULL;
438     }
439 
440   if (ScatterGatherPool != NULL)
441   	pci_pool_destroy(ScatterGatherPool);
442   if (Controller->FirmwareType == DAC960_V1_Controller)
443   	return;
444 
445   if (RequestSensePool != NULL)
446 	pci_pool_destroy(RequestSensePool);
447 
448   for (i = 0; i < DAC960_MaxLogicalDrives; i++) {
449 	kfree(Controller->V2.LogicalDeviceInformation[i]);
450 	Controller->V2.LogicalDeviceInformation[i] = NULL;
451   }
452 
453   for (i = 0; i < DAC960_V2_MaxPhysicalDevices; i++)
454     {
455       kfree(Controller->V2.PhysicalDeviceInformation[i]);
456       Controller->V2.PhysicalDeviceInformation[i] = NULL;
457       kfree(Controller->V2.InquiryUnitSerialNumber[i]);
458       Controller->V2.InquiryUnitSerialNumber[i] = NULL;
459     }
460 }
461 
462 
463 /*
464   DAC960_V1_ClearCommand clears critical fields of Command for DAC960 V1
465   Firmware Controllers.
466 */
467 
DAC960_V1_ClearCommand(DAC960_Command_T * Command)468 static inline void DAC960_V1_ClearCommand(DAC960_Command_T *Command)
469 {
470   DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
471   memset(CommandMailbox, 0, sizeof(DAC960_V1_CommandMailbox_T));
472   Command->V1.CommandStatus = 0;
473 }
474 
475 
476 /*
477   DAC960_V2_ClearCommand clears critical fields of Command for DAC960 V2
478   Firmware Controllers.
479 */
480 
DAC960_V2_ClearCommand(DAC960_Command_T * Command)481 static inline void DAC960_V2_ClearCommand(DAC960_Command_T *Command)
482 {
483   DAC960_V2_CommandMailbox_T *CommandMailbox = &Command->V2.CommandMailbox;
484   memset(CommandMailbox, 0, sizeof(DAC960_V2_CommandMailbox_T));
485   Command->V2.CommandStatus = 0;
486 }
487 
488 
489 /*
490   DAC960_AllocateCommand allocates a Command structure from Controller's
491   free list.  During driver initialization, a special initialization command
492   has been placed on the free list to guarantee that command allocation can
493   never fail.
494 */
495 
DAC960_AllocateCommand(DAC960_Controller_T * Controller)496 static inline DAC960_Command_T *DAC960_AllocateCommand(DAC960_Controller_T
497 						       *Controller)
498 {
499   DAC960_Command_T *Command = Controller->FreeCommands;
500   if (Command == NULL) return NULL;
501   Controller->FreeCommands = Command->Next;
502   Command->Next = NULL;
503   return Command;
504 }
505 
506 
507 /*
508   DAC960_DeallocateCommand deallocates Command, returning it to Controller's
509   free list.
510 */
511 
DAC960_DeallocateCommand(DAC960_Command_T * Command)512 static inline void DAC960_DeallocateCommand(DAC960_Command_T *Command)
513 {
514   DAC960_Controller_T *Controller = Command->Controller;
515 
516   Command->Request = NULL;
517   Command->Next = Controller->FreeCommands;
518   Controller->FreeCommands = Command;
519 }
520 
521 
522 /*
523   DAC960_WaitForCommand waits for a wake_up on Controller's Command Wait Queue.
524 */
525 
DAC960_WaitForCommand(DAC960_Controller_T * Controller)526 static void DAC960_WaitForCommand(DAC960_Controller_T *Controller)
527 {
528   spin_unlock_irq(&Controller->queue_lock);
529   __wait_event(Controller->CommandWaitQueue, Controller->FreeCommands);
530   spin_lock_irq(&Controller->queue_lock);
531 }
532 
533 /*
534   DAC960_GEM_QueueCommand queues Command for DAC960 GEM Series Controllers.
535 */
536 
DAC960_GEM_QueueCommand(DAC960_Command_T * Command)537 static void DAC960_GEM_QueueCommand(DAC960_Command_T *Command)
538 {
539   DAC960_Controller_T *Controller = Command->Controller;
540   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
541   DAC960_V2_CommandMailbox_T *CommandMailbox = &Command->V2.CommandMailbox;
542   DAC960_V2_CommandMailbox_T *NextCommandMailbox =
543       Controller->V2.NextCommandMailbox;
544 
545   CommandMailbox->Common.CommandIdentifier = Command->CommandIdentifier;
546   DAC960_GEM_WriteCommandMailbox(NextCommandMailbox, CommandMailbox);
547 
548   if (Controller->V2.PreviousCommandMailbox1->Words[0] == 0 ||
549       Controller->V2.PreviousCommandMailbox2->Words[0] == 0)
550       DAC960_GEM_MemoryMailboxNewCommand(ControllerBaseAddress);
551 
552   Controller->V2.PreviousCommandMailbox2 =
553       Controller->V2.PreviousCommandMailbox1;
554   Controller->V2.PreviousCommandMailbox1 = NextCommandMailbox;
555 
556   if (++NextCommandMailbox > Controller->V2.LastCommandMailbox)
557       NextCommandMailbox = Controller->V2.FirstCommandMailbox;
558 
559   Controller->V2.NextCommandMailbox = NextCommandMailbox;
560 }
561 
562 /*
563   DAC960_BA_QueueCommand queues Command for DAC960 BA Series Controllers.
564 */
565 
DAC960_BA_QueueCommand(DAC960_Command_T * Command)566 static void DAC960_BA_QueueCommand(DAC960_Command_T *Command)
567 {
568   DAC960_Controller_T *Controller = Command->Controller;
569   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
570   DAC960_V2_CommandMailbox_T *CommandMailbox = &Command->V2.CommandMailbox;
571   DAC960_V2_CommandMailbox_T *NextCommandMailbox =
572     Controller->V2.NextCommandMailbox;
573   CommandMailbox->Common.CommandIdentifier = Command->CommandIdentifier;
574   DAC960_BA_WriteCommandMailbox(NextCommandMailbox, CommandMailbox);
575   if (Controller->V2.PreviousCommandMailbox1->Words[0] == 0 ||
576       Controller->V2.PreviousCommandMailbox2->Words[0] == 0)
577     DAC960_BA_MemoryMailboxNewCommand(ControllerBaseAddress);
578   Controller->V2.PreviousCommandMailbox2 =
579     Controller->V2.PreviousCommandMailbox1;
580   Controller->V2.PreviousCommandMailbox1 = NextCommandMailbox;
581   if (++NextCommandMailbox > Controller->V2.LastCommandMailbox)
582     NextCommandMailbox = Controller->V2.FirstCommandMailbox;
583   Controller->V2.NextCommandMailbox = NextCommandMailbox;
584 }
585 
586 
587 /*
588   DAC960_LP_QueueCommand queues Command for DAC960 LP Series Controllers.
589 */
590 
DAC960_LP_QueueCommand(DAC960_Command_T * Command)591 static void DAC960_LP_QueueCommand(DAC960_Command_T *Command)
592 {
593   DAC960_Controller_T *Controller = Command->Controller;
594   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
595   DAC960_V2_CommandMailbox_T *CommandMailbox = &Command->V2.CommandMailbox;
596   DAC960_V2_CommandMailbox_T *NextCommandMailbox =
597     Controller->V2.NextCommandMailbox;
598   CommandMailbox->Common.CommandIdentifier = Command->CommandIdentifier;
599   DAC960_LP_WriteCommandMailbox(NextCommandMailbox, CommandMailbox);
600   if (Controller->V2.PreviousCommandMailbox1->Words[0] == 0 ||
601       Controller->V2.PreviousCommandMailbox2->Words[0] == 0)
602     DAC960_LP_MemoryMailboxNewCommand(ControllerBaseAddress);
603   Controller->V2.PreviousCommandMailbox2 =
604     Controller->V2.PreviousCommandMailbox1;
605   Controller->V2.PreviousCommandMailbox1 = NextCommandMailbox;
606   if (++NextCommandMailbox > Controller->V2.LastCommandMailbox)
607     NextCommandMailbox = Controller->V2.FirstCommandMailbox;
608   Controller->V2.NextCommandMailbox = NextCommandMailbox;
609 }
610 
611 
612 /*
613   DAC960_LA_QueueCommandDualMode queues Command for DAC960 LA Series
614   Controllers with Dual Mode Firmware.
615 */
616 
DAC960_LA_QueueCommandDualMode(DAC960_Command_T * Command)617 static void DAC960_LA_QueueCommandDualMode(DAC960_Command_T *Command)
618 {
619   DAC960_Controller_T *Controller = Command->Controller;
620   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
621   DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
622   DAC960_V1_CommandMailbox_T *NextCommandMailbox =
623     Controller->V1.NextCommandMailbox;
624   CommandMailbox->Common.CommandIdentifier = Command->CommandIdentifier;
625   DAC960_LA_WriteCommandMailbox(NextCommandMailbox, CommandMailbox);
626   if (Controller->V1.PreviousCommandMailbox1->Words[0] == 0 ||
627       Controller->V1.PreviousCommandMailbox2->Words[0] == 0)
628     DAC960_LA_MemoryMailboxNewCommand(ControllerBaseAddress);
629   Controller->V1.PreviousCommandMailbox2 =
630     Controller->V1.PreviousCommandMailbox1;
631   Controller->V1.PreviousCommandMailbox1 = NextCommandMailbox;
632   if (++NextCommandMailbox > Controller->V1.LastCommandMailbox)
633     NextCommandMailbox = Controller->V1.FirstCommandMailbox;
634   Controller->V1.NextCommandMailbox = NextCommandMailbox;
635 }
636 
637 
638 /*
639   DAC960_LA_QueueCommandSingleMode queues Command for DAC960 LA Series
640   Controllers with Single Mode Firmware.
641 */
642 
DAC960_LA_QueueCommandSingleMode(DAC960_Command_T * Command)643 static void DAC960_LA_QueueCommandSingleMode(DAC960_Command_T *Command)
644 {
645   DAC960_Controller_T *Controller = Command->Controller;
646   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
647   DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
648   DAC960_V1_CommandMailbox_T *NextCommandMailbox =
649     Controller->V1.NextCommandMailbox;
650   CommandMailbox->Common.CommandIdentifier = Command->CommandIdentifier;
651   DAC960_LA_WriteCommandMailbox(NextCommandMailbox, CommandMailbox);
652   if (Controller->V1.PreviousCommandMailbox1->Words[0] == 0 ||
653       Controller->V1.PreviousCommandMailbox2->Words[0] == 0)
654     DAC960_LA_HardwareMailboxNewCommand(ControllerBaseAddress);
655   Controller->V1.PreviousCommandMailbox2 =
656     Controller->V1.PreviousCommandMailbox1;
657   Controller->V1.PreviousCommandMailbox1 = NextCommandMailbox;
658   if (++NextCommandMailbox > Controller->V1.LastCommandMailbox)
659     NextCommandMailbox = Controller->V1.FirstCommandMailbox;
660   Controller->V1.NextCommandMailbox = NextCommandMailbox;
661 }
662 
663 
664 /*
665   DAC960_PG_QueueCommandDualMode queues Command for DAC960 PG Series
666   Controllers with Dual Mode Firmware.
667 */
668 
DAC960_PG_QueueCommandDualMode(DAC960_Command_T * Command)669 static void DAC960_PG_QueueCommandDualMode(DAC960_Command_T *Command)
670 {
671   DAC960_Controller_T *Controller = Command->Controller;
672   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
673   DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
674   DAC960_V1_CommandMailbox_T *NextCommandMailbox =
675     Controller->V1.NextCommandMailbox;
676   CommandMailbox->Common.CommandIdentifier = Command->CommandIdentifier;
677   DAC960_PG_WriteCommandMailbox(NextCommandMailbox, CommandMailbox);
678   if (Controller->V1.PreviousCommandMailbox1->Words[0] == 0 ||
679       Controller->V1.PreviousCommandMailbox2->Words[0] == 0)
680     DAC960_PG_MemoryMailboxNewCommand(ControllerBaseAddress);
681   Controller->V1.PreviousCommandMailbox2 =
682     Controller->V1.PreviousCommandMailbox1;
683   Controller->V1.PreviousCommandMailbox1 = NextCommandMailbox;
684   if (++NextCommandMailbox > Controller->V1.LastCommandMailbox)
685     NextCommandMailbox = Controller->V1.FirstCommandMailbox;
686   Controller->V1.NextCommandMailbox = NextCommandMailbox;
687 }
688 
689 
690 /*
691   DAC960_PG_QueueCommandSingleMode queues Command for DAC960 PG Series
692   Controllers with Single Mode Firmware.
693 */
694 
DAC960_PG_QueueCommandSingleMode(DAC960_Command_T * Command)695 static void DAC960_PG_QueueCommandSingleMode(DAC960_Command_T *Command)
696 {
697   DAC960_Controller_T *Controller = Command->Controller;
698   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
699   DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
700   DAC960_V1_CommandMailbox_T *NextCommandMailbox =
701     Controller->V1.NextCommandMailbox;
702   CommandMailbox->Common.CommandIdentifier = Command->CommandIdentifier;
703   DAC960_PG_WriteCommandMailbox(NextCommandMailbox, CommandMailbox);
704   if (Controller->V1.PreviousCommandMailbox1->Words[0] == 0 ||
705       Controller->V1.PreviousCommandMailbox2->Words[0] == 0)
706     DAC960_PG_HardwareMailboxNewCommand(ControllerBaseAddress);
707   Controller->V1.PreviousCommandMailbox2 =
708     Controller->V1.PreviousCommandMailbox1;
709   Controller->V1.PreviousCommandMailbox1 = NextCommandMailbox;
710   if (++NextCommandMailbox > Controller->V1.LastCommandMailbox)
711     NextCommandMailbox = Controller->V1.FirstCommandMailbox;
712   Controller->V1.NextCommandMailbox = NextCommandMailbox;
713 }
714 
715 
716 /*
717   DAC960_PD_QueueCommand queues Command for DAC960 PD Series Controllers.
718 */
719 
DAC960_PD_QueueCommand(DAC960_Command_T * Command)720 static void DAC960_PD_QueueCommand(DAC960_Command_T *Command)
721 {
722   DAC960_Controller_T *Controller = Command->Controller;
723   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
724   DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
725   CommandMailbox->Common.CommandIdentifier = Command->CommandIdentifier;
726   while (DAC960_PD_MailboxFullP(ControllerBaseAddress))
727     udelay(1);
728   DAC960_PD_WriteCommandMailbox(ControllerBaseAddress, CommandMailbox);
729   DAC960_PD_NewCommand(ControllerBaseAddress);
730 }
731 
732 
733 /*
734   DAC960_P_QueueCommand queues Command for DAC960 P Series Controllers.
735 */
736 
DAC960_P_QueueCommand(DAC960_Command_T * Command)737 static void DAC960_P_QueueCommand(DAC960_Command_T *Command)
738 {
739   DAC960_Controller_T *Controller = Command->Controller;
740   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
741   DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
742   CommandMailbox->Common.CommandIdentifier = Command->CommandIdentifier;
743   switch (CommandMailbox->Common.CommandOpcode)
744     {
745     case DAC960_V1_Enquiry:
746       CommandMailbox->Common.CommandOpcode = DAC960_V1_Enquiry_Old;
747       break;
748     case DAC960_V1_GetDeviceState:
749       CommandMailbox->Common.CommandOpcode = DAC960_V1_GetDeviceState_Old;
750       break;
751     case DAC960_V1_Read:
752       CommandMailbox->Common.CommandOpcode = DAC960_V1_Read_Old;
753       DAC960_PD_To_P_TranslateReadWriteCommand(CommandMailbox);
754       break;
755     case DAC960_V1_Write:
756       CommandMailbox->Common.CommandOpcode = DAC960_V1_Write_Old;
757       DAC960_PD_To_P_TranslateReadWriteCommand(CommandMailbox);
758       break;
759     case DAC960_V1_ReadWithScatterGather:
760       CommandMailbox->Common.CommandOpcode =
761 	DAC960_V1_ReadWithScatterGather_Old;
762       DAC960_PD_To_P_TranslateReadWriteCommand(CommandMailbox);
763       break;
764     case DAC960_V1_WriteWithScatterGather:
765       CommandMailbox->Common.CommandOpcode =
766 	DAC960_V1_WriteWithScatterGather_Old;
767       DAC960_PD_To_P_TranslateReadWriteCommand(CommandMailbox);
768       break;
769     default:
770       break;
771     }
772   while (DAC960_PD_MailboxFullP(ControllerBaseAddress))
773     udelay(1);
774   DAC960_PD_WriteCommandMailbox(ControllerBaseAddress, CommandMailbox);
775   DAC960_PD_NewCommand(ControllerBaseAddress);
776 }
777 
778 
779 /*
780   DAC960_ExecuteCommand executes Command and waits for completion.
781 */
782 
DAC960_ExecuteCommand(DAC960_Command_T * Command)783 static void DAC960_ExecuteCommand(DAC960_Command_T *Command)
784 {
785   DAC960_Controller_T *Controller = Command->Controller;
786   DECLARE_COMPLETION_ONSTACK(Completion);
787   unsigned long flags;
788   Command->Completion = &Completion;
789 
790   spin_lock_irqsave(&Controller->queue_lock, flags);
791   DAC960_QueueCommand(Command);
792   spin_unlock_irqrestore(&Controller->queue_lock, flags);
793 
794   if (in_interrupt())
795 	  return;
796   wait_for_completion(&Completion);
797 }
798 
799 
800 /*
801   DAC960_V1_ExecuteType3 executes a DAC960 V1 Firmware Controller Type 3
802   Command and waits for completion.  It returns true on success and false
803   on failure.
804 */
805 
DAC960_V1_ExecuteType3(DAC960_Controller_T * Controller,DAC960_V1_CommandOpcode_T CommandOpcode,dma_addr_t DataDMA)806 static bool DAC960_V1_ExecuteType3(DAC960_Controller_T *Controller,
807 				      DAC960_V1_CommandOpcode_T CommandOpcode,
808 				      dma_addr_t DataDMA)
809 {
810   DAC960_Command_T *Command = DAC960_AllocateCommand(Controller);
811   DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
812   DAC960_V1_CommandStatus_T CommandStatus;
813   DAC960_V1_ClearCommand(Command);
814   Command->CommandType = DAC960_ImmediateCommand;
815   CommandMailbox->Type3.CommandOpcode = CommandOpcode;
816   CommandMailbox->Type3.BusAddress = DataDMA;
817   DAC960_ExecuteCommand(Command);
818   CommandStatus = Command->V1.CommandStatus;
819   DAC960_DeallocateCommand(Command);
820   return (CommandStatus == DAC960_V1_NormalCompletion);
821 }
822 
823 
824 /*
825   DAC960_V1_ExecuteTypeB executes a DAC960 V1 Firmware Controller Type 3B
826   Command and waits for completion.  It returns true on success and false
827   on failure.
828 */
829 
DAC960_V1_ExecuteType3B(DAC960_Controller_T * Controller,DAC960_V1_CommandOpcode_T CommandOpcode,unsigned char CommandOpcode2,dma_addr_t DataDMA)830 static bool DAC960_V1_ExecuteType3B(DAC960_Controller_T *Controller,
831 				       DAC960_V1_CommandOpcode_T CommandOpcode,
832 				       unsigned char CommandOpcode2,
833 				       dma_addr_t DataDMA)
834 {
835   DAC960_Command_T *Command = DAC960_AllocateCommand(Controller);
836   DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
837   DAC960_V1_CommandStatus_T CommandStatus;
838   DAC960_V1_ClearCommand(Command);
839   Command->CommandType = DAC960_ImmediateCommand;
840   CommandMailbox->Type3B.CommandOpcode = CommandOpcode;
841   CommandMailbox->Type3B.CommandOpcode2 = CommandOpcode2;
842   CommandMailbox->Type3B.BusAddress = DataDMA;
843   DAC960_ExecuteCommand(Command);
844   CommandStatus = Command->V1.CommandStatus;
845   DAC960_DeallocateCommand(Command);
846   return (CommandStatus == DAC960_V1_NormalCompletion);
847 }
848 
849 
850 /*
851   DAC960_V1_ExecuteType3D executes a DAC960 V1 Firmware Controller Type 3D
852   Command and waits for completion.  It returns true on success and false
853   on failure.
854 */
855 
DAC960_V1_ExecuteType3D(DAC960_Controller_T * Controller,DAC960_V1_CommandOpcode_T CommandOpcode,unsigned char Channel,unsigned char TargetID,dma_addr_t DataDMA)856 static bool DAC960_V1_ExecuteType3D(DAC960_Controller_T *Controller,
857 				       DAC960_V1_CommandOpcode_T CommandOpcode,
858 				       unsigned char Channel,
859 				       unsigned char TargetID,
860 				       dma_addr_t DataDMA)
861 {
862   DAC960_Command_T *Command = DAC960_AllocateCommand(Controller);
863   DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
864   DAC960_V1_CommandStatus_T CommandStatus;
865   DAC960_V1_ClearCommand(Command);
866   Command->CommandType = DAC960_ImmediateCommand;
867   CommandMailbox->Type3D.CommandOpcode = CommandOpcode;
868   CommandMailbox->Type3D.Channel = Channel;
869   CommandMailbox->Type3D.TargetID = TargetID;
870   CommandMailbox->Type3D.BusAddress = DataDMA;
871   DAC960_ExecuteCommand(Command);
872   CommandStatus = Command->V1.CommandStatus;
873   DAC960_DeallocateCommand(Command);
874   return (CommandStatus == DAC960_V1_NormalCompletion);
875 }
876 
877 
878 /*
879   DAC960_V2_GeneralInfo executes a DAC960 V2 Firmware General Information
880   Reading IOCTL Command and waits for completion.  It returns true on success
881   and false on failure.
882 
883   Return data in The controller's HealthStatusBuffer, which is dma-able memory
884 */
885 
DAC960_V2_GeneralInfo(DAC960_Controller_T * Controller)886 static bool DAC960_V2_GeneralInfo(DAC960_Controller_T *Controller)
887 {
888   DAC960_Command_T *Command = DAC960_AllocateCommand(Controller);
889   DAC960_V2_CommandMailbox_T *CommandMailbox = &Command->V2.CommandMailbox;
890   DAC960_V2_CommandStatus_T CommandStatus;
891   DAC960_V2_ClearCommand(Command);
892   Command->CommandType = DAC960_ImmediateCommand;
893   CommandMailbox->Common.CommandOpcode = DAC960_V2_IOCTL;
894   CommandMailbox->Common.CommandControlBits
895 			.DataTransferControllerToHost = true;
896   CommandMailbox->Common.CommandControlBits
897 			.NoAutoRequestSense = true;
898   CommandMailbox->Common.DataTransferSize = sizeof(DAC960_V2_HealthStatusBuffer_T);
899   CommandMailbox->Common.IOCTL_Opcode = DAC960_V2_GetHealthStatus;
900   CommandMailbox->Common.DataTransferMemoryAddress
901 			.ScatterGatherSegments[0]
902 			.SegmentDataPointer =
903     Controller->V2.HealthStatusBufferDMA;
904   CommandMailbox->Common.DataTransferMemoryAddress
905 			.ScatterGatherSegments[0]
906 			.SegmentByteCount =
907     CommandMailbox->Common.DataTransferSize;
908   DAC960_ExecuteCommand(Command);
909   CommandStatus = Command->V2.CommandStatus;
910   DAC960_DeallocateCommand(Command);
911   return (CommandStatus == DAC960_V2_NormalCompletion);
912 }
913 
914 
915 /*
916   DAC960_V2_ControllerInfo executes a DAC960 V2 Firmware Controller
917   Information Reading IOCTL Command and waits for completion.  It returns
918   true on success and false on failure.
919 
920   Data is returned in the controller's V2.NewControllerInformation dma-able
921   memory buffer.
922 */
923 
DAC960_V2_NewControllerInfo(DAC960_Controller_T * Controller)924 static bool DAC960_V2_NewControllerInfo(DAC960_Controller_T *Controller)
925 {
926   DAC960_Command_T *Command = DAC960_AllocateCommand(Controller);
927   DAC960_V2_CommandMailbox_T *CommandMailbox = &Command->V2.CommandMailbox;
928   DAC960_V2_CommandStatus_T CommandStatus;
929   DAC960_V2_ClearCommand(Command);
930   Command->CommandType = DAC960_ImmediateCommand;
931   CommandMailbox->ControllerInfo.CommandOpcode = DAC960_V2_IOCTL;
932   CommandMailbox->ControllerInfo.CommandControlBits
933 				.DataTransferControllerToHost = true;
934   CommandMailbox->ControllerInfo.CommandControlBits
935 				.NoAutoRequestSense = true;
936   CommandMailbox->ControllerInfo.DataTransferSize = sizeof(DAC960_V2_ControllerInfo_T);
937   CommandMailbox->ControllerInfo.ControllerNumber = 0;
938   CommandMailbox->ControllerInfo.IOCTL_Opcode = DAC960_V2_GetControllerInfo;
939   CommandMailbox->ControllerInfo.DataTransferMemoryAddress
940 				.ScatterGatherSegments[0]
941 				.SegmentDataPointer =
942     	Controller->V2.NewControllerInformationDMA;
943   CommandMailbox->ControllerInfo.DataTransferMemoryAddress
944 				.ScatterGatherSegments[0]
945 				.SegmentByteCount =
946     CommandMailbox->ControllerInfo.DataTransferSize;
947   DAC960_ExecuteCommand(Command);
948   CommandStatus = Command->V2.CommandStatus;
949   DAC960_DeallocateCommand(Command);
950   return (CommandStatus == DAC960_V2_NormalCompletion);
951 }
952 
953 
954 /*
955   DAC960_V2_LogicalDeviceInfo executes a DAC960 V2 Firmware Controller Logical
956   Device Information Reading IOCTL Command and waits for completion.  It
957   returns true on success and false on failure.
958 
959   Data is returned in the controller's V2.NewLogicalDeviceInformation
960 */
961 
DAC960_V2_NewLogicalDeviceInfo(DAC960_Controller_T * Controller,unsigned short LogicalDeviceNumber)962 static bool DAC960_V2_NewLogicalDeviceInfo(DAC960_Controller_T *Controller,
963 					   unsigned short LogicalDeviceNumber)
964 {
965   DAC960_Command_T *Command = DAC960_AllocateCommand(Controller);
966   DAC960_V2_CommandMailbox_T *CommandMailbox = &Command->V2.CommandMailbox;
967   DAC960_V2_CommandStatus_T CommandStatus;
968 
969   DAC960_V2_ClearCommand(Command);
970   Command->CommandType = DAC960_ImmediateCommand;
971   CommandMailbox->LogicalDeviceInfo.CommandOpcode =
972 				DAC960_V2_IOCTL;
973   CommandMailbox->LogicalDeviceInfo.CommandControlBits
974 				   .DataTransferControllerToHost = true;
975   CommandMailbox->LogicalDeviceInfo.CommandControlBits
976 				   .NoAutoRequestSense = true;
977   CommandMailbox->LogicalDeviceInfo.DataTransferSize =
978 				sizeof(DAC960_V2_LogicalDeviceInfo_T);
979   CommandMailbox->LogicalDeviceInfo.LogicalDevice.LogicalDeviceNumber =
980     LogicalDeviceNumber;
981   CommandMailbox->LogicalDeviceInfo.IOCTL_Opcode = DAC960_V2_GetLogicalDeviceInfoValid;
982   CommandMailbox->LogicalDeviceInfo.DataTransferMemoryAddress
983 				   .ScatterGatherSegments[0]
984 				   .SegmentDataPointer =
985     	Controller->V2.NewLogicalDeviceInformationDMA;
986   CommandMailbox->LogicalDeviceInfo.DataTransferMemoryAddress
987 				   .ScatterGatherSegments[0]
988 				   .SegmentByteCount =
989     CommandMailbox->LogicalDeviceInfo.DataTransferSize;
990   DAC960_ExecuteCommand(Command);
991   CommandStatus = Command->V2.CommandStatus;
992   DAC960_DeallocateCommand(Command);
993   return (CommandStatus == DAC960_V2_NormalCompletion);
994 }
995 
996 
997 /*
998   DAC960_V2_PhysicalDeviceInfo executes a DAC960 V2 Firmware Controller "Read
999   Physical Device Information" IOCTL Command and waits for completion.  It
1000   returns true on success and false on failure.
1001 
1002   The Channel, TargetID, LogicalUnit arguments should be 0 the first time
1003   this function is called for a given controller.  This will return data
1004   for the "first" device on that controller.  The returned data includes a
1005   Channel, TargetID, LogicalUnit that can be passed in to this routine to
1006   get data for the NEXT device on that controller.
1007 
1008   Data is stored in the controller's V2.NewPhysicalDeviceInfo dma-able
1009   memory buffer.
1010 
1011 */
1012 
DAC960_V2_NewPhysicalDeviceInfo(DAC960_Controller_T * Controller,unsigned char Channel,unsigned char TargetID,unsigned char LogicalUnit)1013 static bool DAC960_V2_NewPhysicalDeviceInfo(DAC960_Controller_T *Controller,
1014 					    unsigned char Channel,
1015 					    unsigned char TargetID,
1016 					    unsigned char LogicalUnit)
1017 {
1018   DAC960_Command_T *Command = DAC960_AllocateCommand(Controller);
1019   DAC960_V2_CommandMailbox_T *CommandMailbox = &Command->V2.CommandMailbox;
1020   DAC960_V2_CommandStatus_T CommandStatus;
1021 
1022   DAC960_V2_ClearCommand(Command);
1023   Command->CommandType = DAC960_ImmediateCommand;
1024   CommandMailbox->PhysicalDeviceInfo.CommandOpcode = DAC960_V2_IOCTL;
1025   CommandMailbox->PhysicalDeviceInfo.CommandControlBits
1026 				    .DataTransferControllerToHost = true;
1027   CommandMailbox->PhysicalDeviceInfo.CommandControlBits
1028 				    .NoAutoRequestSense = true;
1029   CommandMailbox->PhysicalDeviceInfo.DataTransferSize =
1030 				sizeof(DAC960_V2_PhysicalDeviceInfo_T);
1031   CommandMailbox->PhysicalDeviceInfo.PhysicalDevice.LogicalUnit = LogicalUnit;
1032   CommandMailbox->PhysicalDeviceInfo.PhysicalDevice.TargetID = TargetID;
1033   CommandMailbox->PhysicalDeviceInfo.PhysicalDevice.Channel = Channel;
1034   CommandMailbox->PhysicalDeviceInfo.IOCTL_Opcode =
1035 					DAC960_V2_GetPhysicalDeviceInfoValid;
1036   CommandMailbox->PhysicalDeviceInfo.DataTransferMemoryAddress
1037 				    .ScatterGatherSegments[0]
1038 				    .SegmentDataPointer =
1039     					Controller->V2.NewPhysicalDeviceInformationDMA;
1040   CommandMailbox->PhysicalDeviceInfo.DataTransferMemoryAddress
1041 				    .ScatterGatherSegments[0]
1042 				    .SegmentByteCount =
1043     CommandMailbox->PhysicalDeviceInfo.DataTransferSize;
1044   DAC960_ExecuteCommand(Command);
1045   CommandStatus = Command->V2.CommandStatus;
1046   DAC960_DeallocateCommand(Command);
1047   return (CommandStatus == DAC960_V2_NormalCompletion);
1048 }
1049 
1050 
DAC960_V2_ConstructNewUnitSerialNumber(DAC960_Controller_T * Controller,DAC960_V2_CommandMailbox_T * CommandMailbox,int Channel,int TargetID,int LogicalUnit)1051 static void DAC960_V2_ConstructNewUnitSerialNumber(
1052 	DAC960_Controller_T *Controller,
1053 	DAC960_V2_CommandMailbox_T *CommandMailbox, int Channel, int TargetID,
1054 	int LogicalUnit)
1055 {
1056       CommandMailbox->SCSI_10.CommandOpcode = DAC960_V2_SCSI_10_Passthru;
1057       CommandMailbox->SCSI_10.CommandControlBits
1058 			     .DataTransferControllerToHost = true;
1059       CommandMailbox->SCSI_10.CommandControlBits
1060 			     .NoAutoRequestSense = true;
1061       CommandMailbox->SCSI_10.DataTransferSize =
1062 	sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T);
1063       CommandMailbox->SCSI_10.PhysicalDevice.LogicalUnit = LogicalUnit;
1064       CommandMailbox->SCSI_10.PhysicalDevice.TargetID = TargetID;
1065       CommandMailbox->SCSI_10.PhysicalDevice.Channel = Channel;
1066       CommandMailbox->SCSI_10.CDBLength = 6;
1067       CommandMailbox->SCSI_10.SCSI_CDB[0] = 0x12; /* INQUIRY */
1068       CommandMailbox->SCSI_10.SCSI_CDB[1] = 1; /* EVPD = 1 */
1069       CommandMailbox->SCSI_10.SCSI_CDB[2] = 0x80; /* Page Code */
1070       CommandMailbox->SCSI_10.SCSI_CDB[3] = 0; /* Reserved */
1071       CommandMailbox->SCSI_10.SCSI_CDB[4] =
1072 	sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T);
1073       CommandMailbox->SCSI_10.SCSI_CDB[5] = 0; /* Control */
1074       CommandMailbox->SCSI_10.DataTransferMemoryAddress
1075 			     .ScatterGatherSegments[0]
1076 			     .SegmentDataPointer =
1077 		Controller->V2.NewInquiryUnitSerialNumberDMA;
1078       CommandMailbox->SCSI_10.DataTransferMemoryAddress
1079 			     .ScatterGatherSegments[0]
1080 			     .SegmentByteCount =
1081 		CommandMailbox->SCSI_10.DataTransferSize;
1082 }
1083 
1084 
1085 /*
1086   DAC960_V2_NewUnitSerialNumber executes an SCSI pass-through
1087   Inquiry command to a SCSI device identified by Channel number,
1088   Target id, Logical Unit Number.  This function Waits for completion
1089   of the command.
1090 
1091   The return data includes Unit Serial Number information for the
1092   specified device.
1093 
1094   Data is stored in the controller's V2.NewPhysicalDeviceInfo dma-able
1095   memory buffer.
1096 */
1097 
DAC960_V2_NewInquiryUnitSerialNumber(DAC960_Controller_T * Controller,int Channel,int TargetID,int LogicalUnit)1098 static bool DAC960_V2_NewInquiryUnitSerialNumber(DAC960_Controller_T *Controller,
1099 			int Channel, int TargetID, int LogicalUnit)
1100 {
1101       DAC960_Command_T *Command;
1102       DAC960_V2_CommandMailbox_T *CommandMailbox;
1103       DAC960_V2_CommandStatus_T CommandStatus;
1104 
1105       Command = DAC960_AllocateCommand(Controller);
1106       CommandMailbox = &Command->V2.CommandMailbox;
1107       DAC960_V2_ClearCommand(Command);
1108       Command->CommandType = DAC960_ImmediateCommand;
1109 
1110       DAC960_V2_ConstructNewUnitSerialNumber(Controller, CommandMailbox,
1111 			Channel, TargetID, LogicalUnit);
1112 
1113       DAC960_ExecuteCommand(Command);
1114       CommandStatus = Command->V2.CommandStatus;
1115       DAC960_DeallocateCommand(Command);
1116       return (CommandStatus == DAC960_V2_NormalCompletion);
1117 }
1118 
1119 
1120 /*
1121   DAC960_V2_DeviceOperation executes a DAC960 V2 Firmware Controller Device
1122   Operation IOCTL Command and waits for completion.  It returns true on
1123   success and false on failure.
1124 */
1125 
DAC960_V2_DeviceOperation(DAC960_Controller_T * Controller,DAC960_V2_IOCTL_Opcode_T IOCTL_Opcode,DAC960_V2_OperationDevice_T OperationDevice)1126 static bool DAC960_V2_DeviceOperation(DAC960_Controller_T *Controller,
1127 					 DAC960_V2_IOCTL_Opcode_T IOCTL_Opcode,
1128 					 DAC960_V2_OperationDevice_T
1129 					   OperationDevice)
1130 {
1131   DAC960_Command_T *Command = DAC960_AllocateCommand(Controller);
1132   DAC960_V2_CommandMailbox_T *CommandMailbox = &Command->V2.CommandMailbox;
1133   DAC960_V2_CommandStatus_T CommandStatus;
1134   DAC960_V2_ClearCommand(Command);
1135   Command->CommandType = DAC960_ImmediateCommand;
1136   CommandMailbox->DeviceOperation.CommandOpcode = DAC960_V2_IOCTL;
1137   CommandMailbox->DeviceOperation.CommandControlBits
1138 				 .DataTransferControllerToHost = true;
1139   CommandMailbox->DeviceOperation.CommandControlBits
1140     				 .NoAutoRequestSense = true;
1141   CommandMailbox->DeviceOperation.IOCTL_Opcode = IOCTL_Opcode;
1142   CommandMailbox->DeviceOperation.OperationDevice = OperationDevice;
1143   DAC960_ExecuteCommand(Command);
1144   CommandStatus = Command->V2.CommandStatus;
1145   DAC960_DeallocateCommand(Command);
1146   return (CommandStatus == DAC960_V2_NormalCompletion);
1147 }
1148 
1149 
1150 /*
1151   DAC960_V1_EnableMemoryMailboxInterface enables the Memory Mailbox Interface
1152   for DAC960 V1 Firmware Controllers.
1153 
1154   PD and P controller types have no memory mailbox, but still need the
1155   other dma mapped memory.
1156 */
1157 
DAC960_V1_EnableMemoryMailboxInterface(DAC960_Controller_T * Controller)1158 static bool DAC960_V1_EnableMemoryMailboxInterface(DAC960_Controller_T
1159 						      *Controller)
1160 {
1161   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
1162   DAC960_HardwareType_T hw_type = Controller->HardwareType;
1163   struct pci_dev *PCI_Device = Controller->PCIDevice;
1164   struct dma_loaf *DmaPages = &Controller->DmaPages;
1165   size_t DmaPagesSize;
1166   size_t CommandMailboxesSize;
1167   size_t StatusMailboxesSize;
1168 
1169   DAC960_V1_CommandMailbox_T *CommandMailboxesMemory;
1170   dma_addr_t CommandMailboxesMemoryDMA;
1171 
1172   DAC960_V1_StatusMailbox_T *StatusMailboxesMemory;
1173   dma_addr_t StatusMailboxesMemoryDMA;
1174 
1175   DAC960_V1_CommandMailbox_T CommandMailbox;
1176   DAC960_V1_CommandStatus_T CommandStatus;
1177   int TimeoutCounter;
1178   int i;
1179 
1180   memset(&CommandMailbox, 0, sizeof(DAC960_V1_CommandMailbox_T));
1181 
1182   if (pci_set_dma_mask(Controller->PCIDevice, DMA_BIT_MASK(32)))
1183 	return DAC960_Failure(Controller, "DMA mask out of range");
1184   Controller->BounceBufferLimit = DMA_BIT_MASK(32);
1185 
1186   if ((hw_type == DAC960_PD_Controller) || (hw_type == DAC960_P_Controller)) {
1187     CommandMailboxesSize =  0;
1188     StatusMailboxesSize = 0;
1189   } else {
1190     CommandMailboxesSize =  DAC960_V1_CommandMailboxCount * sizeof(DAC960_V1_CommandMailbox_T);
1191     StatusMailboxesSize = DAC960_V1_StatusMailboxCount * sizeof(DAC960_V1_StatusMailbox_T);
1192   }
1193   DmaPagesSize = CommandMailboxesSize + StatusMailboxesSize +
1194 	sizeof(DAC960_V1_DCDB_T) + sizeof(DAC960_V1_Enquiry_T) +
1195 	sizeof(DAC960_V1_ErrorTable_T) + sizeof(DAC960_V1_EventLogEntry_T) +
1196 	sizeof(DAC960_V1_RebuildProgress_T) +
1197 	sizeof(DAC960_V1_LogicalDriveInformationArray_T) +
1198 	sizeof(DAC960_V1_BackgroundInitializationStatus_T) +
1199 	sizeof(DAC960_V1_DeviceState_T) + sizeof(DAC960_SCSI_Inquiry_T) +
1200 	sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T);
1201 
1202   if (!init_dma_loaf(PCI_Device, DmaPages, DmaPagesSize))
1203 	return false;
1204 
1205 
1206   if ((hw_type == DAC960_PD_Controller) || (hw_type == DAC960_P_Controller))
1207 	goto skip_mailboxes;
1208 
1209   CommandMailboxesMemory = slice_dma_loaf(DmaPages,
1210                 CommandMailboxesSize, &CommandMailboxesMemoryDMA);
1211 
1212   /* These are the base addresses for the command memory mailbox array */
1213   Controller->V1.FirstCommandMailbox = CommandMailboxesMemory;
1214   Controller->V1.FirstCommandMailboxDMA = CommandMailboxesMemoryDMA;
1215 
1216   CommandMailboxesMemory += DAC960_V1_CommandMailboxCount - 1;
1217   Controller->V1.LastCommandMailbox = CommandMailboxesMemory;
1218   Controller->V1.NextCommandMailbox = Controller->V1.FirstCommandMailbox;
1219   Controller->V1.PreviousCommandMailbox1 = Controller->V1.LastCommandMailbox;
1220   Controller->V1.PreviousCommandMailbox2 =
1221 	  				Controller->V1.LastCommandMailbox - 1;
1222 
1223   /* These are the base addresses for the status memory mailbox array */
1224   StatusMailboxesMemory = slice_dma_loaf(DmaPages,
1225                 StatusMailboxesSize, &StatusMailboxesMemoryDMA);
1226 
1227   Controller->V1.FirstStatusMailbox = StatusMailboxesMemory;
1228   Controller->V1.FirstStatusMailboxDMA = StatusMailboxesMemoryDMA;
1229   StatusMailboxesMemory += DAC960_V1_StatusMailboxCount - 1;
1230   Controller->V1.LastStatusMailbox = StatusMailboxesMemory;
1231   Controller->V1.NextStatusMailbox = Controller->V1.FirstStatusMailbox;
1232 
1233 skip_mailboxes:
1234   Controller->V1.MonitoringDCDB = slice_dma_loaf(DmaPages,
1235                 sizeof(DAC960_V1_DCDB_T),
1236                 &Controller->V1.MonitoringDCDB_DMA);
1237 
1238   Controller->V1.NewEnquiry = slice_dma_loaf(DmaPages,
1239                 sizeof(DAC960_V1_Enquiry_T),
1240                 &Controller->V1.NewEnquiryDMA);
1241 
1242   Controller->V1.NewErrorTable = slice_dma_loaf(DmaPages,
1243                 sizeof(DAC960_V1_ErrorTable_T),
1244                 &Controller->V1.NewErrorTableDMA);
1245 
1246   Controller->V1.EventLogEntry = slice_dma_loaf(DmaPages,
1247                 sizeof(DAC960_V1_EventLogEntry_T),
1248                 &Controller->V1.EventLogEntryDMA);
1249 
1250   Controller->V1.RebuildProgress = slice_dma_loaf(DmaPages,
1251                 sizeof(DAC960_V1_RebuildProgress_T),
1252                 &Controller->V1.RebuildProgressDMA);
1253 
1254   Controller->V1.NewLogicalDriveInformation = slice_dma_loaf(DmaPages,
1255                 sizeof(DAC960_V1_LogicalDriveInformationArray_T),
1256                 &Controller->V1.NewLogicalDriveInformationDMA);
1257 
1258   Controller->V1.BackgroundInitializationStatus = slice_dma_loaf(DmaPages,
1259                 sizeof(DAC960_V1_BackgroundInitializationStatus_T),
1260                 &Controller->V1.BackgroundInitializationStatusDMA);
1261 
1262   Controller->V1.NewDeviceState = slice_dma_loaf(DmaPages,
1263                 sizeof(DAC960_V1_DeviceState_T),
1264                 &Controller->V1.NewDeviceStateDMA);
1265 
1266   Controller->V1.NewInquiryStandardData = slice_dma_loaf(DmaPages,
1267                 sizeof(DAC960_SCSI_Inquiry_T),
1268                 &Controller->V1.NewInquiryStandardDataDMA);
1269 
1270   Controller->V1.NewInquiryUnitSerialNumber = slice_dma_loaf(DmaPages,
1271                 sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T),
1272                 &Controller->V1.NewInquiryUnitSerialNumberDMA);
1273 
1274   if ((hw_type == DAC960_PD_Controller) || (hw_type == DAC960_P_Controller))
1275 	return true;
1276 
1277   /* Enable the Memory Mailbox Interface. */
1278   Controller->V1.DualModeMemoryMailboxInterface = true;
1279   CommandMailbox.TypeX.CommandOpcode = 0x2B;
1280   CommandMailbox.TypeX.CommandIdentifier = 0;
1281   CommandMailbox.TypeX.CommandOpcode2 = 0x14;
1282   CommandMailbox.TypeX.CommandMailboxesBusAddress =
1283     				Controller->V1.FirstCommandMailboxDMA;
1284   CommandMailbox.TypeX.StatusMailboxesBusAddress =
1285     				Controller->V1.FirstStatusMailboxDMA;
1286 #define TIMEOUT_COUNT 1000000
1287 
1288   for (i = 0; i < 2; i++)
1289     switch (Controller->HardwareType)
1290       {
1291       case DAC960_LA_Controller:
1292 	TimeoutCounter = TIMEOUT_COUNT;
1293 	while (--TimeoutCounter >= 0)
1294 	  {
1295 	    if (!DAC960_LA_HardwareMailboxFullP(ControllerBaseAddress))
1296 	      break;
1297 	    udelay(10);
1298 	  }
1299 	if (TimeoutCounter < 0) return false;
1300 	DAC960_LA_WriteHardwareMailbox(ControllerBaseAddress, &CommandMailbox);
1301 	DAC960_LA_HardwareMailboxNewCommand(ControllerBaseAddress);
1302 	TimeoutCounter = TIMEOUT_COUNT;
1303 	while (--TimeoutCounter >= 0)
1304 	  {
1305 	    if (DAC960_LA_HardwareMailboxStatusAvailableP(
1306 		  ControllerBaseAddress))
1307 	      break;
1308 	    udelay(10);
1309 	  }
1310 	if (TimeoutCounter < 0) return false;
1311 	CommandStatus = DAC960_LA_ReadStatusRegister(ControllerBaseAddress);
1312 	DAC960_LA_AcknowledgeHardwareMailboxInterrupt(ControllerBaseAddress);
1313 	DAC960_LA_AcknowledgeHardwareMailboxStatus(ControllerBaseAddress);
1314 	if (CommandStatus == DAC960_V1_NormalCompletion) return true;
1315 	Controller->V1.DualModeMemoryMailboxInterface = false;
1316 	CommandMailbox.TypeX.CommandOpcode2 = 0x10;
1317 	break;
1318       case DAC960_PG_Controller:
1319 	TimeoutCounter = TIMEOUT_COUNT;
1320 	while (--TimeoutCounter >= 0)
1321 	  {
1322 	    if (!DAC960_PG_HardwareMailboxFullP(ControllerBaseAddress))
1323 	      break;
1324 	    udelay(10);
1325 	  }
1326 	if (TimeoutCounter < 0) return false;
1327 	DAC960_PG_WriteHardwareMailbox(ControllerBaseAddress, &CommandMailbox);
1328 	DAC960_PG_HardwareMailboxNewCommand(ControllerBaseAddress);
1329 
1330 	TimeoutCounter = TIMEOUT_COUNT;
1331 	while (--TimeoutCounter >= 0)
1332 	  {
1333 	    if (DAC960_PG_HardwareMailboxStatusAvailableP(
1334 		  ControllerBaseAddress))
1335 	      break;
1336 	    udelay(10);
1337 	  }
1338 	if (TimeoutCounter < 0) return false;
1339 	CommandStatus = DAC960_PG_ReadStatusRegister(ControllerBaseAddress);
1340 	DAC960_PG_AcknowledgeHardwareMailboxInterrupt(ControllerBaseAddress);
1341 	DAC960_PG_AcknowledgeHardwareMailboxStatus(ControllerBaseAddress);
1342 	if (CommandStatus == DAC960_V1_NormalCompletion) return true;
1343 	Controller->V1.DualModeMemoryMailboxInterface = false;
1344 	CommandMailbox.TypeX.CommandOpcode2 = 0x10;
1345 	break;
1346       default:
1347         DAC960_Failure(Controller, "Unknown Controller Type\n");
1348 	break;
1349       }
1350   return false;
1351 }
1352 
1353 
1354 /*
1355   DAC960_V2_EnableMemoryMailboxInterface enables the Memory Mailbox Interface
1356   for DAC960 V2 Firmware Controllers.
1357 
1358   Aggregate the space needed for the controller's memory mailbox and
1359   the other data structures that will be targets of dma transfers with
1360   the controller.  Allocate a dma-mapped region of memory to hold these
1361   structures.  Then, save CPU pointers and dma_addr_t values to reference
1362   the structures that are contained in that region.
1363 */
1364 
DAC960_V2_EnableMemoryMailboxInterface(DAC960_Controller_T * Controller)1365 static bool DAC960_V2_EnableMemoryMailboxInterface(DAC960_Controller_T
1366 						      *Controller)
1367 {
1368   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
1369   struct pci_dev *PCI_Device = Controller->PCIDevice;
1370   struct dma_loaf *DmaPages = &Controller->DmaPages;
1371   size_t DmaPagesSize;
1372   size_t CommandMailboxesSize;
1373   size_t StatusMailboxesSize;
1374 
1375   DAC960_V2_CommandMailbox_T *CommandMailboxesMemory;
1376   dma_addr_t CommandMailboxesMemoryDMA;
1377 
1378   DAC960_V2_StatusMailbox_T *StatusMailboxesMemory;
1379   dma_addr_t StatusMailboxesMemoryDMA;
1380 
1381   DAC960_V2_CommandMailbox_T *CommandMailbox;
1382   dma_addr_t	CommandMailboxDMA;
1383   DAC960_V2_CommandStatus_T CommandStatus;
1384 
1385 	if (!pci_set_dma_mask(Controller->PCIDevice, DMA_BIT_MASK(64)))
1386 		Controller->BounceBufferLimit = DMA_BIT_MASK(64);
1387 	else if (!pci_set_dma_mask(Controller->PCIDevice, DMA_BIT_MASK(32)))
1388 		Controller->BounceBufferLimit = DMA_BIT_MASK(32);
1389 	else
1390 		return DAC960_Failure(Controller, "DMA mask out of range");
1391 
1392   /* This is a temporary dma mapping, used only in the scope of this function */
1393   CommandMailbox = pci_alloc_consistent(PCI_Device,
1394 		sizeof(DAC960_V2_CommandMailbox_T), &CommandMailboxDMA);
1395   if (CommandMailbox == NULL)
1396 	  return false;
1397 
1398   CommandMailboxesSize = DAC960_V2_CommandMailboxCount * sizeof(DAC960_V2_CommandMailbox_T);
1399   StatusMailboxesSize = DAC960_V2_StatusMailboxCount * sizeof(DAC960_V2_StatusMailbox_T);
1400   DmaPagesSize =
1401     CommandMailboxesSize + StatusMailboxesSize +
1402     sizeof(DAC960_V2_HealthStatusBuffer_T) +
1403     sizeof(DAC960_V2_ControllerInfo_T) +
1404     sizeof(DAC960_V2_LogicalDeviceInfo_T) +
1405     sizeof(DAC960_V2_PhysicalDeviceInfo_T) +
1406     sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T) +
1407     sizeof(DAC960_V2_Event_T) +
1408     sizeof(DAC960_V2_PhysicalToLogicalDevice_T);
1409 
1410   if (!init_dma_loaf(PCI_Device, DmaPages, DmaPagesSize)) {
1411   	pci_free_consistent(PCI_Device, sizeof(DAC960_V2_CommandMailbox_T),
1412 					CommandMailbox, CommandMailboxDMA);
1413 	return false;
1414   }
1415 
1416   CommandMailboxesMemory = slice_dma_loaf(DmaPages,
1417 		CommandMailboxesSize, &CommandMailboxesMemoryDMA);
1418 
1419   /* These are the base addresses for the command memory mailbox array */
1420   Controller->V2.FirstCommandMailbox = CommandMailboxesMemory;
1421   Controller->V2.FirstCommandMailboxDMA = CommandMailboxesMemoryDMA;
1422 
1423   CommandMailboxesMemory += DAC960_V2_CommandMailboxCount - 1;
1424   Controller->V2.LastCommandMailbox = CommandMailboxesMemory;
1425   Controller->V2.NextCommandMailbox = Controller->V2.FirstCommandMailbox;
1426   Controller->V2.PreviousCommandMailbox1 = Controller->V2.LastCommandMailbox;
1427   Controller->V2.PreviousCommandMailbox2 =
1428     					Controller->V2.LastCommandMailbox - 1;
1429 
1430   /* These are the base addresses for the status memory mailbox array */
1431   StatusMailboxesMemory = slice_dma_loaf(DmaPages,
1432 		StatusMailboxesSize, &StatusMailboxesMemoryDMA);
1433 
1434   Controller->V2.FirstStatusMailbox = StatusMailboxesMemory;
1435   Controller->V2.FirstStatusMailboxDMA = StatusMailboxesMemoryDMA;
1436   StatusMailboxesMemory += DAC960_V2_StatusMailboxCount - 1;
1437   Controller->V2.LastStatusMailbox = StatusMailboxesMemory;
1438   Controller->V2.NextStatusMailbox = Controller->V2.FirstStatusMailbox;
1439 
1440   Controller->V2.HealthStatusBuffer = slice_dma_loaf(DmaPages,
1441 		sizeof(DAC960_V2_HealthStatusBuffer_T),
1442 		&Controller->V2.HealthStatusBufferDMA);
1443 
1444   Controller->V2.NewControllerInformation = slice_dma_loaf(DmaPages,
1445                 sizeof(DAC960_V2_ControllerInfo_T),
1446                 &Controller->V2.NewControllerInformationDMA);
1447 
1448   Controller->V2.NewLogicalDeviceInformation =  slice_dma_loaf(DmaPages,
1449                 sizeof(DAC960_V2_LogicalDeviceInfo_T),
1450                 &Controller->V2.NewLogicalDeviceInformationDMA);
1451 
1452   Controller->V2.NewPhysicalDeviceInformation = slice_dma_loaf(DmaPages,
1453                 sizeof(DAC960_V2_PhysicalDeviceInfo_T),
1454                 &Controller->V2.NewPhysicalDeviceInformationDMA);
1455 
1456   Controller->V2.NewInquiryUnitSerialNumber = slice_dma_loaf(DmaPages,
1457                 sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T),
1458                 &Controller->V2.NewInquiryUnitSerialNumberDMA);
1459 
1460   Controller->V2.Event = slice_dma_loaf(DmaPages,
1461                 sizeof(DAC960_V2_Event_T),
1462                 &Controller->V2.EventDMA);
1463 
1464   Controller->V2.PhysicalToLogicalDevice = slice_dma_loaf(DmaPages,
1465                 sizeof(DAC960_V2_PhysicalToLogicalDevice_T),
1466                 &Controller->V2.PhysicalToLogicalDeviceDMA);
1467 
1468   /*
1469     Enable the Memory Mailbox Interface.
1470 
1471     I don't know why we can't just use one of the memory mailboxes
1472     we just allocated to do this, instead of using this temporary one.
1473     Try this change later.
1474   */
1475   memset(CommandMailbox, 0, sizeof(DAC960_V2_CommandMailbox_T));
1476   CommandMailbox->SetMemoryMailbox.CommandIdentifier = 1;
1477   CommandMailbox->SetMemoryMailbox.CommandOpcode = DAC960_V2_IOCTL;
1478   CommandMailbox->SetMemoryMailbox.CommandControlBits.NoAutoRequestSense = true;
1479   CommandMailbox->SetMemoryMailbox.FirstCommandMailboxSizeKB =
1480     (DAC960_V2_CommandMailboxCount * sizeof(DAC960_V2_CommandMailbox_T)) >> 10;
1481   CommandMailbox->SetMemoryMailbox.FirstStatusMailboxSizeKB =
1482     (DAC960_V2_StatusMailboxCount * sizeof(DAC960_V2_StatusMailbox_T)) >> 10;
1483   CommandMailbox->SetMemoryMailbox.SecondCommandMailboxSizeKB = 0;
1484   CommandMailbox->SetMemoryMailbox.SecondStatusMailboxSizeKB = 0;
1485   CommandMailbox->SetMemoryMailbox.RequestSenseSize = 0;
1486   CommandMailbox->SetMemoryMailbox.IOCTL_Opcode = DAC960_V2_SetMemoryMailbox;
1487   CommandMailbox->SetMemoryMailbox.HealthStatusBufferSizeKB = 1;
1488   CommandMailbox->SetMemoryMailbox.HealthStatusBufferBusAddress =
1489     					Controller->V2.HealthStatusBufferDMA;
1490   CommandMailbox->SetMemoryMailbox.FirstCommandMailboxBusAddress =
1491     					Controller->V2.FirstCommandMailboxDMA;
1492   CommandMailbox->SetMemoryMailbox.FirstStatusMailboxBusAddress =
1493     					Controller->V2.FirstStatusMailboxDMA;
1494   switch (Controller->HardwareType)
1495     {
1496     case DAC960_GEM_Controller:
1497       while (DAC960_GEM_HardwareMailboxFullP(ControllerBaseAddress))
1498 	udelay(1);
1499       DAC960_GEM_WriteHardwareMailbox(ControllerBaseAddress, CommandMailboxDMA);
1500       DAC960_GEM_HardwareMailboxNewCommand(ControllerBaseAddress);
1501       while (!DAC960_GEM_HardwareMailboxStatusAvailableP(ControllerBaseAddress))
1502 	udelay(1);
1503       CommandStatus = DAC960_GEM_ReadCommandStatus(ControllerBaseAddress);
1504       DAC960_GEM_AcknowledgeHardwareMailboxInterrupt(ControllerBaseAddress);
1505       DAC960_GEM_AcknowledgeHardwareMailboxStatus(ControllerBaseAddress);
1506       break;
1507     case DAC960_BA_Controller:
1508       while (DAC960_BA_HardwareMailboxFullP(ControllerBaseAddress))
1509 	udelay(1);
1510       DAC960_BA_WriteHardwareMailbox(ControllerBaseAddress, CommandMailboxDMA);
1511       DAC960_BA_HardwareMailboxNewCommand(ControllerBaseAddress);
1512       while (!DAC960_BA_HardwareMailboxStatusAvailableP(ControllerBaseAddress))
1513 	udelay(1);
1514       CommandStatus = DAC960_BA_ReadCommandStatus(ControllerBaseAddress);
1515       DAC960_BA_AcknowledgeHardwareMailboxInterrupt(ControllerBaseAddress);
1516       DAC960_BA_AcknowledgeHardwareMailboxStatus(ControllerBaseAddress);
1517       break;
1518     case DAC960_LP_Controller:
1519       while (DAC960_LP_HardwareMailboxFullP(ControllerBaseAddress))
1520 	udelay(1);
1521       DAC960_LP_WriteHardwareMailbox(ControllerBaseAddress, CommandMailboxDMA);
1522       DAC960_LP_HardwareMailboxNewCommand(ControllerBaseAddress);
1523       while (!DAC960_LP_HardwareMailboxStatusAvailableP(ControllerBaseAddress))
1524 	udelay(1);
1525       CommandStatus = DAC960_LP_ReadCommandStatus(ControllerBaseAddress);
1526       DAC960_LP_AcknowledgeHardwareMailboxInterrupt(ControllerBaseAddress);
1527       DAC960_LP_AcknowledgeHardwareMailboxStatus(ControllerBaseAddress);
1528       break;
1529     default:
1530       DAC960_Failure(Controller, "Unknown Controller Type\n");
1531       CommandStatus = DAC960_V2_AbormalCompletion;
1532       break;
1533     }
1534   pci_free_consistent(PCI_Device, sizeof(DAC960_V2_CommandMailbox_T),
1535 					CommandMailbox, CommandMailboxDMA);
1536   return (CommandStatus == DAC960_V2_NormalCompletion);
1537 }
1538 
1539 
1540 /*
1541   DAC960_V1_ReadControllerConfiguration reads the Configuration Information
1542   from DAC960 V1 Firmware Controllers and initializes the Controller structure.
1543 */
1544 
DAC960_V1_ReadControllerConfiguration(DAC960_Controller_T * Controller)1545 static bool DAC960_V1_ReadControllerConfiguration(DAC960_Controller_T
1546 						     *Controller)
1547 {
1548   DAC960_V1_Enquiry2_T *Enquiry2;
1549   dma_addr_t Enquiry2DMA;
1550   DAC960_V1_Config2_T *Config2;
1551   dma_addr_t Config2DMA;
1552   int LogicalDriveNumber, Channel, TargetID;
1553   struct dma_loaf local_dma;
1554 
1555   if (!init_dma_loaf(Controller->PCIDevice, &local_dma,
1556 		sizeof(DAC960_V1_Enquiry2_T) + sizeof(DAC960_V1_Config2_T)))
1557 	return DAC960_Failure(Controller, "LOGICAL DEVICE ALLOCATION");
1558 
1559   Enquiry2 = slice_dma_loaf(&local_dma, sizeof(DAC960_V1_Enquiry2_T), &Enquiry2DMA);
1560   Config2 = slice_dma_loaf(&local_dma, sizeof(DAC960_V1_Config2_T), &Config2DMA);
1561 
1562   if (!DAC960_V1_ExecuteType3(Controller, DAC960_V1_Enquiry,
1563 			      Controller->V1.NewEnquiryDMA)) {
1564     free_dma_loaf(Controller->PCIDevice, &local_dma);
1565     return DAC960_Failure(Controller, "ENQUIRY");
1566   }
1567   memcpy(&Controller->V1.Enquiry, Controller->V1.NewEnquiry,
1568 						sizeof(DAC960_V1_Enquiry_T));
1569 
1570   if (!DAC960_V1_ExecuteType3(Controller, DAC960_V1_Enquiry2, Enquiry2DMA)) {
1571     free_dma_loaf(Controller->PCIDevice, &local_dma);
1572     return DAC960_Failure(Controller, "ENQUIRY2");
1573   }
1574 
1575   if (!DAC960_V1_ExecuteType3(Controller, DAC960_V1_ReadConfig2, Config2DMA)) {
1576     free_dma_loaf(Controller->PCIDevice, &local_dma);
1577     return DAC960_Failure(Controller, "READ CONFIG2");
1578   }
1579 
1580   if (!DAC960_V1_ExecuteType3(Controller, DAC960_V1_GetLogicalDriveInformation,
1581 			      Controller->V1.NewLogicalDriveInformationDMA)) {
1582     free_dma_loaf(Controller->PCIDevice, &local_dma);
1583     return DAC960_Failure(Controller, "GET LOGICAL DRIVE INFORMATION");
1584   }
1585   memcpy(&Controller->V1.LogicalDriveInformation,
1586 		Controller->V1.NewLogicalDriveInformation,
1587 		sizeof(DAC960_V1_LogicalDriveInformationArray_T));
1588 
1589   for (Channel = 0; Channel < Enquiry2->ActualChannels; Channel++)
1590     for (TargetID = 0; TargetID < Enquiry2->MaxTargets; TargetID++) {
1591       if (!DAC960_V1_ExecuteType3D(Controller, DAC960_V1_GetDeviceState,
1592 				   Channel, TargetID,
1593 				   Controller->V1.NewDeviceStateDMA)) {
1594     		free_dma_loaf(Controller->PCIDevice, &local_dma);
1595 		return DAC960_Failure(Controller, "GET DEVICE STATE");
1596 	}
1597 	memcpy(&Controller->V1.DeviceState[Channel][TargetID],
1598 		Controller->V1.NewDeviceState, sizeof(DAC960_V1_DeviceState_T));
1599      }
1600   /*
1601     Initialize the Controller Model Name and Full Model Name fields.
1602   */
1603   switch (Enquiry2->HardwareID.SubModel)
1604     {
1605     case DAC960_V1_P_PD_PU:
1606       if (Enquiry2->SCSICapability.BusSpeed == DAC960_V1_Ultra)
1607 	strcpy(Controller->ModelName, "DAC960PU");
1608       else strcpy(Controller->ModelName, "DAC960PD");
1609       break;
1610     case DAC960_V1_PL:
1611       strcpy(Controller->ModelName, "DAC960PL");
1612       break;
1613     case DAC960_V1_PG:
1614       strcpy(Controller->ModelName, "DAC960PG");
1615       break;
1616     case DAC960_V1_PJ:
1617       strcpy(Controller->ModelName, "DAC960PJ");
1618       break;
1619     case DAC960_V1_PR:
1620       strcpy(Controller->ModelName, "DAC960PR");
1621       break;
1622     case DAC960_V1_PT:
1623       strcpy(Controller->ModelName, "DAC960PT");
1624       break;
1625     case DAC960_V1_PTL0:
1626       strcpy(Controller->ModelName, "DAC960PTL0");
1627       break;
1628     case DAC960_V1_PRL:
1629       strcpy(Controller->ModelName, "DAC960PRL");
1630       break;
1631     case DAC960_V1_PTL1:
1632       strcpy(Controller->ModelName, "DAC960PTL1");
1633       break;
1634     case DAC960_V1_1164P:
1635       strcpy(Controller->ModelName, "DAC1164P");
1636       break;
1637     default:
1638       free_dma_loaf(Controller->PCIDevice, &local_dma);
1639       return DAC960_Failure(Controller, "MODEL VERIFICATION");
1640     }
1641   strcpy(Controller->FullModelName, "Mylex ");
1642   strcat(Controller->FullModelName, Controller->ModelName);
1643   /*
1644     Initialize the Controller Firmware Version field and verify that it
1645     is a supported firmware version.  The supported firmware versions are:
1646 
1647     DAC1164P		    5.06 and above
1648     DAC960PTL/PRL/PJ/PG	    4.06 and above
1649     DAC960PU/PD/PL	    3.51 and above
1650     DAC960PU/PD/PL/P	    2.73 and above
1651   */
1652 #if defined(CONFIG_ALPHA)
1653   /*
1654     DEC Alpha machines were often equipped with DAC960 cards that were
1655     OEMed from Mylex, and had their own custom firmware. Version 2.70,
1656     the last custom FW revision to be released by DEC for these older
1657     controllers, appears to work quite well with this driver.
1658 
1659     Cards tested successfully were several versions each of the PD and
1660     PU, called by DEC the KZPSC and KZPAC, respectively, and having
1661     the Manufacturer Numbers (from Mylex), usually on a sticker on the
1662     back of the board, of:
1663 
1664     KZPSC:  D040347 (1-channel) or D040348 (2-channel) or D040349 (3-channel)
1665     KZPAC:  D040395 (1-channel) or D040396 (2-channel) or D040397 (3-channel)
1666   */
1667 # define FIRMWARE_27X	"2.70"
1668 #else
1669 # define FIRMWARE_27X	"2.73"
1670 #endif
1671 
1672   if (Enquiry2->FirmwareID.MajorVersion == 0)
1673     {
1674       Enquiry2->FirmwareID.MajorVersion =
1675 	Controller->V1.Enquiry.MajorFirmwareVersion;
1676       Enquiry2->FirmwareID.MinorVersion =
1677 	Controller->V1.Enquiry.MinorFirmwareVersion;
1678       Enquiry2->FirmwareID.FirmwareType = '0';
1679       Enquiry2->FirmwareID.TurnID = 0;
1680     }
1681   sprintf(Controller->FirmwareVersion, "%d.%02d-%c-%02d",
1682 	  Enquiry2->FirmwareID.MajorVersion, Enquiry2->FirmwareID.MinorVersion,
1683 	  Enquiry2->FirmwareID.FirmwareType, Enquiry2->FirmwareID.TurnID);
1684   if (!((Controller->FirmwareVersion[0] == '5' &&
1685 	 strcmp(Controller->FirmwareVersion, "5.06") >= 0) ||
1686 	(Controller->FirmwareVersion[0] == '4' &&
1687 	 strcmp(Controller->FirmwareVersion, "4.06") >= 0) ||
1688 	(Controller->FirmwareVersion[0] == '3' &&
1689 	 strcmp(Controller->FirmwareVersion, "3.51") >= 0) ||
1690 	(Controller->FirmwareVersion[0] == '2' &&
1691 	 strcmp(Controller->FirmwareVersion, FIRMWARE_27X) >= 0)))
1692     {
1693       DAC960_Failure(Controller, "FIRMWARE VERSION VERIFICATION");
1694       DAC960_Error("Firmware Version = '%s'\n", Controller,
1695 		   Controller->FirmwareVersion);
1696       free_dma_loaf(Controller->PCIDevice, &local_dma);
1697       return false;
1698     }
1699   /*
1700     Initialize the Controller Channels, Targets, Memory Size, and SAF-TE
1701     Enclosure Management Enabled fields.
1702   */
1703   Controller->Channels = Enquiry2->ActualChannels;
1704   Controller->Targets = Enquiry2->MaxTargets;
1705   Controller->MemorySize = Enquiry2->MemorySize >> 20;
1706   Controller->V1.SAFTE_EnclosureManagementEnabled =
1707     (Enquiry2->FaultManagementType == DAC960_V1_SAFTE);
1708   /*
1709     Initialize the Controller Queue Depth, Driver Queue Depth, Logical Drive
1710     Count, Maximum Blocks per Command, Controller Scatter/Gather Limit, and
1711     Driver Scatter/Gather Limit.  The Driver Queue Depth must be at most one
1712     less than the Controller Queue Depth to allow for an automatic drive
1713     rebuild operation.
1714   */
1715   Controller->ControllerQueueDepth = Controller->V1.Enquiry.MaxCommands;
1716   Controller->DriverQueueDepth = Controller->ControllerQueueDepth - 1;
1717   if (Controller->DriverQueueDepth > DAC960_MaxDriverQueueDepth)
1718     Controller->DriverQueueDepth = DAC960_MaxDriverQueueDepth;
1719   Controller->LogicalDriveCount =
1720     Controller->V1.Enquiry.NumberOfLogicalDrives;
1721   Controller->MaxBlocksPerCommand = Enquiry2->MaxBlocksPerCommand;
1722   Controller->ControllerScatterGatherLimit = Enquiry2->MaxScatterGatherEntries;
1723   Controller->DriverScatterGatherLimit =
1724     Controller->ControllerScatterGatherLimit;
1725   if (Controller->DriverScatterGatherLimit > DAC960_V1_ScatterGatherLimit)
1726     Controller->DriverScatterGatherLimit = DAC960_V1_ScatterGatherLimit;
1727   /*
1728     Initialize the Stripe Size, Segment Size, and Geometry Translation.
1729   */
1730   Controller->V1.StripeSize = Config2->BlocksPerStripe * Config2->BlockFactor
1731 			      >> (10 - DAC960_BlockSizeBits);
1732   Controller->V1.SegmentSize = Config2->BlocksPerCacheLine * Config2->BlockFactor
1733 			       >> (10 - DAC960_BlockSizeBits);
1734   switch (Config2->DriveGeometry)
1735     {
1736     case DAC960_V1_Geometry_128_32:
1737       Controller->V1.GeometryTranslationHeads = 128;
1738       Controller->V1.GeometryTranslationSectors = 32;
1739       break;
1740     case DAC960_V1_Geometry_255_63:
1741       Controller->V1.GeometryTranslationHeads = 255;
1742       Controller->V1.GeometryTranslationSectors = 63;
1743       break;
1744     default:
1745       free_dma_loaf(Controller->PCIDevice, &local_dma);
1746       return DAC960_Failure(Controller, "CONFIG2 DRIVE GEOMETRY");
1747     }
1748   /*
1749     Initialize the Background Initialization Status.
1750   */
1751   if ((Controller->FirmwareVersion[0] == '4' &&
1752       strcmp(Controller->FirmwareVersion, "4.08") >= 0) ||
1753       (Controller->FirmwareVersion[0] == '5' &&
1754        strcmp(Controller->FirmwareVersion, "5.08") >= 0))
1755     {
1756       Controller->V1.BackgroundInitializationStatusSupported = true;
1757       DAC960_V1_ExecuteType3B(Controller,
1758 			      DAC960_V1_BackgroundInitializationControl, 0x20,
1759 			      Controller->
1760 			       V1.BackgroundInitializationStatusDMA);
1761       memcpy(&Controller->V1.LastBackgroundInitializationStatus,
1762 		Controller->V1.BackgroundInitializationStatus,
1763 		sizeof(DAC960_V1_BackgroundInitializationStatus_T));
1764     }
1765   /*
1766     Initialize the Logical Drive Initially Accessible flag.
1767   */
1768   for (LogicalDriveNumber = 0;
1769        LogicalDriveNumber < Controller->LogicalDriveCount;
1770        LogicalDriveNumber++)
1771     if (Controller->V1.LogicalDriveInformation
1772 		       [LogicalDriveNumber].LogicalDriveState !=
1773 	DAC960_V1_LogicalDrive_Offline)
1774       Controller->LogicalDriveInitiallyAccessible[LogicalDriveNumber] = true;
1775   Controller->V1.LastRebuildStatus = DAC960_V1_NoRebuildOrCheckInProgress;
1776   free_dma_loaf(Controller->PCIDevice, &local_dma);
1777   return true;
1778 }
1779 
1780 
1781 /*
1782   DAC960_V2_ReadControllerConfiguration reads the Configuration Information
1783   from DAC960 V2 Firmware Controllers and initializes the Controller structure.
1784 */
1785 
DAC960_V2_ReadControllerConfiguration(DAC960_Controller_T * Controller)1786 static bool DAC960_V2_ReadControllerConfiguration(DAC960_Controller_T
1787 						     *Controller)
1788 {
1789   DAC960_V2_ControllerInfo_T *ControllerInfo =
1790     		&Controller->V2.ControllerInformation;
1791   unsigned short LogicalDeviceNumber = 0;
1792   int ModelNameLength;
1793 
1794   /* Get data into dma-able area, then copy into permanent location */
1795   if (!DAC960_V2_NewControllerInfo(Controller))
1796     return DAC960_Failure(Controller, "GET CONTROLLER INFO");
1797   memcpy(ControllerInfo, Controller->V2.NewControllerInformation,
1798 			sizeof(DAC960_V2_ControllerInfo_T));
1799 
1800 
1801   if (!DAC960_V2_GeneralInfo(Controller))
1802     return DAC960_Failure(Controller, "GET HEALTH STATUS");
1803 
1804   /*
1805     Initialize the Controller Model Name and Full Model Name fields.
1806   */
1807   ModelNameLength = sizeof(ControllerInfo->ControllerName);
1808   if (ModelNameLength > sizeof(Controller->ModelName)-1)
1809     ModelNameLength = sizeof(Controller->ModelName)-1;
1810   memcpy(Controller->ModelName, ControllerInfo->ControllerName,
1811 	 ModelNameLength);
1812   ModelNameLength--;
1813   while (Controller->ModelName[ModelNameLength] == ' ' ||
1814 	 Controller->ModelName[ModelNameLength] == '\0')
1815     ModelNameLength--;
1816   Controller->ModelName[++ModelNameLength] = '\0';
1817   strcpy(Controller->FullModelName, "Mylex ");
1818   strcat(Controller->FullModelName, Controller->ModelName);
1819   /*
1820     Initialize the Controller Firmware Version field.
1821   */
1822   sprintf(Controller->FirmwareVersion, "%d.%02d-%02d",
1823 	  ControllerInfo->FirmwareMajorVersion,
1824 	  ControllerInfo->FirmwareMinorVersion,
1825 	  ControllerInfo->FirmwareTurnNumber);
1826   if (ControllerInfo->FirmwareMajorVersion == 6 &&
1827       ControllerInfo->FirmwareMinorVersion == 0 &&
1828       ControllerInfo->FirmwareTurnNumber < 1)
1829     {
1830       DAC960_Info("FIRMWARE VERSION %s DOES NOT PROVIDE THE CONTROLLER\n",
1831 		  Controller, Controller->FirmwareVersion);
1832       DAC960_Info("STATUS MONITORING FUNCTIONALITY NEEDED BY THIS DRIVER.\n",
1833 		  Controller);
1834       DAC960_Info("PLEASE UPGRADE TO VERSION 6.00-01 OR ABOVE.\n",
1835 		  Controller);
1836     }
1837   /*
1838     Initialize the Controller Channels, Targets, and Memory Size.
1839   */
1840   Controller->Channels = ControllerInfo->NumberOfPhysicalChannelsPresent;
1841   Controller->Targets =
1842     ControllerInfo->MaximumTargetsPerChannel
1843 		    [ControllerInfo->NumberOfPhysicalChannelsPresent-1];
1844   Controller->MemorySize = ControllerInfo->MemorySizeMB;
1845   /*
1846     Initialize the Controller Queue Depth, Driver Queue Depth, Logical Drive
1847     Count, Maximum Blocks per Command, Controller Scatter/Gather Limit, and
1848     Driver Scatter/Gather Limit.  The Driver Queue Depth must be at most one
1849     less than the Controller Queue Depth to allow for an automatic drive
1850     rebuild operation.
1851   */
1852   Controller->ControllerQueueDepth = ControllerInfo->MaximumParallelCommands;
1853   Controller->DriverQueueDepth = Controller->ControllerQueueDepth - 1;
1854   if (Controller->DriverQueueDepth > DAC960_MaxDriverQueueDepth)
1855     Controller->DriverQueueDepth = DAC960_MaxDriverQueueDepth;
1856   Controller->LogicalDriveCount = ControllerInfo->LogicalDevicesPresent;
1857   Controller->MaxBlocksPerCommand =
1858     ControllerInfo->MaximumDataTransferSizeInBlocks;
1859   Controller->ControllerScatterGatherLimit =
1860     ControllerInfo->MaximumScatterGatherEntries;
1861   Controller->DriverScatterGatherLimit =
1862     Controller->ControllerScatterGatherLimit;
1863   if (Controller->DriverScatterGatherLimit > DAC960_V2_ScatterGatherLimit)
1864     Controller->DriverScatterGatherLimit = DAC960_V2_ScatterGatherLimit;
1865   /*
1866     Initialize the Logical Device Information.
1867   */
1868   while (true)
1869     {
1870       DAC960_V2_LogicalDeviceInfo_T *NewLogicalDeviceInfo =
1871 	Controller->V2.NewLogicalDeviceInformation;
1872       DAC960_V2_LogicalDeviceInfo_T *LogicalDeviceInfo;
1873       DAC960_V2_PhysicalDevice_T PhysicalDevice;
1874 
1875       if (!DAC960_V2_NewLogicalDeviceInfo(Controller, LogicalDeviceNumber))
1876 	break;
1877       LogicalDeviceNumber = NewLogicalDeviceInfo->LogicalDeviceNumber;
1878       if (LogicalDeviceNumber >= DAC960_MaxLogicalDrives) {
1879 	DAC960_Error("DAC960: Logical Drive Number %d not supported\n",
1880 		       Controller, LogicalDeviceNumber);
1881 		break;
1882       }
1883       if (NewLogicalDeviceInfo->DeviceBlockSizeInBytes != DAC960_BlockSize) {
1884 	DAC960_Error("DAC960: Logical Drive Block Size %d not supported\n",
1885 	      Controller, NewLogicalDeviceInfo->DeviceBlockSizeInBytes);
1886         LogicalDeviceNumber++;
1887         continue;
1888       }
1889       PhysicalDevice.Controller = 0;
1890       PhysicalDevice.Channel = NewLogicalDeviceInfo->Channel;
1891       PhysicalDevice.TargetID = NewLogicalDeviceInfo->TargetID;
1892       PhysicalDevice.LogicalUnit = NewLogicalDeviceInfo->LogicalUnit;
1893       Controller->V2.LogicalDriveToVirtualDevice[LogicalDeviceNumber] =
1894 	PhysicalDevice;
1895       if (NewLogicalDeviceInfo->LogicalDeviceState !=
1896 	  DAC960_V2_LogicalDevice_Offline)
1897 	Controller->LogicalDriveInitiallyAccessible[LogicalDeviceNumber] = true;
1898       LogicalDeviceInfo = kmalloc(sizeof(DAC960_V2_LogicalDeviceInfo_T),
1899 				   GFP_ATOMIC);
1900       if (LogicalDeviceInfo == NULL)
1901 	return DAC960_Failure(Controller, "LOGICAL DEVICE ALLOCATION");
1902       Controller->V2.LogicalDeviceInformation[LogicalDeviceNumber] =
1903 	LogicalDeviceInfo;
1904       memcpy(LogicalDeviceInfo, NewLogicalDeviceInfo,
1905 	     sizeof(DAC960_V2_LogicalDeviceInfo_T));
1906       LogicalDeviceNumber++;
1907     }
1908   return true;
1909 }
1910 
1911 
1912 /*
1913   DAC960_ReportControllerConfiguration reports the Configuration Information
1914   for Controller.
1915 */
1916 
DAC960_ReportControllerConfiguration(DAC960_Controller_T * Controller)1917 static bool DAC960_ReportControllerConfiguration(DAC960_Controller_T
1918 						    *Controller)
1919 {
1920   DAC960_Info("Configuring Mylex %s PCI RAID Controller\n",
1921 	      Controller, Controller->ModelName);
1922   DAC960_Info("  Firmware Version: %s, Channels: %d, Memory Size: %dMB\n",
1923 	      Controller, Controller->FirmwareVersion,
1924 	      Controller->Channels, Controller->MemorySize);
1925   DAC960_Info("  PCI Bus: %d, Device: %d, Function: %d, I/O Address: ",
1926 	      Controller, Controller->Bus,
1927 	      Controller->Device, Controller->Function);
1928   if (Controller->IO_Address == 0)
1929     DAC960_Info("Unassigned\n", Controller);
1930   else DAC960_Info("0x%X\n", Controller, Controller->IO_Address);
1931   DAC960_Info("  PCI Address: 0x%X mapped at 0x%lX, IRQ Channel: %d\n",
1932 	      Controller, Controller->PCI_Address,
1933 	      (unsigned long) Controller->BaseAddress,
1934 	      Controller->IRQ_Channel);
1935   DAC960_Info("  Controller Queue Depth: %d, "
1936 	      "Maximum Blocks per Command: %d\n",
1937 	      Controller, Controller->ControllerQueueDepth,
1938 	      Controller->MaxBlocksPerCommand);
1939   DAC960_Info("  Driver Queue Depth: %d, "
1940 	      "Scatter/Gather Limit: %d of %d Segments\n",
1941 	      Controller, Controller->DriverQueueDepth,
1942 	      Controller->DriverScatterGatherLimit,
1943 	      Controller->ControllerScatterGatherLimit);
1944   if (Controller->FirmwareType == DAC960_V1_Controller)
1945     {
1946       DAC960_Info("  Stripe Size: %dKB, Segment Size: %dKB, "
1947 		  "BIOS Geometry: %d/%d\n", Controller,
1948 		  Controller->V1.StripeSize,
1949 		  Controller->V1.SegmentSize,
1950 		  Controller->V1.GeometryTranslationHeads,
1951 		  Controller->V1.GeometryTranslationSectors);
1952       if (Controller->V1.SAFTE_EnclosureManagementEnabled)
1953 	DAC960_Info("  SAF-TE Enclosure Management Enabled\n", Controller);
1954     }
1955   return true;
1956 }
1957 
1958 
1959 /*
1960   DAC960_V1_ReadDeviceConfiguration reads the Device Configuration Information
1961   for DAC960 V1 Firmware Controllers by requesting the SCSI Inquiry and SCSI
1962   Inquiry Unit Serial Number information for each device connected to
1963   Controller.
1964 */
1965 
DAC960_V1_ReadDeviceConfiguration(DAC960_Controller_T * Controller)1966 static bool DAC960_V1_ReadDeviceConfiguration(DAC960_Controller_T
1967 						 *Controller)
1968 {
1969   struct dma_loaf local_dma;
1970 
1971   dma_addr_t DCDBs_dma[DAC960_V1_MaxChannels];
1972   DAC960_V1_DCDB_T *DCDBs_cpu[DAC960_V1_MaxChannels];
1973 
1974   dma_addr_t SCSI_Inquiry_dma[DAC960_V1_MaxChannels];
1975   DAC960_SCSI_Inquiry_T *SCSI_Inquiry_cpu[DAC960_V1_MaxChannels];
1976 
1977   dma_addr_t SCSI_NewInquiryUnitSerialNumberDMA[DAC960_V1_MaxChannels];
1978   DAC960_SCSI_Inquiry_UnitSerialNumber_T *SCSI_NewInquiryUnitSerialNumberCPU[DAC960_V1_MaxChannels];
1979 
1980   struct completion Completions[DAC960_V1_MaxChannels];
1981   unsigned long flags;
1982   int Channel, TargetID;
1983 
1984   if (!init_dma_loaf(Controller->PCIDevice, &local_dma,
1985 		DAC960_V1_MaxChannels*(sizeof(DAC960_V1_DCDB_T) +
1986 			sizeof(DAC960_SCSI_Inquiry_T) +
1987 			sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T))))
1988      return DAC960_Failure(Controller,
1989                         "DMA ALLOCATION FAILED IN ReadDeviceConfiguration");
1990 
1991   for (Channel = 0; Channel < Controller->Channels; Channel++) {
1992 	DCDBs_cpu[Channel] = slice_dma_loaf(&local_dma,
1993 			sizeof(DAC960_V1_DCDB_T), DCDBs_dma + Channel);
1994 	SCSI_Inquiry_cpu[Channel] = slice_dma_loaf(&local_dma,
1995 			sizeof(DAC960_SCSI_Inquiry_T),
1996 			SCSI_Inquiry_dma + Channel);
1997 	SCSI_NewInquiryUnitSerialNumberCPU[Channel] = slice_dma_loaf(&local_dma,
1998 			sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T),
1999 			SCSI_NewInquiryUnitSerialNumberDMA + Channel);
2000   }
2001 
2002   for (TargetID = 0; TargetID < Controller->Targets; TargetID++)
2003     {
2004       /*
2005        * For each channel, submit a probe for a device on that channel.
2006        * The timeout interval for a device that is present is 10 seconds.
2007        * With this approach, the timeout periods can elapse in parallel
2008        * on each channel.
2009        */
2010       for (Channel = 0; Channel < Controller->Channels; Channel++)
2011 	{
2012 	  dma_addr_t NewInquiryStandardDataDMA = SCSI_Inquiry_dma[Channel];
2013   	  DAC960_V1_DCDB_T *DCDB = DCDBs_cpu[Channel];
2014   	  dma_addr_t DCDB_dma = DCDBs_dma[Channel];
2015 	  DAC960_Command_T *Command = Controller->Commands[Channel];
2016           struct completion *Completion = &Completions[Channel];
2017 
2018 	  init_completion(Completion);
2019 	  DAC960_V1_ClearCommand(Command);
2020 	  Command->CommandType = DAC960_ImmediateCommand;
2021 	  Command->Completion = Completion;
2022 	  Command->V1.CommandMailbox.Type3.CommandOpcode = DAC960_V1_DCDB;
2023 	  Command->V1.CommandMailbox.Type3.BusAddress = DCDB_dma;
2024 	  DCDB->Channel = Channel;
2025 	  DCDB->TargetID = TargetID;
2026 	  DCDB->Direction = DAC960_V1_DCDB_DataTransferDeviceToSystem;
2027 	  DCDB->EarlyStatus = false;
2028 	  DCDB->Timeout = DAC960_V1_DCDB_Timeout_10_seconds;
2029 	  DCDB->NoAutomaticRequestSense = false;
2030 	  DCDB->DisconnectPermitted = true;
2031 	  DCDB->TransferLength = sizeof(DAC960_SCSI_Inquiry_T);
2032 	  DCDB->BusAddress = NewInquiryStandardDataDMA;
2033 	  DCDB->CDBLength = 6;
2034 	  DCDB->TransferLengthHigh4 = 0;
2035 	  DCDB->SenseLength = sizeof(DCDB->SenseData);
2036 	  DCDB->CDB[0] = 0x12; /* INQUIRY */
2037 	  DCDB->CDB[1] = 0; /* EVPD = 0 */
2038 	  DCDB->CDB[2] = 0; /* Page Code */
2039 	  DCDB->CDB[3] = 0; /* Reserved */
2040 	  DCDB->CDB[4] = sizeof(DAC960_SCSI_Inquiry_T);
2041 	  DCDB->CDB[5] = 0; /* Control */
2042 
2043 	  spin_lock_irqsave(&Controller->queue_lock, flags);
2044 	  DAC960_QueueCommand(Command);
2045 	  spin_unlock_irqrestore(&Controller->queue_lock, flags);
2046 	}
2047       /*
2048        * Wait for the problems submitted in the previous loop
2049        * to complete.  On the probes that are successful,
2050        * get the serial number of the device that was found.
2051        */
2052       for (Channel = 0; Channel < Controller->Channels; Channel++)
2053 	{
2054 	  DAC960_SCSI_Inquiry_T *InquiryStandardData =
2055 	    &Controller->V1.InquiryStandardData[Channel][TargetID];
2056 	  DAC960_SCSI_Inquiry_T *NewInquiryStandardData = SCSI_Inquiry_cpu[Channel];
2057 	  dma_addr_t NewInquiryUnitSerialNumberDMA =
2058 			SCSI_NewInquiryUnitSerialNumberDMA[Channel];
2059 	  DAC960_SCSI_Inquiry_UnitSerialNumber_T *NewInquiryUnitSerialNumber =
2060 	    		SCSI_NewInquiryUnitSerialNumberCPU[Channel];
2061 	  DAC960_SCSI_Inquiry_UnitSerialNumber_T *InquiryUnitSerialNumber =
2062 	    &Controller->V1.InquiryUnitSerialNumber[Channel][TargetID];
2063 	  DAC960_Command_T *Command = Controller->Commands[Channel];
2064   	  DAC960_V1_DCDB_T *DCDB = DCDBs_cpu[Channel];
2065           struct completion *Completion = &Completions[Channel];
2066 
2067 	  wait_for_completion(Completion);
2068 
2069 	  if (Command->V1.CommandStatus != DAC960_V1_NormalCompletion) {
2070 	    memset(InquiryStandardData, 0, sizeof(DAC960_SCSI_Inquiry_T));
2071 	    InquiryStandardData->PeripheralDeviceType = 0x1F;
2072 	    continue;
2073 	  } else
2074 	    memcpy(InquiryStandardData, NewInquiryStandardData, sizeof(DAC960_SCSI_Inquiry_T));
2075 
2076 	  /* Preserve Channel and TargetID values from the previous loop */
2077 	  Command->Completion = Completion;
2078 	  DCDB->TransferLength = sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T);
2079 	  DCDB->BusAddress = NewInquiryUnitSerialNumberDMA;
2080 	  DCDB->SenseLength = sizeof(DCDB->SenseData);
2081 	  DCDB->CDB[0] = 0x12; /* INQUIRY */
2082 	  DCDB->CDB[1] = 1; /* EVPD = 1 */
2083 	  DCDB->CDB[2] = 0x80; /* Page Code */
2084 	  DCDB->CDB[3] = 0; /* Reserved */
2085 	  DCDB->CDB[4] = sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T);
2086 	  DCDB->CDB[5] = 0; /* Control */
2087 
2088 	  spin_lock_irqsave(&Controller->queue_lock, flags);
2089 	  DAC960_QueueCommand(Command);
2090 	  spin_unlock_irqrestore(&Controller->queue_lock, flags);
2091 	  wait_for_completion(Completion);
2092 
2093 	  if (Command->V1.CommandStatus != DAC960_V1_NormalCompletion) {
2094 	  	memset(InquiryUnitSerialNumber, 0,
2095 			sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T));
2096 	  	InquiryUnitSerialNumber->PeripheralDeviceType = 0x1F;
2097 	  } else
2098 	  	memcpy(InquiryUnitSerialNumber, NewInquiryUnitSerialNumber,
2099 			sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T));
2100 	}
2101     }
2102     free_dma_loaf(Controller->PCIDevice, &local_dma);
2103   return true;
2104 }
2105 
2106 
2107 /*
2108   DAC960_V2_ReadDeviceConfiguration reads the Device Configuration Information
2109   for DAC960 V2 Firmware Controllers by requesting the Physical Device
2110   Information and SCSI Inquiry Unit Serial Number information for each
2111   device connected to Controller.
2112 */
2113 
DAC960_V2_ReadDeviceConfiguration(DAC960_Controller_T * Controller)2114 static bool DAC960_V2_ReadDeviceConfiguration(DAC960_Controller_T
2115 						 *Controller)
2116 {
2117   unsigned char Channel = 0, TargetID = 0, LogicalUnit = 0;
2118   unsigned short PhysicalDeviceIndex = 0;
2119 
2120   while (true)
2121     {
2122       DAC960_V2_PhysicalDeviceInfo_T *NewPhysicalDeviceInfo =
2123 		Controller->V2.NewPhysicalDeviceInformation;
2124       DAC960_V2_PhysicalDeviceInfo_T *PhysicalDeviceInfo;
2125       DAC960_SCSI_Inquiry_UnitSerialNumber_T *NewInquiryUnitSerialNumber =
2126 		Controller->V2.NewInquiryUnitSerialNumber;
2127       DAC960_SCSI_Inquiry_UnitSerialNumber_T *InquiryUnitSerialNumber;
2128 
2129       if (!DAC960_V2_NewPhysicalDeviceInfo(Controller, Channel, TargetID, LogicalUnit))
2130 	  break;
2131 
2132       PhysicalDeviceInfo = kmalloc(sizeof(DAC960_V2_PhysicalDeviceInfo_T),
2133 				    GFP_ATOMIC);
2134       if (PhysicalDeviceInfo == NULL)
2135 		return DAC960_Failure(Controller, "PHYSICAL DEVICE ALLOCATION");
2136       Controller->V2.PhysicalDeviceInformation[PhysicalDeviceIndex] =
2137 		PhysicalDeviceInfo;
2138       memcpy(PhysicalDeviceInfo, NewPhysicalDeviceInfo,
2139 		sizeof(DAC960_V2_PhysicalDeviceInfo_T));
2140 
2141       InquiryUnitSerialNumber = kmalloc(
2142 	      sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T), GFP_ATOMIC);
2143       if (InquiryUnitSerialNumber == NULL) {
2144 	kfree(PhysicalDeviceInfo);
2145 	return DAC960_Failure(Controller, "SERIAL NUMBER ALLOCATION");
2146       }
2147       Controller->V2.InquiryUnitSerialNumber[PhysicalDeviceIndex] =
2148 		InquiryUnitSerialNumber;
2149 
2150       Channel = NewPhysicalDeviceInfo->Channel;
2151       TargetID = NewPhysicalDeviceInfo->TargetID;
2152       LogicalUnit = NewPhysicalDeviceInfo->LogicalUnit;
2153 
2154       /*
2155 	 Some devices do NOT have Unit Serial Numbers.
2156 	 This command fails for them.  But, we still want to
2157 	 remember those devices are there.  Construct a
2158 	 UnitSerialNumber structure for the failure case.
2159       */
2160       if (!DAC960_V2_NewInquiryUnitSerialNumber(Controller, Channel, TargetID, LogicalUnit)) {
2161       	memset(InquiryUnitSerialNumber, 0,
2162              sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T));
2163      	InquiryUnitSerialNumber->PeripheralDeviceType = 0x1F;
2164       } else
2165       	memcpy(InquiryUnitSerialNumber, NewInquiryUnitSerialNumber,
2166 		sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T));
2167 
2168       PhysicalDeviceIndex++;
2169       LogicalUnit++;
2170     }
2171   return true;
2172 }
2173 
2174 
2175 /*
2176   DAC960_SanitizeInquiryData sanitizes the Vendor, Model, Revision, and
2177   Product Serial Number fields of the Inquiry Standard Data and Inquiry
2178   Unit Serial Number structures.
2179 */
2180 
DAC960_SanitizeInquiryData(DAC960_SCSI_Inquiry_T * InquiryStandardData,DAC960_SCSI_Inquiry_UnitSerialNumber_T * InquiryUnitSerialNumber,unsigned char * Vendor,unsigned char * Model,unsigned char * Revision,unsigned char * SerialNumber)2181 static void DAC960_SanitizeInquiryData(DAC960_SCSI_Inquiry_T
2182 					 *InquiryStandardData,
2183 				       DAC960_SCSI_Inquiry_UnitSerialNumber_T
2184 					 *InquiryUnitSerialNumber,
2185 				       unsigned char *Vendor,
2186 				       unsigned char *Model,
2187 				       unsigned char *Revision,
2188 				       unsigned char *SerialNumber)
2189 {
2190   int SerialNumberLength, i;
2191   if (InquiryStandardData->PeripheralDeviceType == 0x1F) return;
2192   for (i = 0; i < sizeof(InquiryStandardData->VendorIdentification); i++)
2193     {
2194       unsigned char VendorCharacter =
2195 	InquiryStandardData->VendorIdentification[i];
2196       Vendor[i] = (VendorCharacter >= ' ' && VendorCharacter <= '~'
2197 		   ? VendorCharacter : ' ');
2198     }
2199   Vendor[sizeof(InquiryStandardData->VendorIdentification)] = '\0';
2200   for (i = 0; i < sizeof(InquiryStandardData->ProductIdentification); i++)
2201     {
2202       unsigned char ModelCharacter =
2203 	InquiryStandardData->ProductIdentification[i];
2204       Model[i] = (ModelCharacter >= ' ' && ModelCharacter <= '~'
2205 		  ? ModelCharacter : ' ');
2206     }
2207   Model[sizeof(InquiryStandardData->ProductIdentification)] = '\0';
2208   for (i = 0; i < sizeof(InquiryStandardData->ProductRevisionLevel); i++)
2209     {
2210       unsigned char RevisionCharacter =
2211 	InquiryStandardData->ProductRevisionLevel[i];
2212       Revision[i] = (RevisionCharacter >= ' ' && RevisionCharacter <= '~'
2213 		     ? RevisionCharacter : ' ');
2214     }
2215   Revision[sizeof(InquiryStandardData->ProductRevisionLevel)] = '\0';
2216   if (InquiryUnitSerialNumber->PeripheralDeviceType == 0x1F) return;
2217   SerialNumberLength = InquiryUnitSerialNumber->PageLength;
2218   if (SerialNumberLength >
2219       sizeof(InquiryUnitSerialNumber->ProductSerialNumber))
2220     SerialNumberLength = sizeof(InquiryUnitSerialNumber->ProductSerialNumber);
2221   for (i = 0; i < SerialNumberLength; i++)
2222     {
2223       unsigned char SerialNumberCharacter =
2224 	InquiryUnitSerialNumber->ProductSerialNumber[i];
2225       SerialNumber[i] =
2226 	(SerialNumberCharacter >= ' ' && SerialNumberCharacter <= '~'
2227 	 ? SerialNumberCharacter : ' ');
2228     }
2229   SerialNumber[SerialNumberLength] = '\0';
2230 }
2231 
2232 
2233 /*
2234   DAC960_V1_ReportDeviceConfiguration reports the Device Configuration
2235   Information for DAC960 V1 Firmware Controllers.
2236 */
2237 
DAC960_V1_ReportDeviceConfiguration(DAC960_Controller_T * Controller)2238 static bool DAC960_V1_ReportDeviceConfiguration(DAC960_Controller_T
2239 						   *Controller)
2240 {
2241   int LogicalDriveNumber, Channel, TargetID;
2242   DAC960_Info("  Physical Devices:\n", Controller);
2243   for (Channel = 0; Channel < Controller->Channels; Channel++)
2244     for (TargetID = 0; TargetID < Controller->Targets; TargetID++)
2245       {
2246 	DAC960_SCSI_Inquiry_T *InquiryStandardData =
2247 	  &Controller->V1.InquiryStandardData[Channel][TargetID];
2248 	DAC960_SCSI_Inquiry_UnitSerialNumber_T *InquiryUnitSerialNumber =
2249 	  &Controller->V1.InquiryUnitSerialNumber[Channel][TargetID];
2250 	DAC960_V1_DeviceState_T *DeviceState =
2251 	  &Controller->V1.DeviceState[Channel][TargetID];
2252 	DAC960_V1_ErrorTableEntry_T *ErrorEntry =
2253 	  &Controller->V1.ErrorTable.ErrorTableEntries[Channel][TargetID];
2254 	char Vendor[1+sizeof(InquiryStandardData->VendorIdentification)];
2255 	char Model[1+sizeof(InquiryStandardData->ProductIdentification)];
2256 	char Revision[1+sizeof(InquiryStandardData->ProductRevisionLevel)];
2257 	char SerialNumber[1+sizeof(InquiryUnitSerialNumber
2258 				   ->ProductSerialNumber)];
2259 	if (InquiryStandardData->PeripheralDeviceType == 0x1F) continue;
2260 	DAC960_SanitizeInquiryData(InquiryStandardData, InquiryUnitSerialNumber,
2261 				   Vendor, Model, Revision, SerialNumber);
2262 	DAC960_Info("    %d:%d%s Vendor: %s  Model: %s  Revision: %s\n",
2263 		    Controller, Channel, TargetID, (TargetID < 10 ? " " : ""),
2264 		    Vendor, Model, Revision);
2265 	if (InquiryUnitSerialNumber->PeripheralDeviceType != 0x1F)
2266 	  DAC960_Info("         Serial Number: %s\n", Controller, SerialNumber);
2267 	if (DeviceState->Present &&
2268 	    DeviceState->DeviceType == DAC960_V1_DiskType)
2269 	  {
2270 	    if (Controller->V1.DeviceResetCount[Channel][TargetID] > 0)
2271 	      DAC960_Info("         Disk Status: %s, %u blocks, %d resets\n",
2272 			  Controller,
2273 			  (DeviceState->DeviceState == DAC960_V1_Device_Dead
2274 			   ? "Dead"
2275 			   : DeviceState->DeviceState
2276 			     == DAC960_V1_Device_WriteOnly
2277 			     ? "Write-Only"
2278 			     : DeviceState->DeviceState
2279 			       == DAC960_V1_Device_Online
2280 			       ? "Online" : "Standby"),
2281 			  DeviceState->DiskSize,
2282 			  Controller->V1.DeviceResetCount[Channel][TargetID]);
2283 	    else
2284 	      DAC960_Info("         Disk Status: %s, %u blocks\n", Controller,
2285 			  (DeviceState->DeviceState == DAC960_V1_Device_Dead
2286 			   ? "Dead"
2287 			   : DeviceState->DeviceState
2288 			     == DAC960_V1_Device_WriteOnly
2289 			     ? "Write-Only"
2290 			     : DeviceState->DeviceState
2291 			       == DAC960_V1_Device_Online
2292 			       ? "Online" : "Standby"),
2293 			  DeviceState->DiskSize);
2294 	  }
2295 	if (ErrorEntry->ParityErrorCount > 0 ||
2296 	    ErrorEntry->SoftErrorCount > 0 ||
2297 	    ErrorEntry->HardErrorCount > 0 ||
2298 	    ErrorEntry->MiscErrorCount > 0)
2299 	  DAC960_Info("         Errors - Parity: %d, Soft: %d, "
2300 		      "Hard: %d, Misc: %d\n", Controller,
2301 		      ErrorEntry->ParityErrorCount,
2302 		      ErrorEntry->SoftErrorCount,
2303 		      ErrorEntry->HardErrorCount,
2304 		      ErrorEntry->MiscErrorCount);
2305       }
2306   DAC960_Info("  Logical Drives:\n", Controller);
2307   for (LogicalDriveNumber = 0;
2308        LogicalDriveNumber < Controller->LogicalDriveCount;
2309        LogicalDriveNumber++)
2310     {
2311       DAC960_V1_LogicalDriveInformation_T *LogicalDriveInformation =
2312 	&Controller->V1.LogicalDriveInformation[LogicalDriveNumber];
2313       DAC960_Info("    /dev/rd/c%dd%d: RAID-%d, %s, %u blocks, %s\n",
2314 		  Controller, Controller->ControllerNumber, LogicalDriveNumber,
2315 		  LogicalDriveInformation->RAIDLevel,
2316 		  (LogicalDriveInformation->LogicalDriveState
2317 		   == DAC960_V1_LogicalDrive_Online
2318 		   ? "Online"
2319 		   : LogicalDriveInformation->LogicalDriveState
2320 		     == DAC960_V1_LogicalDrive_Critical
2321 		     ? "Critical" : "Offline"),
2322 		  LogicalDriveInformation->LogicalDriveSize,
2323 		  (LogicalDriveInformation->WriteBack
2324 		   ? "Write Back" : "Write Thru"));
2325     }
2326   return true;
2327 }
2328 
2329 
2330 /*
2331   DAC960_V2_ReportDeviceConfiguration reports the Device Configuration
2332   Information for DAC960 V2 Firmware Controllers.
2333 */
2334 
DAC960_V2_ReportDeviceConfiguration(DAC960_Controller_T * Controller)2335 static bool DAC960_V2_ReportDeviceConfiguration(DAC960_Controller_T
2336 						   *Controller)
2337 {
2338   int PhysicalDeviceIndex, LogicalDriveNumber;
2339   DAC960_Info("  Physical Devices:\n", Controller);
2340   for (PhysicalDeviceIndex = 0;
2341        PhysicalDeviceIndex < DAC960_V2_MaxPhysicalDevices;
2342        PhysicalDeviceIndex++)
2343     {
2344       DAC960_V2_PhysicalDeviceInfo_T *PhysicalDeviceInfo =
2345 	Controller->V2.PhysicalDeviceInformation[PhysicalDeviceIndex];
2346       DAC960_SCSI_Inquiry_T *InquiryStandardData =
2347 	(DAC960_SCSI_Inquiry_T *) &PhysicalDeviceInfo->SCSI_InquiryData;
2348       DAC960_SCSI_Inquiry_UnitSerialNumber_T *InquiryUnitSerialNumber =
2349 	Controller->V2.InquiryUnitSerialNumber[PhysicalDeviceIndex];
2350       char Vendor[1+sizeof(InquiryStandardData->VendorIdentification)];
2351       char Model[1+sizeof(InquiryStandardData->ProductIdentification)];
2352       char Revision[1+sizeof(InquiryStandardData->ProductRevisionLevel)];
2353       char SerialNumber[1+sizeof(InquiryUnitSerialNumber->ProductSerialNumber)];
2354       if (PhysicalDeviceInfo == NULL) break;
2355       DAC960_SanitizeInquiryData(InquiryStandardData, InquiryUnitSerialNumber,
2356 				 Vendor, Model, Revision, SerialNumber);
2357       DAC960_Info("    %d:%d%s Vendor: %s  Model: %s  Revision: %s\n",
2358 		  Controller,
2359 		  PhysicalDeviceInfo->Channel,
2360 		  PhysicalDeviceInfo->TargetID,
2361 		  (PhysicalDeviceInfo->TargetID < 10 ? " " : ""),
2362 		  Vendor, Model, Revision);
2363       if (PhysicalDeviceInfo->NegotiatedSynchronousMegaTransfers == 0)
2364 	DAC960_Info("         %sAsynchronous\n", Controller,
2365 		    (PhysicalDeviceInfo->NegotiatedDataWidthBits == 16
2366 		     ? "Wide " :""));
2367       else
2368 	DAC960_Info("         %sSynchronous at %d MB/sec\n", Controller,
2369 		    (PhysicalDeviceInfo->NegotiatedDataWidthBits == 16
2370 		     ? "Wide " :""),
2371 		    (PhysicalDeviceInfo->NegotiatedSynchronousMegaTransfers
2372 		     * PhysicalDeviceInfo->NegotiatedDataWidthBits/8));
2373       if (InquiryUnitSerialNumber->PeripheralDeviceType != 0x1F)
2374 	DAC960_Info("         Serial Number: %s\n", Controller, SerialNumber);
2375       if (PhysicalDeviceInfo->PhysicalDeviceState ==
2376 	  DAC960_V2_Device_Unconfigured)
2377 	continue;
2378       DAC960_Info("         Disk Status: %s, %u blocks\n", Controller,
2379 		  (PhysicalDeviceInfo->PhysicalDeviceState
2380 		   == DAC960_V2_Device_Online
2381 		   ? "Online"
2382 		   : PhysicalDeviceInfo->PhysicalDeviceState
2383 		     == DAC960_V2_Device_Rebuild
2384 		     ? "Rebuild"
2385 		     : PhysicalDeviceInfo->PhysicalDeviceState
2386 		       == DAC960_V2_Device_Missing
2387 		       ? "Missing"
2388 		       : PhysicalDeviceInfo->PhysicalDeviceState
2389 			 == DAC960_V2_Device_Critical
2390 			 ? "Critical"
2391 			 : PhysicalDeviceInfo->PhysicalDeviceState
2392 			   == DAC960_V2_Device_Dead
2393 			   ? "Dead"
2394 			   : PhysicalDeviceInfo->PhysicalDeviceState
2395 			     == DAC960_V2_Device_SuspectedDead
2396 			     ? "Suspected-Dead"
2397 			     : PhysicalDeviceInfo->PhysicalDeviceState
2398 			       == DAC960_V2_Device_CommandedOffline
2399 			       ? "Commanded-Offline"
2400 			       : PhysicalDeviceInfo->PhysicalDeviceState
2401 				 == DAC960_V2_Device_Standby
2402 				 ? "Standby" : "Unknown"),
2403 		  PhysicalDeviceInfo->ConfigurableDeviceSize);
2404       if (PhysicalDeviceInfo->ParityErrors == 0 &&
2405 	  PhysicalDeviceInfo->SoftErrors == 0 &&
2406 	  PhysicalDeviceInfo->HardErrors == 0 &&
2407 	  PhysicalDeviceInfo->MiscellaneousErrors == 0 &&
2408 	  PhysicalDeviceInfo->CommandTimeouts == 0 &&
2409 	  PhysicalDeviceInfo->Retries == 0 &&
2410 	  PhysicalDeviceInfo->Aborts == 0 &&
2411 	  PhysicalDeviceInfo->PredictedFailuresDetected == 0)
2412 	continue;
2413       DAC960_Info("         Errors - Parity: %d, Soft: %d, "
2414 		  "Hard: %d, Misc: %d\n", Controller,
2415 		  PhysicalDeviceInfo->ParityErrors,
2416 		  PhysicalDeviceInfo->SoftErrors,
2417 		  PhysicalDeviceInfo->HardErrors,
2418 		  PhysicalDeviceInfo->MiscellaneousErrors);
2419       DAC960_Info("                  Timeouts: %d, Retries: %d, "
2420 		  "Aborts: %d, Predicted: %d\n", Controller,
2421 		  PhysicalDeviceInfo->CommandTimeouts,
2422 		  PhysicalDeviceInfo->Retries,
2423 		  PhysicalDeviceInfo->Aborts,
2424 		  PhysicalDeviceInfo->PredictedFailuresDetected);
2425     }
2426   DAC960_Info("  Logical Drives:\n", Controller);
2427   for (LogicalDriveNumber = 0;
2428        LogicalDriveNumber < DAC960_MaxLogicalDrives;
2429        LogicalDriveNumber++)
2430     {
2431       DAC960_V2_LogicalDeviceInfo_T *LogicalDeviceInfo =
2432 	Controller->V2.LogicalDeviceInformation[LogicalDriveNumber];
2433       unsigned char *ReadCacheStatus[] = { "Read Cache Disabled",
2434 					   "Read Cache Enabled",
2435 					   "Read Ahead Enabled",
2436 					   "Intelligent Read Ahead Enabled",
2437 					   "-", "-", "-", "-" };
2438       unsigned char *WriteCacheStatus[] = { "Write Cache Disabled",
2439 					    "Logical Device Read Only",
2440 					    "Write Cache Enabled",
2441 					    "Intelligent Write Cache Enabled",
2442 					    "-", "-", "-", "-" };
2443       unsigned char *GeometryTranslation;
2444       if (LogicalDeviceInfo == NULL) continue;
2445       switch (LogicalDeviceInfo->DriveGeometry)
2446 	{
2447 	case DAC960_V2_Geometry_128_32:
2448 	  GeometryTranslation = "128/32";
2449 	  break;
2450 	case DAC960_V2_Geometry_255_63:
2451 	  GeometryTranslation = "255/63";
2452 	  break;
2453 	default:
2454 	  GeometryTranslation = "Invalid";
2455 	  DAC960_Error("Illegal Logical Device Geometry %d\n",
2456 		       Controller, LogicalDeviceInfo->DriveGeometry);
2457 	  break;
2458 	}
2459       DAC960_Info("    /dev/rd/c%dd%d: RAID-%d, %s, %u blocks\n",
2460 		  Controller, Controller->ControllerNumber, LogicalDriveNumber,
2461 		  LogicalDeviceInfo->RAIDLevel,
2462 		  (LogicalDeviceInfo->LogicalDeviceState
2463 		   == DAC960_V2_LogicalDevice_Online
2464 		   ? "Online"
2465 		   : LogicalDeviceInfo->LogicalDeviceState
2466 		     == DAC960_V2_LogicalDevice_Critical
2467 		     ? "Critical" : "Offline"),
2468 		  LogicalDeviceInfo->ConfigurableDeviceSize);
2469       DAC960_Info("                  Logical Device %s, BIOS Geometry: %s\n",
2470 		  Controller,
2471 		  (LogicalDeviceInfo->LogicalDeviceControl
2472 				     .LogicalDeviceInitialized
2473 		   ? "Initialized" : "Uninitialized"),
2474 		  GeometryTranslation);
2475       if (LogicalDeviceInfo->StripeSize == 0)
2476 	{
2477 	  if (LogicalDeviceInfo->CacheLineSize == 0)
2478 	    DAC960_Info("                  Stripe Size: N/A, "
2479 			"Segment Size: N/A\n", Controller);
2480 	  else
2481 	    DAC960_Info("                  Stripe Size: N/A, "
2482 			"Segment Size: %dKB\n", Controller,
2483 			1 << (LogicalDeviceInfo->CacheLineSize - 2));
2484 	}
2485       else
2486 	{
2487 	  if (LogicalDeviceInfo->CacheLineSize == 0)
2488 	    DAC960_Info("                  Stripe Size: %dKB, "
2489 			"Segment Size: N/A\n", Controller,
2490 			1 << (LogicalDeviceInfo->StripeSize - 2));
2491 	  else
2492 	    DAC960_Info("                  Stripe Size: %dKB, "
2493 			"Segment Size: %dKB\n", Controller,
2494 			1 << (LogicalDeviceInfo->StripeSize - 2),
2495 			1 << (LogicalDeviceInfo->CacheLineSize - 2));
2496 	}
2497       DAC960_Info("                  %s, %s\n", Controller,
2498 		  ReadCacheStatus[
2499 		    LogicalDeviceInfo->LogicalDeviceControl.ReadCache],
2500 		  WriteCacheStatus[
2501 		    LogicalDeviceInfo->LogicalDeviceControl.WriteCache]);
2502       if (LogicalDeviceInfo->SoftErrors > 0 ||
2503 	  LogicalDeviceInfo->CommandsFailed > 0 ||
2504 	  LogicalDeviceInfo->DeferredWriteErrors)
2505 	DAC960_Info("                  Errors - Soft: %d, Failed: %d, "
2506 		    "Deferred Write: %d\n", Controller,
2507 		    LogicalDeviceInfo->SoftErrors,
2508 		    LogicalDeviceInfo->CommandsFailed,
2509 		    LogicalDeviceInfo->DeferredWriteErrors);
2510 
2511     }
2512   return true;
2513 }
2514 
2515 /*
2516   DAC960_RegisterBlockDevice registers the Block Device structures
2517   associated with Controller.
2518 */
2519 
DAC960_RegisterBlockDevice(DAC960_Controller_T * Controller)2520 static bool DAC960_RegisterBlockDevice(DAC960_Controller_T *Controller)
2521 {
2522   int MajorNumber = DAC960_MAJOR + Controller->ControllerNumber;
2523   int n;
2524 
2525   /*
2526     Register the Block Device Major Number for this DAC960 Controller.
2527   */
2528   if (register_blkdev(MajorNumber, "dac960") < 0)
2529       return false;
2530 
2531   for (n = 0; n < DAC960_MaxLogicalDrives; n++) {
2532 	struct gendisk *disk = Controller->disks[n];
2533   	struct request_queue *RequestQueue;
2534 
2535 	/* for now, let all request queues share controller's lock */
2536   	RequestQueue = blk_init_queue(DAC960_RequestFunction,&Controller->queue_lock);
2537   	if (!RequestQueue) {
2538 		printk("DAC960: failure to allocate request queue\n");
2539 		continue;
2540   	}
2541   	Controller->RequestQueue[n] = RequestQueue;
2542   	blk_queue_bounce_limit(RequestQueue, Controller->BounceBufferLimit);
2543   	RequestQueue->queuedata = Controller;
2544 	blk_queue_max_segments(RequestQueue, Controller->DriverScatterGatherLimit);
2545 	blk_queue_max_hw_sectors(RequestQueue, Controller->MaxBlocksPerCommand);
2546 	disk->queue = RequestQueue;
2547 	sprintf(disk->disk_name, "rd/c%dd%d", Controller->ControllerNumber, n);
2548 	disk->major = MajorNumber;
2549 	disk->first_minor = n << DAC960_MaxPartitionsBits;
2550 	disk->fops = &DAC960_BlockDeviceOperations;
2551    }
2552   /*
2553     Indicate the Block Device Registration completed successfully,
2554   */
2555   return true;
2556 }
2557 
2558 
2559 /*
2560   DAC960_UnregisterBlockDevice unregisters the Block Device structures
2561   associated with Controller.
2562 */
2563 
DAC960_UnregisterBlockDevice(DAC960_Controller_T * Controller)2564 static void DAC960_UnregisterBlockDevice(DAC960_Controller_T *Controller)
2565 {
2566   int MajorNumber = DAC960_MAJOR + Controller->ControllerNumber;
2567   int disk;
2568 
2569   /* does order matter when deleting gendisk and cleanup in request queue? */
2570   for (disk = 0; disk < DAC960_MaxLogicalDrives; disk++) {
2571 	del_gendisk(Controller->disks[disk]);
2572 	blk_cleanup_queue(Controller->RequestQueue[disk]);
2573 	Controller->RequestQueue[disk] = NULL;
2574   }
2575 
2576   /*
2577     Unregister the Block Device Major Number for this DAC960 Controller.
2578   */
2579   unregister_blkdev(MajorNumber, "dac960");
2580 }
2581 
2582 /*
2583   DAC960_ComputeGenericDiskInfo computes the values for the Generic Disk
2584   Information Partition Sector Counts and Block Sizes.
2585 */
2586 
DAC960_ComputeGenericDiskInfo(DAC960_Controller_T * Controller)2587 static void DAC960_ComputeGenericDiskInfo(DAC960_Controller_T *Controller)
2588 {
2589 	int disk;
2590 	for (disk = 0; disk < DAC960_MaxLogicalDrives; disk++)
2591 		set_capacity(Controller->disks[disk], disk_size(Controller, disk));
2592 }
2593 
2594 /*
2595   DAC960_ReportErrorStatus reports Controller BIOS Messages passed through
2596   the Error Status Register when the driver performs the BIOS handshaking.
2597   It returns true for fatal errors and false otherwise.
2598 */
2599 
DAC960_ReportErrorStatus(DAC960_Controller_T * Controller,unsigned char ErrorStatus,unsigned char Parameter0,unsigned char Parameter1)2600 static bool DAC960_ReportErrorStatus(DAC960_Controller_T *Controller,
2601 					unsigned char ErrorStatus,
2602 					unsigned char Parameter0,
2603 					unsigned char Parameter1)
2604 {
2605   switch (ErrorStatus)
2606     {
2607     case 0x00:
2608       DAC960_Notice("Physical Device %d:%d Not Responding\n",
2609 		    Controller, Parameter1, Parameter0);
2610       break;
2611     case 0x08:
2612       if (Controller->DriveSpinUpMessageDisplayed) break;
2613       DAC960_Notice("Spinning Up Drives\n", Controller);
2614       Controller->DriveSpinUpMessageDisplayed = true;
2615       break;
2616     case 0x30:
2617       DAC960_Notice("Configuration Checksum Error\n", Controller);
2618       break;
2619     case 0x60:
2620       DAC960_Notice("Mirror Race Recovery Failed\n", Controller);
2621       break;
2622     case 0x70:
2623       DAC960_Notice("Mirror Race Recovery In Progress\n", Controller);
2624       break;
2625     case 0x90:
2626       DAC960_Notice("Physical Device %d:%d COD Mismatch\n",
2627 		    Controller, Parameter1, Parameter0);
2628       break;
2629     case 0xA0:
2630       DAC960_Notice("Logical Drive Installation Aborted\n", Controller);
2631       break;
2632     case 0xB0:
2633       DAC960_Notice("Mirror Race On A Critical Logical Drive\n", Controller);
2634       break;
2635     case 0xD0:
2636       DAC960_Notice("New Controller Configuration Found\n", Controller);
2637       break;
2638     case 0xF0:
2639       DAC960_Error("Fatal Memory Parity Error for Controller at\n", Controller);
2640       return true;
2641     default:
2642       DAC960_Error("Unknown Initialization Error %02X for Controller at\n",
2643 		   Controller, ErrorStatus);
2644       return true;
2645     }
2646   return false;
2647 }
2648 
2649 
2650 /*
2651  * DAC960_DetectCleanup releases the resources that were allocated
2652  * during DAC960_DetectController().  DAC960_DetectController can
2653  * has several internal failure points, so not ALL resources may
2654  * have been allocated.  It's important to free only
2655  * resources that HAVE been allocated.  The code below always
2656  * tests that the resource has been allocated before attempting to
2657  * free it.
2658  */
DAC960_DetectCleanup(DAC960_Controller_T * Controller)2659 static void DAC960_DetectCleanup(DAC960_Controller_T *Controller)
2660 {
2661   int i;
2662 
2663   /* Free the memory mailbox, status, and related structures */
2664   free_dma_loaf(Controller->PCIDevice, &Controller->DmaPages);
2665   if (Controller->MemoryMappedAddress) {
2666   	switch(Controller->HardwareType)
2667   	{
2668 		case DAC960_GEM_Controller:
2669 			DAC960_GEM_DisableInterrupts(Controller->BaseAddress);
2670 			break;
2671 		case DAC960_BA_Controller:
2672 			DAC960_BA_DisableInterrupts(Controller->BaseAddress);
2673 			break;
2674 		case DAC960_LP_Controller:
2675 			DAC960_LP_DisableInterrupts(Controller->BaseAddress);
2676 			break;
2677 		case DAC960_LA_Controller:
2678 			DAC960_LA_DisableInterrupts(Controller->BaseAddress);
2679 			break;
2680 		case DAC960_PG_Controller:
2681 			DAC960_PG_DisableInterrupts(Controller->BaseAddress);
2682 			break;
2683 		case DAC960_PD_Controller:
2684 			DAC960_PD_DisableInterrupts(Controller->BaseAddress);
2685 			break;
2686 		case DAC960_P_Controller:
2687 			DAC960_PD_DisableInterrupts(Controller->BaseAddress);
2688 			break;
2689   	}
2690   	iounmap(Controller->MemoryMappedAddress);
2691   }
2692   if (Controller->IRQ_Channel)
2693   	free_irq(Controller->IRQ_Channel, Controller);
2694   if (Controller->IO_Address)
2695 	release_region(Controller->IO_Address, 0x80);
2696   pci_disable_device(Controller->PCIDevice);
2697   for (i = 0; (i < DAC960_MaxLogicalDrives) && Controller->disks[i]; i++)
2698        put_disk(Controller->disks[i]);
2699   DAC960_Controllers[Controller->ControllerNumber] = NULL;
2700   kfree(Controller);
2701 }
2702 
2703 
2704 /*
2705   DAC960_DetectController detects Mylex DAC960/AcceleRAID/eXtremeRAID
2706   PCI RAID Controllers by interrogating the PCI Configuration Space for
2707   Controller Type.
2708 */
2709 
2710 static DAC960_Controller_T *
DAC960_DetectController(struct pci_dev * PCI_Device,const struct pci_device_id * entry)2711 DAC960_DetectController(struct pci_dev *PCI_Device,
2712 			const struct pci_device_id *entry)
2713 {
2714   struct DAC960_privdata *privdata =
2715 	  	(struct DAC960_privdata *)entry->driver_data;
2716   irq_handler_t InterruptHandler = privdata->InterruptHandler;
2717   unsigned int MemoryWindowSize = privdata->MemoryWindowSize;
2718   DAC960_Controller_T *Controller = NULL;
2719   unsigned char DeviceFunction = PCI_Device->devfn;
2720   unsigned char ErrorStatus, Parameter0, Parameter1;
2721   unsigned int IRQ_Channel;
2722   void __iomem *BaseAddress;
2723   int i;
2724 
2725   Controller = kzalloc(sizeof(DAC960_Controller_T), GFP_ATOMIC);
2726   if (Controller == NULL) {
2727 	DAC960_Error("Unable to allocate Controller structure for "
2728                        "Controller at\n", NULL);
2729 	return NULL;
2730   }
2731   Controller->ControllerNumber = DAC960_ControllerCount;
2732   DAC960_Controllers[DAC960_ControllerCount++] = Controller;
2733   Controller->Bus = PCI_Device->bus->number;
2734   Controller->FirmwareType = privdata->FirmwareType;
2735   Controller->HardwareType = privdata->HardwareType;
2736   Controller->Device = DeviceFunction >> 3;
2737   Controller->Function = DeviceFunction & 0x7;
2738   Controller->PCIDevice = PCI_Device;
2739   strcpy(Controller->FullModelName, "DAC960");
2740 
2741   if (pci_enable_device(PCI_Device))
2742 	goto Failure;
2743 
2744   switch (Controller->HardwareType)
2745   {
2746 	case DAC960_GEM_Controller:
2747 	  Controller->PCI_Address = pci_resource_start(PCI_Device, 0);
2748 	  break;
2749 	case DAC960_BA_Controller:
2750 	  Controller->PCI_Address = pci_resource_start(PCI_Device, 0);
2751 	  break;
2752 	case DAC960_LP_Controller:
2753 	  Controller->PCI_Address = pci_resource_start(PCI_Device, 0);
2754 	  break;
2755 	case DAC960_LA_Controller:
2756 	  Controller->PCI_Address = pci_resource_start(PCI_Device, 0);
2757 	  break;
2758 	case DAC960_PG_Controller:
2759 	  Controller->PCI_Address = pci_resource_start(PCI_Device, 0);
2760 	  break;
2761 	case DAC960_PD_Controller:
2762 	  Controller->IO_Address = pci_resource_start(PCI_Device, 0);
2763 	  Controller->PCI_Address = pci_resource_start(PCI_Device, 1);
2764 	  break;
2765 	case DAC960_P_Controller:
2766 	  Controller->IO_Address = pci_resource_start(PCI_Device, 0);
2767 	  Controller->PCI_Address = pci_resource_start(PCI_Device, 1);
2768 	  break;
2769   }
2770 
2771   pci_set_drvdata(PCI_Device, (void *)((long)Controller->ControllerNumber));
2772   for (i = 0; i < DAC960_MaxLogicalDrives; i++) {
2773 	Controller->disks[i] = alloc_disk(1<<DAC960_MaxPartitionsBits);
2774 	if (!Controller->disks[i])
2775 		goto Failure;
2776 	Controller->disks[i]->private_data = (void *)((long)i);
2777   }
2778   init_waitqueue_head(&Controller->CommandWaitQueue);
2779   init_waitqueue_head(&Controller->HealthStatusWaitQueue);
2780   spin_lock_init(&Controller->queue_lock);
2781   DAC960_AnnounceDriver(Controller);
2782   /*
2783     Map the Controller Register Window.
2784   */
2785  if (MemoryWindowSize < PAGE_SIZE)
2786 	MemoryWindowSize = PAGE_SIZE;
2787   Controller->MemoryMappedAddress =
2788 	ioremap_nocache(Controller->PCI_Address & PAGE_MASK, MemoryWindowSize);
2789   Controller->BaseAddress =
2790 	Controller->MemoryMappedAddress + (Controller->PCI_Address & ~PAGE_MASK);
2791   if (Controller->MemoryMappedAddress == NULL)
2792   {
2793 	  DAC960_Error("Unable to map Controller Register Window for "
2794 		       "Controller at\n", Controller);
2795 	  goto Failure;
2796   }
2797   BaseAddress = Controller->BaseAddress;
2798   switch (Controller->HardwareType)
2799   {
2800 	case DAC960_GEM_Controller:
2801 	  DAC960_GEM_DisableInterrupts(BaseAddress);
2802 	  DAC960_GEM_AcknowledgeHardwareMailboxStatus(BaseAddress);
2803 	  udelay(1000);
2804 	  while (DAC960_GEM_InitializationInProgressP(BaseAddress))
2805 	    {
2806 	      if (DAC960_GEM_ReadErrorStatus(BaseAddress, &ErrorStatus,
2807 					    &Parameter0, &Parameter1) &&
2808 		  DAC960_ReportErrorStatus(Controller, ErrorStatus,
2809 					   Parameter0, Parameter1))
2810 		goto Failure;
2811 	      udelay(10);
2812 	    }
2813 	  if (!DAC960_V2_EnableMemoryMailboxInterface(Controller))
2814 	    {
2815 	      DAC960_Error("Unable to Enable Memory Mailbox Interface "
2816 			   "for Controller at\n", Controller);
2817 	      goto Failure;
2818 	    }
2819 	  DAC960_GEM_EnableInterrupts(BaseAddress);
2820 	  Controller->QueueCommand = DAC960_GEM_QueueCommand;
2821 	  Controller->ReadControllerConfiguration =
2822 	    DAC960_V2_ReadControllerConfiguration;
2823 	  Controller->ReadDeviceConfiguration =
2824 	    DAC960_V2_ReadDeviceConfiguration;
2825 	  Controller->ReportDeviceConfiguration =
2826 	    DAC960_V2_ReportDeviceConfiguration;
2827 	  Controller->QueueReadWriteCommand =
2828 	    DAC960_V2_QueueReadWriteCommand;
2829 	  break;
2830 	case DAC960_BA_Controller:
2831 	  DAC960_BA_DisableInterrupts(BaseAddress);
2832 	  DAC960_BA_AcknowledgeHardwareMailboxStatus(BaseAddress);
2833 	  udelay(1000);
2834 	  while (DAC960_BA_InitializationInProgressP(BaseAddress))
2835 	    {
2836 	      if (DAC960_BA_ReadErrorStatus(BaseAddress, &ErrorStatus,
2837 					    &Parameter0, &Parameter1) &&
2838 		  DAC960_ReportErrorStatus(Controller, ErrorStatus,
2839 					   Parameter0, Parameter1))
2840 		goto Failure;
2841 	      udelay(10);
2842 	    }
2843 	  if (!DAC960_V2_EnableMemoryMailboxInterface(Controller))
2844 	    {
2845 	      DAC960_Error("Unable to Enable Memory Mailbox Interface "
2846 			   "for Controller at\n", Controller);
2847 	      goto Failure;
2848 	    }
2849 	  DAC960_BA_EnableInterrupts(BaseAddress);
2850 	  Controller->QueueCommand = DAC960_BA_QueueCommand;
2851 	  Controller->ReadControllerConfiguration =
2852 	    DAC960_V2_ReadControllerConfiguration;
2853 	  Controller->ReadDeviceConfiguration =
2854 	    DAC960_V2_ReadDeviceConfiguration;
2855 	  Controller->ReportDeviceConfiguration =
2856 	    DAC960_V2_ReportDeviceConfiguration;
2857 	  Controller->QueueReadWriteCommand =
2858 	    DAC960_V2_QueueReadWriteCommand;
2859 	  break;
2860 	case DAC960_LP_Controller:
2861 	  DAC960_LP_DisableInterrupts(BaseAddress);
2862 	  DAC960_LP_AcknowledgeHardwareMailboxStatus(BaseAddress);
2863 	  udelay(1000);
2864 	  while (DAC960_LP_InitializationInProgressP(BaseAddress))
2865 	    {
2866 	      if (DAC960_LP_ReadErrorStatus(BaseAddress, &ErrorStatus,
2867 					    &Parameter0, &Parameter1) &&
2868 		  DAC960_ReportErrorStatus(Controller, ErrorStatus,
2869 					   Parameter0, Parameter1))
2870 		goto Failure;
2871 	      udelay(10);
2872 	    }
2873 	  if (!DAC960_V2_EnableMemoryMailboxInterface(Controller))
2874 	    {
2875 	      DAC960_Error("Unable to Enable Memory Mailbox Interface "
2876 			   "for Controller at\n", Controller);
2877 	      goto Failure;
2878 	    }
2879 	  DAC960_LP_EnableInterrupts(BaseAddress);
2880 	  Controller->QueueCommand = DAC960_LP_QueueCommand;
2881 	  Controller->ReadControllerConfiguration =
2882 	    DAC960_V2_ReadControllerConfiguration;
2883 	  Controller->ReadDeviceConfiguration =
2884 	    DAC960_V2_ReadDeviceConfiguration;
2885 	  Controller->ReportDeviceConfiguration =
2886 	    DAC960_V2_ReportDeviceConfiguration;
2887 	  Controller->QueueReadWriteCommand =
2888 	    DAC960_V2_QueueReadWriteCommand;
2889 	  break;
2890 	case DAC960_LA_Controller:
2891 	  DAC960_LA_DisableInterrupts(BaseAddress);
2892 	  DAC960_LA_AcknowledgeHardwareMailboxStatus(BaseAddress);
2893 	  udelay(1000);
2894 	  while (DAC960_LA_InitializationInProgressP(BaseAddress))
2895 	    {
2896 	      if (DAC960_LA_ReadErrorStatus(BaseAddress, &ErrorStatus,
2897 					    &Parameter0, &Parameter1) &&
2898 		  DAC960_ReportErrorStatus(Controller, ErrorStatus,
2899 					   Parameter0, Parameter1))
2900 		goto Failure;
2901 	      udelay(10);
2902 	    }
2903 	  if (!DAC960_V1_EnableMemoryMailboxInterface(Controller))
2904 	    {
2905 	      DAC960_Error("Unable to Enable Memory Mailbox Interface "
2906 			   "for Controller at\n", Controller);
2907 	      goto Failure;
2908 	    }
2909 	  DAC960_LA_EnableInterrupts(BaseAddress);
2910 	  if (Controller->V1.DualModeMemoryMailboxInterface)
2911 	    Controller->QueueCommand = DAC960_LA_QueueCommandDualMode;
2912 	  else Controller->QueueCommand = DAC960_LA_QueueCommandSingleMode;
2913 	  Controller->ReadControllerConfiguration =
2914 	    DAC960_V1_ReadControllerConfiguration;
2915 	  Controller->ReadDeviceConfiguration =
2916 	    DAC960_V1_ReadDeviceConfiguration;
2917 	  Controller->ReportDeviceConfiguration =
2918 	    DAC960_V1_ReportDeviceConfiguration;
2919 	  Controller->QueueReadWriteCommand =
2920 	    DAC960_V1_QueueReadWriteCommand;
2921 	  break;
2922 	case DAC960_PG_Controller:
2923 	  DAC960_PG_DisableInterrupts(BaseAddress);
2924 	  DAC960_PG_AcknowledgeHardwareMailboxStatus(BaseAddress);
2925 	  udelay(1000);
2926 	  while (DAC960_PG_InitializationInProgressP(BaseAddress))
2927 	    {
2928 	      if (DAC960_PG_ReadErrorStatus(BaseAddress, &ErrorStatus,
2929 					    &Parameter0, &Parameter1) &&
2930 		  DAC960_ReportErrorStatus(Controller, ErrorStatus,
2931 					   Parameter0, Parameter1))
2932 		goto Failure;
2933 	      udelay(10);
2934 	    }
2935 	  if (!DAC960_V1_EnableMemoryMailboxInterface(Controller))
2936 	    {
2937 	      DAC960_Error("Unable to Enable Memory Mailbox Interface "
2938 			   "for Controller at\n", Controller);
2939 	      goto Failure;
2940 	    }
2941 	  DAC960_PG_EnableInterrupts(BaseAddress);
2942 	  if (Controller->V1.DualModeMemoryMailboxInterface)
2943 	    Controller->QueueCommand = DAC960_PG_QueueCommandDualMode;
2944 	  else Controller->QueueCommand = DAC960_PG_QueueCommandSingleMode;
2945 	  Controller->ReadControllerConfiguration =
2946 	    DAC960_V1_ReadControllerConfiguration;
2947 	  Controller->ReadDeviceConfiguration =
2948 	    DAC960_V1_ReadDeviceConfiguration;
2949 	  Controller->ReportDeviceConfiguration =
2950 	    DAC960_V1_ReportDeviceConfiguration;
2951 	  Controller->QueueReadWriteCommand =
2952 	    DAC960_V1_QueueReadWriteCommand;
2953 	  break;
2954 	case DAC960_PD_Controller:
2955 	  if (!request_region(Controller->IO_Address, 0x80,
2956 			      Controller->FullModelName)) {
2957 		DAC960_Error("IO port 0x%d busy for Controller at\n",
2958 			     Controller, Controller->IO_Address);
2959 		goto Failure;
2960 	  }
2961 	  DAC960_PD_DisableInterrupts(BaseAddress);
2962 	  DAC960_PD_AcknowledgeStatus(BaseAddress);
2963 	  udelay(1000);
2964 	  while (DAC960_PD_InitializationInProgressP(BaseAddress))
2965 	    {
2966 	      if (DAC960_PD_ReadErrorStatus(BaseAddress, &ErrorStatus,
2967 					    &Parameter0, &Parameter1) &&
2968 		  DAC960_ReportErrorStatus(Controller, ErrorStatus,
2969 					   Parameter0, Parameter1))
2970 		goto Failure;
2971 	      udelay(10);
2972 	    }
2973 	  if (!DAC960_V1_EnableMemoryMailboxInterface(Controller))
2974 	    {
2975 	      DAC960_Error("Unable to allocate DMA mapped memory "
2976 			   "for Controller at\n", Controller);
2977 	      goto Failure;
2978 	    }
2979 	  DAC960_PD_EnableInterrupts(BaseAddress);
2980 	  Controller->QueueCommand = DAC960_PD_QueueCommand;
2981 	  Controller->ReadControllerConfiguration =
2982 	    DAC960_V1_ReadControllerConfiguration;
2983 	  Controller->ReadDeviceConfiguration =
2984 	    DAC960_V1_ReadDeviceConfiguration;
2985 	  Controller->ReportDeviceConfiguration =
2986 	    DAC960_V1_ReportDeviceConfiguration;
2987 	  Controller->QueueReadWriteCommand =
2988 	    DAC960_V1_QueueReadWriteCommand;
2989 	  break;
2990 	case DAC960_P_Controller:
2991 	  if (!request_region(Controller->IO_Address, 0x80,
2992 			      Controller->FullModelName)){
2993 		DAC960_Error("IO port 0x%d busy for Controller at\n",
2994 		   	     Controller, Controller->IO_Address);
2995 		goto Failure;
2996 	  }
2997 	  DAC960_PD_DisableInterrupts(BaseAddress);
2998 	  DAC960_PD_AcknowledgeStatus(BaseAddress);
2999 	  udelay(1000);
3000 	  while (DAC960_PD_InitializationInProgressP(BaseAddress))
3001 	    {
3002 	      if (DAC960_PD_ReadErrorStatus(BaseAddress, &ErrorStatus,
3003 					    &Parameter0, &Parameter1) &&
3004 		  DAC960_ReportErrorStatus(Controller, ErrorStatus,
3005 					   Parameter0, Parameter1))
3006 		goto Failure;
3007 	      udelay(10);
3008 	    }
3009 	  if (!DAC960_V1_EnableMemoryMailboxInterface(Controller))
3010 	    {
3011 	      DAC960_Error("Unable to allocate DMA mapped memory"
3012 			   "for Controller at\n", Controller);
3013 	      goto Failure;
3014 	    }
3015 	  DAC960_PD_EnableInterrupts(BaseAddress);
3016 	  Controller->QueueCommand = DAC960_P_QueueCommand;
3017 	  Controller->ReadControllerConfiguration =
3018 	    DAC960_V1_ReadControllerConfiguration;
3019 	  Controller->ReadDeviceConfiguration =
3020 	    DAC960_V1_ReadDeviceConfiguration;
3021 	  Controller->ReportDeviceConfiguration =
3022 	    DAC960_V1_ReportDeviceConfiguration;
3023 	  Controller->QueueReadWriteCommand =
3024 	    DAC960_V1_QueueReadWriteCommand;
3025 	  break;
3026   }
3027   /*
3028      Acquire shared access to the IRQ Channel.
3029   */
3030   IRQ_Channel = PCI_Device->irq;
3031   if (request_irq(IRQ_Channel, InterruptHandler, IRQF_SHARED,
3032 		      Controller->FullModelName, Controller) < 0)
3033   {
3034 	DAC960_Error("Unable to acquire IRQ Channel %d for Controller at\n",
3035 		       Controller, Controller->IRQ_Channel);
3036 	goto Failure;
3037   }
3038   Controller->IRQ_Channel = IRQ_Channel;
3039   Controller->InitialCommand.CommandIdentifier = 1;
3040   Controller->InitialCommand.Controller = Controller;
3041   Controller->Commands[0] = &Controller->InitialCommand;
3042   Controller->FreeCommands = &Controller->InitialCommand;
3043   return Controller;
3044 
3045 Failure:
3046   if (Controller->IO_Address == 0)
3047 	DAC960_Error("PCI Bus %d Device %d Function %d I/O Address N/A "
3048 		     "PCI Address 0x%X\n", Controller,
3049 		     Controller->Bus, Controller->Device,
3050 		     Controller->Function, Controller->PCI_Address);
3051   else
3052 	DAC960_Error("PCI Bus %d Device %d Function %d I/O Address "
3053 			"0x%X PCI Address 0x%X\n", Controller,
3054 			Controller->Bus, Controller->Device,
3055 			Controller->Function, Controller->IO_Address,
3056 			Controller->PCI_Address);
3057   DAC960_DetectCleanup(Controller);
3058   DAC960_ControllerCount--;
3059   return NULL;
3060 }
3061 
3062 /*
3063   DAC960_InitializeController initializes Controller.
3064 */
3065 
3066 static bool
DAC960_InitializeController(DAC960_Controller_T * Controller)3067 DAC960_InitializeController(DAC960_Controller_T *Controller)
3068 {
3069   if (DAC960_ReadControllerConfiguration(Controller) &&
3070       DAC960_ReportControllerConfiguration(Controller) &&
3071       DAC960_CreateAuxiliaryStructures(Controller) &&
3072       DAC960_ReadDeviceConfiguration(Controller) &&
3073       DAC960_ReportDeviceConfiguration(Controller) &&
3074       DAC960_RegisterBlockDevice(Controller))
3075     {
3076       /*
3077 	Initialize the Monitoring Timer.
3078       */
3079       init_timer(&Controller->MonitoringTimer);
3080       Controller->MonitoringTimer.expires =
3081 	jiffies + DAC960_MonitoringTimerInterval;
3082       Controller->MonitoringTimer.data = (unsigned long) Controller;
3083       Controller->MonitoringTimer.function = DAC960_MonitoringTimerFunction;
3084       add_timer(&Controller->MonitoringTimer);
3085       Controller->ControllerInitialized = true;
3086       return true;
3087     }
3088   return false;
3089 }
3090 
3091 
3092 /*
3093   DAC960_FinalizeController finalizes Controller.
3094 */
3095 
DAC960_FinalizeController(DAC960_Controller_T * Controller)3096 static void DAC960_FinalizeController(DAC960_Controller_T *Controller)
3097 {
3098   if (Controller->ControllerInitialized)
3099     {
3100       unsigned long flags;
3101 
3102       /*
3103        * Acquiring and releasing lock here eliminates
3104        * a very low probability race.
3105        *
3106        * The code below allocates controller command structures
3107        * from the free list without holding the controller lock.
3108        * This is safe assuming there is no other activity on
3109        * the controller at the time.
3110        *
3111        * But, there might be a monitoring command still
3112        * in progress.  Setting the Shutdown flag while holding
3113        * the lock ensures that there is no monitoring command
3114        * in the interrupt handler currently, and any monitoring
3115        * commands that complete from this time on will NOT return
3116        * their command structure to the free list.
3117        */
3118 
3119       spin_lock_irqsave(&Controller->queue_lock, flags);
3120       Controller->ShutdownMonitoringTimer = 1;
3121       spin_unlock_irqrestore(&Controller->queue_lock, flags);
3122 
3123       del_timer_sync(&Controller->MonitoringTimer);
3124       if (Controller->FirmwareType == DAC960_V1_Controller)
3125 	{
3126 	  DAC960_Notice("Flushing Cache...", Controller);
3127 	  DAC960_V1_ExecuteType3(Controller, DAC960_V1_Flush, 0);
3128 	  DAC960_Notice("done\n", Controller);
3129 
3130 	  if (Controller->HardwareType == DAC960_PD_Controller)
3131 	      release_region(Controller->IO_Address, 0x80);
3132 	}
3133       else
3134 	{
3135 	  DAC960_Notice("Flushing Cache...", Controller);
3136 	  DAC960_V2_DeviceOperation(Controller, DAC960_V2_PauseDevice,
3137 				    DAC960_V2_RAID_Controller);
3138 	  DAC960_Notice("done\n", Controller);
3139 	}
3140     }
3141   DAC960_UnregisterBlockDevice(Controller);
3142   DAC960_DestroyAuxiliaryStructures(Controller);
3143   DAC960_DestroyProcEntries(Controller);
3144   DAC960_DetectCleanup(Controller);
3145 }
3146 
3147 
3148 /*
3149   DAC960_Probe verifies controller's existence and
3150   initializes the DAC960 Driver for that controller.
3151 */
3152 
3153 static int
DAC960_Probe(struct pci_dev * dev,const struct pci_device_id * entry)3154 DAC960_Probe(struct pci_dev *dev, const struct pci_device_id *entry)
3155 {
3156   int disk;
3157   DAC960_Controller_T *Controller;
3158 
3159   if (DAC960_ControllerCount == DAC960_MaxControllers)
3160   {
3161 	DAC960_Error("More than %d DAC960 Controllers detected - "
3162                        "ignoring from Controller at\n",
3163                        NULL, DAC960_MaxControllers);
3164 	return -ENODEV;
3165   }
3166 
3167   Controller = DAC960_DetectController(dev, entry);
3168   if (!Controller)
3169 	return -ENODEV;
3170 
3171   if (!DAC960_InitializeController(Controller)) {
3172   	DAC960_FinalizeController(Controller);
3173 	return -ENODEV;
3174   }
3175 
3176   for (disk = 0; disk < DAC960_MaxLogicalDrives; disk++) {
3177         set_capacity(Controller->disks[disk], disk_size(Controller, disk));
3178         add_disk(Controller->disks[disk]);
3179   }
3180   DAC960_CreateProcEntries(Controller);
3181   return 0;
3182 }
3183 
3184 
3185 /*
3186   DAC960_Finalize finalizes the DAC960 Driver.
3187 */
3188 
DAC960_Remove(struct pci_dev * PCI_Device)3189 static void DAC960_Remove(struct pci_dev *PCI_Device)
3190 {
3191   int Controller_Number = (long)pci_get_drvdata(PCI_Device);
3192   DAC960_Controller_T *Controller = DAC960_Controllers[Controller_Number];
3193   if (Controller != NULL)
3194       DAC960_FinalizeController(Controller);
3195 }
3196 
3197 
3198 /*
3199   DAC960_V1_QueueReadWriteCommand prepares and queues a Read/Write Command for
3200   DAC960 V1 Firmware Controllers.
3201 */
3202 
DAC960_V1_QueueReadWriteCommand(DAC960_Command_T * Command)3203 static void DAC960_V1_QueueReadWriteCommand(DAC960_Command_T *Command)
3204 {
3205   DAC960_Controller_T *Controller = Command->Controller;
3206   DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
3207   DAC960_V1_ScatterGatherSegment_T *ScatterGatherList =
3208 					Command->V1.ScatterGatherList;
3209   struct scatterlist *ScatterList = Command->V1.ScatterList;
3210 
3211   DAC960_V1_ClearCommand(Command);
3212 
3213   if (Command->SegmentCount == 1)
3214     {
3215       if (Command->DmaDirection == PCI_DMA_FROMDEVICE)
3216 	CommandMailbox->Type5.CommandOpcode = DAC960_V1_Read;
3217       else
3218         CommandMailbox->Type5.CommandOpcode = DAC960_V1_Write;
3219 
3220       CommandMailbox->Type5.LD.TransferLength = Command->BlockCount;
3221       CommandMailbox->Type5.LD.LogicalDriveNumber = Command->LogicalDriveNumber;
3222       CommandMailbox->Type5.LogicalBlockAddress = Command->BlockNumber;
3223       CommandMailbox->Type5.BusAddress =
3224 			(DAC960_BusAddress32_T)sg_dma_address(ScatterList);
3225     }
3226   else
3227     {
3228       int i;
3229 
3230       if (Command->DmaDirection == PCI_DMA_FROMDEVICE)
3231 	CommandMailbox->Type5.CommandOpcode = DAC960_V1_ReadWithScatterGather;
3232       else
3233 	CommandMailbox->Type5.CommandOpcode = DAC960_V1_WriteWithScatterGather;
3234 
3235       CommandMailbox->Type5.LD.TransferLength = Command->BlockCount;
3236       CommandMailbox->Type5.LD.LogicalDriveNumber = Command->LogicalDriveNumber;
3237       CommandMailbox->Type5.LogicalBlockAddress = Command->BlockNumber;
3238       CommandMailbox->Type5.BusAddress = Command->V1.ScatterGatherListDMA;
3239 
3240       CommandMailbox->Type5.ScatterGatherCount = Command->SegmentCount;
3241 
3242       for (i = 0; i < Command->SegmentCount; i++, ScatterList++, ScatterGatherList++) {
3243 		ScatterGatherList->SegmentDataPointer =
3244 			(DAC960_BusAddress32_T)sg_dma_address(ScatterList);
3245 		ScatterGatherList->SegmentByteCount =
3246 			(DAC960_ByteCount32_T)sg_dma_len(ScatterList);
3247       }
3248     }
3249   DAC960_QueueCommand(Command);
3250 }
3251 
3252 
3253 /*
3254   DAC960_V2_QueueReadWriteCommand prepares and queues a Read/Write Command for
3255   DAC960 V2 Firmware Controllers.
3256 */
3257 
DAC960_V2_QueueReadWriteCommand(DAC960_Command_T * Command)3258 static void DAC960_V2_QueueReadWriteCommand(DAC960_Command_T *Command)
3259 {
3260   DAC960_Controller_T *Controller = Command->Controller;
3261   DAC960_V2_CommandMailbox_T *CommandMailbox = &Command->V2.CommandMailbox;
3262   struct scatterlist *ScatterList = Command->V2.ScatterList;
3263 
3264   DAC960_V2_ClearCommand(Command);
3265 
3266   CommandMailbox->SCSI_10.CommandOpcode = DAC960_V2_SCSI_10;
3267   CommandMailbox->SCSI_10.CommandControlBits.DataTransferControllerToHost =
3268     (Command->DmaDirection == PCI_DMA_FROMDEVICE);
3269   CommandMailbox->SCSI_10.DataTransferSize =
3270     Command->BlockCount << DAC960_BlockSizeBits;
3271   CommandMailbox->SCSI_10.RequestSenseBusAddress = Command->V2.RequestSenseDMA;
3272   CommandMailbox->SCSI_10.PhysicalDevice =
3273     Controller->V2.LogicalDriveToVirtualDevice[Command->LogicalDriveNumber];
3274   CommandMailbox->SCSI_10.RequestSenseSize = sizeof(DAC960_SCSI_RequestSense_T);
3275   CommandMailbox->SCSI_10.CDBLength = 10;
3276   CommandMailbox->SCSI_10.SCSI_CDB[0] =
3277     (Command->DmaDirection == PCI_DMA_FROMDEVICE ? 0x28 : 0x2A);
3278   CommandMailbox->SCSI_10.SCSI_CDB[2] = Command->BlockNumber >> 24;
3279   CommandMailbox->SCSI_10.SCSI_CDB[3] = Command->BlockNumber >> 16;
3280   CommandMailbox->SCSI_10.SCSI_CDB[4] = Command->BlockNumber >> 8;
3281   CommandMailbox->SCSI_10.SCSI_CDB[5] = Command->BlockNumber;
3282   CommandMailbox->SCSI_10.SCSI_CDB[7] = Command->BlockCount >> 8;
3283   CommandMailbox->SCSI_10.SCSI_CDB[8] = Command->BlockCount;
3284 
3285   if (Command->SegmentCount == 1)
3286     {
3287       CommandMailbox->SCSI_10.DataTransferMemoryAddress
3288 			     .ScatterGatherSegments[0]
3289 			     .SegmentDataPointer =
3290 	(DAC960_BusAddress64_T)sg_dma_address(ScatterList);
3291       CommandMailbox->SCSI_10.DataTransferMemoryAddress
3292 			     .ScatterGatherSegments[0]
3293 			     .SegmentByteCount =
3294 	CommandMailbox->SCSI_10.DataTransferSize;
3295     }
3296   else
3297     {
3298       DAC960_V2_ScatterGatherSegment_T *ScatterGatherList;
3299       int i;
3300 
3301       if (Command->SegmentCount > 2)
3302 	{
3303           ScatterGatherList = Command->V2.ScatterGatherList;
3304 	  CommandMailbox->SCSI_10.CommandControlBits
3305 			 .AdditionalScatterGatherListMemory = true;
3306 	  CommandMailbox->SCSI_10.DataTransferMemoryAddress
3307 		.ExtendedScatterGather.ScatterGatherList0Length = Command->SegmentCount;
3308 	  CommandMailbox->SCSI_10.DataTransferMemoryAddress
3309 			 .ExtendedScatterGather.ScatterGatherList0Address =
3310 	    Command->V2.ScatterGatherListDMA;
3311 	}
3312       else
3313 	ScatterGatherList = CommandMailbox->SCSI_10.DataTransferMemoryAddress
3314 				 .ScatterGatherSegments;
3315 
3316       for (i = 0; i < Command->SegmentCount; i++, ScatterList++, ScatterGatherList++) {
3317 		ScatterGatherList->SegmentDataPointer =
3318 			(DAC960_BusAddress64_T)sg_dma_address(ScatterList);
3319 		ScatterGatherList->SegmentByteCount =
3320 			(DAC960_ByteCount64_T)sg_dma_len(ScatterList);
3321       }
3322     }
3323   DAC960_QueueCommand(Command);
3324 }
3325 
3326 
DAC960_process_queue(DAC960_Controller_T * Controller,struct request_queue * req_q)3327 static int DAC960_process_queue(DAC960_Controller_T *Controller, struct request_queue *req_q)
3328 {
3329 	struct request *Request;
3330 	DAC960_Command_T *Command;
3331 
3332    while(1) {
3333 	Request = blk_peek_request(req_q);
3334 	if (!Request)
3335 		return 1;
3336 
3337 	Command = DAC960_AllocateCommand(Controller);
3338 	if (Command == NULL)
3339 		return 0;
3340 
3341 	if (rq_data_dir(Request) == READ) {
3342 		Command->DmaDirection = PCI_DMA_FROMDEVICE;
3343 		Command->CommandType = DAC960_ReadCommand;
3344 	} else {
3345 		Command->DmaDirection = PCI_DMA_TODEVICE;
3346 		Command->CommandType = DAC960_WriteCommand;
3347 	}
3348 	Command->Completion = Request->end_io_data;
3349 	Command->LogicalDriveNumber = (long)Request->rq_disk->private_data;
3350 	Command->BlockNumber = blk_rq_pos(Request);
3351 	Command->BlockCount = blk_rq_sectors(Request);
3352 	Command->Request = Request;
3353 	blk_start_request(Request);
3354 	Command->SegmentCount = blk_rq_map_sg(req_q,
3355 		  Command->Request, Command->cmd_sglist);
3356 	/* pci_map_sg MAY change the value of SegCount */
3357 	Command->SegmentCount = pci_map_sg(Controller->PCIDevice, Command->cmd_sglist,
3358 		 Command->SegmentCount, Command->DmaDirection);
3359 
3360 	DAC960_QueueReadWriteCommand(Command);
3361   }
3362 }
3363 
3364 /*
3365   DAC960_ProcessRequest attempts to remove one I/O Request from Controller's
3366   I/O Request Queue and queues it to the Controller.  WaitForCommand is true if
3367   this function should wait for a Command to become available if necessary.
3368   This function returns true if an I/O Request was queued and false otherwise.
3369 */
DAC960_ProcessRequest(DAC960_Controller_T * controller)3370 static void DAC960_ProcessRequest(DAC960_Controller_T *controller)
3371 {
3372 	int i;
3373 
3374 	if (!controller->ControllerInitialized)
3375 		return;
3376 
3377 	/* Do this better later! */
3378 	for (i = controller->req_q_index; i < DAC960_MaxLogicalDrives; i++) {
3379 		struct request_queue *req_q = controller->RequestQueue[i];
3380 
3381 		if (req_q == NULL)
3382 			continue;
3383 
3384 		if (!DAC960_process_queue(controller, req_q)) {
3385 			controller->req_q_index = i;
3386 			return;
3387 		}
3388 	}
3389 
3390 	if (controller->req_q_index == 0)
3391 		return;
3392 
3393 	for (i = 0; i < controller->req_q_index; i++) {
3394 		struct request_queue *req_q = controller->RequestQueue[i];
3395 
3396 		if (req_q == NULL)
3397 			continue;
3398 
3399 		if (!DAC960_process_queue(controller, req_q)) {
3400 			controller->req_q_index = i;
3401 			return;
3402 		}
3403 	}
3404 }
3405 
3406 
3407 /*
3408   DAC960_queue_partial_rw extracts one bio from the request already
3409   associated with argument command, and construct a new command block to retry I/O
3410   only on that bio.  Queue that command to the controller.
3411 
3412   This function re-uses a previously-allocated Command,
3413   	there is no failure mode from trying to allocate a command.
3414 */
3415 
DAC960_queue_partial_rw(DAC960_Command_T * Command)3416 static void DAC960_queue_partial_rw(DAC960_Command_T *Command)
3417 {
3418   DAC960_Controller_T *Controller = Command->Controller;
3419   struct request *Request = Command->Request;
3420   struct request_queue *req_q = Controller->RequestQueue[Command->LogicalDriveNumber];
3421 
3422   if (Command->DmaDirection == PCI_DMA_FROMDEVICE)
3423     Command->CommandType = DAC960_ReadRetryCommand;
3424   else
3425     Command->CommandType = DAC960_WriteRetryCommand;
3426 
3427   /*
3428    * We could be more efficient with these mapping requests
3429    * and map only the portions that we need.  But since this
3430    * code should almost never be called, just go with a
3431    * simple coding.
3432    */
3433   (void)blk_rq_map_sg(req_q, Command->Request, Command->cmd_sglist);
3434 
3435   (void)pci_map_sg(Controller->PCIDevice, Command->cmd_sglist, 1, Command->DmaDirection);
3436   /*
3437    * Resubmitting the request sector at a time is really tedious.
3438    * But, this should almost never happen.  So, we're willing to pay
3439    * this price so that in the end, as much of the transfer is completed
3440    * successfully as possible.
3441    */
3442   Command->SegmentCount = 1;
3443   Command->BlockNumber = blk_rq_pos(Request);
3444   Command->BlockCount = 1;
3445   DAC960_QueueReadWriteCommand(Command);
3446   return;
3447 }
3448 
3449 /*
3450   DAC960_RequestFunction is the I/O Request Function for DAC960 Controllers.
3451 */
3452 
DAC960_RequestFunction(struct request_queue * RequestQueue)3453 static void DAC960_RequestFunction(struct request_queue *RequestQueue)
3454 {
3455 	DAC960_ProcessRequest(RequestQueue->queuedata);
3456 }
3457 
3458 /*
3459   DAC960_ProcessCompletedBuffer performs completion processing for an
3460   individual Buffer.
3461 */
3462 
DAC960_ProcessCompletedRequest(DAC960_Command_T * Command,bool SuccessfulIO)3463 static inline bool DAC960_ProcessCompletedRequest(DAC960_Command_T *Command,
3464 						 bool SuccessfulIO)
3465 {
3466 	struct request *Request = Command->Request;
3467 	int Error = SuccessfulIO ? 0 : -EIO;
3468 
3469 	pci_unmap_sg(Command->Controller->PCIDevice, Command->cmd_sglist,
3470 		Command->SegmentCount, Command->DmaDirection);
3471 
3472 	 if (!__blk_end_request(Request, Error, Command->BlockCount << 9)) {
3473 		if (Command->Completion) {
3474 			complete(Command->Completion);
3475 			Command->Completion = NULL;
3476 		}
3477 		return true;
3478 	}
3479 	return false;
3480 }
3481 
3482 /*
3483   DAC960_V1_ReadWriteError prints an appropriate error message for Command
3484   when an error occurs on a Read or Write operation.
3485 */
3486 
DAC960_V1_ReadWriteError(DAC960_Command_T * Command)3487 static void DAC960_V1_ReadWriteError(DAC960_Command_T *Command)
3488 {
3489   DAC960_Controller_T *Controller = Command->Controller;
3490   unsigned char *CommandName = "UNKNOWN";
3491   switch (Command->CommandType)
3492     {
3493     case DAC960_ReadCommand:
3494     case DAC960_ReadRetryCommand:
3495       CommandName = "READ";
3496       break;
3497     case DAC960_WriteCommand:
3498     case DAC960_WriteRetryCommand:
3499       CommandName = "WRITE";
3500       break;
3501     case DAC960_MonitoringCommand:
3502     case DAC960_ImmediateCommand:
3503     case DAC960_QueuedCommand:
3504       break;
3505     }
3506   switch (Command->V1.CommandStatus)
3507     {
3508     case DAC960_V1_IrrecoverableDataError:
3509       DAC960_Error("Irrecoverable Data Error on %s:\n",
3510 		   Controller, CommandName);
3511       break;
3512     case DAC960_V1_LogicalDriveNonexistentOrOffline:
3513       DAC960_Error("Logical Drive Nonexistent or Offline on %s:\n",
3514 		   Controller, CommandName);
3515       break;
3516     case DAC960_V1_AccessBeyondEndOfLogicalDrive:
3517       DAC960_Error("Attempt to Access Beyond End of Logical Drive "
3518 		   "on %s:\n", Controller, CommandName);
3519       break;
3520     case DAC960_V1_BadDataEncountered:
3521       DAC960_Error("Bad Data Encountered on %s:\n", Controller, CommandName);
3522       break;
3523     default:
3524       DAC960_Error("Unexpected Error Status %04X on %s:\n",
3525 		   Controller, Command->V1.CommandStatus, CommandName);
3526       break;
3527     }
3528   DAC960_Error("  /dev/rd/c%dd%d:   absolute blocks %u..%u\n",
3529 	       Controller, Controller->ControllerNumber,
3530 	       Command->LogicalDriveNumber, Command->BlockNumber,
3531 	       Command->BlockNumber + Command->BlockCount - 1);
3532 }
3533 
3534 
3535 /*
3536   DAC960_V1_ProcessCompletedCommand performs completion processing for Command
3537   for DAC960 V1 Firmware Controllers.
3538 */
3539 
DAC960_V1_ProcessCompletedCommand(DAC960_Command_T * Command)3540 static void DAC960_V1_ProcessCompletedCommand(DAC960_Command_T *Command)
3541 {
3542   DAC960_Controller_T *Controller = Command->Controller;
3543   DAC960_CommandType_T CommandType = Command->CommandType;
3544   DAC960_V1_CommandOpcode_T CommandOpcode =
3545     Command->V1.CommandMailbox.Common.CommandOpcode;
3546   DAC960_V1_CommandStatus_T CommandStatus = Command->V1.CommandStatus;
3547 
3548   if (CommandType == DAC960_ReadCommand ||
3549       CommandType == DAC960_WriteCommand)
3550     {
3551 
3552 #ifdef FORCE_RETRY_DEBUG
3553       CommandStatus = DAC960_V1_IrrecoverableDataError;
3554 #endif
3555 
3556       if (CommandStatus == DAC960_V1_NormalCompletion) {
3557 
3558 		if (!DAC960_ProcessCompletedRequest(Command, true))
3559 			BUG();
3560 
3561       } else if (CommandStatus == DAC960_V1_IrrecoverableDataError ||
3562 		CommandStatus == DAC960_V1_BadDataEncountered)
3563 	{
3564 	  /*
3565 	   * break the command down into pieces and resubmit each
3566 	   * piece, hoping that some of them will succeed.
3567 	   */
3568 	   DAC960_queue_partial_rw(Command);
3569 	   return;
3570 	}
3571       else
3572 	{
3573 	  if (CommandStatus != DAC960_V1_LogicalDriveNonexistentOrOffline)
3574 	    DAC960_V1_ReadWriteError(Command);
3575 
3576 	 if (!DAC960_ProcessCompletedRequest(Command, false))
3577 		BUG();
3578 	}
3579     }
3580   else if (CommandType == DAC960_ReadRetryCommand ||
3581 	   CommandType == DAC960_WriteRetryCommand)
3582     {
3583       bool normal_completion;
3584 #ifdef FORCE_RETRY_FAILURE_DEBUG
3585       static int retry_count = 1;
3586 #endif
3587       /*
3588         Perform completion processing for the portion that was
3589         retried, and submit the next portion, if any.
3590       */
3591       normal_completion = true;
3592       if (CommandStatus != DAC960_V1_NormalCompletion) {
3593         normal_completion = false;
3594         if (CommandStatus != DAC960_V1_LogicalDriveNonexistentOrOffline)
3595             DAC960_V1_ReadWriteError(Command);
3596       }
3597 
3598 #ifdef FORCE_RETRY_FAILURE_DEBUG
3599       if (!(++retry_count % 10000)) {
3600 	      printk("V1 error retry failure test\n");
3601 	      normal_completion = false;
3602               DAC960_V1_ReadWriteError(Command);
3603       }
3604 #endif
3605 
3606       if (!DAC960_ProcessCompletedRequest(Command, normal_completion)) {
3607         DAC960_queue_partial_rw(Command);
3608         return;
3609       }
3610     }
3611 
3612   else if (CommandType == DAC960_MonitoringCommand)
3613     {
3614       if (Controller->ShutdownMonitoringTimer)
3615 	      return;
3616       if (CommandOpcode == DAC960_V1_Enquiry)
3617 	{
3618 	  DAC960_V1_Enquiry_T *OldEnquiry = &Controller->V1.Enquiry;
3619 	  DAC960_V1_Enquiry_T *NewEnquiry = Controller->V1.NewEnquiry;
3620 	  unsigned int OldCriticalLogicalDriveCount =
3621 	    OldEnquiry->CriticalLogicalDriveCount;
3622 	  unsigned int NewCriticalLogicalDriveCount =
3623 	    NewEnquiry->CriticalLogicalDriveCount;
3624 	  if (NewEnquiry->NumberOfLogicalDrives > Controller->LogicalDriveCount)
3625 	    {
3626 	      int LogicalDriveNumber = Controller->LogicalDriveCount - 1;
3627 	      while (++LogicalDriveNumber < NewEnquiry->NumberOfLogicalDrives)
3628 		DAC960_Critical("Logical Drive %d (/dev/rd/c%dd%d) "
3629 				"Now Exists\n", Controller,
3630 				LogicalDriveNumber,
3631 				Controller->ControllerNumber,
3632 				LogicalDriveNumber);
3633 	      Controller->LogicalDriveCount = NewEnquiry->NumberOfLogicalDrives;
3634 	      DAC960_ComputeGenericDiskInfo(Controller);
3635 	    }
3636 	  if (NewEnquiry->NumberOfLogicalDrives < Controller->LogicalDriveCount)
3637 	    {
3638 	      int LogicalDriveNumber = NewEnquiry->NumberOfLogicalDrives - 1;
3639 	      while (++LogicalDriveNumber < Controller->LogicalDriveCount)
3640 		DAC960_Critical("Logical Drive %d (/dev/rd/c%dd%d) "
3641 				"No Longer Exists\n", Controller,
3642 				LogicalDriveNumber,
3643 				Controller->ControllerNumber,
3644 				LogicalDriveNumber);
3645 	      Controller->LogicalDriveCount = NewEnquiry->NumberOfLogicalDrives;
3646 	      DAC960_ComputeGenericDiskInfo(Controller);
3647 	    }
3648 	  if (NewEnquiry->StatusFlags.DeferredWriteError !=
3649 	      OldEnquiry->StatusFlags.DeferredWriteError)
3650 	    DAC960_Critical("Deferred Write Error Flag is now %s\n", Controller,
3651 			    (NewEnquiry->StatusFlags.DeferredWriteError
3652 			     ? "TRUE" : "FALSE"));
3653 	  if ((NewCriticalLogicalDriveCount > 0 ||
3654 	       NewCriticalLogicalDriveCount != OldCriticalLogicalDriveCount) ||
3655 	      (NewEnquiry->OfflineLogicalDriveCount > 0 ||
3656 	       NewEnquiry->OfflineLogicalDriveCount !=
3657 	       OldEnquiry->OfflineLogicalDriveCount) ||
3658 	      (NewEnquiry->DeadDriveCount > 0 ||
3659 	       NewEnquiry->DeadDriveCount !=
3660 	       OldEnquiry->DeadDriveCount) ||
3661 	      (NewEnquiry->EventLogSequenceNumber !=
3662 	       OldEnquiry->EventLogSequenceNumber) ||
3663 	      Controller->MonitoringTimerCount == 0 ||
3664 	      time_after_eq(jiffies, Controller->SecondaryMonitoringTime
3665 	       + DAC960_SecondaryMonitoringInterval))
3666 	    {
3667 	      Controller->V1.NeedLogicalDriveInformation = true;
3668 	      Controller->V1.NewEventLogSequenceNumber =
3669 		NewEnquiry->EventLogSequenceNumber;
3670 	      Controller->V1.NeedErrorTableInformation = true;
3671 	      Controller->V1.NeedDeviceStateInformation = true;
3672 	      Controller->V1.StartDeviceStateScan = true;
3673 	      Controller->V1.NeedBackgroundInitializationStatus =
3674 		Controller->V1.BackgroundInitializationStatusSupported;
3675 	      Controller->SecondaryMonitoringTime = jiffies;
3676 	    }
3677 	  if (NewEnquiry->RebuildFlag == DAC960_V1_StandbyRebuildInProgress ||
3678 	      NewEnquiry->RebuildFlag
3679 	      == DAC960_V1_BackgroundRebuildInProgress ||
3680 	      OldEnquiry->RebuildFlag == DAC960_V1_StandbyRebuildInProgress ||
3681 	      OldEnquiry->RebuildFlag == DAC960_V1_BackgroundRebuildInProgress)
3682 	    {
3683 	      Controller->V1.NeedRebuildProgress = true;
3684 	      Controller->V1.RebuildProgressFirst =
3685 		(NewEnquiry->CriticalLogicalDriveCount <
3686 		 OldEnquiry->CriticalLogicalDriveCount);
3687 	    }
3688 	  if (OldEnquiry->RebuildFlag == DAC960_V1_BackgroundCheckInProgress)
3689 	    switch (NewEnquiry->RebuildFlag)
3690 	      {
3691 	      case DAC960_V1_NoStandbyRebuildOrCheckInProgress:
3692 		DAC960_Progress("Consistency Check Completed Successfully\n",
3693 				Controller);
3694 		break;
3695 	      case DAC960_V1_StandbyRebuildInProgress:
3696 	      case DAC960_V1_BackgroundRebuildInProgress:
3697 		break;
3698 	      case DAC960_V1_BackgroundCheckInProgress:
3699 		Controller->V1.NeedConsistencyCheckProgress = true;
3700 		break;
3701 	      case DAC960_V1_StandbyRebuildCompletedWithError:
3702 		DAC960_Progress("Consistency Check Completed with Error\n",
3703 				Controller);
3704 		break;
3705 	      case DAC960_V1_BackgroundRebuildOrCheckFailed_DriveFailed:
3706 		DAC960_Progress("Consistency Check Failed - "
3707 				"Physical Device Failed\n", Controller);
3708 		break;
3709 	      case DAC960_V1_BackgroundRebuildOrCheckFailed_LogicalDriveFailed:
3710 		DAC960_Progress("Consistency Check Failed - "
3711 				"Logical Drive Failed\n", Controller);
3712 		break;
3713 	      case DAC960_V1_BackgroundRebuildOrCheckFailed_OtherCauses:
3714 		DAC960_Progress("Consistency Check Failed - Other Causes\n",
3715 				Controller);
3716 		break;
3717 	      case DAC960_V1_BackgroundRebuildOrCheckSuccessfullyTerminated:
3718 		DAC960_Progress("Consistency Check Successfully Terminated\n",
3719 				Controller);
3720 		break;
3721 	      }
3722 	  else if (NewEnquiry->RebuildFlag
3723 		   == DAC960_V1_BackgroundCheckInProgress)
3724 	    Controller->V1.NeedConsistencyCheckProgress = true;
3725 	  Controller->MonitoringAlertMode =
3726 	    (NewEnquiry->CriticalLogicalDriveCount > 0 ||
3727 	     NewEnquiry->OfflineLogicalDriveCount > 0 ||
3728 	     NewEnquiry->DeadDriveCount > 0);
3729 	  if (NewEnquiry->RebuildFlag > DAC960_V1_BackgroundCheckInProgress)
3730 	    {
3731 	      Controller->V1.PendingRebuildFlag = NewEnquiry->RebuildFlag;
3732 	      Controller->V1.RebuildFlagPending = true;
3733 	    }
3734 	  memcpy(&Controller->V1.Enquiry, &Controller->V1.NewEnquiry,
3735 		 sizeof(DAC960_V1_Enquiry_T));
3736 	}
3737       else if (CommandOpcode == DAC960_V1_PerformEventLogOperation)
3738 	{
3739 	  static char
3740 	    *DAC960_EventMessages[] =
3741 	       { "killed because write recovery failed",
3742 		 "killed because of SCSI bus reset failure",
3743 		 "killed because of double check condition",
3744 		 "killed because it was removed",
3745 		 "killed because of gross error on SCSI chip",
3746 		 "killed because of bad tag returned from drive",
3747 		 "killed because of timeout on SCSI command",
3748 		 "killed because of reset SCSI command issued from system",
3749 		 "killed because busy or parity error count exceeded limit",
3750 		 "killed because of 'kill drive' command from system",
3751 		 "killed because of selection timeout",
3752 		 "killed due to SCSI phase sequence error",
3753 		 "killed due to unknown status" };
3754 	  DAC960_V1_EventLogEntry_T *EventLogEntry =
3755 	    	Controller->V1.EventLogEntry;
3756 	  if (EventLogEntry->SequenceNumber ==
3757 	      Controller->V1.OldEventLogSequenceNumber)
3758 	    {
3759 	      unsigned char SenseKey = EventLogEntry->SenseKey;
3760 	      unsigned char AdditionalSenseCode =
3761 		EventLogEntry->AdditionalSenseCode;
3762 	      unsigned char AdditionalSenseCodeQualifier =
3763 		EventLogEntry->AdditionalSenseCodeQualifier;
3764 	      if (SenseKey == DAC960_SenseKey_VendorSpecific &&
3765 		  AdditionalSenseCode == 0x80 &&
3766 		  AdditionalSenseCodeQualifier <
3767 		  ARRAY_SIZE(DAC960_EventMessages))
3768 		DAC960_Critical("Physical Device %d:%d %s\n", Controller,
3769 				EventLogEntry->Channel,
3770 				EventLogEntry->TargetID,
3771 				DAC960_EventMessages[
3772 				  AdditionalSenseCodeQualifier]);
3773 	      else if (SenseKey == DAC960_SenseKey_UnitAttention &&
3774 		       AdditionalSenseCode == 0x29)
3775 		{
3776 		  if (Controller->MonitoringTimerCount > 0)
3777 		    Controller->V1.DeviceResetCount[EventLogEntry->Channel]
3778 						   [EventLogEntry->TargetID]++;
3779 		}
3780 	      else if (!(SenseKey == DAC960_SenseKey_NoSense ||
3781 			 (SenseKey == DAC960_SenseKey_NotReady &&
3782 			  AdditionalSenseCode == 0x04 &&
3783 			  (AdditionalSenseCodeQualifier == 0x01 ||
3784 			   AdditionalSenseCodeQualifier == 0x02))))
3785 		{
3786 		  DAC960_Critical("Physical Device %d:%d Error Log: "
3787 				  "Sense Key = %X, ASC = %02X, ASCQ = %02X\n",
3788 				  Controller,
3789 				  EventLogEntry->Channel,
3790 				  EventLogEntry->TargetID,
3791 				  SenseKey,
3792 				  AdditionalSenseCode,
3793 				  AdditionalSenseCodeQualifier);
3794 		  DAC960_Critical("Physical Device %d:%d Error Log: "
3795 				  "Information = %02X%02X%02X%02X "
3796 				  "%02X%02X%02X%02X\n",
3797 				  Controller,
3798 				  EventLogEntry->Channel,
3799 				  EventLogEntry->TargetID,
3800 				  EventLogEntry->Information[0],
3801 				  EventLogEntry->Information[1],
3802 				  EventLogEntry->Information[2],
3803 				  EventLogEntry->Information[3],
3804 				  EventLogEntry->CommandSpecificInformation[0],
3805 				  EventLogEntry->CommandSpecificInformation[1],
3806 				  EventLogEntry->CommandSpecificInformation[2],
3807 				  EventLogEntry->CommandSpecificInformation[3]);
3808 		}
3809 	    }
3810 	  Controller->V1.OldEventLogSequenceNumber++;
3811 	}
3812       else if (CommandOpcode == DAC960_V1_GetErrorTable)
3813 	{
3814 	  DAC960_V1_ErrorTable_T *OldErrorTable = &Controller->V1.ErrorTable;
3815 	  DAC960_V1_ErrorTable_T *NewErrorTable = Controller->V1.NewErrorTable;
3816 	  int Channel, TargetID;
3817 	  for (Channel = 0; Channel < Controller->Channels; Channel++)
3818 	    for (TargetID = 0; TargetID < Controller->Targets; TargetID++)
3819 	      {
3820 		DAC960_V1_ErrorTableEntry_T *NewErrorEntry =
3821 		  &NewErrorTable->ErrorTableEntries[Channel][TargetID];
3822 		DAC960_V1_ErrorTableEntry_T *OldErrorEntry =
3823 		  &OldErrorTable->ErrorTableEntries[Channel][TargetID];
3824 		if ((NewErrorEntry->ParityErrorCount !=
3825 		     OldErrorEntry->ParityErrorCount) ||
3826 		    (NewErrorEntry->SoftErrorCount !=
3827 		     OldErrorEntry->SoftErrorCount) ||
3828 		    (NewErrorEntry->HardErrorCount !=
3829 		     OldErrorEntry->HardErrorCount) ||
3830 		    (NewErrorEntry->MiscErrorCount !=
3831 		     OldErrorEntry->MiscErrorCount))
3832 		  DAC960_Critical("Physical Device %d:%d Errors: "
3833 				  "Parity = %d, Soft = %d, "
3834 				  "Hard = %d, Misc = %d\n",
3835 				  Controller, Channel, TargetID,
3836 				  NewErrorEntry->ParityErrorCount,
3837 				  NewErrorEntry->SoftErrorCount,
3838 				  NewErrorEntry->HardErrorCount,
3839 				  NewErrorEntry->MiscErrorCount);
3840 	      }
3841 	  memcpy(&Controller->V1.ErrorTable, Controller->V1.NewErrorTable,
3842 		 sizeof(DAC960_V1_ErrorTable_T));
3843 	}
3844       else if (CommandOpcode == DAC960_V1_GetDeviceState)
3845 	{
3846 	  DAC960_V1_DeviceState_T *OldDeviceState =
3847 	    &Controller->V1.DeviceState[Controller->V1.DeviceStateChannel]
3848 				       [Controller->V1.DeviceStateTargetID];
3849 	  DAC960_V1_DeviceState_T *NewDeviceState =
3850 	    Controller->V1.NewDeviceState;
3851 	  if (NewDeviceState->DeviceState != OldDeviceState->DeviceState)
3852 	    DAC960_Critical("Physical Device %d:%d is now %s\n", Controller,
3853 			    Controller->V1.DeviceStateChannel,
3854 			    Controller->V1.DeviceStateTargetID,
3855 			    (NewDeviceState->DeviceState
3856 			     == DAC960_V1_Device_Dead
3857 			     ? "DEAD"
3858 			     : NewDeviceState->DeviceState
3859 			       == DAC960_V1_Device_WriteOnly
3860 			       ? "WRITE-ONLY"
3861 			       : NewDeviceState->DeviceState
3862 				 == DAC960_V1_Device_Online
3863 				 ? "ONLINE" : "STANDBY"));
3864 	  if (OldDeviceState->DeviceState == DAC960_V1_Device_Dead &&
3865 	      NewDeviceState->DeviceState != DAC960_V1_Device_Dead)
3866 	    {
3867 	      Controller->V1.NeedDeviceInquiryInformation = true;
3868 	      Controller->V1.NeedDeviceSerialNumberInformation = true;
3869 	      Controller->V1.DeviceResetCount
3870 			     [Controller->V1.DeviceStateChannel]
3871 			     [Controller->V1.DeviceStateTargetID] = 0;
3872 	    }
3873 	  memcpy(OldDeviceState, NewDeviceState,
3874 		 sizeof(DAC960_V1_DeviceState_T));
3875 	}
3876       else if (CommandOpcode == DAC960_V1_GetLogicalDriveInformation)
3877 	{
3878 	  int LogicalDriveNumber;
3879 	  for (LogicalDriveNumber = 0;
3880 	       LogicalDriveNumber < Controller->LogicalDriveCount;
3881 	       LogicalDriveNumber++)
3882 	    {
3883 	      DAC960_V1_LogicalDriveInformation_T *OldLogicalDriveInformation =
3884 		&Controller->V1.LogicalDriveInformation[LogicalDriveNumber];
3885 	      DAC960_V1_LogicalDriveInformation_T *NewLogicalDriveInformation =
3886 		&(*Controller->V1.NewLogicalDriveInformation)[LogicalDriveNumber];
3887 	      if (NewLogicalDriveInformation->LogicalDriveState !=
3888 		  OldLogicalDriveInformation->LogicalDriveState)
3889 		DAC960_Critical("Logical Drive %d (/dev/rd/c%dd%d) "
3890 				"is now %s\n", Controller,
3891 				LogicalDriveNumber,
3892 				Controller->ControllerNumber,
3893 				LogicalDriveNumber,
3894 				(NewLogicalDriveInformation->LogicalDriveState
3895 				 == DAC960_V1_LogicalDrive_Online
3896 				 ? "ONLINE"
3897 				 : NewLogicalDriveInformation->LogicalDriveState
3898 				   == DAC960_V1_LogicalDrive_Critical
3899 				   ? "CRITICAL" : "OFFLINE"));
3900 	      if (NewLogicalDriveInformation->WriteBack !=
3901 		  OldLogicalDriveInformation->WriteBack)
3902 		DAC960_Critical("Logical Drive %d (/dev/rd/c%dd%d) "
3903 				"is now %s\n", Controller,
3904 				LogicalDriveNumber,
3905 				Controller->ControllerNumber,
3906 				LogicalDriveNumber,
3907 				(NewLogicalDriveInformation->WriteBack
3908 				 ? "WRITE BACK" : "WRITE THRU"));
3909 	    }
3910 	  memcpy(&Controller->V1.LogicalDriveInformation,
3911 		 Controller->V1.NewLogicalDriveInformation,
3912 		 sizeof(DAC960_V1_LogicalDriveInformationArray_T));
3913 	}
3914       else if (CommandOpcode == DAC960_V1_GetRebuildProgress)
3915 	{
3916 	  unsigned int LogicalDriveNumber =
3917 	    Controller->V1.RebuildProgress->LogicalDriveNumber;
3918 	  unsigned int LogicalDriveSize =
3919 	    Controller->V1.RebuildProgress->LogicalDriveSize;
3920 	  unsigned int BlocksCompleted =
3921 	    LogicalDriveSize - Controller->V1.RebuildProgress->RemainingBlocks;
3922 	  if (CommandStatus == DAC960_V1_NoRebuildOrCheckInProgress &&
3923 	      Controller->V1.LastRebuildStatus == DAC960_V1_NormalCompletion)
3924 	    CommandStatus = DAC960_V1_RebuildSuccessful;
3925 	  switch (CommandStatus)
3926 	    {
3927 	    case DAC960_V1_NormalCompletion:
3928 	      Controller->EphemeralProgressMessage = true;
3929 	      DAC960_Progress("Rebuild in Progress: "
3930 			      "Logical Drive %d (/dev/rd/c%dd%d) "
3931 			      "%d%% completed\n",
3932 			      Controller, LogicalDriveNumber,
3933 			      Controller->ControllerNumber,
3934 			      LogicalDriveNumber,
3935 			      (100 * (BlocksCompleted >> 7))
3936 			      / (LogicalDriveSize >> 7));
3937 	      Controller->EphemeralProgressMessage = false;
3938 	      break;
3939 	    case DAC960_V1_RebuildFailed_LogicalDriveFailure:
3940 	      DAC960_Progress("Rebuild Failed due to "
3941 			      "Logical Drive Failure\n", Controller);
3942 	      break;
3943 	    case DAC960_V1_RebuildFailed_BadBlocksOnOther:
3944 	      DAC960_Progress("Rebuild Failed due to "
3945 			      "Bad Blocks on Other Drives\n", Controller);
3946 	      break;
3947 	    case DAC960_V1_RebuildFailed_NewDriveFailed:
3948 	      DAC960_Progress("Rebuild Failed due to "
3949 			      "Failure of Drive Being Rebuilt\n", Controller);
3950 	      break;
3951 	    case DAC960_V1_NoRebuildOrCheckInProgress:
3952 	      break;
3953 	    case DAC960_V1_RebuildSuccessful:
3954 	      DAC960_Progress("Rebuild Completed Successfully\n", Controller);
3955 	      break;
3956 	    case DAC960_V1_RebuildSuccessfullyTerminated:
3957 	      DAC960_Progress("Rebuild Successfully Terminated\n", Controller);
3958 	      break;
3959 	    }
3960 	  Controller->V1.LastRebuildStatus = CommandStatus;
3961 	  if (CommandType != DAC960_MonitoringCommand &&
3962 	      Controller->V1.RebuildStatusPending)
3963 	    {
3964 	      Command->V1.CommandStatus = Controller->V1.PendingRebuildStatus;
3965 	      Controller->V1.RebuildStatusPending = false;
3966 	    }
3967 	  else if (CommandType == DAC960_MonitoringCommand &&
3968 		   CommandStatus != DAC960_V1_NormalCompletion &&
3969 		   CommandStatus != DAC960_V1_NoRebuildOrCheckInProgress)
3970 	    {
3971 	      Controller->V1.PendingRebuildStatus = CommandStatus;
3972 	      Controller->V1.RebuildStatusPending = true;
3973 	    }
3974 	}
3975       else if (CommandOpcode == DAC960_V1_RebuildStat)
3976 	{
3977 	  unsigned int LogicalDriveNumber =
3978 	    Controller->V1.RebuildProgress->LogicalDriveNumber;
3979 	  unsigned int LogicalDriveSize =
3980 	    Controller->V1.RebuildProgress->LogicalDriveSize;
3981 	  unsigned int BlocksCompleted =
3982 	    LogicalDriveSize - Controller->V1.RebuildProgress->RemainingBlocks;
3983 	  if (CommandStatus == DAC960_V1_NormalCompletion)
3984 	    {
3985 	      Controller->EphemeralProgressMessage = true;
3986 	      DAC960_Progress("Consistency Check in Progress: "
3987 			      "Logical Drive %d (/dev/rd/c%dd%d) "
3988 			      "%d%% completed\n",
3989 			      Controller, LogicalDriveNumber,
3990 			      Controller->ControllerNumber,
3991 			      LogicalDriveNumber,
3992 			      (100 * (BlocksCompleted >> 7))
3993 			      / (LogicalDriveSize >> 7));
3994 	      Controller->EphemeralProgressMessage = false;
3995 	    }
3996 	}
3997       else if (CommandOpcode == DAC960_V1_BackgroundInitializationControl)
3998 	{
3999 	  unsigned int LogicalDriveNumber =
4000 	    Controller->V1.BackgroundInitializationStatus->LogicalDriveNumber;
4001 	  unsigned int LogicalDriveSize =
4002 	    Controller->V1.BackgroundInitializationStatus->LogicalDriveSize;
4003 	  unsigned int BlocksCompleted =
4004 	    Controller->V1.BackgroundInitializationStatus->BlocksCompleted;
4005 	  switch (CommandStatus)
4006 	    {
4007 	    case DAC960_V1_NormalCompletion:
4008 	      switch (Controller->V1.BackgroundInitializationStatus->Status)
4009 		{
4010 		case DAC960_V1_BackgroundInitializationInvalid:
4011 		  break;
4012 		case DAC960_V1_BackgroundInitializationStarted:
4013 		  DAC960_Progress("Background Initialization Started\n",
4014 				  Controller);
4015 		  break;
4016 		case DAC960_V1_BackgroundInitializationInProgress:
4017 		  if (BlocksCompleted ==
4018 		      Controller->V1.LastBackgroundInitializationStatus.
4019 				BlocksCompleted &&
4020 		      LogicalDriveNumber ==
4021 		      Controller->V1.LastBackgroundInitializationStatus.
4022 				LogicalDriveNumber)
4023 		    break;
4024 		  Controller->EphemeralProgressMessage = true;
4025 		  DAC960_Progress("Background Initialization in Progress: "
4026 				  "Logical Drive %d (/dev/rd/c%dd%d) "
4027 				  "%d%% completed\n",
4028 				  Controller, LogicalDriveNumber,
4029 				  Controller->ControllerNumber,
4030 				  LogicalDriveNumber,
4031 				  (100 * (BlocksCompleted >> 7))
4032 				  / (LogicalDriveSize >> 7));
4033 		  Controller->EphemeralProgressMessage = false;
4034 		  break;
4035 		case DAC960_V1_BackgroundInitializationSuspended:
4036 		  DAC960_Progress("Background Initialization Suspended\n",
4037 				  Controller);
4038 		  break;
4039 		case DAC960_V1_BackgroundInitializationCancelled:
4040 		  DAC960_Progress("Background Initialization Cancelled\n",
4041 				  Controller);
4042 		  break;
4043 		}
4044 	      memcpy(&Controller->V1.LastBackgroundInitializationStatus,
4045 		     Controller->V1.BackgroundInitializationStatus,
4046 		     sizeof(DAC960_V1_BackgroundInitializationStatus_T));
4047 	      break;
4048 	    case DAC960_V1_BackgroundInitSuccessful:
4049 	      if (Controller->V1.BackgroundInitializationStatus->Status ==
4050 		  DAC960_V1_BackgroundInitializationInProgress)
4051 		DAC960_Progress("Background Initialization "
4052 				"Completed Successfully\n", Controller);
4053 	      Controller->V1.BackgroundInitializationStatus->Status =
4054 		DAC960_V1_BackgroundInitializationInvalid;
4055 	      break;
4056 	    case DAC960_V1_BackgroundInitAborted:
4057 	      if (Controller->V1.BackgroundInitializationStatus->Status ==
4058 		  DAC960_V1_BackgroundInitializationInProgress)
4059 		DAC960_Progress("Background Initialization Aborted\n",
4060 				Controller);
4061 	      Controller->V1.BackgroundInitializationStatus->Status =
4062 		DAC960_V1_BackgroundInitializationInvalid;
4063 	      break;
4064 	    case DAC960_V1_NoBackgroundInitInProgress:
4065 	      break;
4066 	    }
4067 	}
4068       else if (CommandOpcode == DAC960_V1_DCDB)
4069 	{
4070 	   /*
4071 	     This is a bit ugly.
4072 
4073 	     The InquiryStandardData and
4074 	     the InquiryUntitSerialNumber information
4075 	     retrieval operations BOTH use the DAC960_V1_DCDB
4076 	     commands.  the test above can't distinguish between
4077 	     these two cases.
4078 
4079 	     Instead, we rely on the order of code later in this
4080              function to ensure that DeviceInquiryInformation commands
4081              are submitted before DeviceSerialNumber commands.
4082 	   */
4083 	   if (Controller->V1.NeedDeviceInquiryInformation)
4084 	     {
4085 	        DAC960_SCSI_Inquiry_T *InquiryStandardData =
4086 			&Controller->V1.InquiryStandardData
4087 				[Controller->V1.DeviceStateChannel]
4088 				[Controller->V1.DeviceStateTargetID];
4089 	        if (CommandStatus != DAC960_V1_NormalCompletion)
4090 		   {
4091 			memset(InquiryStandardData, 0,
4092 				sizeof(DAC960_SCSI_Inquiry_T));
4093 	      		InquiryStandardData->PeripheralDeviceType = 0x1F;
4094 		    }
4095 	         else
4096 			memcpy(InquiryStandardData,
4097 				Controller->V1.NewInquiryStandardData,
4098 				sizeof(DAC960_SCSI_Inquiry_T));
4099 	         Controller->V1.NeedDeviceInquiryInformation = false;
4100               }
4101 	   else if (Controller->V1.NeedDeviceSerialNumberInformation)
4102               {
4103 	        DAC960_SCSI_Inquiry_UnitSerialNumber_T *InquiryUnitSerialNumber =
4104 		  &Controller->V1.InquiryUnitSerialNumber
4105 				[Controller->V1.DeviceStateChannel]
4106 				[Controller->V1.DeviceStateTargetID];
4107 	         if (CommandStatus != DAC960_V1_NormalCompletion)
4108 		   {
4109 			memset(InquiryUnitSerialNumber, 0,
4110 				sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T));
4111 	      		InquiryUnitSerialNumber->PeripheralDeviceType = 0x1F;
4112 		    }
4113 	          else
4114 			memcpy(InquiryUnitSerialNumber,
4115 				Controller->V1.NewInquiryUnitSerialNumber,
4116 				sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T));
4117 	      Controller->V1.NeedDeviceSerialNumberInformation = false;
4118 	     }
4119 	}
4120       /*
4121         Begin submitting new monitoring commands.
4122        */
4123       if (Controller->V1.NewEventLogSequenceNumber
4124 	  - Controller->V1.OldEventLogSequenceNumber > 0)
4125 	{
4126 	  Command->V1.CommandMailbox.Type3E.CommandOpcode =
4127 	    DAC960_V1_PerformEventLogOperation;
4128 	  Command->V1.CommandMailbox.Type3E.OperationType =
4129 	    DAC960_V1_GetEventLogEntry;
4130 	  Command->V1.CommandMailbox.Type3E.OperationQualifier = 1;
4131 	  Command->V1.CommandMailbox.Type3E.SequenceNumber =
4132 	    Controller->V1.OldEventLogSequenceNumber;
4133 	  Command->V1.CommandMailbox.Type3E.BusAddress =
4134 	    	Controller->V1.EventLogEntryDMA;
4135 	  DAC960_QueueCommand(Command);
4136 	  return;
4137 	}
4138       if (Controller->V1.NeedErrorTableInformation)
4139 	{
4140 	  Controller->V1.NeedErrorTableInformation = false;
4141 	  Command->V1.CommandMailbox.Type3.CommandOpcode =
4142 	    DAC960_V1_GetErrorTable;
4143 	  Command->V1.CommandMailbox.Type3.BusAddress =
4144 	    	Controller->V1.NewErrorTableDMA;
4145 	  DAC960_QueueCommand(Command);
4146 	  return;
4147 	}
4148       if (Controller->V1.NeedRebuildProgress &&
4149 	  Controller->V1.RebuildProgressFirst)
4150 	{
4151 	  Controller->V1.NeedRebuildProgress = false;
4152 	  Command->V1.CommandMailbox.Type3.CommandOpcode =
4153 	    DAC960_V1_GetRebuildProgress;
4154 	  Command->V1.CommandMailbox.Type3.BusAddress =
4155 	    Controller->V1.RebuildProgressDMA;
4156 	  DAC960_QueueCommand(Command);
4157 	  return;
4158 	}
4159       if (Controller->V1.NeedDeviceStateInformation)
4160 	{
4161 	  if (Controller->V1.NeedDeviceInquiryInformation)
4162 	    {
4163 	      DAC960_V1_DCDB_T *DCDB = Controller->V1.MonitoringDCDB;
4164 	      dma_addr_t DCDB_DMA = Controller->V1.MonitoringDCDB_DMA;
4165 
4166 	      dma_addr_t NewInquiryStandardDataDMA =
4167 		Controller->V1.NewInquiryStandardDataDMA;
4168 
4169 	      Command->V1.CommandMailbox.Type3.CommandOpcode = DAC960_V1_DCDB;
4170 	      Command->V1.CommandMailbox.Type3.BusAddress = DCDB_DMA;
4171 	      DCDB->Channel = Controller->V1.DeviceStateChannel;
4172 	      DCDB->TargetID = Controller->V1.DeviceStateTargetID;
4173 	      DCDB->Direction = DAC960_V1_DCDB_DataTransferDeviceToSystem;
4174 	      DCDB->EarlyStatus = false;
4175 	      DCDB->Timeout = DAC960_V1_DCDB_Timeout_10_seconds;
4176 	      DCDB->NoAutomaticRequestSense = false;
4177 	      DCDB->DisconnectPermitted = true;
4178 	      DCDB->TransferLength = sizeof(DAC960_SCSI_Inquiry_T);
4179 	      DCDB->BusAddress = NewInquiryStandardDataDMA;
4180 	      DCDB->CDBLength = 6;
4181 	      DCDB->TransferLengthHigh4 = 0;
4182 	      DCDB->SenseLength = sizeof(DCDB->SenseData);
4183 	      DCDB->CDB[0] = 0x12; /* INQUIRY */
4184 	      DCDB->CDB[1] = 0; /* EVPD = 0 */
4185 	      DCDB->CDB[2] = 0; /* Page Code */
4186 	      DCDB->CDB[3] = 0; /* Reserved */
4187 	      DCDB->CDB[4] = sizeof(DAC960_SCSI_Inquiry_T);
4188 	      DCDB->CDB[5] = 0; /* Control */
4189 	      DAC960_QueueCommand(Command);
4190 	      return;
4191 	    }
4192 	  if (Controller->V1.NeedDeviceSerialNumberInformation)
4193 	    {
4194 	      DAC960_V1_DCDB_T *DCDB = Controller->V1.MonitoringDCDB;
4195 	      dma_addr_t DCDB_DMA = Controller->V1.MonitoringDCDB_DMA;
4196 	      dma_addr_t NewInquiryUnitSerialNumberDMA =
4197 			Controller->V1.NewInquiryUnitSerialNumberDMA;
4198 
4199 	      Command->V1.CommandMailbox.Type3.CommandOpcode = DAC960_V1_DCDB;
4200 	      Command->V1.CommandMailbox.Type3.BusAddress = DCDB_DMA;
4201 	      DCDB->Channel = Controller->V1.DeviceStateChannel;
4202 	      DCDB->TargetID = Controller->V1.DeviceStateTargetID;
4203 	      DCDB->Direction = DAC960_V1_DCDB_DataTransferDeviceToSystem;
4204 	      DCDB->EarlyStatus = false;
4205 	      DCDB->Timeout = DAC960_V1_DCDB_Timeout_10_seconds;
4206 	      DCDB->NoAutomaticRequestSense = false;
4207 	      DCDB->DisconnectPermitted = true;
4208 	      DCDB->TransferLength =
4209 		sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T);
4210 	      DCDB->BusAddress = NewInquiryUnitSerialNumberDMA;
4211 	      DCDB->CDBLength = 6;
4212 	      DCDB->TransferLengthHigh4 = 0;
4213 	      DCDB->SenseLength = sizeof(DCDB->SenseData);
4214 	      DCDB->CDB[0] = 0x12; /* INQUIRY */
4215 	      DCDB->CDB[1] = 1; /* EVPD = 1 */
4216 	      DCDB->CDB[2] = 0x80; /* Page Code */
4217 	      DCDB->CDB[3] = 0; /* Reserved */
4218 	      DCDB->CDB[4] = sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T);
4219 	      DCDB->CDB[5] = 0; /* Control */
4220 	      DAC960_QueueCommand(Command);
4221 	      return;
4222 	    }
4223 	  if (Controller->V1.StartDeviceStateScan)
4224 	    {
4225 	      Controller->V1.DeviceStateChannel = 0;
4226 	      Controller->V1.DeviceStateTargetID = 0;
4227 	      Controller->V1.StartDeviceStateScan = false;
4228 	    }
4229 	  else if (++Controller->V1.DeviceStateTargetID == Controller->Targets)
4230 	    {
4231 	      Controller->V1.DeviceStateChannel++;
4232 	      Controller->V1.DeviceStateTargetID = 0;
4233 	    }
4234 	  if (Controller->V1.DeviceStateChannel < Controller->Channels)
4235 	    {
4236 	      Controller->V1.NewDeviceState->DeviceState =
4237 		DAC960_V1_Device_Dead;
4238 	      Command->V1.CommandMailbox.Type3D.CommandOpcode =
4239 		DAC960_V1_GetDeviceState;
4240 	      Command->V1.CommandMailbox.Type3D.Channel =
4241 		Controller->V1.DeviceStateChannel;
4242 	      Command->V1.CommandMailbox.Type3D.TargetID =
4243 		Controller->V1.DeviceStateTargetID;
4244 	      Command->V1.CommandMailbox.Type3D.BusAddress =
4245 		Controller->V1.NewDeviceStateDMA;
4246 	      DAC960_QueueCommand(Command);
4247 	      return;
4248 	    }
4249 	  Controller->V1.NeedDeviceStateInformation = false;
4250 	}
4251       if (Controller->V1.NeedLogicalDriveInformation)
4252 	{
4253 	  Controller->V1.NeedLogicalDriveInformation = false;
4254 	  Command->V1.CommandMailbox.Type3.CommandOpcode =
4255 	    DAC960_V1_GetLogicalDriveInformation;
4256 	  Command->V1.CommandMailbox.Type3.BusAddress =
4257 	    Controller->V1.NewLogicalDriveInformationDMA;
4258 	  DAC960_QueueCommand(Command);
4259 	  return;
4260 	}
4261       if (Controller->V1.NeedRebuildProgress)
4262 	{
4263 	  Controller->V1.NeedRebuildProgress = false;
4264 	  Command->V1.CommandMailbox.Type3.CommandOpcode =
4265 	    DAC960_V1_GetRebuildProgress;
4266 	  Command->V1.CommandMailbox.Type3.BusAddress =
4267 	    	Controller->V1.RebuildProgressDMA;
4268 	  DAC960_QueueCommand(Command);
4269 	  return;
4270 	}
4271       if (Controller->V1.NeedConsistencyCheckProgress)
4272 	{
4273 	  Controller->V1.NeedConsistencyCheckProgress = false;
4274 	  Command->V1.CommandMailbox.Type3.CommandOpcode =
4275 	    DAC960_V1_RebuildStat;
4276 	  Command->V1.CommandMailbox.Type3.BusAddress =
4277 	    Controller->V1.RebuildProgressDMA;
4278 	  DAC960_QueueCommand(Command);
4279 	  return;
4280 	}
4281       if (Controller->V1.NeedBackgroundInitializationStatus)
4282 	{
4283 	  Controller->V1.NeedBackgroundInitializationStatus = false;
4284 	  Command->V1.CommandMailbox.Type3B.CommandOpcode =
4285 	    DAC960_V1_BackgroundInitializationControl;
4286 	  Command->V1.CommandMailbox.Type3B.CommandOpcode2 = 0x20;
4287 	  Command->V1.CommandMailbox.Type3B.BusAddress =
4288 	    Controller->V1.BackgroundInitializationStatusDMA;
4289 	  DAC960_QueueCommand(Command);
4290 	  return;
4291 	}
4292       Controller->MonitoringTimerCount++;
4293       Controller->MonitoringTimer.expires =
4294 	jiffies + DAC960_MonitoringTimerInterval;
4295       	add_timer(&Controller->MonitoringTimer);
4296     }
4297   if (CommandType == DAC960_ImmediateCommand)
4298     {
4299       complete(Command->Completion);
4300       Command->Completion = NULL;
4301       return;
4302     }
4303   if (CommandType == DAC960_QueuedCommand)
4304     {
4305       DAC960_V1_KernelCommand_T *KernelCommand = Command->V1.KernelCommand;
4306       KernelCommand->CommandStatus = Command->V1.CommandStatus;
4307       Command->V1.KernelCommand = NULL;
4308       if (CommandOpcode == DAC960_V1_DCDB)
4309 	Controller->V1.DirectCommandActive[KernelCommand->DCDB->Channel]
4310 					  [KernelCommand->DCDB->TargetID] =
4311 	  false;
4312       DAC960_DeallocateCommand(Command);
4313       KernelCommand->CompletionFunction(KernelCommand);
4314       return;
4315     }
4316   /*
4317     Queue a Status Monitoring Command to the Controller using the just
4318     completed Command if one was deferred previously due to lack of a
4319     free Command when the Monitoring Timer Function was called.
4320   */
4321   if (Controller->MonitoringCommandDeferred)
4322     {
4323       Controller->MonitoringCommandDeferred = false;
4324       DAC960_V1_QueueMonitoringCommand(Command);
4325       return;
4326     }
4327   /*
4328     Deallocate the Command.
4329   */
4330   DAC960_DeallocateCommand(Command);
4331   /*
4332     Wake up any processes waiting on a free Command.
4333   */
4334   wake_up(&Controller->CommandWaitQueue);
4335 }
4336 
4337 
4338 /*
4339   DAC960_V2_ReadWriteError prints an appropriate error message for Command
4340   when an error occurs on a Read or Write operation.
4341 */
4342 
DAC960_V2_ReadWriteError(DAC960_Command_T * Command)4343 static void DAC960_V2_ReadWriteError(DAC960_Command_T *Command)
4344 {
4345   DAC960_Controller_T *Controller = Command->Controller;
4346   unsigned char *SenseErrors[] = { "NO SENSE", "RECOVERED ERROR",
4347 				   "NOT READY", "MEDIUM ERROR",
4348 				   "HARDWARE ERROR", "ILLEGAL REQUEST",
4349 				   "UNIT ATTENTION", "DATA PROTECT",
4350 				   "BLANK CHECK", "VENDOR-SPECIFIC",
4351 				   "COPY ABORTED", "ABORTED COMMAND",
4352 				   "EQUAL", "VOLUME OVERFLOW",
4353 				   "MISCOMPARE", "RESERVED" };
4354   unsigned char *CommandName = "UNKNOWN";
4355   switch (Command->CommandType)
4356     {
4357     case DAC960_ReadCommand:
4358     case DAC960_ReadRetryCommand:
4359       CommandName = "READ";
4360       break;
4361     case DAC960_WriteCommand:
4362     case DAC960_WriteRetryCommand:
4363       CommandName = "WRITE";
4364       break;
4365     case DAC960_MonitoringCommand:
4366     case DAC960_ImmediateCommand:
4367     case DAC960_QueuedCommand:
4368       break;
4369     }
4370   DAC960_Error("Error Condition %s on %s:\n", Controller,
4371 	       SenseErrors[Command->V2.RequestSense->SenseKey], CommandName);
4372   DAC960_Error("  /dev/rd/c%dd%d:   absolute blocks %u..%u\n",
4373 	       Controller, Controller->ControllerNumber,
4374 	       Command->LogicalDriveNumber, Command->BlockNumber,
4375 	       Command->BlockNumber + Command->BlockCount - 1);
4376 }
4377 
4378 
4379 /*
4380   DAC960_V2_ReportEvent prints an appropriate message when a Controller Event
4381   occurs.
4382 */
4383 
DAC960_V2_ReportEvent(DAC960_Controller_T * Controller,DAC960_V2_Event_T * Event)4384 static void DAC960_V2_ReportEvent(DAC960_Controller_T *Controller,
4385 				  DAC960_V2_Event_T *Event)
4386 {
4387   DAC960_SCSI_RequestSense_T *RequestSense =
4388     (DAC960_SCSI_RequestSense_T *) &Event->RequestSenseData;
4389   unsigned char MessageBuffer[DAC960_LineBufferSize];
4390   static struct { int EventCode; unsigned char *EventMessage; } EventList[] =
4391     { /* Physical Device Events (0x0000 - 0x007F) */
4392       { 0x0001, "P Online" },
4393       { 0x0002, "P Standby" },
4394       { 0x0005, "P Automatic Rebuild Started" },
4395       { 0x0006, "P Manual Rebuild Started" },
4396       { 0x0007, "P Rebuild Completed" },
4397       { 0x0008, "P Rebuild Cancelled" },
4398       { 0x0009, "P Rebuild Failed for Unknown Reasons" },
4399       { 0x000A, "P Rebuild Failed due to New Physical Device" },
4400       { 0x000B, "P Rebuild Failed due to Logical Drive Failure" },
4401       { 0x000C, "S Offline" },
4402       { 0x000D, "P Found" },
4403       { 0x000E, "P Removed" },
4404       { 0x000F, "P Unconfigured" },
4405       { 0x0010, "P Expand Capacity Started" },
4406       { 0x0011, "P Expand Capacity Completed" },
4407       { 0x0012, "P Expand Capacity Failed" },
4408       { 0x0013, "P Command Timed Out" },
4409       { 0x0014, "P Command Aborted" },
4410       { 0x0015, "P Command Retried" },
4411       { 0x0016, "P Parity Error" },
4412       { 0x0017, "P Soft Error" },
4413       { 0x0018, "P Miscellaneous Error" },
4414       { 0x0019, "P Reset" },
4415       { 0x001A, "P Active Spare Found" },
4416       { 0x001B, "P Warm Spare Found" },
4417       { 0x001C, "S Sense Data Received" },
4418       { 0x001D, "P Initialization Started" },
4419       { 0x001E, "P Initialization Completed" },
4420       { 0x001F, "P Initialization Failed" },
4421       { 0x0020, "P Initialization Cancelled" },
4422       { 0x0021, "P Failed because Write Recovery Failed" },
4423       { 0x0022, "P Failed because SCSI Bus Reset Failed" },
4424       { 0x0023, "P Failed because of Double Check Condition" },
4425       { 0x0024, "P Failed because Device Cannot Be Accessed" },
4426       { 0x0025, "P Failed because of Gross Error on SCSI Processor" },
4427       { 0x0026, "P Failed because of Bad Tag from Device" },
4428       { 0x0027, "P Failed because of Command Timeout" },
4429       { 0x0028, "P Failed because of System Reset" },
4430       { 0x0029, "P Failed because of Busy Status or Parity Error" },
4431       { 0x002A, "P Failed because Host Set Device to Failed State" },
4432       { 0x002B, "P Failed because of Selection Timeout" },
4433       { 0x002C, "P Failed because of SCSI Bus Phase Error" },
4434       { 0x002D, "P Failed because Device Returned Unknown Status" },
4435       { 0x002E, "P Failed because Device Not Ready" },
4436       { 0x002F, "P Failed because Device Not Found at Startup" },
4437       { 0x0030, "P Failed because COD Write Operation Failed" },
4438       { 0x0031, "P Failed because BDT Write Operation Failed" },
4439       { 0x0039, "P Missing at Startup" },
4440       { 0x003A, "P Start Rebuild Failed due to Physical Drive Too Small" },
4441       { 0x003C, "P Temporarily Offline Device Automatically Made Online" },
4442       { 0x003D, "P Standby Rebuild Started" },
4443       /* Logical Device Events (0x0080 - 0x00FF) */
4444       { 0x0080, "M Consistency Check Started" },
4445       { 0x0081, "M Consistency Check Completed" },
4446       { 0x0082, "M Consistency Check Cancelled" },
4447       { 0x0083, "M Consistency Check Completed With Errors" },
4448       { 0x0084, "M Consistency Check Failed due to Logical Drive Failure" },
4449       { 0x0085, "M Consistency Check Failed due to Physical Device Failure" },
4450       { 0x0086, "L Offline" },
4451       { 0x0087, "L Critical" },
4452       { 0x0088, "L Online" },
4453       { 0x0089, "M Automatic Rebuild Started" },
4454       { 0x008A, "M Manual Rebuild Started" },
4455       { 0x008B, "M Rebuild Completed" },
4456       { 0x008C, "M Rebuild Cancelled" },
4457       { 0x008D, "M Rebuild Failed for Unknown Reasons" },
4458       { 0x008E, "M Rebuild Failed due to New Physical Device" },
4459       { 0x008F, "M Rebuild Failed due to Logical Drive Failure" },
4460       { 0x0090, "M Initialization Started" },
4461       { 0x0091, "M Initialization Completed" },
4462       { 0x0092, "M Initialization Cancelled" },
4463       { 0x0093, "M Initialization Failed" },
4464       { 0x0094, "L Found" },
4465       { 0x0095, "L Deleted" },
4466       { 0x0096, "M Expand Capacity Started" },
4467       { 0x0097, "M Expand Capacity Completed" },
4468       { 0x0098, "M Expand Capacity Failed" },
4469       { 0x0099, "L Bad Block Found" },
4470       { 0x009A, "L Size Changed" },
4471       { 0x009B, "L Type Changed" },
4472       { 0x009C, "L Bad Data Block Found" },
4473       { 0x009E, "L Read of Data Block in BDT" },
4474       { 0x009F, "L Write Back Data for Disk Block Lost" },
4475       { 0x00A0, "L Temporarily Offline RAID-5/3 Drive Made Online" },
4476       { 0x00A1, "L Temporarily Offline RAID-6/1/0/7 Drive Made Online" },
4477       { 0x00A2, "L Standby Rebuild Started" },
4478       /* Fault Management Events (0x0100 - 0x017F) */
4479       { 0x0140, "E Fan %d Failed" },
4480       { 0x0141, "E Fan %d OK" },
4481       { 0x0142, "E Fan %d Not Present" },
4482       { 0x0143, "E Power Supply %d Failed" },
4483       { 0x0144, "E Power Supply %d OK" },
4484       { 0x0145, "E Power Supply %d Not Present" },
4485       { 0x0146, "E Temperature Sensor %d Temperature Exceeds Safe Limit" },
4486       { 0x0147, "E Temperature Sensor %d Temperature Exceeds Working Limit" },
4487       { 0x0148, "E Temperature Sensor %d Temperature Normal" },
4488       { 0x0149, "E Temperature Sensor %d Not Present" },
4489       { 0x014A, "E Enclosure Management Unit %d Access Critical" },
4490       { 0x014B, "E Enclosure Management Unit %d Access OK" },
4491       { 0x014C, "E Enclosure Management Unit %d Access Offline" },
4492       /* Controller Events (0x0180 - 0x01FF) */
4493       { 0x0181, "C Cache Write Back Error" },
4494       { 0x0188, "C Battery Backup Unit Found" },
4495       { 0x0189, "C Battery Backup Unit Charge Level Low" },
4496       { 0x018A, "C Battery Backup Unit Charge Level OK" },
4497       { 0x0193, "C Installation Aborted" },
4498       { 0x0195, "C Battery Backup Unit Physically Removed" },
4499       { 0x0196, "C Memory Error During Warm Boot" },
4500       { 0x019E, "C Memory Soft ECC Error Corrected" },
4501       { 0x019F, "C Memory Hard ECC Error Corrected" },
4502       { 0x01A2, "C Battery Backup Unit Failed" },
4503       { 0x01AB, "C Mirror Race Recovery Failed" },
4504       { 0x01AC, "C Mirror Race on Critical Drive" },
4505       /* Controller Internal Processor Events */
4506       { 0x0380, "C Internal Controller Hung" },
4507       { 0x0381, "C Internal Controller Firmware Breakpoint" },
4508       { 0x0390, "C Internal Controller i960 Processor Specific Error" },
4509       { 0x03A0, "C Internal Controller StrongARM Processor Specific Error" },
4510       { 0, "" } };
4511   int EventListIndex = 0, EventCode;
4512   unsigned char EventType, *EventMessage;
4513   if (Event->EventCode == 0x1C &&
4514       RequestSense->SenseKey == DAC960_SenseKey_VendorSpecific &&
4515       (RequestSense->AdditionalSenseCode == 0x80 ||
4516        RequestSense->AdditionalSenseCode == 0x81))
4517     Event->EventCode = ((RequestSense->AdditionalSenseCode - 0x80) << 8) |
4518 		       RequestSense->AdditionalSenseCodeQualifier;
4519   while (true)
4520     {
4521       EventCode = EventList[EventListIndex].EventCode;
4522       if (EventCode == Event->EventCode || EventCode == 0) break;
4523       EventListIndex++;
4524     }
4525   EventType = EventList[EventListIndex].EventMessage[0];
4526   EventMessage = &EventList[EventListIndex].EventMessage[2];
4527   if (EventCode == 0)
4528     {
4529       DAC960_Critical("Unknown Controller Event Code %04X\n",
4530 		      Controller, Event->EventCode);
4531       return;
4532     }
4533   switch (EventType)
4534     {
4535     case 'P':
4536       DAC960_Critical("Physical Device %d:%d %s\n", Controller,
4537 		      Event->Channel, Event->TargetID, EventMessage);
4538       break;
4539     case 'L':
4540       DAC960_Critical("Logical Drive %d (/dev/rd/c%dd%d) %s\n", Controller,
4541 		      Event->LogicalUnit, Controller->ControllerNumber,
4542 		      Event->LogicalUnit, EventMessage);
4543       break;
4544     case 'M':
4545       DAC960_Progress("Logical Drive %d (/dev/rd/c%dd%d) %s\n", Controller,
4546 		      Event->LogicalUnit, Controller->ControllerNumber,
4547 		      Event->LogicalUnit, EventMessage);
4548       break;
4549     case 'S':
4550       if (RequestSense->SenseKey == DAC960_SenseKey_NoSense ||
4551 	  (RequestSense->SenseKey == DAC960_SenseKey_NotReady &&
4552 	   RequestSense->AdditionalSenseCode == 0x04 &&
4553 	   (RequestSense->AdditionalSenseCodeQualifier == 0x01 ||
4554 	    RequestSense->AdditionalSenseCodeQualifier == 0x02)))
4555 	break;
4556       DAC960_Critical("Physical Device %d:%d %s\n", Controller,
4557 		      Event->Channel, Event->TargetID, EventMessage);
4558       DAC960_Critical("Physical Device %d:%d Request Sense: "
4559 		      "Sense Key = %X, ASC = %02X, ASCQ = %02X\n",
4560 		      Controller,
4561 		      Event->Channel,
4562 		      Event->TargetID,
4563 		      RequestSense->SenseKey,
4564 		      RequestSense->AdditionalSenseCode,
4565 		      RequestSense->AdditionalSenseCodeQualifier);
4566       DAC960_Critical("Physical Device %d:%d Request Sense: "
4567 		      "Information = %02X%02X%02X%02X "
4568 		      "%02X%02X%02X%02X\n",
4569 		      Controller,
4570 		      Event->Channel,
4571 		      Event->TargetID,
4572 		      RequestSense->Information[0],
4573 		      RequestSense->Information[1],
4574 		      RequestSense->Information[2],
4575 		      RequestSense->Information[3],
4576 		      RequestSense->CommandSpecificInformation[0],
4577 		      RequestSense->CommandSpecificInformation[1],
4578 		      RequestSense->CommandSpecificInformation[2],
4579 		      RequestSense->CommandSpecificInformation[3]);
4580       break;
4581     case 'E':
4582       if (Controller->SuppressEnclosureMessages) break;
4583       sprintf(MessageBuffer, EventMessage, Event->LogicalUnit);
4584       DAC960_Critical("Enclosure %d %s\n", Controller,
4585 		      Event->TargetID, MessageBuffer);
4586       break;
4587     case 'C':
4588       DAC960_Critical("Controller %s\n", Controller, EventMessage);
4589       break;
4590     default:
4591       DAC960_Critical("Unknown Controller Event Code %04X\n",
4592 		      Controller, Event->EventCode);
4593       break;
4594     }
4595 }
4596 
4597 
4598 /*
4599   DAC960_V2_ReportProgress prints an appropriate progress message for
4600   Logical Device Long Operations.
4601 */
4602 
DAC960_V2_ReportProgress(DAC960_Controller_T * Controller,unsigned char * MessageString,unsigned int LogicalDeviceNumber,unsigned long BlocksCompleted,unsigned long LogicalDeviceSize)4603 static void DAC960_V2_ReportProgress(DAC960_Controller_T *Controller,
4604 				     unsigned char *MessageString,
4605 				     unsigned int LogicalDeviceNumber,
4606 				     unsigned long BlocksCompleted,
4607 				     unsigned long LogicalDeviceSize)
4608 {
4609   Controller->EphemeralProgressMessage = true;
4610   DAC960_Progress("%s in Progress: Logical Drive %d (/dev/rd/c%dd%d) "
4611 		  "%d%% completed\n", Controller,
4612 		  MessageString,
4613 		  LogicalDeviceNumber,
4614 		  Controller->ControllerNumber,
4615 		  LogicalDeviceNumber,
4616 		  (100 * (BlocksCompleted >> 7)) / (LogicalDeviceSize >> 7));
4617   Controller->EphemeralProgressMessage = false;
4618 }
4619 
4620 
4621 /*
4622   DAC960_V2_ProcessCompletedCommand performs completion processing for Command
4623   for DAC960 V2 Firmware Controllers.
4624 */
4625 
DAC960_V2_ProcessCompletedCommand(DAC960_Command_T * Command)4626 static void DAC960_V2_ProcessCompletedCommand(DAC960_Command_T *Command)
4627 {
4628   DAC960_Controller_T *Controller = Command->Controller;
4629   DAC960_CommandType_T CommandType = Command->CommandType;
4630   DAC960_V2_CommandMailbox_T *CommandMailbox = &Command->V2.CommandMailbox;
4631   DAC960_V2_IOCTL_Opcode_T IOCTLOpcode = CommandMailbox->Common.IOCTL_Opcode;
4632   DAC960_V2_CommandOpcode_T CommandOpcode = CommandMailbox->SCSI_10.CommandOpcode;
4633   DAC960_V2_CommandStatus_T CommandStatus = Command->V2.CommandStatus;
4634 
4635   if (CommandType == DAC960_ReadCommand ||
4636       CommandType == DAC960_WriteCommand)
4637     {
4638 
4639 #ifdef FORCE_RETRY_DEBUG
4640       CommandStatus = DAC960_V2_AbormalCompletion;
4641 #endif
4642       Command->V2.RequestSense->SenseKey = DAC960_SenseKey_MediumError;
4643 
4644       if (CommandStatus == DAC960_V2_NormalCompletion) {
4645 
4646 		if (!DAC960_ProcessCompletedRequest(Command, true))
4647 			BUG();
4648 
4649       } else if (Command->V2.RequestSense->SenseKey == DAC960_SenseKey_MediumError)
4650 	{
4651 	  /*
4652 	   * break the command down into pieces and resubmit each
4653 	   * piece, hoping that some of them will succeed.
4654 	   */
4655 	   DAC960_queue_partial_rw(Command);
4656 	   return;
4657 	}
4658       else
4659 	{
4660 	  if (Command->V2.RequestSense->SenseKey != DAC960_SenseKey_NotReady)
4661 	    DAC960_V2_ReadWriteError(Command);
4662 	  /*
4663 	    Perform completion processing for all buffers in this I/O Request.
4664 	  */
4665           (void)DAC960_ProcessCompletedRequest(Command, false);
4666 	}
4667     }
4668   else if (CommandType == DAC960_ReadRetryCommand ||
4669 	   CommandType == DAC960_WriteRetryCommand)
4670     {
4671       bool normal_completion;
4672 
4673 #ifdef FORCE_RETRY_FAILURE_DEBUG
4674       static int retry_count = 1;
4675 #endif
4676       /*
4677         Perform completion processing for the portion that was
4678 	retried, and submit the next portion, if any.
4679       */
4680       normal_completion = true;
4681       if (CommandStatus != DAC960_V2_NormalCompletion) {
4682 	normal_completion = false;
4683 	if (Command->V2.RequestSense->SenseKey != DAC960_SenseKey_NotReady)
4684 	    DAC960_V2_ReadWriteError(Command);
4685       }
4686 
4687 #ifdef FORCE_RETRY_FAILURE_DEBUG
4688       if (!(++retry_count % 10000)) {
4689 	      printk("V2 error retry failure test\n");
4690 	      normal_completion = false;
4691 	      DAC960_V2_ReadWriteError(Command);
4692       }
4693 #endif
4694 
4695       if (!DAC960_ProcessCompletedRequest(Command, normal_completion)) {
4696 		DAC960_queue_partial_rw(Command);
4697         	return;
4698       }
4699     }
4700   else if (CommandType == DAC960_MonitoringCommand)
4701     {
4702       if (Controller->ShutdownMonitoringTimer)
4703 	      return;
4704       if (IOCTLOpcode == DAC960_V2_GetControllerInfo)
4705 	{
4706 	  DAC960_V2_ControllerInfo_T *NewControllerInfo =
4707 	    Controller->V2.NewControllerInformation;
4708 	  DAC960_V2_ControllerInfo_T *ControllerInfo =
4709 	    &Controller->V2.ControllerInformation;
4710 	  Controller->LogicalDriveCount =
4711 	    NewControllerInfo->LogicalDevicesPresent;
4712 	  Controller->V2.NeedLogicalDeviceInformation = true;
4713 	  Controller->V2.NeedPhysicalDeviceInformation = true;
4714 	  Controller->V2.StartLogicalDeviceInformationScan = true;
4715 	  Controller->V2.StartPhysicalDeviceInformationScan = true;
4716 	  Controller->MonitoringAlertMode =
4717 	    (NewControllerInfo->LogicalDevicesCritical > 0 ||
4718 	     NewControllerInfo->LogicalDevicesOffline > 0 ||
4719 	     NewControllerInfo->PhysicalDisksCritical > 0 ||
4720 	     NewControllerInfo->PhysicalDisksOffline > 0);
4721 	  memcpy(ControllerInfo, NewControllerInfo,
4722 		 sizeof(DAC960_V2_ControllerInfo_T));
4723 	}
4724       else if (IOCTLOpcode == DAC960_V2_GetEvent)
4725 	{
4726 	  if (CommandStatus == DAC960_V2_NormalCompletion) {
4727 	    DAC960_V2_ReportEvent(Controller, Controller->V2.Event);
4728 	  }
4729 	  Controller->V2.NextEventSequenceNumber++;
4730 	}
4731       else if (IOCTLOpcode == DAC960_V2_GetPhysicalDeviceInfoValid &&
4732 	       CommandStatus == DAC960_V2_NormalCompletion)
4733 	{
4734 	  DAC960_V2_PhysicalDeviceInfo_T *NewPhysicalDeviceInfo =
4735 	    Controller->V2.NewPhysicalDeviceInformation;
4736 	  unsigned int PhysicalDeviceIndex = Controller->V2.PhysicalDeviceIndex;
4737 	  DAC960_V2_PhysicalDeviceInfo_T *PhysicalDeviceInfo =
4738 	    Controller->V2.PhysicalDeviceInformation[PhysicalDeviceIndex];
4739 	  DAC960_SCSI_Inquiry_UnitSerialNumber_T *InquiryUnitSerialNumber =
4740 	    Controller->V2.InquiryUnitSerialNumber[PhysicalDeviceIndex];
4741 	  unsigned int DeviceIndex;
4742 	  while (PhysicalDeviceInfo != NULL &&
4743 		 (NewPhysicalDeviceInfo->Channel >
4744 		  PhysicalDeviceInfo->Channel ||
4745 		  (NewPhysicalDeviceInfo->Channel ==
4746 		   PhysicalDeviceInfo->Channel &&
4747 		   (NewPhysicalDeviceInfo->TargetID >
4748 		    PhysicalDeviceInfo->TargetID ||
4749 		   (NewPhysicalDeviceInfo->TargetID ==
4750 		    PhysicalDeviceInfo->TargetID &&
4751 		    NewPhysicalDeviceInfo->LogicalUnit >
4752 		    PhysicalDeviceInfo->LogicalUnit)))))
4753 	    {
4754 	      DAC960_Critical("Physical Device %d:%d No Longer Exists\n",
4755 			      Controller,
4756 			      PhysicalDeviceInfo->Channel,
4757 			      PhysicalDeviceInfo->TargetID);
4758 	      Controller->V2.PhysicalDeviceInformation
4759 			     [PhysicalDeviceIndex] = NULL;
4760 	      Controller->V2.InquiryUnitSerialNumber
4761 			     [PhysicalDeviceIndex] = NULL;
4762 	      kfree(PhysicalDeviceInfo);
4763 	      kfree(InquiryUnitSerialNumber);
4764 	      for (DeviceIndex = PhysicalDeviceIndex;
4765 		   DeviceIndex < DAC960_V2_MaxPhysicalDevices - 1;
4766 		   DeviceIndex++)
4767 		{
4768 		  Controller->V2.PhysicalDeviceInformation[DeviceIndex] =
4769 		    Controller->V2.PhysicalDeviceInformation[DeviceIndex+1];
4770 		  Controller->V2.InquiryUnitSerialNumber[DeviceIndex] =
4771 		    Controller->V2.InquiryUnitSerialNumber[DeviceIndex+1];
4772 		}
4773 	      Controller->V2.PhysicalDeviceInformation
4774 			     [DAC960_V2_MaxPhysicalDevices-1] = NULL;
4775 	      Controller->V2.InquiryUnitSerialNumber
4776 			     [DAC960_V2_MaxPhysicalDevices-1] = NULL;
4777 	      PhysicalDeviceInfo =
4778 		Controller->V2.PhysicalDeviceInformation[PhysicalDeviceIndex];
4779 	      InquiryUnitSerialNumber =
4780 		Controller->V2.InquiryUnitSerialNumber[PhysicalDeviceIndex];
4781 	    }
4782 	  if (PhysicalDeviceInfo == NULL ||
4783 	      (NewPhysicalDeviceInfo->Channel !=
4784 	       PhysicalDeviceInfo->Channel) ||
4785 	      (NewPhysicalDeviceInfo->TargetID !=
4786 	       PhysicalDeviceInfo->TargetID) ||
4787 	      (NewPhysicalDeviceInfo->LogicalUnit !=
4788 	       PhysicalDeviceInfo->LogicalUnit))
4789 	    {
4790 	      PhysicalDeviceInfo =
4791 		kmalloc(sizeof(DAC960_V2_PhysicalDeviceInfo_T), GFP_ATOMIC);
4792 	      InquiryUnitSerialNumber =
4793 		  kmalloc(sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T),
4794 			  GFP_ATOMIC);
4795 	      if (InquiryUnitSerialNumber == NULL ||
4796 		  PhysicalDeviceInfo == NULL)
4797 		{
4798 		  kfree(InquiryUnitSerialNumber);
4799 		  InquiryUnitSerialNumber = NULL;
4800 		  kfree(PhysicalDeviceInfo);
4801 		  PhysicalDeviceInfo = NULL;
4802 		}
4803 	      DAC960_Critical("Physical Device %d:%d Now Exists%s\n",
4804 			      Controller,
4805 			      NewPhysicalDeviceInfo->Channel,
4806 			      NewPhysicalDeviceInfo->TargetID,
4807 			      (PhysicalDeviceInfo != NULL
4808 			       ? "" : " - Allocation Failed"));
4809 	      if (PhysicalDeviceInfo != NULL)
4810 		{
4811 		  memset(PhysicalDeviceInfo, 0,
4812 			 sizeof(DAC960_V2_PhysicalDeviceInfo_T));
4813 		  PhysicalDeviceInfo->PhysicalDeviceState =
4814 		    DAC960_V2_Device_InvalidState;
4815 		  memset(InquiryUnitSerialNumber, 0,
4816 			 sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T));
4817 		  InquiryUnitSerialNumber->PeripheralDeviceType = 0x1F;
4818 		  for (DeviceIndex = DAC960_V2_MaxPhysicalDevices - 1;
4819 		       DeviceIndex > PhysicalDeviceIndex;
4820 		       DeviceIndex--)
4821 		    {
4822 		      Controller->V2.PhysicalDeviceInformation[DeviceIndex] =
4823 			Controller->V2.PhysicalDeviceInformation[DeviceIndex-1];
4824 		      Controller->V2.InquiryUnitSerialNumber[DeviceIndex] =
4825 			Controller->V2.InquiryUnitSerialNumber[DeviceIndex-1];
4826 		    }
4827 		  Controller->V2.PhysicalDeviceInformation
4828 				 [PhysicalDeviceIndex] =
4829 		    PhysicalDeviceInfo;
4830 		  Controller->V2.InquiryUnitSerialNumber
4831 				 [PhysicalDeviceIndex] =
4832 		    InquiryUnitSerialNumber;
4833 		  Controller->V2.NeedDeviceSerialNumberInformation = true;
4834 		}
4835 	    }
4836 	  if (PhysicalDeviceInfo != NULL)
4837 	    {
4838 	      if (NewPhysicalDeviceInfo->PhysicalDeviceState !=
4839 		  PhysicalDeviceInfo->PhysicalDeviceState)
4840 		DAC960_Critical(
4841 		  "Physical Device %d:%d is now %s\n", Controller,
4842 		  NewPhysicalDeviceInfo->Channel,
4843 		  NewPhysicalDeviceInfo->TargetID,
4844 		  (NewPhysicalDeviceInfo->PhysicalDeviceState
4845 		   == DAC960_V2_Device_Online
4846 		   ? "ONLINE"
4847 		   : NewPhysicalDeviceInfo->PhysicalDeviceState
4848 		     == DAC960_V2_Device_Rebuild
4849 		     ? "REBUILD"
4850 		     : NewPhysicalDeviceInfo->PhysicalDeviceState
4851 		       == DAC960_V2_Device_Missing
4852 		       ? "MISSING"
4853 		       : NewPhysicalDeviceInfo->PhysicalDeviceState
4854 			 == DAC960_V2_Device_Critical
4855 			 ? "CRITICAL"
4856 			 : NewPhysicalDeviceInfo->PhysicalDeviceState
4857 			   == DAC960_V2_Device_Dead
4858 			   ? "DEAD"
4859 			   : NewPhysicalDeviceInfo->PhysicalDeviceState
4860 			     == DAC960_V2_Device_SuspectedDead
4861 			     ? "SUSPECTED-DEAD"
4862 			     : NewPhysicalDeviceInfo->PhysicalDeviceState
4863 			       == DAC960_V2_Device_CommandedOffline
4864 			       ? "COMMANDED-OFFLINE"
4865 			       : NewPhysicalDeviceInfo->PhysicalDeviceState
4866 				 == DAC960_V2_Device_Standby
4867 				 ? "STANDBY" : "UNKNOWN"));
4868 	      if ((NewPhysicalDeviceInfo->ParityErrors !=
4869 		   PhysicalDeviceInfo->ParityErrors) ||
4870 		  (NewPhysicalDeviceInfo->SoftErrors !=
4871 		   PhysicalDeviceInfo->SoftErrors) ||
4872 		  (NewPhysicalDeviceInfo->HardErrors !=
4873 		   PhysicalDeviceInfo->HardErrors) ||
4874 		  (NewPhysicalDeviceInfo->MiscellaneousErrors !=
4875 		   PhysicalDeviceInfo->MiscellaneousErrors) ||
4876 		  (NewPhysicalDeviceInfo->CommandTimeouts !=
4877 		   PhysicalDeviceInfo->CommandTimeouts) ||
4878 		  (NewPhysicalDeviceInfo->Retries !=
4879 		   PhysicalDeviceInfo->Retries) ||
4880 		  (NewPhysicalDeviceInfo->Aborts !=
4881 		   PhysicalDeviceInfo->Aborts) ||
4882 		  (NewPhysicalDeviceInfo->PredictedFailuresDetected !=
4883 		   PhysicalDeviceInfo->PredictedFailuresDetected))
4884 		{
4885 		  DAC960_Critical("Physical Device %d:%d Errors: "
4886 				  "Parity = %d, Soft = %d, "
4887 				  "Hard = %d, Misc = %d\n",
4888 				  Controller,
4889 				  NewPhysicalDeviceInfo->Channel,
4890 				  NewPhysicalDeviceInfo->TargetID,
4891 				  NewPhysicalDeviceInfo->ParityErrors,
4892 				  NewPhysicalDeviceInfo->SoftErrors,
4893 				  NewPhysicalDeviceInfo->HardErrors,
4894 				  NewPhysicalDeviceInfo->MiscellaneousErrors);
4895 		  DAC960_Critical("Physical Device %d:%d Errors: "
4896 				  "Timeouts = %d, Retries = %d, "
4897 				  "Aborts = %d, Predicted = %d\n",
4898 				  Controller,
4899 				  NewPhysicalDeviceInfo->Channel,
4900 				  NewPhysicalDeviceInfo->TargetID,
4901 				  NewPhysicalDeviceInfo->CommandTimeouts,
4902 				  NewPhysicalDeviceInfo->Retries,
4903 				  NewPhysicalDeviceInfo->Aborts,
4904 				  NewPhysicalDeviceInfo
4905 				  ->PredictedFailuresDetected);
4906 		}
4907 	      if ((PhysicalDeviceInfo->PhysicalDeviceState
4908 		   == DAC960_V2_Device_Dead ||
4909 		   PhysicalDeviceInfo->PhysicalDeviceState
4910 		   == DAC960_V2_Device_InvalidState) &&
4911 		  NewPhysicalDeviceInfo->PhysicalDeviceState
4912 		  != DAC960_V2_Device_Dead)
4913 		Controller->V2.NeedDeviceSerialNumberInformation = true;
4914 	      memcpy(PhysicalDeviceInfo, NewPhysicalDeviceInfo,
4915 		     sizeof(DAC960_V2_PhysicalDeviceInfo_T));
4916 	    }
4917 	  NewPhysicalDeviceInfo->LogicalUnit++;
4918 	  Controller->V2.PhysicalDeviceIndex++;
4919 	}
4920       else if (IOCTLOpcode == DAC960_V2_GetPhysicalDeviceInfoValid)
4921 	{
4922 	  unsigned int DeviceIndex;
4923 	  for (DeviceIndex = Controller->V2.PhysicalDeviceIndex;
4924 	       DeviceIndex < DAC960_V2_MaxPhysicalDevices;
4925 	       DeviceIndex++)
4926 	    {
4927 	      DAC960_V2_PhysicalDeviceInfo_T *PhysicalDeviceInfo =
4928 		Controller->V2.PhysicalDeviceInformation[DeviceIndex];
4929 	      DAC960_SCSI_Inquiry_UnitSerialNumber_T *InquiryUnitSerialNumber =
4930 		Controller->V2.InquiryUnitSerialNumber[DeviceIndex];
4931 	      if (PhysicalDeviceInfo == NULL) break;
4932 	      DAC960_Critical("Physical Device %d:%d No Longer Exists\n",
4933 			      Controller,
4934 			      PhysicalDeviceInfo->Channel,
4935 			      PhysicalDeviceInfo->TargetID);
4936 	      Controller->V2.PhysicalDeviceInformation[DeviceIndex] = NULL;
4937 	      Controller->V2.InquiryUnitSerialNumber[DeviceIndex] = NULL;
4938 	      kfree(PhysicalDeviceInfo);
4939 	      kfree(InquiryUnitSerialNumber);
4940 	    }
4941 	  Controller->V2.NeedPhysicalDeviceInformation = false;
4942 	}
4943       else if (IOCTLOpcode == DAC960_V2_GetLogicalDeviceInfoValid &&
4944 	       CommandStatus == DAC960_V2_NormalCompletion)
4945 	{
4946 	  DAC960_V2_LogicalDeviceInfo_T *NewLogicalDeviceInfo =
4947 	    Controller->V2.NewLogicalDeviceInformation;
4948 	  unsigned short LogicalDeviceNumber =
4949 	    NewLogicalDeviceInfo->LogicalDeviceNumber;
4950 	  DAC960_V2_LogicalDeviceInfo_T *LogicalDeviceInfo =
4951 	    Controller->V2.LogicalDeviceInformation[LogicalDeviceNumber];
4952 	  if (LogicalDeviceInfo == NULL)
4953 	    {
4954 	      DAC960_V2_PhysicalDevice_T PhysicalDevice;
4955 	      PhysicalDevice.Controller = 0;
4956 	      PhysicalDevice.Channel = NewLogicalDeviceInfo->Channel;
4957 	      PhysicalDevice.TargetID = NewLogicalDeviceInfo->TargetID;
4958 	      PhysicalDevice.LogicalUnit = NewLogicalDeviceInfo->LogicalUnit;
4959 	      Controller->V2.LogicalDriveToVirtualDevice[LogicalDeviceNumber] =
4960 		PhysicalDevice;
4961 	      LogicalDeviceInfo = kmalloc(sizeof(DAC960_V2_LogicalDeviceInfo_T),
4962 					  GFP_ATOMIC);
4963 	      Controller->V2.LogicalDeviceInformation[LogicalDeviceNumber] =
4964 		LogicalDeviceInfo;
4965 	      DAC960_Critical("Logical Drive %d (/dev/rd/c%dd%d) "
4966 			      "Now Exists%s\n", Controller,
4967 			      LogicalDeviceNumber,
4968 			      Controller->ControllerNumber,
4969 			      LogicalDeviceNumber,
4970 			      (LogicalDeviceInfo != NULL
4971 			       ? "" : " - Allocation Failed"));
4972 	      if (LogicalDeviceInfo != NULL)
4973 		{
4974 		  memset(LogicalDeviceInfo, 0,
4975 			 sizeof(DAC960_V2_LogicalDeviceInfo_T));
4976 		  DAC960_ComputeGenericDiskInfo(Controller);
4977 		}
4978 	    }
4979 	  if (LogicalDeviceInfo != NULL)
4980 	    {
4981 	      unsigned long LogicalDeviceSize =
4982 		NewLogicalDeviceInfo->ConfigurableDeviceSize;
4983 	      if (NewLogicalDeviceInfo->LogicalDeviceState !=
4984 		  LogicalDeviceInfo->LogicalDeviceState)
4985 		DAC960_Critical("Logical Drive %d (/dev/rd/c%dd%d) "
4986 				"is now %s\n", Controller,
4987 				LogicalDeviceNumber,
4988 				Controller->ControllerNumber,
4989 				LogicalDeviceNumber,
4990 				(NewLogicalDeviceInfo->LogicalDeviceState
4991 				 == DAC960_V2_LogicalDevice_Online
4992 				 ? "ONLINE"
4993 				 : NewLogicalDeviceInfo->LogicalDeviceState
4994 				   == DAC960_V2_LogicalDevice_Critical
4995 				   ? "CRITICAL" : "OFFLINE"));
4996 	      if ((NewLogicalDeviceInfo->SoftErrors !=
4997 		   LogicalDeviceInfo->SoftErrors) ||
4998 		  (NewLogicalDeviceInfo->CommandsFailed !=
4999 		   LogicalDeviceInfo->CommandsFailed) ||
5000 		  (NewLogicalDeviceInfo->DeferredWriteErrors !=
5001 		   LogicalDeviceInfo->DeferredWriteErrors))
5002 		DAC960_Critical("Logical Drive %d (/dev/rd/c%dd%d) Errors: "
5003 				"Soft = %d, Failed = %d, Deferred Write = %d\n",
5004 				Controller, LogicalDeviceNumber,
5005 				Controller->ControllerNumber,
5006 				LogicalDeviceNumber,
5007 				NewLogicalDeviceInfo->SoftErrors,
5008 				NewLogicalDeviceInfo->CommandsFailed,
5009 				NewLogicalDeviceInfo->DeferredWriteErrors);
5010 	      if (NewLogicalDeviceInfo->ConsistencyCheckInProgress)
5011 		DAC960_V2_ReportProgress(Controller,
5012 					 "Consistency Check",
5013 					 LogicalDeviceNumber,
5014 					 NewLogicalDeviceInfo
5015 					 ->ConsistencyCheckBlockNumber,
5016 					 LogicalDeviceSize);
5017 	      else if (NewLogicalDeviceInfo->RebuildInProgress)
5018 		DAC960_V2_ReportProgress(Controller,
5019 					 "Rebuild",
5020 					 LogicalDeviceNumber,
5021 					 NewLogicalDeviceInfo
5022 					 ->RebuildBlockNumber,
5023 					 LogicalDeviceSize);
5024 	      else if (NewLogicalDeviceInfo->BackgroundInitializationInProgress)
5025 		DAC960_V2_ReportProgress(Controller,
5026 					 "Background Initialization",
5027 					 LogicalDeviceNumber,
5028 					 NewLogicalDeviceInfo
5029 					 ->BackgroundInitializationBlockNumber,
5030 					 LogicalDeviceSize);
5031 	      else if (NewLogicalDeviceInfo->ForegroundInitializationInProgress)
5032 		DAC960_V2_ReportProgress(Controller,
5033 					 "Foreground Initialization",
5034 					 LogicalDeviceNumber,
5035 					 NewLogicalDeviceInfo
5036 					 ->ForegroundInitializationBlockNumber,
5037 					 LogicalDeviceSize);
5038 	      else if (NewLogicalDeviceInfo->DataMigrationInProgress)
5039 		DAC960_V2_ReportProgress(Controller,
5040 					 "Data Migration",
5041 					 LogicalDeviceNumber,
5042 					 NewLogicalDeviceInfo
5043 					 ->DataMigrationBlockNumber,
5044 					 LogicalDeviceSize);
5045 	      else if (NewLogicalDeviceInfo->PatrolOperationInProgress)
5046 		DAC960_V2_ReportProgress(Controller,
5047 					 "Patrol Operation",
5048 					 LogicalDeviceNumber,
5049 					 NewLogicalDeviceInfo
5050 					 ->PatrolOperationBlockNumber,
5051 					 LogicalDeviceSize);
5052 	      if (LogicalDeviceInfo->BackgroundInitializationInProgress &&
5053 		  !NewLogicalDeviceInfo->BackgroundInitializationInProgress)
5054 		DAC960_Progress("Logical Drive %d (/dev/rd/c%dd%d) "
5055 				"Background Initialization %s\n",
5056 				Controller,
5057 				LogicalDeviceNumber,
5058 				Controller->ControllerNumber,
5059 				LogicalDeviceNumber,
5060 				(NewLogicalDeviceInfo->LogicalDeviceControl
5061 						      .LogicalDeviceInitialized
5062 				 ? "Completed" : "Failed"));
5063 	      memcpy(LogicalDeviceInfo, NewLogicalDeviceInfo,
5064 		     sizeof(DAC960_V2_LogicalDeviceInfo_T));
5065 	    }
5066 	  Controller->V2.LogicalDriveFoundDuringScan
5067 			 [LogicalDeviceNumber] = true;
5068 	  NewLogicalDeviceInfo->LogicalDeviceNumber++;
5069 	}
5070       else if (IOCTLOpcode == DAC960_V2_GetLogicalDeviceInfoValid)
5071 	{
5072 	  int LogicalDriveNumber;
5073 	  for (LogicalDriveNumber = 0;
5074 	       LogicalDriveNumber < DAC960_MaxLogicalDrives;
5075 	       LogicalDriveNumber++)
5076 	    {
5077 	      DAC960_V2_LogicalDeviceInfo_T *LogicalDeviceInfo =
5078 		Controller->V2.LogicalDeviceInformation[LogicalDriveNumber];
5079 	      if (LogicalDeviceInfo == NULL ||
5080 		  Controller->V2.LogicalDriveFoundDuringScan
5081 				 [LogicalDriveNumber])
5082 		continue;
5083 	      DAC960_Critical("Logical Drive %d (/dev/rd/c%dd%d) "
5084 			      "No Longer Exists\n", Controller,
5085 			      LogicalDriveNumber,
5086 			      Controller->ControllerNumber,
5087 			      LogicalDriveNumber);
5088 	      Controller->V2.LogicalDeviceInformation
5089 			     [LogicalDriveNumber] = NULL;
5090 	      kfree(LogicalDeviceInfo);
5091 	      Controller->LogicalDriveInitiallyAccessible
5092 			  [LogicalDriveNumber] = false;
5093 	      DAC960_ComputeGenericDiskInfo(Controller);
5094 	    }
5095 	  Controller->V2.NeedLogicalDeviceInformation = false;
5096 	}
5097       else if (CommandOpcode == DAC960_V2_SCSI_10_Passthru)
5098         {
5099 	    DAC960_SCSI_Inquiry_UnitSerialNumber_T *InquiryUnitSerialNumber =
5100 		Controller->V2.InquiryUnitSerialNumber[Controller->V2.PhysicalDeviceIndex - 1];
5101 
5102 	    if (CommandStatus != DAC960_V2_NormalCompletion) {
5103 		memset(InquiryUnitSerialNumber,
5104 			0, sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T));
5105 		InquiryUnitSerialNumber->PeripheralDeviceType = 0x1F;
5106 	    } else
5107 	  	memcpy(InquiryUnitSerialNumber,
5108 			Controller->V2.NewInquiryUnitSerialNumber,
5109 			sizeof(DAC960_SCSI_Inquiry_UnitSerialNumber_T));
5110 
5111 	     Controller->V2.NeedDeviceSerialNumberInformation = false;
5112         }
5113 
5114       if (Controller->V2.HealthStatusBuffer->NextEventSequenceNumber
5115 	  - Controller->V2.NextEventSequenceNumber > 0)
5116 	{
5117 	  CommandMailbox->GetEvent.CommandOpcode = DAC960_V2_IOCTL;
5118 	  CommandMailbox->GetEvent.DataTransferSize = sizeof(DAC960_V2_Event_T);
5119 	  CommandMailbox->GetEvent.EventSequenceNumberHigh16 =
5120 	    Controller->V2.NextEventSequenceNumber >> 16;
5121 	  CommandMailbox->GetEvent.ControllerNumber = 0;
5122 	  CommandMailbox->GetEvent.IOCTL_Opcode =
5123 	    DAC960_V2_GetEvent;
5124 	  CommandMailbox->GetEvent.EventSequenceNumberLow16 =
5125 	    Controller->V2.NextEventSequenceNumber & 0xFFFF;
5126 	  CommandMailbox->GetEvent.DataTransferMemoryAddress
5127 				  .ScatterGatherSegments[0]
5128 				  .SegmentDataPointer =
5129 	    Controller->V2.EventDMA;
5130 	  CommandMailbox->GetEvent.DataTransferMemoryAddress
5131 				  .ScatterGatherSegments[0]
5132 				  .SegmentByteCount =
5133 	    CommandMailbox->GetEvent.DataTransferSize;
5134 	  DAC960_QueueCommand(Command);
5135 	  return;
5136 	}
5137       if (Controller->V2.NeedPhysicalDeviceInformation)
5138 	{
5139 	  if (Controller->V2.NeedDeviceSerialNumberInformation)
5140 	    {
5141 	      DAC960_SCSI_Inquiry_UnitSerialNumber_T *InquiryUnitSerialNumber =
5142                 Controller->V2.NewInquiryUnitSerialNumber;
5143 	      InquiryUnitSerialNumber->PeripheralDeviceType = 0x1F;
5144 
5145 	      DAC960_V2_ConstructNewUnitSerialNumber(Controller, CommandMailbox,
5146 			Controller->V2.NewPhysicalDeviceInformation->Channel,
5147 			Controller->V2.NewPhysicalDeviceInformation->TargetID,
5148 		Controller->V2.NewPhysicalDeviceInformation->LogicalUnit - 1);
5149 
5150 
5151 	      DAC960_QueueCommand(Command);
5152 	      return;
5153 	    }
5154 	  if (Controller->V2.StartPhysicalDeviceInformationScan)
5155 	    {
5156 	      Controller->V2.PhysicalDeviceIndex = 0;
5157 	      Controller->V2.NewPhysicalDeviceInformation->Channel = 0;
5158 	      Controller->V2.NewPhysicalDeviceInformation->TargetID = 0;
5159 	      Controller->V2.NewPhysicalDeviceInformation->LogicalUnit = 0;
5160 	      Controller->V2.StartPhysicalDeviceInformationScan = false;
5161 	    }
5162 	  CommandMailbox->PhysicalDeviceInfo.CommandOpcode = DAC960_V2_IOCTL;
5163 	  CommandMailbox->PhysicalDeviceInfo.DataTransferSize =
5164 	    sizeof(DAC960_V2_PhysicalDeviceInfo_T);
5165 	  CommandMailbox->PhysicalDeviceInfo.PhysicalDevice.LogicalUnit =
5166 	    Controller->V2.NewPhysicalDeviceInformation->LogicalUnit;
5167 	  CommandMailbox->PhysicalDeviceInfo.PhysicalDevice.TargetID =
5168 	    Controller->V2.NewPhysicalDeviceInformation->TargetID;
5169 	  CommandMailbox->PhysicalDeviceInfo.PhysicalDevice.Channel =
5170 	    Controller->V2.NewPhysicalDeviceInformation->Channel;
5171 	  CommandMailbox->PhysicalDeviceInfo.IOCTL_Opcode =
5172 	    DAC960_V2_GetPhysicalDeviceInfoValid;
5173 	  CommandMailbox->PhysicalDeviceInfo.DataTransferMemoryAddress
5174 					    .ScatterGatherSegments[0]
5175 					    .SegmentDataPointer =
5176 	    Controller->V2.NewPhysicalDeviceInformationDMA;
5177 	  CommandMailbox->PhysicalDeviceInfo.DataTransferMemoryAddress
5178 					    .ScatterGatherSegments[0]
5179 					    .SegmentByteCount =
5180 	    CommandMailbox->PhysicalDeviceInfo.DataTransferSize;
5181 	  DAC960_QueueCommand(Command);
5182 	  return;
5183 	}
5184       if (Controller->V2.NeedLogicalDeviceInformation)
5185 	{
5186 	  if (Controller->V2.StartLogicalDeviceInformationScan)
5187 	    {
5188 	      int LogicalDriveNumber;
5189 	      for (LogicalDriveNumber = 0;
5190 		   LogicalDriveNumber < DAC960_MaxLogicalDrives;
5191 		   LogicalDriveNumber++)
5192 		Controller->V2.LogicalDriveFoundDuringScan
5193 			       [LogicalDriveNumber] = false;
5194 	      Controller->V2.NewLogicalDeviceInformation->LogicalDeviceNumber = 0;
5195 	      Controller->V2.StartLogicalDeviceInformationScan = false;
5196 	    }
5197 	  CommandMailbox->LogicalDeviceInfo.CommandOpcode = DAC960_V2_IOCTL;
5198 	  CommandMailbox->LogicalDeviceInfo.DataTransferSize =
5199 	    sizeof(DAC960_V2_LogicalDeviceInfo_T);
5200 	  CommandMailbox->LogicalDeviceInfo.LogicalDevice.LogicalDeviceNumber =
5201 	    Controller->V2.NewLogicalDeviceInformation->LogicalDeviceNumber;
5202 	  CommandMailbox->LogicalDeviceInfo.IOCTL_Opcode =
5203 	    DAC960_V2_GetLogicalDeviceInfoValid;
5204 	  CommandMailbox->LogicalDeviceInfo.DataTransferMemoryAddress
5205 					   .ScatterGatherSegments[0]
5206 					   .SegmentDataPointer =
5207 	    Controller->V2.NewLogicalDeviceInformationDMA;
5208 	  CommandMailbox->LogicalDeviceInfo.DataTransferMemoryAddress
5209 					   .ScatterGatherSegments[0]
5210 					   .SegmentByteCount =
5211 	    CommandMailbox->LogicalDeviceInfo.DataTransferSize;
5212 	  DAC960_QueueCommand(Command);
5213 	  return;
5214 	}
5215       Controller->MonitoringTimerCount++;
5216       Controller->MonitoringTimer.expires =
5217 	jiffies + DAC960_HealthStatusMonitoringInterval;
5218       	add_timer(&Controller->MonitoringTimer);
5219     }
5220   if (CommandType == DAC960_ImmediateCommand)
5221     {
5222       complete(Command->Completion);
5223       Command->Completion = NULL;
5224       return;
5225     }
5226   if (CommandType == DAC960_QueuedCommand)
5227     {
5228       DAC960_V2_KernelCommand_T *KernelCommand = Command->V2.KernelCommand;
5229       KernelCommand->CommandStatus = CommandStatus;
5230       KernelCommand->RequestSenseLength = Command->V2.RequestSenseLength;
5231       KernelCommand->DataTransferLength = Command->V2.DataTransferResidue;
5232       Command->V2.KernelCommand = NULL;
5233       DAC960_DeallocateCommand(Command);
5234       KernelCommand->CompletionFunction(KernelCommand);
5235       return;
5236     }
5237   /*
5238     Queue a Status Monitoring Command to the Controller using the just
5239     completed Command if one was deferred previously due to lack of a
5240     free Command when the Monitoring Timer Function was called.
5241   */
5242   if (Controller->MonitoringCommandDeferred)
5243     {
5244       Controller->MonitoringCommandDeferred = false;
5245       DAC960_V2_QueueMonitoringCommand(Command);
5246       return;
5247     }
5248   /*
5249     Deallocate the Command.
5250   */
5251   DAC960_DeallocateCommand(Command);
5252   /*
5253     Wake up any processes waiting on a free Command.
5254   */
5255   wake_up(&Controller->CommandWaitQueue);
5256 }
5257 
5258 /*
5259   DAC960_GEM_InterruptHandler handles hardware interrupts from DAC960 GEM Series
5260   Controllers.
5261 */
5262 
DAC960_GEM_InterruptHandler(int IRQ_Channel,void * DeviceIdentifier)5263 static irqreturn_t DAC960_GEM_InterruptHandler(int IRQ_Channel,
5264 				       void *DeviceIdentifier)
5265 {
5266   DAC960_Controller_T *Controller = DeviceIdentifier;
5267   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
5268   DAC960_V2_StatusMailbox_T *NextStatusMailbox;
5269   unsigned long flags;
5270 
5271   spin_lock_irqsave(&Controller->queue_lock, flags);
5272   DAC960_GEM_AcknowledgeInterrupt(ControllerBaseAddress);
5273   NextStatusMailbox = Controller->V2.NextStatusMailbox;
5274   while (NextStatusMailbox->Fields.CommandIdentifier > 0)
5275     {
5276        DAC960_V2_CommandIdentifier_T CommandIdentifier =
5277            NextStatusMailbox->Fields.CommandIdentifier;
5278        DAC960_Command_T *Command = Controller->Commands[CommandIdentifier-1];
5279        Command->V2.CommandStatus = NextStatusMailbox->Fields.CommandStatus;
5280        Command->V2.RequestSenseLength =
5281            NextStatusMailbox->Fields.RequestSenseLength;
5282        Command->V2.DataTransferResidue =
5283            NextStatusMailbox->Fields.DataTransferResidue;
5284        NextStatusMailbox->Words[0] = 0;
5285        if (++NextStatusMailbox > Controller->V2.LastStatusMailbox)
5286            NextStatusMailbox = Controller->V2.FirstStatusMailbox;
5287        DAC960_V2_ProcessCompletedCommand(Command);
5288     }
5289   Controller->V2.NextStatusMailbox = NextStatusMailbox;
5290   /*
5291     Attempt to remove additional I/O Requests from the Controller's
5292     I/O Request Queue and queue them to the Controller.
5293   */
5294   DAC960_ProcessRequest(Controller);
5295   spin_unlock_irqrestore(&Controller->queue_lock, flags);
5296   return IRQ_HANDLED;
5297 }
5298 
5299 /*
5300   DAC960_BA_InterruptHandler handles hardware interrupts from DAC960 BA Series
5301   Controllers.
5302 */
5303 
DAC960_BA_InterruptHandler(int IRQ_Channel,void * DeviceIdentifier)5304 static irqreturn_t DAC960_BA_InterruptHandler(int IRQ_Channel,
5305 				       void *DeviceIdentifier)
5306 {
5307   DAC960_Controller_T *Controller = DeviceIdentifier;
5308   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
5309   DAC960_V2_StatusMailbox_T *NextStatusMailbox;
5310   unsigned long flags;
5311 
5312   spin_lock_irqsave(&Controller->queue_lock, flags);
5313   DAC960_BA_AcknowledgeInterrupt(ControllerBaseAddress);
5314   NextStatusMailbox = Controller->V2.NextStatusMailbox;
5315   while (NextStatusMailbox->Fields.CommandIdentifier > 0)
5316     {
5317       DAC960_V2_CommandIdentifier_T CommandIdentifier =
5318 	NextStatusMailbox->Fields.CommandIdentifier;
5319       DAC960_Command_T *Command = Controller->Commands[CommandIdentifier-1];
5320       Command->V2.CommandStatus = NextStatusMailbox->Fields.CommandStatus;
5321       Command->V2.RequestSenseLength =
5322 	NextStatusMailbox->Fields.RequestSenseLength;
5323       Command->V2.DataTransferResidue =
5324 	NextStatusMailbox->Fields.DataTransferResidue;
5325       NextStatusMailbox->Words[0] = 0;
5326       if (++NextStatusMailbox > Controller->V2.LastStatusMailbox)
5327 	NextStatusMailbox = Controller->V2.FirstStatusMailbox;
5328       DAC960_V2_ProcessCompletedCommand(Command);
5329     }
5330   Controller->V2.NextStatusMailbox = NextStatusMailbox;
5331   /*
5332     Attempt to remove additional I/O Requests from the Controller's
5333     I/O Request Queue and queue them to the Controller.
5334   */
5335   DAC960_ProcessRequest(Controller);
5336   spin_unlock_irqrestore(&Controller->queue_lock, flags);
5337   return IRQ_HANDLED;
5338 }
5339 
5340 
5341 /*
5342   DAC960_LP_InterruptHandler handles hardware interrupts from DAC960 LP Series
5343   Controllers.
5344 */
5345 
DAC960_LP_InterruptHandler(int IRQ_Channel,void * DeviceIdentifier)5346 static irqreturn_t DAC960_LP_InterruptHandler(int IRQ_Channel,
5347 				       void *DeviceIdentifier)
5348 {
5349   DAC960_Controller_T *Controller = DeviceIdentifier;
5350   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
5351   DAC960_V2_StatusMailbox_T *NextStatusMailbox;
5352   unsigned long flags;
5353 
5354   spin_lock_irqsave(&Controller->queue_lock, flags);
5355   DAC960_LP_AcknowledgeInterrupt(ControllerBaseAddress);
5356   NextStatusMailbox = Controller->V2.NextStatusMailbox;
5357   while (NextStatusMailbox->Fields.CommandIdentifier > 0)
5358     {
5359       DAC960_V2_CommandIdentifier_T CommandIdentifier =
5360 	NextStatusMailbox->Fields.CommandIdentifier;
5361       DAC960_Command_T *Command = Controller->Commands[CommandIdentifier-1];
5362       Command->V2.CommandStatus = NextStatusMailbox->Fields.CommandStatus;
5363       Command->V2.RequestSenseLength =
5364 	NextStatusMailbox->Fields.RequestSenseLength;
5365       Command->V2.DataTransferResidue =
5366 	NextStatusMailbox->Fields.DataTransferResidue;
5367       NextStatusMailbox->Words[0] = 0;
5368       if (++NextStatusMailbox > Controller->V2.LastStatusMailbox)
5369 	NextStatusMailbox = Controller->V2.FirstStatusMailbox;
5370       DAC960_V2_ProcessCompletedCommand(Command);
5371     }
5372   Controller->V2.NextStatusMailbox = NextStatusMailbox;
5373   /*
5374     Attempt to remove additional I/O Requests from the Controller's
5375     I/O Request Queue and queue them to the Controller.
5376   */
5377   DAC960_ProcessRequest(Controller);
5378   spin_unlock_irqrestore(&Controller->queue_lock, flags);
5379   return IRQ_HANDLED;
5380 }
5381 
5382 
5383 /*
5384   DAC960_LA_InterruptHandler handles hardware interrupts from DAC960 LA Series
5385   Controllers.
5386 */
5387 
DAC960_LA_InterruptHandler(int IRQ_Channel,void * DeviceIdentifier)5388 static irqreturn_t DAC960_LA_InterruptHandler(int IRQ_Channel,
5389 				       void *DeviceIdentifier)
5390 {
5391   DAC960_Controller_T *Controller = DeviceIdentifier;
5392   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
5393   DAC960_V1_StatusMailbox_T *NextStatusMailbox;
5394   unsigned long flags;
5395 
5396   spin_lock_irqsave(&Controller->queue_lock, flags);
5397   DAC960_LA_AcknowledgeInterrupt(ControllerBaseAddress);
5398   NextStatusMailbox = Controller->V1.NextStatusMailbox;
5399   while (NextStatusMailbox->Fields.Valid)
5400     {
5401       DAC960_V1_CommandIdentifier_T CommandIdentifier =
5402 	NextStatusMailbox->Fields.CommandIdentifier;
5403       DAC960_Command_T *Command = Controller->Commands[CommandIdentifier-1];
5404       Command->V1.CommandStatus = NextStatusMailbox->Fields.CommandStatus;
5405       NextStatusMailbox->Word = 0;
5406       if (++NextStatusMailbox > Controller->V1.LastStatusMailbox)
5407 	NextStatusMailbox = Controller->V1.FirstStatusMailbox;
5408       DAC960_V1_ProcessCompletedCommand(Command);
5409     }
5410   Controller->V1.NextStatusMailbox = NextStatusMailbox;
5411   /*
5412     Attempt to remove additional I/O Requests from the Controller's
5413     I/O Request Queue and queue them to the Controller.
5414   */
5415   DAC960_ProcessRequest(Controller);
5416   spin_unlock_irqrestore(&Controller->queue_lock, flags);
5417   return IRQ_HANDLED;
5418 }
5419 
5420 
5421 /*
5422   DAC960_PG_InterruptHandler handles hardware interrupts from DAC960 PG Series
5423   Controllers.
5424 */
5425 
DAC960_PG_InterruptHandler(int IRQ_Channel,void * DeviceIdentifier)5426 static irqreturn_t DAC960_PG_InterruptHandler(int IRQ_Channel,
5427 				       void *DeviceIdentifier)
5428 {
5429   DAC960_Controller_T *Controller = DeviceIdentifier;
5430   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
5431   DAC960_V1_StatusMailbox_T *NextStatusMailbox;
5432   unsigned long flags;
5433 
5434   spin_lock_irqsave(&Controller->queue_lock, flags);
5435   DAC960_PG_AcknowledgeInterrupt(ControllerBaseAddress);
5436   NextStatusMailbox = Controller->V1.NextStatusMailbox;
5437   while (NextStatusMailbox->Fields.Valid)
5438     {
5439       DAC960_V1_CommandIdentifier_T CommandIdentifier =
5440 	NextStatusMailbox->Fields.CommandIdentifier;
5441       DAC960_Command_T *Command = Controller->Commands[CommandIdentifier-1];
5442       Command->V1.CommandStatus = NextStatusMailbox->Fields.CommandStatus;
5443       NextStatusMailbox->Word = 0;
5444       if (++NextStatusMailbox > Controller->V1.LastStatusMailbox)
5445 	NextStatusMailbox = Controller->V1.FirstStatusMailbox;
5446       DAC960_V1_ProcessCompletedCommand(Command);
5447     }
5448   Controller->V1.NextStatusMailbox = NextStatusMailbox;
5449   /*
5450     Attempt to remove additional I/O Requests from the Controller's
5451     I/O Request Queue and queue them to the Controller.
5452   */
5453   DAC960_ProcessRequest(Controller);
5454   spin_unlock_irqrestore(&Controller->queue_lock, flags);
5455   return IRQ_HANDLED;
5456 }
5457 
5458 
5459 /*
5460   DAC960_PD_InterruptHandler handles hardware interrupts from DAC960 PD Series
5461   Controllers.
5462 */
5463 
DAC960_PD_InterruptHandler(int IRQ_Channel,void * DeviceIdentifier)5464 static irqreturn_t DAC960_PD_InterruptHandler(int IRQ_Channel,
5465 				       void *DeviceIdentifier)
5466 {
5467   DAC960_Controller_T *Controller = DeviceIdentifier;
5468   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
5469   unsigned long flags;
5470 
5471   spin_lock_irqsave(&Controller->queue_lock, flags);
5472   while (DAC960_PD_StatusAvailableP(ControllerBaseAddress))
5473     {
5474       DAC960_V1_CommandIdentifier_T CommandIdentifier =
5475 	DAC960_PD_ReadStatusCommandIdentifier(ControllerBaseAddress);
5476       DAC960_Command_T *Command = Controller->Commands[CommandIdentifier-1];
5477       Command->V1.CommandStatus =
5478 	DAC960_PD_ReadStatusRegister(ControllerBaseAddress);
5479       DAC960_PD_AcknowledgeInterrupt(ControllerBaseAddress);
5480       DAC960_PD_AcknowledgeStatus(ControllerBaseAddress);
5481       DAC960_V1_ProcessCompletedCommand(Command);
5482     }
5483   /*
5484     Attempt to remove additional I/O Requests from the Controller's
5485     I/O Request Queue and queue them to the Controller.
5486   */
5487   DAC960_ProcessRequest(Controller);
5488   spin_unlock_irqrestore(&Controller->queue_lock, flags);
5489   return IRQ_HANDLED;
5490 }
5491 
5492 
5493 /*
5494   DAC960_P_InterruptHandler handles hardware interrupts from DAC960 P Series
5495   Controllers.
5496 
5497   Translations of DAC960_V1_Enquiry and DAC960_V1_GetDeviceState rely
5498   on the data having been placed into DAC960_Controller_T, rather than
5499   an arbitrary buffer.
5500 */
5501 
DAC960_P_InterruptHandler(int IRQ_Channel,void * DeviceIdentifier)5502 static irqreturn_t DAC960_P_InterruptHandler(int IRQ_Channel,
5503 				      void *DeviceIdentifier)
5504 {
5505   DAC960_Controller_T *Controller = DeviceIdentifier;
5506   void __iomem *ControllerBaseAddress = Controller->BaseAddress;
5507   unsigned long flags;
5508 
5509   spin_lock_irqsave(&Controller->queue_lock, flags);
5510   while (DAC960_PD_StatusAvailableP(ControllerBaseAddress))
5511     {
5512       DAC960_V1_CommandIdentifier_T CommandIdentifier =
5513 	DAC960_PD_ReadStatusCommandIdentifier(ControllerBaseAddress);
5514       DAC960_Command_T *Command = Controller->Commands[CommandIdentifier-1];
5515       DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
5516       DAC960_V1_CommandOpcode_T CommandOpcode =
5517 	CommandMailbox->Common.CommandOpcode;
5518       Command->V1.CommandStatus =
5519 	DAC960_PD_ReadStatusRegister(ControllerBaseAddress);
5520       DAC960_PD_AcknowledgeInterrupt(ControllerBaseAddress);
5521       DAC960_PD_AcknowledgeStatus(ControllerBaseAddress);
5522       switch (CommandOpcode)
5523 	{
5524 	case DAC960_V1_Enquiry_Old:
5525 	  Command->V1.CommandMailbox.Common.CommandOpcode = DAC960_V1_Enquiry;
5526 	  DAC960_P_To_PD_TranslateEnquiry(Controller->V1.NewEnquiry);
5527 	  break;
5528 	case DAC960_V1_GetDeviceState_Old:
5529 	  Command->V1.CommandMailbox.Common.CommandOpcode =
5530 	    					DAC960_V1_GetDeviceState;
5531 	  DAC960_P_To_PD_TranslateDeviceState(Controller->V1.NewDeviceState);
5532 	  break;
5533 	case DAC960_V1_Read_Old:
5534 	  Command->V1.CommandMailbox.Common.CommandOpcode = DAC960_V1_Read;
5535 	  DAC960_P_To_PD_TranslateReadWriteCommand(CommandMailbox);
5536 	  break;
5537 	case DAC960_V1_Write_Old:
5538 	  Command->V1.CommandMailbox.Common.CommandOpcode = DAC960_V1_Write;
5539 	  DAC960_P_To_PD_TranslateReadWriteCommand(CommandMailbox);
5540 	  break;
5541 	case DAC960_V1_ReadWithScatterGather_Old:
5542 	  Command->V1.CommandMailbox.Common.CommandOpcode =
5543 	    DAC960_V1_ReadWithScatterGather;
5544 	  DAC960_P_To_PD_TranslateReadWriteCommand(CommandMailbox);
5545 	  break;
5546 	case DAC960_V1_WriteWithScatterGather_Old:
5547 	  Command->V1.CommandMailbox.Common.CommandOpcode =
5548 	    DAC960_V1_WriteWithScatterGather;
5549 	  DAC960_P_To_PD_TranslateReadWriteCommand(CommandMailbox);
5550 	  break;
5551 	default:
5552 	  break;
5553 	}
5554       DAC960_V1_ProcessCompletedCommand(Command);
5555     }
5556   /*
5557     Attempt to remove additional I/O Requests from the Controller's
5558     I/O Request Queue and queue them to the Controller.
5559   */
5560   DAC960_ProcessRequest(Controller);
5561   spin_unlock_irqrestore(&Controller->queue_lock, flags);
5562   return IRQ_HANDLED;
5563 }
5564 
5565 
5566 /*
5567   DAC960_V1_QueueMonitoringCommand queues a Monitoring Command to DAC960 V1
5568   Firmware Controllers.
5569 */
5570 
DAC960_V1_QueueMonitoringCommand(DAC960_Command_T * Command)5571 static void DAC960_V1_QueueMonitoringCommand(DAC960_Command_T *Command)
5572 {
5573   DAC960_Controller_T *Controller = Command->Controller;
5574   DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
5575   DAC960_V1_ClearCommand(Command);
5576   Command->CommandType = DAC960_MonitoringCommand;
5577   CommandMailbox->Type3.CommandOpcode = DAC960_V1_Enquiry;
5578   CommandMailbox->Type3.BusAddress = Controller->V1.NewEnquiryDMA;
5579   DAC960_QueueCommand(Command);
5580 }
5581 
5582 
5583 /*
5584   DAC960_V2_QueueMonitoringCommand queues a Monitoring Command to DAC960 V2
5585   Firmware Controllers.
5586 */
5587 
DAC960_V2_QueueMonitoringCommand(DAC960_Command_T * Command)5588 static void DAC960_V2_QueueMonitoringCommand(DAC960_Command_T *Command)
5589 {
5590   DAC960_Controller_T *Controller = Command->Controller;
5591   DAC960_V2_CommandMailbox_T *CommandMailbox = &Command->V2.CommandMailbox;
5592   DAC960_V2_ClearCommand(Command);
5593   Command->CommandType = DAC960_MonitoringCommand;
5594   CommandMailbox->ControllerInfo.CommandOpcode = DAC960_V2_IOCTL;
5595   CommandMailbox->ControllerInfo.CommandControlBits
5596 				.DataTransferControllerToHost = true;
5597   CommandMailbox->ControllerInfo.CommandControlBits
5598 				.NoAutoRequestSense = true;
5599   CommandMailbox->ControllerInfo.DataTransferSize =
5600     sizeof(DAC960_V2_ControllerInfo_T);
5601   CommandMailbox->ControllerInfo.ControllerNumber = 0;
5602   CommandMailbox->ControllerInfo.IOCTL_Opcode = DAC960_V2_GetControllerInfo;
5603   CommandMailbox->ControllerInfo.DataTransferMemoryAddress
5604 				.ScatterGatherSegments[0]
5605 				.SegmentDataPointer =
5606     Controller->V2.NewControllerInformationDMA;
5607   CommandMailbox->ControllerInfo.DataTransferMemoryAddress
5608 				.ScatterGatherSegments[0]
5609 				.SegmentByteCount =
5610     CommandMailbox->ControllerInfo.DataTransferSize;
5611   DAC960_QueueCommand(Command);
5612 }
5613 
5614 
5615 /*
5616   DAC960_MonitoringTimerFunction is the timer function for monitoring
5617   the status of DAC960 Controllers.
5618 */
5619 
DAC960_MonitoringTimerFunction(unsigned long TimerData)5620 static void DAC960_MonitoringTimerFunction(unsigned long TimerData)
5621 {
5622   DAC960_Controller_T *Controller = (DAC960_Controller_T *) TimerData;
5623   DAC960_Command_T *Command;
5624   unsigned long flags;
5625 
5626   if (Controller->FirmwareType == DAC960_V1_Controller)
5627     {
5628       spin_lock_irqsave(&Controller->queue_lock, flags);
5629       /*
5630 	Queue a Status Monitoring Command to Controller.
5631       */
5632       Command = DAC960_AllocateCommand(Controller);
5633       if (Command != NULL)
5634 	DAC960_V1_QueueMonitoringCommand(Command);
5635       else Controller->MonitoringCommandDeferred = true;
5636       spin_unlock_irqrestore(&Controller->queue_lock, flags);
5637     }
5638   else
5639     {
5640       DAC960_V2_ControllerInfo_T *ControllerInfo =
5641 	&Controller->V2.ControllerInformation;
5642       unsigned int StatusChangeCounter =
5643 	Controller->V2.HealthStatusBuffer->StatusChangeCounter;
5644       bool ForceMonitoringCommand = false;
5645       if (time_after(jiffies, Controller->SecondaryMonitoringTime
5646 	  + DAC960_SecondaryMonitoringInterval))
5647 	{
5648 	  int LogicalDriveNumber;
5649 	  for (LogicalDriveNumber = 0;
5650 	       LogicalDriveNumber < DAC960_MaxLogicalDrives;
5651 	       LogicalDriveNumber++)
5652 	    {
5653 	      DAC960_V2_LogicalDeviceInfo_T *LogicalDeviceInfo =
5654 		Controller->V2.LogicalDeviceInformation[LogicalDriveNumber];
5655 	      if (LogicalDeviceInfo == NULL) continue;
5656 	      if (!LogicalDeviceInfo->LogicalDeviceControl
5657 				     .LogicalDeviceInitialized)
5658 		{
5659 		  ForceMonitoringCommand = true;
5660 		  break;
5661 		}
5662 	    }
5663 	  Controller->SecondaryMonitoringTime = jiffies;
5664 	}
5665       if (StatusChangeCounter == Controller->V2.StatusChangeCounter &&
5666 	  Controller->V2.HealthStatusBuffer->NextEventSequenceNumber
5667 	  == Controller->V2.NextEventSequenceNumber &&
5668 	  (ControllerInfo->BackgroundInitializationsActive +
5669 	   ControllerInfo->LogicalDeviceInitializationsActive +
5670 	   ControllerInfo->PhysicalDeviceInitializationsActive +
5671 	   ControllerInfo->ConsistencyChecksActive +
5672 	   ControllerInfo->RebuildsActive +
5673 	   ControllerInfo->OnlineExpansionsActive == 0 ||
5674 	   time_before(jiffies, Controller->PrimaryMonitoringTime
5675 	   + DAC960_MonitoringTimerInterval)) &&
5676 	  !ForceMonitoringCommand)
5677 	{
5678 	  Controller->MonitoringTimer.expires =
5679 	    jiffies + DAC960_HealthStatusMonitoringInterval;
5680 	    add_timer(&Controller->MonitoringTimer);
5681 	  return;
5682 	}
5683       Controller->V2.StatusChangeCounter = StatusChangeCounter;
5684       Controller->PrimaryMonitoringTime = jiffies;
5685 
5686       spin_lock_irqsave(&Controller->queue_lock, flags);
5687       /*
5688 	Queue a Status Monitoring Command to Controller.
5689       */
5690       Command = DAC960_AllocateCommand(Controller);
5691       if (Command != NULL)
5692 	DAC960_V2_QueueMonitoringCommand(Command);
5693       else Controller->MonitoringCommandDeferred = true;
5694       spin_unlock_irqrestore(&Controller->queue_lock, flags);
5695       /*
5696 	Wake up any processes waiting on a Health Status Buffer change.
5697       */
5698       wake_up(&Controller->HealthStatusWaitQueue);
5699     }
5700 }
5701 
5702 /*
5703   DAC960_CheckStatusBuffer verifies that there is room to hold ByteCount
5704   additional bytes in the Combined Status Buffer and grows the buffer if
5705   necessary.  It returns true if there is enough room and false otherwise.
5706 */
5707 
DAC960_CheckStatusBuffer(DAC960_Controller_T * Controller,unsigned int ByteCount)5708 static bool DAC960_CheckStatusBuffer(DAC960_Controller_T *Controller,
5709 					unsigned int ByteCount)
5710 {
5711   unsigned char *NewStatusBuffer;
5712   if (Controller->InitialStatusLength + 1 +
5713       Controller->CurrentStatusLength + ByteCount + 1 <=
5714       Controller->CombinedStatusBufferLength)
5715     return true;
5716   if (Controller->CombinedStatusBufferLength == 0)
5717     {
5718       unsigned int NewStatusBufferLength = DAC960_InitialStatusBufferSize;
5719       while (NewStatusBufferLength < ByteCount)
5720 	NewStatusBufferLength *= 2;
5721       Controller->CombinedStatusBuffer = kmalloc(NewStatusBufferLength,
5722 						  GFP_ATOMIC);
5723       if (Controller->CombinedStatusBuffer == NULL) return false;
5724       Controller->CombinedStatusBufferLength = NewStatusBufferLength;
5725       return true;
5726     }
5727   NewStatusBuffer = kmalloc(2 * Controller->CombinedStatusBufferLength,
5728 			     GFP_ATOMIC);
5729   if (NewStatusBuffer == NULL)
5730     {
5731       DAC960_Warning("Unable to expand Combined Status Buffer - Truncating\n",
5732 		     Controller);
5733       return false;
5734     }
5735   memcpy(NewStatusBuffer, Controller->CombinedStatusBuffer,
5736 	 Controller->CombinedStatusBufferLength);
5737   kfree(Controller->CombinedStatusBuffer);
5738   Controller->CombinedStatusBuffer = NewStatusBuffer;
5739   Controller->CombinedStatusBufferLength *= 2;
5740   Controller->CurrentStatusBuffer =
5741     &NewStatusBuffer[Controller->InitialStatusLength + 1];
5742   return true;
5743 }
5744 
5745 
5746 /*
5747   DAC960_Message prints Driver Messages.
5748 */
5749 
DAC960_Message(DAC960_MessageLevel_T MessageLevel,unsigned char * Format,DAC960_Controller_T * Controller,...)5750 static void DAC960_Message(DAC960_MessageLevel_T MessageLevel,
5751 			   unsigned char *Format,
5752 			   DAC960_Controller_T *Controller,
5753 			   ...)
5754 {
5755   static unsigned char Buffer[DAC960_LineBufferSize];
5756   static bool BeginningOfLine = true;
5757   va_list Arguments;
5758   int Length = 0;
5759   va_start(Arguments, Controller);
5760   Length = vsprintf(Buffer, Format, Arguments);
5761   va_end(Arguments);
5762   if (Controller == NULL)
5763     printk("%sDAC960#%d: %s", DAC960_MessageLevelMap[MessageLevel],
5764 	   DAC960_ControllerCount, Buffer);
5765   else if (MessageLevel == DAC960_AnnounceLevel ||
5766 	   MessageLevel == DAC960_InfoLevel)
5767     {
5768       if (!Controller->ControllerInitialized)
5769 	{
5770 	  if (DAC960_CheckStatusBuffer(Controller, Length))
5771 	    {
5772 	      strcpy(&Controller->CombinedStatusBuffer
5773 				  [Controller->InitialStatusLength],
5774 		     Buffer);
5775 	      Controller->InitialStatusLength += Length;
5776 	      Controller->CurrentStatusBuffer =
5777 		&Controller->CombinedStatusBuffer
5778 			     [Controller->InitialStatusLength + 1];
5779 	    }
5780 	  if (MessageLevel == DAC960_AnnounceLevel)
5781 	    {
5782 	      static int AnnouncementLines = 0;
5783 	      if (++AnnouncementLines <= 2)
5784 		printk("%sDAC960: %s", DAC960_MessageLevelMap[MessageLevel],
5785 		       Buffer);
5786 	    }
5787 	  else
5788 	    {
5789 	      if (BeginningOfLine)
5790 		{
5791 		  if (Buffer[0] != '\n' || Length > 1)
5792 		    printk("%sDAC960#%d: %s",
5793 			   DAC960_MessageLevelMap[MessageLevel],
5794 			   Controller->ControllerNumber, Buffer);
5795 		}
5796 	      else printk("%s", Buffer);
5797 	    }
5798 	}
5799       else if (DAC960_CheckStatusBuffer(Controller, Length))
5800 	{
5801 	  strcpy(&Controller->CurrentStatusBuffer[
5802 		    Controller->CurrentStatusLength], Buffer);
5803 	  Controller->CurrentStatusLength += Length;
5804 	}
5805     }
5806   else if (MessageLevel == DAC960_ProgressLevel)
5807     {
5808       strcpy(Controller->ProgressBuffer, Buffer);
5809       Controller->ProgressBufferLength = Length;
5810       if (Controller->EphemeralProgressMessage)
5811 	{
5812 	  if (time_after_eq(jiffies, Controller->LastProgressReportTime
5813 	      + DAC960_ProgressReportingInterval))
5814 	    {
5815 	      printk("%sDAC960#%d: %s", DAC960_MessageLevelMap[MessageLevel],
5816 		     Controller->ControllerNumber, Buffer);
5817 	      Controller->LastProgressReportTime = jiffies;
5818 	    }
5819 	}
5820       else printk("%sDAC960#%d: %s", DAC960_MessageLevelMap[MessageLevel],
5821 		  Controller->ControllerNumber, Buffer);
5822     }
5823   else if (MessageLevel == DAC960_UserCriticalLevel)
5824     {
5825       strcpy(&Controller->UserStatusBuffer[Controller->UserStatusLength],
5826 	     Buffer);
5827       Controller->UserStatusLength += Length;
5828       if (Buffer[0] != '\n' || Length > 1)
5829 	printk("%sDAC960#%d: %s", DAC960_MessageLevelMap[MessageLevel],
5830 	       Controller->ControllerNumber, Buffer);
5831     }
5832   else
5833     {
5834       if (BeginningOfLine)
5835 	printk("%sDAC960#%d: %s", DAC960_MessageLevelMap[MessageLevel],
5836 	       Controller->ControllerNumber, Buffer);
5837       else printk("%s", Buffer);
5838     }
5839   BeginningOfLine = (Buffer[Length-1] == '\n');
5840 }
5841 
5842 
5843 /*
5844   DAC960_ParsePhysicalDevice parses spaces followed by a Physical Device
5845   Channel:TargetID specification from a User Command string.  It updates
5846   Channel and TargetID and returns true on success and false on failure.
5847 */
5848 
DAC960_ParsePhysicalDevice(DAC960_Controller_T * Controller,char * UserCommandString,unsigned char * Channel,unsigned char * TargetID)5849 static bool DAC960_ParsePhysicalDevice(DAC960_Controller_T *Controller,
5850 					  char *UserCommandString,
5851 					  unsigned char *Channel,
5852 					  unsigned char *TargetID)
5853 {
5854   char *NewUserCommandString = UserCommandString;
5855   unsigned long XChannel, XTargetID;
5856   while (*UserCommandString == ' ') UserCommandString++;
5857   if (UserCommandString == NewUserCommandString)
5858     return false;
5859   XChannel = simple_strtoul(UserCommandString, &NewUserCommandString, 10);
5860   if (NewUserCommandString == UserCommandString ||
5861       *NewUserCommandString != ':' ||
5862       XChannel >= Controller->Channels)
5863     return false;
5864   UserCommandString = ++NewUserCommandString;
5865   XTargetID = simple_strtoul(UserCommandString, &NewUserCommandString, 10);
5866   if (NewUserCommandString == UserCommandString ||
5867       *NewUserCommandString != '\0' ||
5868       XTargetID >= Controller->Targets)
5869     return false;
5870   *Channel = XChannel;
5871   *TargetID = XTargetID;
5872   return true;
5873 }
5874 
5875 
5876 /*
5877   DAC960_ParseLogicalDrive parses spaces followed by a Logical Drive Number
5878   specification from a User Command string.  It updates LogicalDriveNumber and
5879   returns true on success and false on failure.
5880 */
5881 
DAC960_ParseLogicalDrive(DAC960_Controller_T * Controller,char * UserCommandString,unsigned char * LogicalDriveNumber)5882 static bool DAC960_ParseLogicalDrive(DAC960_Controller_T *Controller,
5883 					char *UserCommandString,
5884 					unsigned char *LogicalDriveNumber)
5885 {
5886   char *NewUserCommandString = UserCommandString;
5887   unsigned long XLogicalDriveNumber;
5888   while (*UserCommandString == ' ') UserCommandString++;
5889   if (UserCommandString == NewUserCommandString)
5890     return false;
5891   XLogicalDriveNumber =
5892     simple_strtoul(UserCommandString, &NewUserCommandString, 10);
5893   if (NewUserCommandString == UserCommandString ||
5894       *NewUserCommandString != '\0' ||
5895       XLogicalDriveNumber > DAC960_MaxLogicalDrives - 1)
5896     return false;
5897   *LogicalDriveNumber = XLogicalDriveNumber;
5898   return true;
5899 }
5900 
5901 
5902 /*
5903   DAC960_V1_SetDeviceState sets the Device State for a Physical Device for
5904   DAC960 V1 Firmware Controllers.
5905 */
5906 
DAC960_V1_SetDeviceState(DAC960_Controller_T * Controller,DAC960_Command_T * Command,unsigned char Channel,unsigned char TargetID,DAC960_V1_PhysicalDeviceState_T DeviceState,const unsigned char * DeviceStateString)5907 static void DAC960_V1_SetDeviceState(DAC960_Controller_T *Controller,
5908 				     DAC960_Command_T *Command,
5909 				     unsigned char Channel,
5910 				     unsigned char TargetID,
5911 				     DAC960_V1_PhysicalDeviceState_T
5912 				       DeviceState,
5913 				     const unsigned char *DeviceStateString)
5914 {
5915   DAC960_V1_CommandMailbox_T *CommandMailbox = &Command->V1.CommandMailbox;
5916   CommandMailbox->Type3D.CommandOpcode = DAC960_V1_StartDevice;
5917   CommandMailbox->Type3D.Channel = Channel;
5918   CommandMailbox->Type3D.TargetID = TargetID;
5919   CommandMailbox->Type3D.DeviceState = DeviceState;
5920   CommandMailbox->Type3D.Modifier = 0;
5921   DAC960_ExecuteCommand(Command);
5922   switch (Command->V1.CommandStatus)
5923     {
5924     case DAC960_V1_NormalCompletion:
5925       DAC960_UserCritical("%s of Physical Device %d:%d Succeeded\n", Controller,
5926 			  DeviceStateString, Channel, TargetID);
5927       break;
5928     case DAC960_V1_UnableToStartDevice:
5929       DAC960_UserCritical("%s of Physical Device %d:%d Failed - "
5930 			  "Unable to Start Device\n", Controller,
5931 			  DeviceStateString, Channel, TargetID);
5932       break;
5933     case DAC960_V1_NoDeviceAtAddress:
5934       DAC960_UserCritical("%s of Physical Device %d:%d Failed - "
5935 			  "No Device at Address\n", Controller,
5936 			  DeviceStateString, Channel, TargetID);
5937       break;
5938     case DAC960_V1_InvalidChannelOrTargetOrModifier:
5939       DAC960_UserCritical("%s of Physical Device %d:%d Failed - "
5940 			  "Invalid Channel or Target or Modifier\n",
5941 			  Controller, DeviceStateString, Channel, TargetID);
5942       break;
5943     case DAC960_V1_ChannelBusy:
5944       DAC960_UserCritical("%s of Physical Device %d:%d Failed - "
5945 			  "Channel Busy\n", Controller,
5946 			  DeviceStateString, Channel, TargetID);
5947       break;
5948     default:
5949       DAC960_UserCritical("%s of Physical Device %d:%d Failed - "
5950 			  "Unexpected Status %04X\n", Controller,
5951 			  DeviceStateString, Channel, TargetID,
5952 			  Command->V1.CommandStatus);
5953       break;
5954     }
5955 }
5956 
5957 
5958 /*
5959   DAC960_V1_ExecuteUserCommand executes a User Command for DAC960 V1 Firmware
5960   Controllers.
5961 */
5962 
DAC960_V1_ExecuteUserCommand(DAC960_Controller_T * Controller,unsigned char * UserCommand)5963 static bool DAC960_V1_ExecuteUserCommand(DAC960_Controller_T *Controller,
5964 					    unsigned char *UserCommand)
5965 {
5966   DAC960_Command_T *Command;
5967   DAC960_V1_CommandMailbox_T *CommandMailbox;
5968   unsigned long flags;
5969   unsigned char Channel, TargetID, LogicalDriveNumber;
5970 
5971   spin_lock_irqsave(&Controller->queue_lock, flags);
5972   while ((Command = DAC960_AllocateCommand(Controller)) == NULL)
5973     DAC960_WaitForCommand(Controller);
5974   spin_unlock_irqrestore(&Controller->queue_lock, flags);
5975   Controller->UserStatusLength = 0;
5976   DAC960_V1_ClearCommand(Command);
5977   Command->CommandType = DAC960_ImmediateCommand;
5978   CommandMailbox = &Command->V1.CommandMailbox;
5979   if (strcmp(UserCommand, "flush-cache") == 0)
5980     {
5981       CommandMailbox->Type3.CommandOpcode = DAC960_V1_Flush;
5982       DAC960_ExecuteCommand(Command);
5983       DAC960_UserCritical("Cache Flush Completed\n", Controller);
5984     }
5985   else if (strncmp(UserCommand, "kill", 4) == 0 &&
5986 	   DAC960_ParsePhysicalDevice(Controller, &UserCommand[4],
5987 				      &Channel, &TargetID))
5988     {
5989       DAC960_V1_DeviceState_T *DeviceState =
5990 	&Controller->V1.DeviceState[Channel][TargetID];
5991       if (DeviceState->Present &&
5992 	  DeviceState->DeviceType == DAC960_V1_DiskType &&
5993 	  DeviceState->DeviceState != DAC960_V1_Device_Dead)
5994 	DAC960_V1_SetDeviceState(Controller, Command, Channel, TargetID,
5995 				 DAC960_V1_Device_Dead, "Kill");
5996       else DAC960_UserCritical("Kill of Physical Device %d:%d Illegal\n",
5997 			       Controller, Channel, TargetID);
5998     }
5999   else if (strncmp(UserCommand, "make-online", 11) == 0 &&
6000 	   DAC960_ParsePhysicalDevice(Controller, &UserCommand[11],
6001 				      &Channel, &TargetID))
6002     {
6003       DAC960_V1_DeviceState_T *DeviceState =
6004 	&Controller->V1.DeviceState[Channel][TargetID];
6005       if (DeviceState->Present &&
6006 	  DeviceState->DeviceType == DAC960_V1_DiskType &&
6007 	  DeviceState->DeviceState == DAC960_V1_Device_Dead)
6008 	DAC960_V1_SetDeviceState(Controller, Command, Channel, TargetID,
6009 				 DAC960_V1_Device_Online, "Make Online");
6010       else DAC960_UserCritical("Make Online of Physical Device %d:%d Illegal\n",
6011 			       Controller, Channel, TargetID);
6012 
6013     }
6014   else if (strncmp(UserCommand, "make-standby", 12) == 0 &&
6015 	   DAC960_ParsePhysicalDevice(Controller, &UserCommand[12],
6016 				      &Channel, &TargetID))
6017     {
6018       DAC960_V1_DeviceState_T *DeviceState =
6019 	&Controller->V1.DeviceState[Channel][TargetID];
6020       if (DeviceState->Present &&
6021 	  DeviceState->DeviceType == DAC960_V1_DiskType &&
6022 	  DeviceState->DeviceState == DAC960_V1_Device_Dead)
6023 	DAC960_V1_SetDeviceState(Controller, Command, Channel, TargetID,
6024 				 DAC960_V1_Device_Standby, "Make Standby");
6025       else DAC960_UserCritical("Make Standby of Physical "
6026 			       "Device %d:%d Illegal\n",
6027 			       Controller, Channel, TargetID);
6028     }
6029   else if (strncmp(UserCommand, "rebuild", 7) == 0 &&
6030 	   DAC960_ParsePhysicalDevice(Controller, &UserCommand[7],
6031 				      &Channel, &TargetID))
6032     {
6033       CommandMailbox->Type3D.CommandOpcode = DAC960_V1_RebuildAsync;
6034       CommandMailbox->Type3D.Channel = Channel;
6035       CommandMailbox->Type3D.TargetID = TargetID;
6036       DAC960_ExecuteCommand(Command);
6037       switch (Command->V1.CommandStatus)
6038 	{
6039 	case DAC960_V1_NormalCompletion:
6040 	  DAC960_UserCritical("Rebuild of Physical Device %d:%d Initiated\n",
6041 			      Controller, Channel, TargetID);
6042 	  break;
6043 	case DAC960_V1_AttemptToRebuildOnlineDrive:
6044 	  DAC960_UserCritical("Rebuild of Physical Device %d:%d Failed - "
6045 			      "Attempt to Rebuild Online or "
6046 			      "Unresponsive Drive\n",
6047 			      Controller, Channel, TargetID);
6048 	  break;
6049 	case DAC960_V1_NewDiskFailedDuringRebuild:
6050 	  DAC960_UserCritical("Rebuild of Physical Device %d:%d Failed - "
6051 			      "New Disk Failed During Rebuild\n",
6052 			      Controller, Channel, TargetID);
6053 	  break;
6054 	case DAC960_V1_InvalidDeviceAddress:
6055 	  DAC960_UserCritical("Rebuild of Physical Device %d:%d Failed - "
6056 			      "Invalid Device Address\n",
6057 			      Controller, Channel, TargetID);
6058 	  break;
6059 	case DAC960_V1_RebuildOrCheckAlreadyInProgress:
6060 	  DAC960_UserCritical("Rebuild of Physical Device %d:%d Failed - "
6061 			      "Rebuild or Consistency Check Already "
6062 			      "in Progress\n", Controller, Channel, TargetID);
6063 	  break;
6064 	default:
6065 	  DAC960_UserCritical("Rebuild of Physical Device %d:%d Failed - "
6066 			      "Unexpected Status %04X\n", Controller,
6067 			      Channel, TargetID, Command->V1.CommandStatus);
6068 	  break;
6069 	}
6070     }
6071   else if (strncmp(UserCommand, "check-consistency", 17) == 0 &&
6072 	   DAC960_ParseLogicalDrive(Controller, &UserCommand[17],
6073 				    &LogicalDriveNumber))
6074     {
6075       CommandMailbox->Type3C.CommandOpcode = DAC960_V1_CheckConsistencyAsync;
6076       CommandMailbox->Type3C.LogicalDriveNumber = LogicalDriveNumber;
6077       CommandMailbox->Type3C.AutoRestore = true;
6078       DAC960_ExecuteCommand(Command);
6079       switch (Command->V1.CommandStatus)
6080 	{
6081 	case DAC960_V1_NormalCompletion:
6082 	  DAC960_UserCritical("Consistency Check of Logical Drive %d "
6083 			      "(/dev/rd/c%dd%d) Initiated\n",
6084 			      Controller, LogicalDriveNumber,
6085 			      Controller->ControllerNumber,
6086 			      LogicalDriveNumber);
6087 	  break;
6088 	case DAC960_V1_DependentDiskIsDead:
6089 	  DAC960_UserCritical("Consistency Check of Logical Drive %d "
6090 			      "(/dev/rd/c%dd%d) Failed - "
6091 			      "Dependent Physical Device is DEAD\n",
6092 			      Controller, LogicalDriveNumber,
6093 			      Controller->ControllerNumber,
6094 			      LogicalDriveNumber);
6095 	  break;
6096 	case DAC960_V1_InvalidOrNonredundantLogicalDrive:
6097 	  DAC960_UserCritical("Consistency Check of Logical Drive %d "
6098 			      "(/dev/rd/c%dd%d) Failed - "
6099 			      "Invalid or Nonredundant Logical Drive\n",
6100 			      Controller, LogicalDriveNumber,
6101 			      Controller->ControllerNumber,
6102 			      LogicalDriveNumber);
6103 	  break;
6104 	case DAC960_V1_RebuildOrCheckAlreadyInProgress:
6105 	  DAC960_UserCritical("Consistency Check of Logical Drive %d "
6106 			      "(/dev/rd/c%dd%d) Failed - Rebuild or "
6107 			      "Consistency Check Already in Progress\n",
6108 			      Controller, LogicalDriveNumber,
6109 			      Controller->ControllerNumber,
6110 			      LogicalDriveNumber);
6111 	  break;
6112 	default:
6113 	  DAC960_UserCritical("Consistency Check of Logical Drive %d "
6114 			      "(/dev/rd/c%dd%d) Failed - "
6115 			      "Unexpected Status %04X\n",
6116 			      Controller, LogicalDriveNumber,
6117 			      Controller->ControllerNumber,
6118 			      LogicalDriveNumber, Command->V1.CommandStatus);
6119 	  break;
6120 	}
6121     }
6122   else if (strcmp(UserCommand, "cancel-rebuild") == 0 ||
6123 	   strcmp(UserCommand, "cancel-consistency-check") == 0)
6124     {
6125       /*
6126         the OldRebuildRateConstant is never actually used
6127         once its value is retrieved from the controller.
6128        */
6129       unsigned char *OldRebuildRateConstant;
6130       dma_addr_t OldRebuildRateConstantDMA;
6131 
6132       OldRebuildRateConstant = pci_alloc_consistent( Controller->PCIDevice,
6133 		sizeof(char), &OldRebuildRateConstantDMA);
6134       if (OldRebuildRateConstant == NULL) {
6135          DAC960_UserCritical("Cancellation of Rebuild or "
6136 			     "Consistency Check Failed - "
6137 			     "Out of Memory",
6138                              Controller);
6139 	 goto failure;
6140       }
6141       CommandMailbox->Type3R.CommandOpcode = DAC960_V1_RebuildControl;
6142       CommandMailbox->Type3R.RebuildRateConstant = 0xFF;
6143       CommandMailbox->Type3R.BusAddress = OldRebuildRateConstantDMA;
6144       DAC960_ExecuteCommand(Command);
6145       switch (Command->V1.CommandStatus)
6146 	{
6147 	case DAC960_V1_NormalCompletion:
6148 	  DAC960_UserCritical("Rebuild or Consistency Check Cancelled\n",
6149 			      Controller);
6150 	  break;
6151 	default:
6152 	  DAC960_UserCritical("Cancellation of Rebuild or "
6153 			      "Consistency Check Failed - "
6154 			      "Unexpected Status %04X\n",
6155 			      Controller, Command->V1.CommandStatus);
6156 	  break;
6157 	}
6158 failure:
6159   	pci_free_consistent(Controller->PCIDevice, sizeof(char),
6160 		OldRebuildRateConstant, OldRebuildRateConstantDMA);
6161     }
6162   else DAC960_UserCritical("Illegal User Command: '%s'\n",
6163 			   Controller, UserCommand);
6164 
6165   spin_lock_irqsave(&Controller->queue_lock, flags);
6166   DAC960_DeallocateCommand(Command);
6167   spin_unlock_irqrestore(&Controller->queue_lock, flags);
6168   return true;
6169 }
6170 
6171 
6172 /*
6173   DAC960_V2_TranslatePhysicalDevice translates a Physical Device Channel and
6174   TargetID into a Logical Device.  It returns true on success and false
6175   on failure.
6176 */
6177 
DAC960_V2_TranslatePhysicalDevice(DAC960_Command_T * Command,unsigned char Channel,unsigned char TargetID,unsigned short * LogicalDeviceNumber)6178 static bool DAC960_V2_TranslatePhysicalDevice(DAC960_Command_T *Command,
6179 						 unsigned char Channel,
6180 						 unsigned char TargetID,
6181 						 unsigned short
6182 						   *LogicalDeviceNumber)
6183 {
6184   DAC960_V2_CommandMailbox_T SavedCommandMailbox, *CommandMailbox;
6185   DAC960_Controller_T *Controller =  Command->Controller;
6186 
6187   CommandMailbox = &Command->V2.CommandMailbox;
6188   memcpy(&SavedCommandMailbox, CommandMailbox,
6189 	 sizeof(DAC960_V2_CommandMailbox_T));
6190 
6191   CommandMailbox->PhysicalDeviceInfo.CommandOpcode = DAC960_V2_IOCTL;
6192   CommandMailbox->PhysicalDeviceInfo.CommandControlBits
6193 				    .DataTransferControllerToHost = true;
6194   CommandMailbox->PhysicalDeviceInfo.CommandControlBits
6195 				    .NoAutoRequestSense = true;
6196   CommandMailbox->PhysicalDeviceInfo.DataTransferSize =
6197     sizeof(DAC960_V2_PhysicalToLogicalDevice_T);
6198   CommandMailbox->PhysicalDeviceInfo.PhysicalDevice.TargetID = TargetID;
6199   CommandMailbox->PhysicalDeviceInfo.PhysicalDevice.Channel = Channel;
6200   CommandMailbox->PhysicalDeviceInfo.IOCTL_Opcode =
6201     DAC960_V2_TranslatePhysicalToLogicalDevice;
6202   CommandMailbox->Common.DataTransferMemoryAddress
6203 			.ScatterGatherSegments[0]
6204 			.SegmentDataPointer =
6205     		Controller->V2.PhysicalToLogicalDeviceDMA;
6206   CommandMailbox->Common.DataTransferMemoryAddress
6207 			.ScatterGatherSegments[0]
6208 			.SegmentByteCount =
6209     		CommandMailbox->Common.DataTransferSize;
6210 
6211   DAC960_ExecuteCommand(Command);
6212   *LogicalDeviceNumber = Controller->V2.PhysicalToLogicalDevice->LogicalDeviceNumber;
6213 
6214   memcpy(CommandMailbox, &SavedCommandMailbox,
6215 	 sizeof(DAC960_V2_CommandMailbox_T));
6216   return (Command->V2.CommandStatus == DAC960_V2_NormalCompletion);
6217 }
6218 
6219 
6220 /*
6221   DAC960_V2_ExecuteUserCommand executes a User Command for DAC960 V2 Firmware
6222   Controllers.
6223 */
6224 
DAC960_V2_ExecuteUserCommand(DAC960_Controller_T * Controller,unsigned char * UserCommand)6225 static bool DAC960_V2_ExecuteUserCommand(DAC960_Controller_T *Controller,
6226 					    unsigned char *UserCommand)
6227 {
6228   DAC960_Command_T *Command;
6229   DAC960_V2_CommandMailbox_T *CommandMailbox;
6230   unsigned long flags;
6231   unsigned char Channel, TargetID, LogicalDriveNumber;
6232   unsigned short LogicalDeviceNumber;
6233 
6234   spin_lock_irqsave(&Controller->queue_lock, flags);
6235   while ((Command = DAC960_AllocateCommand(Controller)) == NULL)
6236     DAC960_WaitForCommand(Controller);
6237   spin_unlock_irqrestore(&Controller->queue_lock, flags);
6238   Controller->UserStatusLength = 0;
6239   DAC960_V2_ClearCommand(Command);
6240   Command->CommandType = DAC960_ImmediateCommand;
6241   CommandMailbox = &Command->V2.CommandMailbox;
6242   CommandMailbox->Common.CommandOpcode = DAC960_V2_IOCTL;
6243   CommandMailbox->Common.CommandControlBits.DataTransferControllerToHost = true;
6244   CommandMailbox->Common.CommandControlBits.NoAutoRequestSense = true;
6245   if (strcmp(UserCommand, "flush-cache") == 0)
6246     {
6247       CommandMailbox->DeviceOperation.IOCTL_Opcode = DAC960_V2_PauseDevice;
6248       CommandMailbox->DeviceOperation.OperationDevice =
6249 	DAC960_V2_RAID_Controller;
6250       DAC960_ExecuteCommand(Command);
6251       DAC960_UserCritical("Cache Flush Completed\n", Controller);
6252     }
6253   else if (strncmp(UserCommand, "kill", 4) == 0 &&
6254 	   DAC960_ParsePhysicalDevice(Controller, &UserCommand[4],
6255 				      &Channel, &TargetID) &&
6256 	   DAC960_V2_TranslatePhysicalDevice(Command, Channel, TargetID,
6257 					     &LogicalDeviceNumber))
6258     {
6259       CommandMailbox->SetDeviceState.LogicalDevice.LogicalDeviceNumber =
6260 	LogicalDeviceNumber;
6261       CommandMailbox->SetDeviceState.IOCTL_Opcode =
6262 	DAC960_V2_SetDeviceState;
6263       CommandMailbox->SetDeviceState.DeviceState.PhysicalDeviceState =
6264 	DAC960_V2_Device_Dead;
6265       DAC960_ExecuteCommand(Command);
6266       DAC960_UserCritical("Kill of Physical Device %d:%d %s\n",
6267 			  Controller, Channel, TargetID,
6268 			  (Command->V2.CommandStatus
6269 			   == DAC960_V2_NormalCompletion
6270 			   ? "Succeeded" : "Failed"));
6271     }
6272   else if (strncmp(UserCommand, "make-online", 11) == 0 &&
6273 	   DAC960_ParsePhysicalDevice(Controller, &UserCommand[11],
6274 				      &Channel, &TargetID) &&
6275 	   DAC960_V2_TranslatePhysicalDevice(Command, Channel, TargetID,
6276 					     &LogicalDeviceNumber))
6277     {
6278       CommandMailbox->SetDeviceState.LogicalDevice.LogicalDeviceNumber =
6279 	LogicalDeviceNumber;
6280       CommandMailbox->SetDeviceState.IOCTL_Opcode =
6281 	DAC960_V2_SetDeviceState;
6282       CommandMailbox->SetDeviceState.DeviceState.PhysicalDeviceState =
6283 	DAC960_V2_Device_Online;
6284       DAC960_ExecuteCommand(Command);
6285       DAC960_UserCritical("Make Online of Physical Device %d:%d %s\n",
6286 			  Controller, Channel, TargetID,
6287 			  (Command->V2.CommandStatus
6288 			   == DAC960_V2_NormalCompletion
6289 			   ? "Succeeded" : "Failed"));
6290     }
6291   else if (strncmp(UserCommand, "make-standby", 12) == 0 &&
6292 	   DAC960_ParsePhysicalDevice(Controller, &UserCommand[12],
6293 				      &Channel, &TargetID) &&
6294 	   DAC960_V2_TranslatePhysicalDevice(Command, Channel, TargetID,
6295 					     &LogicalDeviceNumber))
6296     {
6297       CommandMailbox->SetDeviceState.LogicalDevice.LogicalDeviceNumber =
6298 	LogicalDeviceNumber;
6299       CommandMailbox->SetDeviceState.IOCTL_Opcode =
6300 	DAC960_V2_SetDeviceState;
6301       CommandMailbox->SetDeviceState.DeviceState.PhysicalDeviceState =
6302 	DAC960_V2_Device_Standby;
6303       DAC960_ExecuteCommand(Command);
6304       DAC960_UserCritical("Make Standby of Physical Device %d:%d %s\n",
6305 			  Controller, Channel, TargetID,
6306 			  (Command->V2.CommandStatus
6307 			   == DAC960_V2_NormalCompletion
6308 			   ? "Succeeded" : "Failed"));
6309     }
6310   else if (strncmp(UserCommand, "rebuild", 7) == 0 &&
6311 	   DAC960_ParsePhysicalDevice(Controller, &UserCommand[7],
6312 				      &Channel, &TargetID) &&
6313 	   DAC960_V2_TranslatePhysicalDevice(Command, Channel, TargetID,
6314 					     &LogicalDeviceNumber))
6315     {
6316       CommandMailbox->LogicalDeviceInfo.LogicalDevice.LogicalDeviceNumber =
6317 	LogicalDeviceNumber;
6318       CommandMailbox->LogicalDeviceInfo.IOCTL_Opcode =
6319 	DAC960_V2_RebuildDeviceStart;
6320       DAC960_ExecuteCommand(Command);
6321       DAC960_UserCritical("Rebuild of Physical Device %d:%d %s\n",
6322 			  Controller, Channel, TargetID,
6323 			  (Command->V2.CommandStatus
6324 			   == DAC960_V2_NormalCompletion
6325 			   ? "Initiated" : "Not Initiated"));
6326     }
6327   else if (strncmp(UserCommand, "cancel-rebuild", 14) == 0 &&
6328 	   DAC960_ParsePhysicalDevice(Controller, &UserCommand[14],
6329 				      &Channel, &TargetID) &&
6330 	   DAC960_V2_TranslatePhysicalDevice(Command, Channel, TargetID,
6331 					     &LogicalDeviceNumber))
6332     {
6333       CommandMailbox->LogicalDeviceInfo.LogicalDevice.LogicalDeviceNumber =
6334 	LogicalDeviceNumber;
6335       CommandMailbox->LogicalDeviceInfo.IOCTL_Opcode =
6336 	DAC960_V2_RebuildDeviceStop;
6337       DAC960_ExecuteCommand(Command);
6338       DAC960_UserCritical("Rebuild of Physical Device %d:%d %s\n",
6339 			  Controller, Channel, TargetID,
6340 			  (Command->V2.CommandStatus
6341 			   == DAC960_V2_NormalCompletion
6342 			   ? "Cancelled" : "Not Cancelled"));
6343     }
6344   else if (strncmp(UserCommand, "check-consistency", 17) == 0 &&
6345 	   DAC960_ParseLogicalDrive(Controller, &UserCommand[17],
6346 				    &LogicalDriveNumber))
6347     {
6348       CommandMailbox->ConsistencyCheck.LogicalDevice.LogicalDeviceNumber =
6349 	LogicalDriveNumber;
6350       CommandMailbox->ConsistencyCheck.IOCTL_Opcode =
6351 	DAC960_V2_ConsistencyCheckStart;
6352       CommandMailbox->ConsistencyCheck.RestoreConsistency = true;
6353       CommandMailbox->ConsistencyCheck.InitializedAreaOnly = false;
6354       DAC960_ExecuteCommand(Command);
6355       DAC960_UserCritical("Consistency Check of Logical Drive %d "
6356 			  "(/dev/rd/c%dd%d) %s\n",
6357 			  Controller, LogicalDriveNumber,
6358 			  Controller->ControllerNumber,
6359 			  LogicalDriveNumber,
6360 			  (Command->V2.CommandStatus
6361 			   == DAC960_V2_NormalCompletion
6362 			   ? "Initiated" : "Not Initiated"));
6363     }
6364   else if (strncmp(UserCommand, "cancel-consistency-check", 24) == 0 &&
6365 	   DAC960_ParseLogicalDrive(Controller, &UserCommand[24],
6366 				    &LogicalDriveNumber))
6367     {
6368       CommandMailbox->ConsistencyCheck.LogicalDevice.LogicalDeviceNumber =
6369 	LogicalDriveNumber;
6370       CommandMailbox->ConsistencyCheck.IOCTL_Opcode =
6371 	DAC960_V2_ConsistencyCheckStop;
6372       DAC960_ExecuteCommand(Command);
6373       DAC960_UserCritical("Consistency Check of Logical Drive %d "
6374 			  "(/dev/rd/c%dd%d) %s\n",
6375 			  Controller, LogicalDriveNumber,
6376 			  Controller->ControllerNumber,
6377 			  LogicalDriveNumber,
6378 			  (Command->V2.CommandStatus
6379 			   == DAC960_V2_NormalCompletion
6380 			   ? "Cancelled" : "Not Cancelled"));
6381     }
6382   else if (strcmp(UserCommand, "perform-discovery") == 0)
6383     {
6384       CommandMailbox->Common.IOCTL_Opcode = DAC960_V2_StartDiscovery;
6385       DAC960_ExecuteCommand(Command);
6386       DAC960_UserCritical("Discovery %s\n", Controller,
6387 			  (Command->V2.CommandStatus
6388 			   == DAC960_V2_NormalCompletion
6389 			   ? "Initiated" : "Not Initiated"));
6390       if (Command->V2.CommandStatus == DAC960_V2_NormalCompletion)
6391 	{
6392 	  CommandMailbox->ControllerInfo.CommandOpcode = DAC960_V2_IOCTL;
6393 	  CommandMailbox->ControllerInfo.CommandControlBits
6394 					.DataTransferControllerToHost = true;
6395 	  CommandMailbox->ControllerInfo.CommandControlBits
6396 					.NoAutoRequestSense = true;
6397 	  CommandMailbox->ControllerInfo.DataTransferSize =
6398 	    sizeof(DAC960_V2_ControllerInfo_T);
6399 	  CommandMailbox->ControllerInfo.ControllerNumber = 0;
6400 	  CommandMailbox->ControllerInfo.IOCTL_Opcode =
6401 	    DAC960_V2_GetControllerInfo;
6402 	  /*
6403 	   * How does this NOT race with the queued Monitoring
6404 	   * usage of this structure?
6405 	   */
6406 	  CommandMailbox->ControllerInfo.DataTransferMemoryAddress
6407 					.ScatterGatherSegments[0]
6408 					.SegmentDataPointer =
6409 	    Controller->V2.NewControllerInformationDMA;
6410 	  CommandMailbox->ControllerInfo.DataTransferMemoryAddress
6411 					.ScatterGatherSegments[0]
6412 					.SegmentByteCount =
6413 	    CommandMailbox->ControllerInfo.DataTransferSize;
6414 	  while (1) {
6415 	    DAC960_ExecuteCommand(Command);
6416 	    if (!Controller->V2.NewControllerInformation->PhysicalScanActive)
6417 		break;
6418 	    msleep(1000);
6419 	  }
6420 	  DAC960_UserCritical("Discovery Completed\n", Controller);
6421  	}
6422     }
6423   else if (strcmp(UserCommand, "suppress-enclosure-messages") == 0)
6424     Controller->SuppressEnclosureMessages = true;
6425   else DAC960_UserCritical("Illegal User Command: '%s'\n",
6426 			   Controller, UserCommand);
6427 
6428   spin_lock_irqsave(&Controller->queue_lock, flags);
6429   DAC960_DeallocateCommand(Command);
6430   spin_unlock_irqrestore(&Controller->queue_lock, flags);
6431   return true;
6432 }
6433 
dac960_proc_show(struct seq_file * m,void * v)6434 static int dac960_proc_show(struct seq_file *m, void *v)
6435 {
6436   unsigned char *StatusMessage = "OK\n";
6437   int ControllerNumber;
6438   for (ControllerNumber = 0;
6439        ControllerNumber < DAC960_ControllerCount;
6440        ControllerNumber++)
6441     {
6442       DAC960_Controller_T *Controller = DAC960_Controllers[ControllerNumber];
6443       if (Controller == NULL) continue;
6444       if (Controller->MonitoringAlertMode)
6445 	{
6446 	  StatusMessage = "ALERT\n";
6447 	  break;
6448 	}
6449     }
6450   seq_puts(m, StatusMessage);
6451   return 0;
6452 }
6453 
dac960_proc_open(struct inode * inode,struct file * file)6454 static int dac960_proc_open(struct inode *inode, struct file *file)
6455 {
6456 	return single_open(file, dac960_proc_show, NULL);
6457 }
6458 
6459 static const struct file_operations dac960_proc_fops = {
6460 	.owner		= THIS_MODULE,
6461 	.open		= dac960_proc_open,
6462 	.read		= seq_read,
6463 	.llseek		= seq_lseek,
6464 	.release	= single_release,
6465 };
6466 
dac960_initial_status_proc_show(struct seq_file * m,void * v)6467 static int dac960_initial_status_proc_show(struct seq_file *m, void *v)
6468 {
6469 	DAC960_Controller_T *Controller = (DAC960_Controller_T *)m->private;
6470 	seq_printf(m, "%.*s", Controller->InitialStatusLength, Controller->CombinedStatusBuffer);
6471 	return 0;
6472 }
6473 
dac960_initial_status_proc_open(struct inode * inode,struct file * file)6474 static int dac960_initial_status_proc_open(struct inode *inode, struct file *file)
6475 {
6476 	return single_open(file, dac960_initial_status_proc_show, PDE_DATA(inode));
6477 }
6478 
6479 static const struct file_operations dac960_initial_status_proc_fops = {
6480 	.owner		= THIS_MODULE,
6481 	.open		= dac960_initial_status_proc_open,
6482 	.read		= seq_read,
6483 	.llseek		= seq_lseek,
6484 	.release	= single_release,
6485 };
6486 
dac960_current_status_proc_show(struct seq_file * m,void * v)6487 static int dac960_current_status_proc_show(struct seq_file *m, void *v)
6488 {
6489   DAC960_Controller_T *Controller = (DAC960_Controller_T *) m->private;
6490   unsigned char *StatusMessage =
6491     "No Rebuild or Consistency Check in Progress\n";
6492   int ProgressMessageLength = strlen(StatusMessage);
6493   if (jiffies != Controller->LastCurrentStatusTime)
6494     {
6495       Controller->CurrentStatusLength = 0;
6496       DAC960_AnnounceDriver(Controller);
6497       DAC960_ReportControllerConfiguration(Controller);
6498       DAC960_ReportDeviceConfiguration(Controller);
6499       if (Controller->ProgressBufferLength > 0)
6500 	ProgressMessageLength = Controller->ProgressBufferLength;
6501       if (DAC960_CheckStatusBuffer(Controller, 2 + ProgressMessageLength))
6502 	{
6503 	  unsigned char *CurrentStatusBuffer = Controller->CurrentStatusBuffer;
6504 	  CurrentStatusBuffer[Controller->CurrentStatusLength++] = ' ';
6505 	  CurrentStatusBuffer[Controller->CurrentStatusLength++] = ' ';
6506 	  if (Controller->ProgressBufferLength > 0)
6507 	    strcpy(&CurrentStatusBuffer[Controller->CurrentStatusLength],
6508 		   Controller->ProgressBuffer);
6509 	  else
6510 	    strcpy(&CurrentStatusBuffer[Controller->CurrentStatusLength],
6511 		   StatusMessage);
6512 	  Controller->CurrentStatusLength += ProgressMessageLength;
6513 	}
6514       Controller->LastCurrentStatusTime = jiffies;
6515     }
6516 	seq_printf(m, "%.*s", Controller->CurrentStatusLength, Controller->CurrentStatusBuffer);
6517 	return 0;
6518 }
6519 
dac960_current_status_proc_open(struct inode * inode,struct file * file)6520 static int dac960_current_status_proc_open(struct inode *inode, struct file *file)
6521 {
6522 	return single_open(file, dac960_current_status_proc_show, PDE_DATA(inode));
6523 }
6524 
6525 static const struct file_operations dac960_current_status_proc_fops = {
6526 	.owner		= THIS_MODULE,
6527 	.open		= dac960_current_status_proc_open,
6528 	.read		= seq_read,
6529 	.llseek		= seq_lseek,
6530 	.release	= single_release,
6531 };
6532 
dac960_user_command_proc_show(struct seq_file * m,void * v)6533 static int dac960_user_command_proc_show(struct seq_file *m, void *v)
6534 {
6535 	DAC960_Controller_T *Controller = (DAC960_Controller_T *)m->private;
6536 
6537 	seq_printf(m, "%.*s", Controller->UserStatusLength, Controller->UserStatusBuffer);
6538 	return 0;
6539 }
6540 
dac960_user_command_proc_open(struct inode * inode,struct file * file)6541 static int dac960_user_command_proc_open(struct inode *inode, struct file *file)
6542 {
6543 	return single_open(file, dac960_user_command_proc_show, PDE_DATA(inode));
6544 }
6545 
dac960_user_command_proc_write(struct file * file,const char __user * Buffer,size_t Count,loff_t * pos)6546 static ssize_t dac960_user_command_proc_write(struct file *file,
6547 				       const char __user *Buffer,
6548 				       size_t Count, loff_t *pos)
6549 {
6550   DAC960_Controller_T *Controller = PDE_DATA(file_inode(file));
6551   unsigned char CommandBuffer[80];
6552   int Length;
6553   if (Count > sizeof(CommandBuffer)-1) return -EINVAL;
6554   if (copy_from_user(CommandBuffer, Buffer, Count)) return -EFAULT;
6555   CommandBuffer[Count] = '\0';
6556   Length = strlen(CommandBuffer);
6557   if (Length > 0 && CommandBuffer[Length-1] == '\n')
6558     CommandBuffer[--Length] = '\0';
6559   if (Controller->FirmwareType == DAC960_V1_Controller)
6560     return (DAC960_V1_ExecuteUserCommand(Controller, CommandBuffer)
6561 	    ? Count : -EBUSY);
6562   else
6563     return (DAC960_V2_ExecuteUserCommand(Controller, CommandBuffer)
6564 	    ? Count : -EBUSY);
6565 }
6566 
6567 static const struct file_operations dac960_user_command_proc_fops = {
6568 	.owner		= THIS_MODULE,
6569 	.open		= dac960_user_command_proc_open,
6570 	.read		= seq_read,
6571 	.llseek		= seq_lseek,
6572 	.release	= single_release,
6573 	.write		= dac960_user_command_proc_write,
6574 };
6575 
6576 /*
6577   DAC960_CreateProcEntries creates the /proc/rd/... entries for the
6578   DAC960 Driver.
6579 */
6580 
DAC960_CreateProcEntries(DAC960_Controller_T * Controller)6581 static void DAC960_CreateProcEntries(DAC960_Controller_T *Controller)
6582 {
6583 	struct proc_dir_entry *ControllerProcEntry;
6584 
6585 	if (DAC960_ProcDirectoryEntry == NULL) {
6586 		DAC960_ProcDirectoryEntry = proc_mkdir("rd", NULL);
6587 		proc_create("status", 0, DAC960_ProcDirectoryEntry,
6588 			    &dac960_proc_fops);
6589 	}
6590 
6591 	sprintf(Controller->ControllerName, "c%d", Controller->ControllerNumber);
6592 	ControllerProcEntry = proc_mkdir(Controller->ControllerName,
6593 					 DAC960_ProcDirectoryEntry);
6594 	proc_create_data("initial_status", 0, ControllerProcEntry, &dac960_initial_status_proc_fops, Controller);
6595 	proc_create_data("current_status", 0, ControllerProcEntry, &dac960_current_status_proc_fops, Controller);
6596 	proc_create_data("user_command", S_IWUSR | S_IRUSR, ControllerProcEntry, &dac960_user_command_proc_fops, Controller);
6597 	Controller->ControllerProcEntry = ControllerProcEntry;
6598 }
6599 
6600 
6601 /*
6602   DAC960_DestroyProcEntries destroys the /proc/rd/... entries for the
6603   DAC960 Driver.
6604 */
6605 
DAC960_DestroyProcEntries(DAC960_Controller_T * Controller)6606 static void DAC960_DestroyProcEntries(DAC960_Controller_T *Controller)
6607 {
6608       if (Controller->ControllerProcEntry == NULL)
6609 	      return;
6610       remove_proc_entry("initial_status", Controller->ControllerProcEntry);
6611       remove_proc_entry("current_status", Controller->ControllerProcEntry);
6612       remove_proc_entry("user_command", Controller->ControllerProcEntry);
6613       remove_proc_entry(Controller->ControllerName, DAC960_ProcDirectoryEntry);
6614       Controller->ControllerProcEntry = NULL;
6615 }
6616 
6617 #ifdef DAC960_GAM_MINOR
6618 
6619 /*
6620  * DAC960_gam_ioctl is the ioctl function for performing RAID operations.
6621 */
6622 
DAC960_gam_ioctl(struct file * file,unsigned int Request,unsigned long Argument)6623 static long DAC960_gam_ioctl(struct file *file, unsigned int Request,
6624 						unsigned long Argument)
6625 {
6626   long ErrorCode = 0;
6627   if (!capable(CAP_SYS_ADMIN)) return -EACCES;
6628 
6629   mutex_lock(&DAC960_mutex);
6630   switch (Request)
6631     {
6632     case DAC960_IOCTL_GET_CONTROLLER_COUNT:
6633       ErrorCode = DAC960_ControllerCount;
6634       break;
6635     case DAC960_IOCTL_GET_CONTROLLER_INFO:
6636       {
6637 	DAC960_ControllerInfo_T __user *UserSpaceControllerInfo =
6638 	  (DAC960_ControllerInfo_T __user *) Argument;
6639 	DAC960_ControllerInfo_T ControllerInfo;
6640 	DAC960_Controller_T *Controller;
6641 	int ControllerNumber;
6642 	if (UserSpaceControllerInfo == NULL)
6643 		ErrorCode = -EINVAL;
6644 	else ErrorCode = get_user(ControllerNumber,
6645 			     &UserSpaceControllerInfo->ControllerNumber);
6646 	if (ErrorCode != 0)
6647 		break;
6648 	ErrorCode = -ENXIO;
6649 	if (ControllerNumber < 0 ||
6650 	    ControllerNumber > DAC960_ControllerCount - 1) {
6651 	  break;
6652 	}
6653 	Controller = DAC960_Controllers[ControllerNumber];
6654 	if (Controller == NULL)
6655 		break;
6656 	memset(&ControllerInfo, 0, sizeof(DAC960_ControllerInfo_T));
6657 	ControllerInfo.ControllerNumber = ControllerNumber;
6658 	ControllerInfo.FirmwareType = Controller->FirmwareType;
6659 	ControllerInfo.Channels = Controller->Channels;
6660 	ControllerInfo.Targets = Controller->Targets;
6661 	ControllerInfo.PCI_Bus = Controller->Bus;
6662 	ControllerInfo.PCI_Device = Controller->Device;
6663 	ControllerInfo.PCI_Function = Controller->Function;
6664 	ControllerInfo.IRQ_Channel = Controller->IRQ_Channel;
6665 	ControllerInfo.PCI_Address = Controller->PCI_Address;
6666 	strcpy(ControllerInfo.ModelName, Controller->ModelName);
6667 	strcpy(ControllerInfo.FirmwareVersion, Controller->FirmwareVersion);
6668 	ErrorCode = (copy_to_user(UserSpaceControllerInfo, &ControllerInfo,
6669 			     sizeof(DAC960_ControllerInfo_T)) ? -EFAULT : 0);
6670 	break;
6671       }
6672     case DAC960_IOCTL_V1_EXECUTE_COMMAND:
6673       {
6674 	DAC960_V1_UserCommand_T __user *UserSpaceUserCommand =
6675 	  (DAC960_V1_UserCommand_T __user *) Argument;
6676 	DAC960_V1_UserCommand_T UserCommand;
6677 	DAC960_Controller_T *Controller;
6678 	DAC960_Command_T *Command = NULL;
6679 	DAC960_V1_CommandOpcode_T CommandOpcode;
6680 	DAC960_V1_CommandStatus_T CommandStatus;
6681 	DAC960_V1_DCDB_T DCDB;
6682 	DAC960_V1_DCDB_T *DCDB_IOBUF = NULL;
6683 	dma_addr_t	DCDB_IOBUFDMA;
6684 	unsigned long flags;
6685 	int ControllerNumber, DataTransferLength;
6686 	unsigned char *DataTransferBuffer = NULL;
6687 	dma_addr_t DataTransferBufferDMA;
6688 	if (UserSpaceUserCommand == NULL) {
6689 		ErrorCode = -EINVAL;
6690 		break;
6691 	}
6692 	if (copy_from_user(&UserCommand, UserSpaceUserCommand,
6693 				   sizeof(DAC960_V1_UserCommand_T))) {
6694 		ErrorCode = -EFAULT;
6695 		break;
6696 	}
6697 	ControllerNumber = UserCommand.ControllerNumber;
6698     	ErrorCode = -ENXIO;
6699 	if (ControllerNumber < 0 ||
6700 	    ControllerNumber > DAC960_ControllerCount - 1)
6701 	    	break;
6702 	Controller = DAC960_Controllers[ControllerNumber];
6703 	if (Controller == NULL)
6704 		break;
6705 	ErrorCode = -EINVAL;
6706 	if (Controller->FirmwareType != DAC960_V1_Controller)
6707 		break;
6708 	CommandOpcode = UserCommand.CommandMailbox.Common.CommandOpcode;
6709 	DataTransferLength = UserCommand.DataTransferLength;
6710 	if (CommandOpcode & 0x80)
6711 		break;
6712 	if (CommandOpcode == DAC960_V1_DCDB)
6713 	  {
6714 	    if (copy_from_user(&DCDB, UserCommand.DCDB,
6715 			       sizeof(DAC960_V1_DCDB_T))) {
6716 		ErrorCode = -EFAULT;
6717 		break;
6718 	    }
6719 	    if (DCDB.Channel >= DAC960_V1_MaxChannels)
6720 	    		break;
6721 	    if (!((DataTransferLength == 0 &&
6722 		   DCDB.Direction
6723 		   == DAC960_V1_DCDB_NoDataTransfer) ||
6724 		  (DataTransferLength > 0 &&
6725 		   DCDB.Direction
6726 		   == DAC960_V1_DCDB_DataTransferDeviceToSystem) ||
6727 		  (DataTransferLength < 0 &&
6728 		   DCDB.Direction
6729 		   == DAC960_V1_DCDB_DataTransferSystemToDevice)))
6730 		   	break;
6731 	    if (((DCDB.TransferLengthHigh4 << 16) | DCDB.TransferLength)
6732 		!= abs(DataTransferLength))
6733 			break;
6734 	    DCDB_IOBUF = pci_alloc_consistent(Controller->PCIDevice,
6735 			sizeof(DAC960_V1_DCDB_T), &DCDB_IOBUFDMA);
6736 	    if (DCDB_IOBUF == NULL) {
6737 	    		ErrorCode = -ENOMEM;
6738 			break;
6739 		}
6740 	  }
6741 	ErrorCode = -ENOMEM;
6742 	if (DataTransferLength > 0)
6743 	  {
6744 	    DataTransferBuffer = pci_zalloc_consistent(Controller->PCIDevice,
6745                                                        DataTransferLength,
6746                                                        &DataTransferBufferDMA);
6747 	    if (DataTransferBuffer == NULL)
6748 	    	break;
6749 	  }
6750 	else if (DataTransferLength < 0)
6751 	  {
6752 	    DataTransferBuffer = pci_alloc_consistent(Controller->PCIDevice,
6753 				-DataTransferLength, &DataTransferBufferDMA);
6754 	    if (DataTransferBuffer == NULL)
6755 	    	break;
6756 	    if (copy_from_user(DataTransferBuffer,
6757 			       UserCommand.DataTransferBuffer,
6758 			       -DataTransferLength)) {
6759 		ErrorCode = -EFAULT;
6760 		break;
6761 	    }
6762 	  }
6763 	if (CommandOpcode == DAC960_V1_DCDB)
6764 	  {
6765 	    spin_lock_irqsave(&Controller->queue_lock, flags);
6766 	    while ((Command = DAC960_AllocateCommand(Controller)) == NULL)
6767 	      DAC960_WaitForCommand(Controller);
6768 	    while (Controller->V1.DirectCommandActive[DCDB.Channel]
6769 						     [DCDB.TargetID])
6770 	      {
6771 		spin_unlock_irq(&Controller->queue_lock);
6772 		__wait_event(Controller->CommandWaitQueue,
6773 			     !Controller->V1.DirectCommandActive
6774 					     [DCDB.Channel][DCDB.TargetID]);
6775 		spin_lock_irq(&Controller->queue_lock);
6776 	      }
6777 	    Controller->V1.DirectCommandActive[DCDB.Channel]
6778 					      [DCDB.TargetID] = true;
6779 	    spin_unlock_irqrestore(&Controller->queue_lock, flags);
6780 	    DAC960_V1_ClearCommand(Command);
6781 	    Command->CommandType = DAC960_ImmediateCommand;
6782 	    memcpy(&Command->V1.CommandMailbox, &UserCommand.CommandMailbox,
6783 		   sizeof(DAC960_V1_CommandMailbox_T));
6784 	    Command->V1.CommandMailbox.Type3.BusAddress = DCDB_IOBUFDMA;
6785 	    DCDB.BusAddress = DataTransferBufferDMA;
6786 	    memcpy(DCDB_IOBUF, &DCDB, sizeof(DAC960_V1_DCDB_T));
6787 	  }
6788 	else
6789 	  {
6790 	    spin_lock_irqsave(&Controller->queue_lock, flags);
6791 	    while ((Command = DAC960_AllocateCommand(Controller)) == NULL)
6792 	      DAC960_WaitForCommand(Controller);
6793 	    spin_unlock_irqrestore(&Controller->queue_lock, flags);
6794 	    DAC960_V1_ClearCommand(Command);
6795 	    Command->CommandType = DAC960_ImmediateCommand;
6796 	    memcpy(&Command->V1.CommandMailbox, &UserCommand.CommandMailbox,
6797 		   sizeof(DAC960_V1_CommandMailbox_T));
6798 	    if (DataTransferBuffer != NULL)
6799 	      Command->V1.CommandMailbox.Type3.BusAddress =
6800 		DataTransferBufferDMA;
6801 	  }
6802 	DAC960_ExecuteCommand(Command);
6803 	CommandStatus = Command->V1.CommandStatus;
6804 	spin_lock_irqsave(&Controller->queue_lock, flags);
6805 	DAC960_DeallocateCommand(Command);
6806 	spin_unlock_irqrestore(&Controller->queue_lock, flags);
6807 	if (DataTransferLength > 0)
6808 	  {
6809 	    if (copy_to_user(UserCommand.DataTransferBuffer,
6810 			     DataTransferBuffer, DataTransferLength)) {
6811 		ErrorCode = -EFAULT;
6812 		goto Failure1;
6813             }
6814 	  }
6815 	if (CommandOpcode == DAC960_V1_DCDB)
6816 	  {
6817 	    /*
6818 	      I don't believe Target or Channel in the DCDB_IOBUF
6819 	      should be any different from the contents of DCDB.
6820 	     */
6821 	    Controller->V1.DirectCommandActive[DCDB.Channel]
6822 					      [DCDB.TargetID] = false;
6823 	    if (copy_to_user(UserCommand.DCDB, DCDB_IOBUF,
6824 			     sizeof(DAC960_V1_DCDB_T))) {
6825 		ErrorCode = -EFAULT;
6826 		goto Failure1;
6827 	    }
6828 	  }
6829 	ErrorCode = CommandStatus;
6830       Failure1:
6831 	if (DataTransferBuffer != NULL)
6832 	  pci_free_consistent(Controller->PCIDevice, abs(DataTransferLength),
6833 			DataTransferBuffer, DataTransferBufferDMA);
6834 	if (DCDB_IOBUF != NULL)
6835 	  pci_free_consistent(Controller->PCIDevice, sizeof(DAC960_V1_DCDB_T),
6836 			DCDB_IOBUF, DCDB_IOBUFDMA);
6837       	break;
6838       }
6839     case DAC960_IOCTL_V2_EXECUTE_COMMAND:
6840       {
6841 	DAC960_V2_UserCommand_T __user *UserSpaceUserCommand =
6842 	  (DAC960_V2_UserCommand_T __user *) Argument;
6843 	DAC960_V2_UserCommand_T UserCommand;
6844 	DAC960_Controller_T *Controller;
6845 	DAC960_Command_T *Command = NULL;
6846 	DAC960_V2_CommandMailbox_T *CommandMailbox;
6847 	DAC960_V2_CommandStatus_T CommandStatus;
6848 	unsigned long flags;
6849 	int ControllerNumber, DataTransferLength;
6850 	int DataTransferResidue, RequestSenseLength;
6851 	unsigned char *DataTransferBuffer = NULL;
6852 	dma_addr_t DataTransferBufferDMA;
6853 	unsigned char *RequestSenseBuffer = NULL;
6854 	dma_addr_t RequestSenseBufferDMA;
6855 
6856 	ErrorCode = -EINVAL;
6857 	if (UserSpaceUserCommand == NULL)
6858 		break;
6859 	if (copy_from_user(&UserCommand, UserSpaceUserCommand,
6860 			   sizeof(DAC960_V2_UserCommand_T))) {
6861 		ErrorCode = -EFAULT;
6862 		break;
6863 	}
6864 	ErrorCode = -ENXIO;
6865 	ControllerNumber = UserCommand.ControllerNumber;
6866 	if (ControllerNumber < 0 ||
6867 	    ControllerNumber > DAC960_ControllerCount - 1)
6868 	    	break;
6869 	Controller = DAC960_Controllers[ControllerNumber];
6870 	if (Controller == NULL)
6871 		break;
6872 	if (Controller->FirmwareType != DAC960_V2_Controller){
6873 		ErrorCode = -EINVAL;
6874 		break;
6875 	}
6876 	DataTransferLength = UserCommand.DataTransferLength;
6877     	ErrorCode = -ENOMEM;
6878 	if (DataTransferLength > 0)
6879 	  {
6880 	    DataTransferBuffer = pci_zalloc_consistent(Controller->PCIDevice,
6881                                                        DataTransferLength,
6882                                                        &DataTransferBufferDMA);
6883 	    if (DataTransferBuffer == NULL)
6884 	    	break;
6885 	  }
6886 	else if (DataTransferLength < 0)
6887 	  {
6888 	    DataTransferBuffer = pci_alloc_consistent(Controller->PCIDevice,
6889 				-DataTransferLength, &DataTransferBufferDMA);
6890 	    if (DataTransferBuffer == NULL)
6891 	    	break;
6892 	    if (copy_from_user(DataTransferBuffer,
6893 			       UserCommand.DataTransferBuffer,
6894 			       -DataTransferLength)) {
6895 		ErrorCode = -EFAULT;
6896 		goto Failure2;
6897 	    }
6898 	  }
6899 	RequestSenseLength = UserCommand.RequestSenseLength;
6900 	if (RequestSenseLength > 0)
6901 	  {
6902 	    RequestSenseBuffer = pci_zalloc_consistent(Controller->PCIDevice,
6903                                                        RequestSenseLength,
6904                                                        &RequestSenseBufferDMA);
6905 	    if (RequestSenseBuffer == NULL)
6906 	      {
6907 		ErrorCode = -ENOMEM;
6908 		goto Failure2;
6909 	      }
6910 	  }
6911 	spin_lock_irqsave(&Controller->queue_lock, flags);
6912 	while ((Command = DAC960_AllocateCommand(Controller)) == NULL)
6913 	  DAC960_WaitForCommand(Controller);
6914 	spin_unlock_irqrestore(&Controller->queue_lock, flags);
6915 	DAC960_V2_ClearCommand(Command);
6916 	Command->CommandType = DAC960_ImmediateCommand;
6917 	CommandMailbox = &Command->V2.CommandMailbox;
6918 	memcpy(CommandMailbox, &UserCommand.CommandMailbox,
6919 	       sizeof(DAC960_V2_CommandMailbox_T));
6920 	CommandMailbox->Common.CommandControlBits
6921 			      .AdditionalScatterGatherListMemory = false;
6922 	CommandMailbox->Common.CommandControlBits
6923 			      .NoAutoRequestSense = true;
6924 	CommandMailbox->Common.DataTransferSize = 0;
6925 	CommandMailbox->Common.DataTransferPageNumber = 0;
6926 	memset(&CommandMailbox->Common.DataTransferMemoryAddress, 0,
6927 	       sizeof(DAC960_V2_DataTransferMemoryAddress_T));
6928 	if (DataTransferLength != 0)
6929 	  {
6930 	    if (DataTransferLength > 0)
6931 	      {
6932 		CommandMailbox->Common.CommandControlBits
6933 				      .DataTransferControllerToHost = true;
6934 		CommandMailbox->Common.DataTransferSize = DataTransferLength;
6935 	      }
6936 	    else
6937 	      {
6938 		CommandMailbox->Common.CommandControlBits
6939 				      .DataTransferControllerToHost = false;
6940 		CommandMailbox->Common.DataTransferSize = -DataTransferLength;
6941 	      }
6942 	    CommandMailbox->Common.DataTransferMemoryAddress
6943 				  .ScatterGatherSegments[0]
6944 				  .SegmentDataPointer = DataTransferBufferDMA;
6945 	    CommandMailbox->Common.DataTransferMemoryAddress
6946 				  .ScatterGatherSegments[0]
6947 				  .SegmentByteCount =
6948 	      CommandMailbox->Common.DataTransferSize;
6949 	  }
6950 	if (RequestSenseLength > 0)
6951 	  {
6952 	    CommandMailbox->Common.CommandControlBits
6953 				  .NoAutoRequestSense = false;
6954 	    CommandMailbox->Common.RequestSenseSize = RequestSenseLength;
6955 	    CommandMailbox->Common.RequestSenseBusAddress =
6956 	      						RequestSenseBufferDMA;
6957 	  }
6958 	DAC960_ExecuteCommand(Command);
6959 	CommandStatus = Command->V2.CommandStatus;
6960 	RequestSenseLength = Command->V2.RequestSenseLength;
6961 	DataTransferResidue = Command->V2.DataTransferResidue;
6962 	spin_lock_irqsave(&Controller->queue_lock, flags);
6963 	DAC960_DeallocateCommand(Command);
6964 	spin_unlock_irqrestore(&Controller->queue_lock, flags);
6965 	if (RequestSenseLength > UserCommand.RequestSenseLength)
6966 	  RequestSenseLength = UserCommand.RequestSenseLength;
6967 	if (copy_to_user(&UserSpaceUserCommand->DataTransferLength,
6968 				 &DataTransferResidue,
6969 				 sizeof(DataTransferResidue))) {
6970 		ErrorCode = -EFAULT;
6971 		goto Failure2;
6972 	}
6973 	if (copy_to_user(&UserSpaceUserCommand->RequestSenseLength,
6974 			 &RequestSenseLength, sizeof(RequestSenseLength))) {
6975 		ErrorCode = -EFAULT;
6976 		goto Failure2;
6977 	}
6978 	if (DataTransferLength > 0)
6979 	  {
6980 	    if (copy_to_user(UserCommand.DataTransferBuffer,
6981 			     DataTransferBuffer, DataTransferLength)) {
6982 		ErrorCode = -EFAULT;
6983 		goto Failure2;
6984 	    }
6985 	  }
6986 	if (RequestSenseLength > 0)
6987 	  {
6988 	    if (copy_to_user(UserCommand.RequestSenseBuffer,
6989 			     RequestSenseBuffer, RequestSenseLength)) {
6990 		ErrorCode = -EFAULT;
6991 		goto Failure2;
6992 	    }
6993 	  }
6994 	ErrorCode = CommandStatus;
6995       Failure2:
6996 	  pci_free_consistent(Controller->PCIDevice, abs(DataTransferLength),
6997 		DataTransferBuffer, DataTransferBufferDMA);
6998 	if (RequestSenseBuffer != NULL)
6999 	  pci_free_consistent(Controller->PCIDevice, RequestSenseLength,
7000 		RequestSenseBuffer, RequestSenseBufferDMA);
7001         break;
7002       }
7003     case DAC960_IOCTL_V2_GET_HEALTH_STATUS:
7004       {
7005 	DAC960_V2_GetHealthStatus_T __user *UserSpaceGetHealthStatus =
7006 	  (DAC960_V2_GetHealthStatus_T __user *) Argument;
7007 	DAC960_V2_GetHealthStatus_T GetHealthStatus;
7008 	DAC960_V2_HealthStatusBuffer_T HealthStatusBuffer;
7009 	DAC960_Controller_T *Controller;
7010 	int ControllerNumber;
7011 	if (UserSpaceGetHealthStatus == NULL) {
7012 		ErrorCode = -EINVAL;
7013 		break;
7014 	}
7015 	if (copy_from_user(&GetHealthStatus, UserSpaceGetHealthStatus,
7016 			   sizeof(DAC960_V2_GetHealthStatus_T))) {
7017 		ErrorCode = -EFAULT;
7018 		break;
7019 	}
7020 	ErrorCode = -ENXIO;
7021 	ControllerNumber = GetHealthStatus.ControllerNumber;
7022 	if (ControllerNumber < 0 ||
7023 	    ControllerNumber > DAC960_ControllerCount - 1)
7024 		    break;
7025 	Controller = DAC960_Controllers[ControllerNumber];
7026 	if (Controller == NULL)
7027 		break;
7028 	if (Controller->FirmwareType != DAC960_V2_Controller) {
7029 		ErrorCode = -EINVAL;
7030 		break;
7031 	}
7032 	if (copy_from_user(&HealthStatusBuffer,
7033 			   GetHealthStatus.HealthStatusBuffer,
7034 			   sizeof(DAC960_V2_HealthStatusBuffer_T))) {
7035 		ErrorCode = -EFAULT;
7036 		break;
7037 	}
7038 	ErrorCode = wait_event_interruptible_timeout(Controller->HealthStatusWaitQueue,
7039 			!(Controller->V2.HealthStatusBuffer->StatusChangeCounter
7040 			    == HealthStatusBuffer.StatusChangeCounter &&
7041 			  Controller->V2.HealthStatusBuffer->NextEventSequenceNumber
7042 			    == HealthStatusBuffer.NextEventSequenceNumber),
7043 			DAC960_MonitoringTimerInterval);
7044 	if (ErrorCode == -ERESTARTSYS) {
7045 		ErrorCode = -EINTR;
7046 		break;
7047 	}
7048 	if (copy_to_user(GetHealthStatus.HealthStatusBuffer,
7049 			 Controller->V2.HealthStatusBuffer,
7050 			 sizeof(DAC960_V2_HealthStatusBuffer_T)))
7051 		ErrorCode = -EFAULT;
7052 	else
7053 		ErrorCode =  0;
7054       }
7055       break;
7056       default:
7057 	ErrorCode = -ENOTTY;
7058     }
7059   mutex_unlock(&DAC960_mutex);
7060   return ErrorCode;
7061 }
7062 
7063 static const struct file_operations DAC960_gam_fops = {
7064 	.owner		= THIS_MODULE,
7065 	.unlocked_ioctl	= DAC960_gam_ioctl,
7066 	.llseek		= noop_llseek,
7067 };
7068 
7069 static struct miscdevice DAC960_gam_dev = {
7070 	DAC960_GAM_MINOR,
7071 	"dac960_gam",
7072 	&DAC960_gam_fops
7073 };
7074 
DAC960_gam_init(void)7075 static int DAC960_gam_init(void)
7076 {
7077 	int ret;
7078 
7079 	ret = misc_register(&DAC960_gam_dev);
7080 	if (ret)
7081 		printk(KERN_ERR "DAC960_gam: can't misc_register on minor %d\n", DAC960_GAM_MINOR);
7082 	return ret;
7083 }
7084 
DAC960_gam_cleanup(void)7085 static void DAC960_gam_cleanup(void)
7086 {
7087 	misc_deregister(&DAC960_gam_dev);
7088 }
7089 
7090 #endif /* DAC960_GAM_MINOR */
7091 
7092 static struct DAC960_privdata DAC960_GEM_privdata = {
7093 	.HardwareType =		DAC960_GEM_Controller,
7094 	.FirmwareType 	=	DAC960_V2_Controller,
7095 	.InterruptHandler =	DAC960_GEM_InterruptHandler,
7096 	.MemoryWindowSize =	DAC960_GEM_RegisterWindowSize,
7097 };
7098 
7099 
7100 static struct DAC960_privdata DAC960_BA_privdata = {
7101 	.HardwareType =		DAC960_BA_Controller,
7102 	.FirmwareType 	=	DAC960_V2_Controller,
7103 	.InterruptHandler =	DAC960_BA_InterruptHandler,
7104 	.MemoryWindowSize =	DAC960_BA_RegisterWindowSize,
7105 };
7106 
7107 static struct DAC960_privdata DAC960_LP_privdata = {
7108 	.HardwareType =		DAC960_LP_Controller,
7109 	.FirmwareType 	=	DAC960_V2_Controller,
7110 	.InterruptHandler =	DAC960_LP_InterruptHandler,
7111 	.MemoryWindowSize =	DAC960_LP_RegisterWindowSize,
7112 };
7113 
7114 static struct DAC960_privdata DAC960_LA_privdata = {
7115 	.HardwareType =		DAC960_LA_Controller,
7116 	.FirmwareType 	=	DAC960_V1_Controller,
7117 	.InterruptHandler =	DAC960_LA_InterruptHandler,
7118 	.MemoryWindowSize =	DAC960_LA_RegisterWindowSize,
7119 };
7120 
7121 static struct DAC960_privdata DAC960_PG_privdata = {
7122 	.HardwareType =		DAC960_PG_Controller,
7123 	.FirmwareType 	=	DAC960_V1_Controller,
7124 	.InterruptHandler =	DAC960_PG_InterruptHandler,
7125 	.MemoryWindowSize =	DAC960_PG_RegisterWindowSize,
7126 };
7127 
7128 static struct DAC960_privdata DAC960_PD_privdata = {
7129 	.HardwareType =		DAC960_PD_Controller,
7130 	.FirmwareType 	=	DAC960_V1_Controller,
7131 	.InterruptHandler =	DAC960_PD_InterruptHandler,
7132 	.MemoryWindowSize =	DAC960_PD_RegisterWindowSize,
7133 };
7134 
7135 static struct DAC960_privdata DAC960_P_privdata = {
7136 	.HardwareType =		DAC960_P_Controller,
7137 	.FirmwareType 	=	DAC960_V1_Controller,
7138 	.InterruptHandler =	DAC960_P_InterruptHandler,
7139 	.MemoryWindowSize =	DAC960_PD_RegisterWindowSize,
7140 };
7141 
7142 static const struct pci_device_id DAC960_id_table[] = {
7143 	{
7144 		.vendor 	= PCI_VENDOR_ID_MYLEX,
7145 		.device		= PCI_DEVICE_ID_MYLEX_DAC960_GEM,
7146 		.subvendor	= PCI_VENDOR_ID_MYLEX,
7147 		.subdevice	= PCI_ANY_ID,
7148 		.driver_data	= (unsigned long) &DAC960_GEM_privdata,
7149 	},
7150 	{
7151 		.vendor 	= PCI_VENDOR_ID_MYLEX,
7152 		.device		= PCI_DEVICE_ID_MYLEX_DAC960_BA,
7153 		.subvendor	= PCI_ANY_ID,
7154 		.subdevice	= PCI_ANY_ID,
7155 		.driver_data	= (unsigned long) &DAC960_BA_privdata,
7156 	},
7157 	{
7158 		.vendor 	= PCI_VENDOR_ID_MYLEX,
7159 		.device		= PCI_DEVICE_ID_MYLEX_DAC960_LP,
7160 		.subvendor	= PCI_ANY_ID,
7161 		.subdevice	= PCI_ANY_ID,
7162 		.driver_data	= (unsigned long) &DAC960_LP_privdata,
7163 	},
7164 	{
7165 		.vendor 	= PCI_VENDOR_ID_DEC,
7166 		.device		= PCI_DEVICE_ID_DEC_21285,
7167 		.subvendor	= PCI_VENDOR_ID_MYLEX,
7168 		.subdevice	= PCI_DEVICE_ID_MYLEX_DAC960_LA,
7169 		.driver_data	= (unsigned long) &DAC960_LA_privdata,
7170 	},
7171 	{
7172 		.vendor 	= PCI_VENDOR_ID_MYLEX,
7173 		.device		= PCI_DEVICE_ID_MYLEX_DAC960_PG,
7174 		.subvendor	= PCI_ANY_ID,
7175 		.subdevice	= PCI_ANY_ID,
7176 		.driver_data	= (unsigned long) &DAC960_PG_privdata,
7177 	},
7178 	{
7179 		.vendor 	= PCI_VENDOR_ID_MYLEX,
7180 		.device		= PCI_DEVICE_ID_MYLEX_DAC960_PD,
7181 		.subvendor	= PCI_ANY_ID,
7182 		.subdevice	= PCI_ANY_ID,
7183 		.driver_data	= (unsigned long) &DAC960_PD_privdata,
7184 	},
7185 	{
7186 		.vendor 	= PCI_VENDOR_ID_MYLEX,
7187 		.device		= PCI_DEVICE_ID_MYLEX_DAC960_P,
7188 		.subvendor	= PCI_ANY_ID,
7189 		.subdevice	= PCI_ANY_ID,
7190 		.driver_data	= (unsigned long) &DAC960_P_privdata,
7191 	},
7192 	{0, },
7193 };
7194 
7195 MODULE_DEVICE_TABLE(pci, DAC960_id_table);
7196 
7197 static struct pci_driver DAC960_pci_driver = {
7198 	.name		= "DAC960",
7199 	.id_table	= DAC960_id_table,
7200 	.probe		= DAC960_Probe,
7201 	.remove		= DAC960_Remove,
7202 };
7203 
DAC960_init_module(void)7204 static int __init DAC960_init_module(void)
7205 {
7206 	int ret;
7207 
7208 	ret =  pci_register_driver(&DAC960_pci_driver);
7209 #ifdef DAC960_GAM_MINOR
7210 	if (!ret)
7211 		DAC960_gam_init();
7212 #endif
7213 	return ret;
7214 }
7215 
DAC960_cleanup_module(void)7216 static void __exit DAC960_cleanup_module(void)
7217 {
7218 	int i;
7219 
7220 #ifdef DAC960_GAM_MINOR
7221 	DAC960_gam_cleanup();
7222 #endif
7223 
7224 	for (i = 0; i < DAC960_ControllerCount; i++) {
7225 		DAC960_Controller_T *Controller = DAC960_Controllers[i];
7226 		if (Controller == NULL)
7227 			continue;
7228 		DAC960_FinalizeController(Controller);
7229 	}
7230 	if (DAC960_ProcDirectoryEntry != NULL) {
7231   		remove_proc_entry("rd/status", NULL);
7232   		remove_proc_entry("rd", NULL);
7233 	}
7234 	DAC960_ControllerCount = 0;
7235 	pci_unregister_driver(&DAC960_pci_driver);
7236 }
7237 
7238 module_init(DAC960_init_module);
7239 module_exit(DAC960_cleanup_module);
7240 
7241 MODULE_LICENSE("GPL");
7242