1 /***************************************************************************
5 copyright : (C) 2000 by Adaptec
7 July 30, 2001 First version being submitted
8 for inclusion in the kernel. V2.4
10 See Documentation/scsi/dpti.txt for history, notes, license info
12 ***************************************************************************/
14 /***************************************************************************
16 * This program is free software; you can redistribute it and/or modify *
17 * it under the terms of the GNU General Public License as published by *
18 * the Free Software Foundation; either version 2 of the License, or *
19 * (at your option) any later version. *
21 ***************************************************************************/
22 /***************************************************************************
23 * Sat Dec 20 2003 Go Taniguchi <go@turbolinux.co.jp>
24 - Support 2.6 kernel and DMA-mapping
25 - ioctl fix for raid tools
26 - use schedule_timeout in long long loop
27 **************************************************************************/
30 /*#define UARTDELAY 1 */
32 /* On the real kernel ADDR32 should always be zero for 2.4. GFP_HIGH allocates
33 high pages. Keep the macro around because of the broken unmerged ia64 tree */
37 #include <linux/module.h>
39 MODULE_AUTHOR("Deanna Bonds, with _lots_ of help from Mark Salyzyn");
40 MODULE_DESCRIPTION("Adaptec I2O RAID Driver");
42 ////////////////////////////////////////////////////////////////
44 #include <linux/ioctl.h> /* For SCSI-Passthrough */
45 #include <asm/uaccess.h>
47 #include <linux/stat.h>
48 #include <linux/slab.h> /* for kmalloc() */
49 #include <linux/pci.h> /* for PCI support */
50 #include <linux/proc_fs.h>
51 #include <linux/blkdev.h>
52 #include <linux/delay.h> /* for udelay */
53 #include <linux/interrupt.h>
54 #include <linux/kernel.h> /* for printk */
55 #include <linux/sched.h>
56 #include <linux/reboot.h>
57 #include <linux/spinlock.h>
58 #include <linux/dma-mapping.h>
60 #include <linux/timer.h>
61 #include <linux/string.h>
62 #include <linux/ioport.h>
63 #include <linux/mutex.h>
65 #include <asm/processor.h> /* for boot_cpu_data */
66 #include <asm/pgtable.h>
67 #include <asm/io.h> /* for virt_to_bus, etc. */
69 #include <scsi/scsi.h>
70 #include <scsi/scsi_cmnd.h>
71 #include <scsi/scsi_device.h>
72 #include <scsi/scsi_host.h>
73 #include <scsi/scsi_tcq.h>
75 #include "dpt/dptsig.h"
78 /*============================================================================
79 * Create a binary signature - this is read by dptsig
80 * Needed for our management apps
81 *============================================================================
83 static dpt_sig_S DPTI_sig
= {
84 {'d', 'P', 't', 'S', 'i', 'G'}, SIG_VERSION
,
86 PROC_INTEL
, PROC_386
| PROC_486
| PROC_PENTIUM
| PROC_SEXIUM
,
87 #elif defined(__ia64__)
88 PROC_INTEL
, PROC_IA64
,
89 #elif defined(__sparc__)
90 PROC_ULTRASPARC
, PROC_ULTRASPARC
,
91 #elif defined(__alpha__)
92 PROC_ALPHA
, PROC_ALPHA
,
96 FT_HBADRVR
, 0, OEM_DPT
, OS_LINUX
, CAP_OVERLAP
, DEV_ALL
,
97 ADF_ALL_SC5
, 0, 0, DPT_VERSION
, DPT_REVISION
, DPT_SUBREVISION
,
98 DPT_MONTH
, DPT_DAY
, DPT_YEAR
, "Adaptec Linux I2O RAID Driver"
104 /*============================================================================
106 *============================================================================
109 static DEFINE_MUTEX(adpt_configuration_lock
);
111 static struct i2o_sys_tbl
*sys_tbl
= NULL
;
112 static int sys_tbl_ind
= 0;
113 static int sys_tbl_len
= 0;
115 static adpt_hba
* hba_chain
= NULL
;
116 static int hba_count
= 0;
118 static const struct file_operations adpt_fops
= {
121 .release
= adpt_close
124 #ifdef REBOOT_NOTIFIER
125 static struct notifier_block adpt_reboot_notifier
=
133 /* Structures and definitions for synchronous message posting.
134 * See adpt_i2o_post_wait() for description
136 struct adpt_i2o_post_wait_data
140 adpt_wait_queue_head_t
*wq
;
141 struct adpt_i2o_post_wait_data
*next
;
144 static struct adpt_i2o_post_wait_data
*adpt_post_wait_queue
= NULL
;
145 static u32 adpt_post_wait_id
= 0;
146 static DEFINE_SPINLOCK(adpt_post_wait_lock
);
149 /*============================================================================
151 *============================================================================
154 static u8
adpt_read_blink_led(adpt_hba
* host
)
156 if(host
->FwDebugBLEDflag_P
!= 0) {
157 if( readb(host
->FwDebugBLEDflag_P
) == 0xbc ){
158 return readb(host
->FwDebugBLEDvalue_P
);
164 /*============================================================================
165 * Scsi host template interface functions
166 *============================================================================
169 static struct pci_device_id dptids
[] = {
170 { PCI_DPT_VENDOR_ID
, PCI_DPT_DEVICE_ID
, PCI_ANY_ID
, PCI_ANY_ID
,},
171 { PCI_DPT_VENDOR_ID
, PCI_DPT_RAPTOR_DEVICE_ID
, PCI_ANY_ID
, PCI_ANY_ID
,},
174 MODULE_DEVICE_TABLE(pci
,dptids
);
176 static int adpt_detect(struct scsi_host_template
* sht
)
178 struct pci_dev
*pDev
= NULL
;
183 PINFO("Detecting Adaptec I2O RAID controllers...\n");
185 /* search for all Adatpec I2O RAID cards */
186 while ((pDev
= pci_get_device( PCI_DPT_VENDOR_ID
, PCI_ANY_ID
, pDev
))) {
187 if(pDev
->device
== PCI_DPT_DEVICE_ID
||
188 pDev
->device
== PCI_DPT_RAPTOR_DEVICE_ID
){
189 if(adpt_install_hba(sht
, pDev
) ){
190 PERROR("Could not Init an I2O RAID device\n");
191 PERROR("Will not try to detect others.\n");
198 /* In INIT state, Activate IOPs */
199 for (pHba
= hba_chain
; pHba
; pHba
= pHba
->next
) {
200 // Activate does get status , init outbound, and get hrt
201 if (adpt_i2o_activate_hba(pHba
) < 0) {
202 adpt_i2o_delete_hba(pHba
);
207 /* Active IOPs in HOLD state */
210 if (hba_chain
== NULL
)
214 * If build_sys_table fails, we kill everything and bail
215 * as we can't init the IOPs w/o a system table
217 if (adpt_i2o_build_sys_table() < 0) {
218 adpt_i2o_sys_shutdown();
222 PDEBUG("HBA's in HOLD state\n");
224 /* If IOP don't get online, we need to rebuild the System table */
225 for (pHba
= hba_chain
; pHba
; pHba
= pHba
->next
) {
226 if (adpt_i2o_online_hba(pHba
) < 0) {
227 adpt_i2o_delete_hba(pHba
);
228 goto rebuild_sys_tab
;
232 /* Active IOPs now in OPERATIONAL state */
233 PDEBUG("HBA's in OPERATIONAL state\n");
235 printk("dpti: If you have a lot of devices this could take a few minutes.\n");
236 for (pHba
= hba_chain
; pHba
; pHba
= pHba
->next
) {
237 printk(KERN_INFO
"%s: Reading the hardware resource table.\n", pHba
->name
);
238 if (adpt_i2o_lct_get(pHba
) < 0){
239 adpt_i2o_delete_hba(pHba
);
243 if (adpt_i2o_parse_lct(pHba
) < 0){
244 adpt_i2o_delete_hba(pHba
);
250 for (pHba
= hba_chain
; pHba
; pHba
= pHba
->next
) {
251 if( adpt_scsi_register(pHba
,sht
) < 0){
252 adpt_i2o_delete_hba(pHba
);
255 pHba
->initialized
= TRUE
;
256 pHba
->state
&= ~DPTI_STATE_RESET
;
259 // Register our control device node
260 // nodes will need to be created in /dev to access this
261 // the nodes can not be created from within the driver
262 if (hba_count
&& register_chrdev(DPTI_I2O_MAJOR
, DPT_DRIVER
, &adpt_fops
)) {
263 adpt_i2o_sys_shutdown();
271 * scsi_unregister will be called AFTER we return.
273 static int adpt_release(struct Scsi_Host
*host
)
275 adpt_hba
* pHba
= (adpt_hba
*) host
->hostdata
[0];
276 // adpt_i2o_quiesce_hba(pHba);
277 adpt_i2o_delete_hba(pHba
);
278 scsi_unregister(host
);
283 static void adpt_inquiry(adpt_hba
* pHba
)
296 memset(msg
, 0, sizeof(msg
));
297 buf
= kmalloc(80,GFP_KERNEL
|ADDR32
);
299 printk(KERN_ERR
"%s: Could not allocate buffer\n",pHba
->name
);
302 memset((void*)buf
, 0, 36);
305 direction
= 0x00000000;
306 scsidir
=0x40000000; // DATA IN (iop<--dev)
308 reqlen
= 14; // SINGLE SGE
309 /* Stick the headers on */
310 msg
[0] = reqlen
<<16 | SGL_OFFSET_12
;
311 msg
[1] = (0xff<<24|HOST_TID
<<12|ADAPTER_TID
);
314 // Adaptec/DPT Private stuff
315 msg
[4] = I2O_CMD_SCSI_EXEC
|DPT_ORGANIZATION_ID
<<16;
316 msg
[5] = ADAPTER_TID
| 1<<16 /* Interpret*/;
317 /* Direction, disconnect ok | sense data | simple queue , CDBLen */
318 // I2O_SCB_FLAG_ENABLE_DISCONNECT |
319 // I2O_SCB_FLAG_SIMPLE_QUEUE_TAG |
320 // I2O_SCB_FLAG_SENSE_DATA_IN_MESSAGE;
321 msg
[6] = scsidir
|0x20a00000| 6 /* cmd len*/;
325 memset(scb
, 0, sizeof(scb
));
326 // Write SCSI command into the message - always 16 byte block
333 // Don't care about the rest of scb
335 memcpy(mptr
, scb
, sizeof(scb
));
337 lenptr
=mptr
++; /* Remember me - fill in when we know */
339 /* Now fill in the SGList and command */
341 *mptr
++ = 0xD0000000|direction
|len
;
342 *mptr
++ = virt_to_bus(buf
);
344 // Send it on it's way
345 rcode
= adpt_i2o_post_wait(pHba
, msg
, reqlen
<<2, 120);
347 sprintf(pHba
->detail
, "Adaptec I2O RAID");
348 printk(KERN_INFO
"%s: Inquiry Error (%d)\n",pHba
->name
,rcode
);
349 if (rcode
!= -ETIME
&& rcode
!= -EINTR
)
352 memset(pHba
->detail
, 0, sizeof(pHba
->detail
));
353 memcpy(&(pHba
->detail
), "Vendor: Adaptec ", 16);
354 memcpy(&(pHba
->detail
[16]), " Model: ", 8);
355 memcpy(&(pHba
->detail
[24]), (u8
*) &buf
[16], 16);
356 memcpy(&(pHba
->detail
[40]), " FW: ", 4);
357 memcpy(&(pHba
->detail
[44]), (u8
*) &buf
[32], 4);
358 pHba
->detail
[48] = '\0'; /* precautionary */
361 adpt_i2o_status_get(pHba
);
366 static int adpt_slave_configure(struct scsi_device
* device
)
368 struct Scsi_Host
*host
= device
->host
;
371 pHba
= (adpt_hba
*) host
->hostdata
[0];
373 if (host
->can_queue
&& device
->tagged_supported
) {
374 scsi_adjust_queue_depth(device
, MSG_SIMPLE_TAG
,
375 host
->can_queue
- 1);
377 scsi_adjust_queue_depth(device
, 0, 1);
382 static int adpt_queue(struct scsi_cmnd
* cmd
, void (*done
) (struct scsi_cmnd
*))
384 adpt_hba
* pHba
= NULL
;
385 struct adpt_device
* pDev
= NULL
; /* dpt per device information */
387 cmd
->scsi_done
= done
;
389 * SCSI REQUEST_SENSE commands will be executed automatically by the
390 * Host Adapter for any errors, so they should not be executed
391 * explicitly unless the Sense Data is zero indicating that no error
395 if ((cmd
->cmnd
[0] == REQUEST_SENSE
) && (cmd
->sense_buffer
[0] != 0)) {
396 cmd
->result
= (DID_OK
<< 16);
401 pHba
= (adpt_hba
*)cmd
->device
->host
->hostdata
[0];
408 * TODO: I need to block here if I am processing ioctl cmds
409 * but if the outstanding cmds all finish before the ioctl,
410 * the scsi-core will not know to start sending cmds to me again.
411 * I need to a way to restart the scsi-cores queues or should I block
412 * calling scsi_done on the outstanding cmds instead
413 * for now we don't set the IOCTL state
415 if(((pHba
->state
) & DPTI_STATE_IOCTL
) || ((pHba
->state
) & DPTI_STATE_RESET
)) {
416 pHba
->host
->last_reset
= jiffies
;
417 pHba
->host
->resetting
= 1;
421 // TODO if the cmd->device if offline then I may need to issue a bus rescan
422 // followed by a get_lct to see if the device is there anymore
423 if((pDev
= (struct adpt_device
*) (cmd
->device
->hostdata
)) == NULL
) {
425 * First command request for this device. Set up a pointer
426 * to the device structure. This should be a TEST_UNIT_READY
427 * command from scan_scsis_single.
429 if ((pDev
= adpt_find_device(pHba
, (u32
)cmd
->device
->channel
, (u32
)cmd
->device
->id
, (u32
)cmd
->device
->lun
)) == NULL
) {
430 // TODO: if any luns are at this bus, scsi id then fake a TEST_UNIT_READY and INQUIRY response
431 // with type 7F (for all luns less than the max for this bus,id) so the lun scan will continue.
432 cmd
->result
= (DID_NO_CONNECT
<< 16);
436 cmd
->device
->hostdata
= pDev
;
438 pDev
->pScsi_dev
= cmd
->device
;
441 * If we are being called from when the device is being reset,
442 * delay processing of the command until later.
444 if (pDev
->state
& DPTI_DEV_RESET
) {
447 return adpt_scsi_to_i2o(pHba
, cmd
, pDev
);
450 static int adpt_bios_param(struct scsi_device
*sdev
, struct block_device
*dev
,
451 sector_t capacity
, int geom
[])
457 // *** First lets set the default geometry ****
459 // If the capacity is less than ox2000
460 if (capacity
< 0x2000 ) { // floppy
464 // else if between 0x2000 and 0x20000
465 else if (capacity
< 0x20000) {
469 // else if between 0x20000 and 0x40000
470 else if (capacity
< 0x40000) {
474 // else if between 0x4000 and 0x80000
475 else if (capacity
< 0x80000) {
479 // else if greater than 0x80000
484 cylinders
= sector_div(capacity
, heads
* sectors
);
486 // Special case if CDROM
487 if(sdev
->type
== 5) { // CDROM
497 PDEBUG("adpt_bios_param: exit\n");
502 static const char *adpt_info(struct Scsi_Host
*host
)
506 pHba
= (adpt_hba
*) host
->hostdata
[0];
507 return (char *) (pHba
->detail
);
510 static int adpt_proc_info(struct Scsi_Host
*host
, char *buffer
, char **start
, off_t offset
,
511 int length
, int inout
)
513 struct adpt_device
* d
;
525 * The user has done a write and wants us to take the
526 * data in the buffer and do something with it.
527 * proc_scsiwrite calls us with inout = 1
529 * Read data from buffer (writing to us) - NOT SUPPORTED
535 * inout = 0 means the user has done a read and wants information
536 * returned, so we write information about the cards into the buffer
537 * proc_scsiread() calls us with inout = 0
540 // Find HBA (host bus adapter) we are looking for
541 mutex_lock(&adpt_configuration_lock
);
542 for (pHba
= hba_chain
; pHba
; pHba
= pHba
->next
) {
543 if (pHba
->host
== host
) {
544 break; /* found adapter */
547 mutex_unlock(&adpt_configuration_lock
);
553 len
= sprintf(buffer
, "Adaptec I2O RAID Driver Version: %s\n\n", DPT_I2O_VERSION
);
554 len
+= sprintf(buffer
+len
, "%s\n", pHba
->detail
);
555 len
+= sprintf(buffer
+len
, "SCSI Host=scsi%d Control Node=/dev/%s irq=%d\n",
556 pHba
->host
->host_no
, pHba
->name
, host
->irq
);
557 len
+= sprintf(buffer
+len
, "\tpost fifo size = %d\n\treply fifo size = %d\n\tsg table size = %d\n\n",
558 host
->can_queue
, (int) pHba
->reply_fifo_size
, host
->sg_tablesize
);
563 if(pos
> offset
+ length
) {
568 * If we haven't even written to where we last left
569 * off (the last time we were called), reset the
575 len
+= sprintf(buffer
+len
, "Devices:\n");
576 for(chan
= 0; chan
< MAX_CHANNEL
; chan
++) {
577 for(id
= 0; id
< MAX_ID
; id
++) {
578 d
= pHba
->channel
[chan
].device
[id
];
580 len
+= sprintf(buffer
+len
,"\t%-24.24s", d
->pScsi_dev
->vendor
);
581 len
+= sprintf(buffer
+len
," Rev: %-8.8s\n", d
->pScsi_dev
->rev
);
586 if(pos
> offset
+ length
) {
594 unit
= d
->pI2o_dev
->lct_data
.tid
;
595 len
+= sprintf(buffer
+len
, "\tTID=%d, (Channel=%d, Target=%d, Lun=%d) (%s)\n\n",
596 unit
, (int)d
->scsi_channel
, (int)d
->scsi_id
, (int)d
->scsi_lun
,
597 scsi_device_online(d
->pScsi_dev
)? "online":"offline");
601 if(pos
> offset
+ length
) {
615 * begin is where we last checked our position with regards to offset
616 * begin is always less than offset. len is relative to begin. It
617 * is the number of bytes written past begin
621 /* stop the output and calculate the correct length */
622 *(buffer
+ len
) = '\0';
624 *start
= buffer
+ (offset
- begin
); /* Start of wanted data */
625 len
-= (offset
- begin
);
636 /*===========================================================================
637 * Error Handling routines
638 *===========================================================================
641 static int adpt_abort(struct scsi_cmnd
* cmd
)
643 adpt_hba
* pHba
= NULL
; /* host bus adapter structure */
644 struct adpt_device
* dptdevice
; /* dpt per device information */
648 if(cmd
->serial_number
== 0){
651 pHba
= (adpt_hba
*) cmd
->device
->host
->hostdata
[0];
652 printk(KERN_INFO
"%s: Trying to Abort cmd=%ld\n",pHba
->name
, cmd
->serial_number
);
653 if ((dptdevice
= (void*) (cmd
->device
->hostdata
)) == NULL
) {
654 printk(KERN_ERR
"%s: Unable to abort: No device in cmnd\n",pHba
->name
);
658 memset(msg
, 0, sizeof(msg
));
659 msg
[0] = FIVE_WORD_MSG_SIZE
|SGL_OFFSET_0
;
660 msg
[1] = I2O_CMD_SCSI_ABORT
<<24|HOST_TID
<<12|dptdevice
->tid
;
665 spin_lock_irq(pHba
->host
->host_lock
);
666 rcode
= adpt_i2o_post_wait(pHba
, msg
, sizeof(msg
), FOREVER
);
668 spin_unlock_irq(pHba
->host
->host_lock
);
670 if(rcode
== -EOPNOTSUPP
){
671 printk(KERN_INFO
"%s: Abort cmd not supported\n",pHba
->name
);
674 printk(KERN_INFO
"%s: Abort cmd=%ld failed.\n",pHba
->name
, cmd
->serial_number
);
677 printk(KERN_INFO
"%s: Abort cmd=%ld complete.\n",pHba
->name
, cmd
->serial_number
);
682 #define I2O_DEVICE_RESET 0x27
683 // This is the same for BLK and SCSI devices
684 // NOTE this is wrong in the i2o.h definitions
685 // This is not currently supported by our adapter but we issue it anyway
686 static int adpt_device_reset(struct scsi_cmnd
* cmd
)
692 struct adpt_device
* d
= cmd
->device
->hostdata
;
694 pHba
= (void*) cmd
->device
->host
->hostdata
[0];
695 printk(KERN_INFO
"%s: Trying to reset device\n",pHba
->name
);
697 printk(KERN_INFO
"%s: Reset Device: Device Not found\n",pHba
->name
);
700 memset(msg
, 0, sizeof(msg
));
701 msg
[0] = FOUR_WORD_MSG_SIZE
|SGL_OFFSET_0
;
702 msg
[1] = (I2O_DEVICE_RESET
<<24|HOST_TID
<<12|d
->tid
);
707 spin_lock_irq(pHba
->host
->host_lock
);
708 old_state
= d
->state
;
709 d
->state
|= DPTI_DEV_RESET
;
710 rcode
= adpt_i2o_post_wait(pHba
, msg
,sizeof(msg
), FOREVER
);
711 d
->state
= old_state
;
713 spin_unlock_irq(pHba
->host
->host_lock
);
715 if(rcode
== -EOPNOTSUPP
){
716 printk(KERN_INFO
"%s: Device reset not supported\n",pHba
->name
);
719 printk(KERN_INFO
"%s: Device reset failed\n",pHba
->name
);
722 printk(KERN_INFO
"%s: Device reset successful\n",pHba
->name
);
728 #define I2O_HBA_BUS_RESET 0x87
729 // This version of bus reset is called by the eh_error handler
730 static int adpt_bus_reset(struct scsi_cmnd
* cmd
)
736 pHba
= (adpt_hba
*)cmd
->device
->host
->hostdata
[0];
737 memset(msg
, 0, sizeof(msg
));
738 printk(KERN_WARNING
"%s: Bus reset: SCSI Bus %d: tid: %d\n",pHba
->name
, cmd
->device
->channel
,pHba
->channel
[cmd
->device
->channel
].tid
);
739 msg
[0] = FOUR_WORD_MSG_SIZE
|SGL_OFFSET_0
;
740 msg
[1] = (I2O_HBA_BUS_RESET
<<24|HOST_TID
<<12|pHba
->channel
[cmd
->device
->channel
].tid
);
744 spin_lock_irq(pHba
->host
->host_lock
);
745 rcode
= adpt_i2o_post_wait(pHba
, msg
,sizeof(msg
), FOREVER
);
747 spin_unlock_irq(pHba
->host
->host_lock
);
749 printk(KERN_WARNING
"%s: Bus reset failed.\n",pHba
->name
);
752 printk(KERN_WARNING
"%s: Bus reset success.\n",pHba
->name
);
757 // This version of reset is called by the eh_error_handler
758 static int __adpt_reset(struct scsi_cmnd
* cmd
)
762 pHba
= (adpt_hba
*)cmd
->device
->host
->hostdata
[0];
763 printk(KERN_WARNING
"%s: Hba Reset: scsi id %d: tid: %d\n",pHba
->name
,cmd
->device
->channel
,pHba
->channel
[cmd
->device
->channel
].tid
);
764 rcode
= adpt_hba_reset(pHba
);
766 printk(KERN_WARNING
"%s: HBA reset complete\n",pHba
->name
);
769 printk(KERN_WARNING
"%s: HBA reset failed (%x)\n",pHba
->name
, rcode
);
774 static int adpt_reset(struct scsi_cmnd
* cmd
)
778 spin_lock_irq(cmd
->device
->host
->host_lock
);
779 rc
= __adpt_reset(cmd
);
780 spin_unlock_irq(cmd
->device
->host
->host_lock
);
785 // This version of reset is called by the ioctls and indirectly from eh_error_handler via adpt_reset
786 static int adpt_hba_reset(adpt_hba
* pHba
)
790 pHba
->state
|= DPTI_STATE_RESET
;
792 // Activate does get status , init outbound, and get hrt
793 if ((rcode
=adpt_i2o_activate_hba(pHba
)) < 0) {
794 printk(KERN_ERR
"%s: Could not activate\n", pHba
->name
);
795 adpt_i2o_delete_hba(pHba
);
799 if ((rcode
=adpt_i2o_build_sys_table()) < 0) {
800 adpt_i2o_delete_hba(pHba
);
803 PDEBUG("%s: in HOLD state\n",pHba
->name
);
805 if ((rcode
=adpt_i2o_online_hba(pHba
)) < 0) {
806 adpt_i2o_delete_hba(pHba
);
809 PDEBUG("%s: in OPERATIONAL state\n",pHba
->name
);
811 if ((rcode
=adpt_i2o_lct_get(pHba
)) < 0){
812 adpt_i2o_delete_hba(pHba
);
816 if ((rcode
=adpt_i2o_reparse_lct(pHba
)) < 0){
817 adpt_i2o_delete_hba(pHba
);
820 pHba
->state
&= ~DPTI_STATE_RESET
;
822 adpt_fail_posted_scbs(pHba
);
823 return 0; /* return success */
826 /*===========================================================================
828 *===========================================================================
832 static void adpt_i2o_sys_shutdown(void)
834 adpt_hba
*pHba
, *pNext
;
835 struct adpt_i2o_post_wait_data
*p1
, *old
;
837 printk(KERN_INFO
"Shutting down Adaptec I2O controllers.\n");
838 printk(KERN_INFO
" This could take a few minutes if there are many devices attached\n");
839 /* Delete all IOPs from the controller chain */
840 /* They should have already been released by the
843 for (pHba
= hba_chain
; pHba
; pHba
= pNext
) {
845 adpt_i2o_delete_hba(pHba
);
848 /* Remove any timedout entries from the wait queue. */
849 // spin_lock_irqsave(&adpt_post_wait_lock, flags);
850 /* Nothing should be outstanding at this point so just
853 for(p1
= adpt_post_wait_queue
; p1
;) {
858 // spin_unlock_irqrestore(&adpt_post_wait_lock, flags);
859 adpt_post_wait_queue
= NULL
;
861 printk(KERN_INFO
"Adaptec I2O controllers down.\n");
865 * reboot/shutdown notification.
867 * - Quiesce each IOP in the system
871 #ifdef REBOOT_NOTIFIER
872 static int adpt_reboot_event(struct notifier_block
*n
, ulong code
, void *p
)
875 if(code
!= SYS_RESTART
&& code
!= SYS_HALT
&& code
!= SYS_POWER_OFF
)
878 adpt_i2o_sys_shutdown();
885 static int adpt_install_hba(struct scsi_host_template
* sht
, struct pci_dev
* pDev
)
888 adpt_hba
* pHba
= NULL
;
890 ulong base_addr0_phys
= 0;
891 ulong base_addr1_phys
= 0;
892 u32 hba_map0_area_size
= 0;
893 u32 hba_map1_area_size
= 0;
894 void __iomem
*base_addr_virt
= NULL
;
895 void __iomem
*msg_addr_virt
= NULL
;
897 int raptorFlag
= FALSE
;
899 if(pci_enable_device(pDev
)) {
903 if (pci_request_regions(pDev
, "dpt_i2o")) {
904 PERROR("dpti: adpt_config_hba: pci request region failed\n");
908 pci_set_master(pDev
);
909 if (pci_set_dma_mask(pDev
, DMA_32BIT_MASK
))
912 base_addr0_phys
= pci_resource_start(pDev
,0);
913 hba_map0_area_size
= pci_resource_len(pDev
,0);
915 // Check if standard PCI card or single BAR Raptor
916 if(pDev
->device
== PCI_DPT_DEVICE_ID
){
917 if(pDev
->subsystem_device
>=0xc032 && pDev
->subsystem_device
<= 0xc03b){
918 // Raptor card with this device id needs 4M
919 hba_map0_area_size
= 0x400000;
920 } else { // Not Raptor - it is a PCI card
921 if(hba_map0_area_size
> 0x100000 ){
922 hba_map0_area_size
= 0x100000;
925 } else {// Raptor split BAR config
926 // Use BAR1 in this configuration
927 base_addr1_phys
= pci_resource_start(pDev
,1);
928 hba_map1_area_size
= pci_resource_len(pDev
,1);
932 base_addr_virt
= ioremap(base_addr0_phys
,hba_map0_area_size
);
933 if (!base_addr_virt
) {
934 pci_release_regions(pDev
);
935 PERROR("dpti: adpt_config_hba: io remap failed\n");
939 if(raptorFlag
== TRUE
) {
940 msg_addr_virt
= ioremap(base_addr1_phys
, hba_map1_area_size
);
941 if (!msg_addr_virt
) {
942 PERROR("dpti: adpt_config_hba: io remap failed on BAR1\n");
943 iounmap(base_addr_virt
);
944 pci_release_regions(pDev
);
948 msg_addr_virt
= base_addr_virt
;
951 // Allocate and zero the data structure
952 pHba
= kzalloc(sizeof(adpt_hba
), GFP_KERNEL
);
954 if (msg_addr_virt
!= base_addr_virt
)
955 iounmap(msg_addr_virt
);
956 iounmap(base_addr_virt
);
957 pci_release_regions(pDev
);
961 mutex_lock(&adpt_configuration_lock
);
963 if(hba_chain
!= NULL
){
964 for(p
= hba_chain
; p
->next
; p
= p
->next
);
970 pHba
->unit
= hba_count
;
971 sprintf(pHba
->name
, "dpti%d", hba_count
);
974 mutex_unlock(&adpt_configuration_lock
);
977 pHba
->base_addr_phys
= base_addr0_phys
;
979 // Set up the Virtual Base Address of the I2O Device
980 pHba
->base_addr_virt
= base_addr_virt
;
981 pHba
->msg_addr_virt
= msg_addr_virt
;
982 pHba
->irq_mask
= base_addr_virt
+0x30;
983 pHba
->post_port
= base_addr_virt
+0x40;
984 pHba
->reply_port
= base_addr_virt
+0x44;
989 pHba
->status_block
= NULL
;
990 pHba
->post_count
= 0;
991 pHba
->state
= DPTI_STATE_RESET
;
993 pHba
->devices
= NULL
;
995 // Initializing the spinlocks
996 spin_lock_init(&pHba
->state_lock
);
997 spin_lock_init(&adpt_post_wait_lock
);
1000 printk(KERN_INFO
"Adaptec I2O RAID controller %d at %p size=%x irq=%d\n",
1001 hba_count
-1, base_addr_virt
, hba_map0_area_size
, pDev
->irq
);
1003 printk(KERN_INFO
"Adaptec I2O RAID controller %d irq=%d\n",hba_count
-1, pDev
->irq
);
1004 printk(KERN_INFO
" BAR0 %p - size= %x\n",base_addr_virt
,hba_map0_area_size
);
1005 printk(KERN_INFO
" BAR1 %p - size= %x\n",msg_addr_virt
,hba_map1_area_size
);
1008 if (request_irq (pDev
->irq
, adpt_isr
, IRQF_SHARED
, pHba
->name
, pHba
)) {
1009 printk(KERN_ERR
"%s: Couldn't register IRQ %d\n", pHba
->name
, pDev
->irq
);
1010 adpt_i2o_delete_hba(pHba
);
1018 static void adpt_i2o_delete_hba(adpt_hba
* pHba
)
1022 struct i2o_device
* d
;
1023 struct i2o_device
* next
;
1026 struct adpt_device
* pDev
;
1027 struct adpt_device
* pNext
;
1030 mutex_lock(&adpt_configuration_lock
);
1031 // scsi_unregister calls our adpt_release which
1034 free_irq(pHba
->host
->irq
, pHba
);
1037 for( p1
= hba_chain
; p1
; p2
= p1
,p1
=p1
->next
){
1040 p2
->next
= p1
->next
;
1042 hba_chain
= p1
->next
;
1049 mutex_unlock(&adpt_configuration_lock
);
1051 iounmap(pHba
->base_addr_virt
);
1052 pci_release_regions(pHba
->pDev
);
1053 if(pHba
->msg_addr_virt
!= pHba
->base_addr_virt
){
1054 iounmap(pHba
->msg_addr_virt
);
1058 kfree(pHba
->status_block
);
1059 kfree(pHba
->reply_pool
);
1061 for(d
= pHba
->devices
; d
; d
= next
){
1065 for(i
= 0 ; i
< pHba
->top_scsi_channel
; i
++){
1066 for(j
= 0; j
< MAX_ID
; j
++){
1067 if(pHba
->channel
[i
].device
[j
] != NULL
){
1068 for(pDev
= pHba
->channel
[i
].device
[j
]; pDev
; pDev
= pNext
){
1069 pNext
= pDev
->next_lun
;
1075 pci_dev_put(pHba
->pDev
);
1079 unregister_chrdev(DPTI_I2O_MAJOR
, DPT_DRIVER
);
1084 static int adpt_init(void)
1086 printk("Loading Adaptec I2O RAID: Version " DPT_I2O_VERSION
"\n");
1087 #ifdef REBOOT_NOTIFIER
1088 register_reboot_notifier(&adpt_reboot_notifier
);
1095 static struct adpt_device
* adpt_find_device(adpt_hba
* pHba
, u32 chan
, u32 id
, u32 lun
)
1097 struct adpt_device
* d
;
1099 if(chan
< 0 || chan
>= MAX_CHANNEL
)
1102 if( pHba
->channel
[chan
].device
== NULL
){
1103 printk(KERN_DEBUG
"Adaptec I2O RAID: Trying to find device before they are allocated\n");
1107 d
= pHba
->channel
[chan
].device
[id
];
1108 if(!d
|| d
->tid
== 0) {
1112 /* If it is the only lun at that address then this should match*/
1113 if(d
->scsi_lun
== lun
){
1117 /* else we need to look through all the luns */
1118 for(d
=d
->next_lun
; d
; d
= d
->next_lun
){
1119 if(d
->scsi_lun
== lun
){
1127 static int adpt_i2o_post_wait(adpt_hba
* pHba
, u32
* msg
, int len
, int timeout
)
1129 // I used my own version of the WAIT_QUEUE_HEAD
1130 // to handle some version differences
1131 // When embedded in the kernel this could go back to the vanilla one
1132 ADPT_DECLARE_WAIT_QUEUE_HEAD(adpt_wq_i2o_post
);
1135 struct adpt_i2o_post_wait_data
*p1
, *p2
;
1136 struct adpt_i2o_post_wait_data
*wait_data
=
1137 kmalloc(sizeof(struct adpt_i2o_post_wait_data
),GFP_KERNEL
);
1138 DECLARE_WAITQUEUE(wait
, current
);
1144 * The spin locking is needed to keep anyone from playing
1145 * with the queue pointers and id while we do the same
1147 spin_lock_irqsave(&adpt_post_wait_lock
, flags
);
1148 // TODO we need a MORE unique way of getting ids
1149 // to support async LCT get
1150 wait_data
->next
= adpt_post_wait_queue
;
1151 adpt_post_wait_queue
= wait_data
;
1152 adpt_post_wait_id
++;
1153 adpt_post_wait_id
&= 0x7fff;
1154 wait_data
->id
= adpt_post_wait_id
;
1155 spin_unlock_irqrestore(&adpt_post_wait_lock
, flags
);
1157 wait_data
->wq
= &adpt_wq_i2o_post
;
1158 wait_data
->status
= -ETIMEDOUT
;
1160 add_wait_queue(&adpt_wq_i2o_post
, &wait
);
1162 msg
[2] |= 0x80000000 | ((u32
)wait_data
->id
);
1164 if((status
= adpt_i2o_post_this(pHba
, msg
, len
)) == 0){
1165 set_current_state(TASK_INTERRUPTIBLE
);
1167 spin_unlock_irq(pHba
->host
->host_lock
);
1171 timeout
= schedule_timeout(timeout
);
1173 // I/O issued, but cannot get result in
1174 // specified time. Freeing resorces is
1180 spin_lock_irq(pHba
->host
->host_lock
);
1182 remove_wait_queue(&adpt_wq_i2o_post
, &wait
);
1184 if(status
== -ETIMEDOUT
){
1185 printk(KERN_INFO
"dpti%d: POST WAIT TIMEOUT\n",pHba
->unit
);
1186 // We will have to free the wait_data memory during shutdown
1190 /* Remove the entry from the queue. */
1192 spin_lock_irqsave(&adpt_post_wait_lock
, flags
);
1193 for(p1
= adpt_post_wait_queue
; p1
; p2
= p1
, p1
= p1
->next
) {
1194 if(p1
== wait_data
) {
1195 if(p1
->status
== I2O_DETAIL_STATUS_UNSUPPORTED_FUNCTION
) {
1196 status
= -EOPNOTSUPP
;
1199 p2
->next
= p1
->next
;
1201 adpt_post_wait_queue
= p1
->next
;
1206 spin_unlock_irqrestore(&adpt_post_wait_lock
, flags
);
1214 static s32
adpt_i2o_post_this(adpt_hba
* pHba
, u32
* data
, int len
)
1217 u32 m
= EMPTY_QUEUE
;
1219 ulong timeout
= jiffies
+ 30*HZ
;
1222 m
= readl(pHba
->post_port
);
1223 if (m
!= EMPTY_QUEUE
) {
1226 if(time_after(jiffies
,timeout
)){
1227 printk(KERN_WARNING
"dpti%d: Timeout waiting for message frame!\n", pHba
->unit
);
1230 schedule_timeout_uninterruptible(1);
1231 } while(m
== EMPTY_QUEUE
);
1233 msg
= pHba
->msg_addr_virt
+ m
;
1234 memcpy_toio(msg
, data
, len
);
1238 writel(m
, pHba
->post_port
);
1245 static void adpt_i2o_post_wait_complete(u32 context
, int status
)
1247 struct adpt_i2o_post_wait_data
*p1
= NULL
;
1249 * We need to search through the adpt_post_wait
1250 * queue to see if the given message is still
1251 * outstanding. If not, it means that the IOP
1252 * took longer to respond to the message than we
1253 * had allowed and timer has already expired.
1254 * Not much we can do about that except log
1255 * it for debug purposes, increase timeout, and recompile
1257 * Lock needed to keep anyone from moving queue pointers
1258 * around while we're looking through them.
1263 spin_lock(&adpt_post_wait_lock
);
1264 for(p1
= adpt_post_wait_queue
; p1
; p1
= p1
->next
) {
1265 if(p1
->id
== context
) {
1266 p1
->status
= status
;
1267 spin_unlock(&adpt_post_wait_lock
);
1268 wake_up_interruptible(p1
->wq
);
1272 spin_unlock(&adpt_post_wait_lock
);
1273 // If this happens we lose commands that probably really completed
1274 printk(KERN_DEBUG
"dpti: Could Not find task %d in wait queue\n",context
);
1275 printk(KERN_DEBUG
" Tasks in wait queue:\n");
1276 for(p1
= adpt_post_wait_queue
; p1
; p1
= p1
->next
) {
1277 printk(KERN_DEBUG
" %d\n",p1
->id
);
1282 static s32
adpt_i2o_reset_hba(adpt_hba
* pHba
)
1286 u32 m
= EMPTY_QUEUE
;
1287 ulong timeout
= jiffies
+ (TMOUT_IOPRESET
*HZ
);
1289 if(pHba
->initialized
== FALSE
) { // First time reset should be quick
1290 timeout
= jiffies
+ (25*HZ
);
1292 adpt_i2o_quiesce_hba(pHba
);
1297 m
= readl(pHba
->post_port
);
1298 if (m
!= EMPTY_QUEUE
) {
1301 if(time_after(jiffies
,timeout
)){
1302 printk(KERN_WARNING
"Timeout waiting for message!\n");
1305 schedule_timeout_uninterruptible(1);
1306 } while (m
== EMPTY_QUEUE
);
1308 status
= kzalloc(4, GFP_KERNEL
|ADDR32
);
1309 if(status
== NULL
) {
1310 adpt_send_nop(pHba
, m
);
1311 printk(KERN_ERR
"IOP reset failed - no free memory.\n");
1315 msg
[0]=EIGHT_WORD_MSG_SIZE
|SGL_OFFSET_0
;
1316 msg
[1]=I2O_CMD_ADAPTER_RESET
<<24|HOST_TID
<<12|ADAPTER_TID
;
1321 msg
[6]=virt_to_bus(status
);
1324 memcpy_toio(pHba
->msg_addr_virt
+m
, msg
, sizeof(msg
));
1326 writel(m
, pHba
->post_port
);
1329 while(*status
== 0){
1330 if(time_after(jiffies
,timeout
)){
1331 printk(KERN_WARNING
"%s: IOP Reset Timeout\n",pHba
->name
);
1336 schedule_timeout_uninterruptible(1);
1339 if(*status
== 0x01 /*I2O_EXEC_IOP_RESET_IN_PROGRESS*/) {
1340 PDEBUG("%s: Reset in progress...\n", pHba
->name
);
1341 // Here we wait for message frame to become available
1342 // indicated that reset has finished
1345 m
= readl(pHba
->post_port
);
1346 if (m
!= EMPTY_QUEUE
) {
1349 if(time_after(jiffies
,timeout
)){
1350 printk(KERN_ERR
"%s:Timeout waiting for IOP Reset.\n",pHba
->name
);
1353 schedule_timeout_uninterruptible(1);
1354 } while (m
== EMPTY_QUEUE
);
1356 adpt_send_nop(pHba
, m
);
1358 adpt_i2o_status_get(pHba
);
1359 if(*status
== 0x02 ||
1360 pHba
->status_block
->iop_state
!= ADAPTER_STATE_RESET
) {
1361 printk(KERN_WARNING
"%s: Reset reject, trying to clear\n",
1364 PDEBUG("%s: Reset completed.\n", pHba
->name
);
1369 // This delay is to allow someone attached to the card through the debug UART to
1370 // set up the dump levels that they want before the rest of the initialization sequence
1377 static int adpt_i2o_parse_lct(adpt_hba
* pHba
)
1382 struct i2o_device
*d
;
1383 i2o_lct
*lct
= pHba
->lct
;
1387 u32 buf
[10]; // larger than 7, or 8 ...
1388 struct adpt_device
* pDev
;
1391 printk(KERN_ERR
"%s: LCT is empty???\n",pHba
->name
);
1395 max
= lct
->table_size
;
1399 for(i
=0;i
<max
;i
++) {
1400 if( lct
->lct_entry
[i
].user_tid
!= 0xfff){
1402 * If we have hidden devices, we need to inform the upper layers about
1403 * the possible maximum id reference to handle device access when
1404 * an array is disassembled. This code has no other purpose but to
1405 * allow us future access to devices that are currently hidden
1406 * behind arrays, hotspares or have not been configured (JBOD mode).
1408 if( lct
->lct_entry
[i
].class_id
!= I2O_CLASS_RANDOM_BLOCK_STORAGE
&&
1409 lct
->lct_entry
[i
].class_id
!= I2O_CLASS_SCSI_PERIPHERAL
&&
1410 lct
->lct_entry
[i
].class_id
!= I2O_CLASS_FIBRE_CHANNEL_PERIPHERAL
){
1413 tid
= lct
->lct_entry
[i
].tid
;
1414 // I2O_DPT_DEVICE_INFO_GROUP_NO;
1415 if(adpt_i2o_query_scalar(pHba
, tid
, 0x8000, -1, buf
, 32)<0) {
1418 bus_no
= buf
[0]>>16;
1420 scsi_lun
= (buf
[2]>>8 )&0xff;
1421 if(bus_no
>= MAX_CHANNEL
) { // Something wrong skip it
1422 printk(KERN_WARNING
"%s: Channel number %d out of range \n", pHba
->name
, bus_no
);
1425 if (scsi_id
>= MAX_ID
){
1426 printk(KERN_WARNING
"%s: SCSI ID %d out of range \n", pHba
->name
, bus_no
);
1429 if(bus_no
> pHba
->top_scsi_channel
){
1430 pHba
->top_scsi_channel
= bus_no
;
1432 if(scsi_id
> pHba
->top_scsi_id
){
1433 pHba
->top_scsi_id
= scsi_id
;
1435 if(scsi_lun
> pHba
->top_scsi_lun
){
1436 pHba
->top_scsi_lun
= scsi_lun
;
1440 d
= kmalloc(sizeof(struct i2o_device
), GFP_KERNEL
);
1443 printk(KERN_CRIT
"%s: Out of memory for I2O device data.\n",pHba
->name
);
1447 d
->controller
= pHba
;
1450 memcpy(&d
->lct_data
, &lct
->lct_entry
[i
], sizeof(i2o_lct_entry
));
1453 tid
= d
->lct_data
.tid
;
1454 adpt_i2o_report_hba_unit(pHba
, d
);
1455 adpt_i2o_install_device(pHba
, d
);
1458 for(d
= pHba
->devices
; d
; d
= d
->next
) {
1459 if(d
->lct_data
.class_id
== I2O_CLASS_BUS_ADAPTER_PORT
||
1460 d
->lct_data
.class_id
== I2O_CLASS_FIBRE_CHANNEL_PORT
){
1461 tid
= d
->lct_data
.tid
;
1462 // TODO get the bus_no from hrt-but for now they are in order
1464 if(bus_no
> pHba
->top_scsi_channel
){
1465 pHba
->top_scsi_channel
= bus_no
;
1467 pHba
->channel
[bus_no
].type
= d
->lct_data
.class_id
;
1468 pHba
->channel
[bus_no
].tid
= tid
;
1469 if(adpt_i2o_query_scalar(pHba
, tid
, 0x0200, -1, buf
, 28)>=0)
1471 pHba
->channel
[bus_no
].scsi_id
= buf
[1];
1472 PDEBUG("Bus %d - SCSI ID %d.\n", bus_no
, buf
[1]);
1474 // TODO remove - this is just until we get from hrt
1476 if(bus_no
>= MAX_CHANNEL
) { // Something wrong skip it
1477 printk(KERN_WARNING
"%s: Channel number %d out of range - LCT\n", pHba
->name
, bus_no
);
1483 // Setup adpt_device table
1484 for(d
= pHba
->devices
; d
; d
= d
->next
) {
1485 if(d
->lct_data
.class_id
== I2O_CLASS_RANDOM_BLOCK_STORAGE
||
1486 d
->lct_data
.class_id
== I2O_CLASS_SCSI_PERIPHERAL
||
1487 d
->lct_data
.class_id
== I2O_CLASS_FIBRE_CHANNEL_PERIPHERAL
){
1489 tid
= d
->lct_data
.tid
;
1491 // I2O_DPT_DEVICE_INFO_GROUP_NO;
1492 if(adpt_i2o_query_scalar(pHba
, tid
, 0x8000, -1, buf
, 32)>=0) {
1493 bus_no
= buf
[0]>>16;
1495 scsi_lun
= (buf
[2]>>8 )&0xff;
1496 if(bus_no
>= MAX_CHANNEL
) { // Something wrong skip it
1499 if (scsi_id
>= MAX_ID
) {
1502 if( pHba
->channel
[bus_no
].device
[scsi_id
] == NULL
){
1503 pDev
= kzalloc(sizeof(struct adpt_device
),GFP_KERNEL
);
1507 pHba
->channel
[bus_no
].device
[scsi_id
] = pDev
;
1509 for( pDev
= pHba
->channel
[bus_no
].device
[scsi_id
];
1510 pDev
->next_lun
; pDev
= pDev
->next_lun
){
1512 pDev
->next_lun
= kzalloc(sizeof(struct adpt_device
),GFP_KERNEL
);
1513 if(pDev
->next_lun
== NULL
) {
1516 pDev
= pDev
->next_lun
;
1519 pDev
->scsi_channel
= bus_no
;
1520 pDev
->scsi_id
= scsi_id
;
1521 pDev
->scsi_lun
= scsi_lun
;
1524 pDev
->type
= (buf
[0])&0xff;
1525 pDev
->flags
= (buf
[0]>>8)&0xff;
1526 if(scsi_id
> pHba
->top_scsi_id
){
1527 pHba
->top_scsi_id
= scsi_id
;
1529 if(scsi_lun
> pHba
->top_scsi_lun
){
1530 pHba
->top_scsi_lun
= scsi_lun
;
1534 printk(KERN_WARNING
"Could not find SCSI ID for %s\n",
1535 d
->lct_data
.identity_tag
);
1544 * Each I2O controller has a chain of devices on it - these match
1545 * the useful parts of the LCT of the board.
1548 static int adpt_i2o_install_device(adpt_hba
* pHba
, struct i2o_device
*d
)
1550 mutex_lock(&adpt_configuration_lock
);
1553 d
->next
=pHba
->devices
;
1555 if (pHba
->devices
!= NULL
){
1556 pHba
->devices
->prev
=d
;
1561 mutex_unlock(&adpt_configuration_lock
);
1565 static int adpt_open(struct inode
*inode
, struct file
*file
)
1570 //TODO check for root access
1572 minor
= iminor(inode
);
1573 if (minor
>= hba_count
) {
1576 mutex_lock(&adpt_configuration_lock
);
1577 for (pHba
= hba_chain
; pHba
; pHba
= pHba
->next
) {
1578 if (pHba
->unit
== minor
) {
1579 break; /* found adapter */
1583 mutex_unlock(&adpt_configuration_lock
);
1587 // if(pHba->in_use){
1588 // mutex_unlock(&adpt_configuration_lock);
1593 mutex_unlock(&adpt_configuration_lock
);
1598 static int adpt_close(struct inode
*inode
, struct file
*file
)
1603 minor
= iminor(inode
);
1604 if (minor
>= hba_count
) {
1607 mutex_lock(&adpt_configuration_lock
);
1608 for (pHba
= hba_chain
; pHba
; pHba
= pHba
->next
) {
1609 if (pHba
->unit
== minor
) {
1610 break; /* found adapter */
1613 mutex_unlock(&adpt_configuration_lock
);
1624 static int adpt_i2o_passthru(adpt_hba
* pHba
, u32 __user
*arg
)
1626 u32 msg
[MAX_MESSAGE_SIZE
];
1630 u32 __user
*user_msg
= arg
;
1631 u32 __user
* user_reply
= NULL
;
1632 void *sg_list
[pHba
->sg_tablesize
];
1641 memset(&msg
, 0, MAX_MESSAGE_SIZE
*4);
1642 // get user msg size in u32s
1643 if(get_user(size
, &user_msg
[0])){
1648 user_reply
= &user_msg
[size
];
1649 if(size
> MAX_MESSAGE_SIZE
){
1652 size
*= 4; // Convert to bytes
1654 /* Copy in the user's I2O command */
1655 if(copy_from_user(msg
, user_msg
, size
)) {
1658 get_user(reply_size
, &user_reply
[0]);
1659 reply_size
= reply_size
>>16;
1660 if(reply_size
> REPLY_FRAME_SIZE
){
1661 reply_size
= REPLY_FRAME_SIZE
;
1664 reply
= kzalloc(REPLY_FRAME_SIZE
*4, GFP_KERNEL
);
1666 printk(KERN_WARNING
"%s: Could not allocate reply buffer\n",pHba
->name
);
1669 sg_offset
= (msg
[0]>>4)&0xf;
1670 msg
[2] = 0x40000000; // IOCTL context
1671 msg
[3] = (u32
)reply
;
1672 memset(sg_list
,0, sizeof(sg_list
[0])*pHba
->sg_tablesize
);
1675 struct sg_simple_element
*sg
= (struct sg_simple_element
*) (msg
+sg_offset
);
1676 sg_count
= (size
- sg_offset
*4) / sizeof(struct sg_simple_element
);
1677 if (sg_count
> pHba
->sg_tablesize
){
1678 printk(KERN_DEBUG
"%s:IOCTL SG List too large (%u)\n", pHba
->name
,sg_count
);
1683 for(i
= 0; i
< sg_count
; i
++) {
1686 if (!(sg
[i
].flag_count
& 0x10000000 /*I2O_SGL_FLAGS_SIMPLE_ADDRESS_ELEMENT*/)) {
1687 printk(KERN_DEBUG
"%s:Bad SG element %d - not simple (%x)\n",pHba
->name
,i
, sg
[i
].flag_count
);
1691 sg_size
= sg
[i
].flag_count
& 0xffffff;
1692 /* Allocate memory for the transfer */
1693 p
= kmalloc(sg_size
, GFP_KERNEL
|ADDR32
);
1695 printk(KERN_DEBUG
"%s: Could not allocate SG buffer - size = %d buffer number %d of %d\n",
1696 pHba
->name
,sg_size
,i
,sg_count
);
1700 sg_list
[sg_index
++] = p
; // sglist indexed with input frame, not our internal frame.
1701 /* Copy in the user's SG buffer if necessary */
1702 if(sg
[i
].flag_count
& 0x04000000 /*I2O_SGL_FLAGS_DIR*/) {
1704 if (copy_from_user(p
,(void __user
*)sg
[i
].addr_bus
, sg_size
)) {
1705 printk(KERN_DEBUG
"%s: Could not copy SG buf %d FROM user\n",pHba
->name
,i
);
1711 sg
[i
].addr_bus
= (u32
)virt_to_bus(p
);
1717 spin_lock_irqsave(pHba
->host
->host_lock
, flags
);
1718 // This state stops any new commands from enterring the
1719 // controller while processing the ioctl
1720 // pHba->state |= DPTI_STATE_IOCTL;
1721 // We can't set this now - The scsi subsystem sets host_blocked and
1722 // the queue empties and stops. We need a way to restart the queue
1723 rcode
= adpt_i2o_post_wait(pHba
, msg
, size
, FOREVER
);
1725 printk("adpt_i2o_passthru: post wait failed %d %p\n",
1727 // pHba->state &= ~DPTI_STATE_IOCTL;
1729 spin_unlock_irqrestore(pHba
->host
->host_lock
, flags
);
1730 } while(rcode
== -ETIMEDOUT
);
1737 /* Copy back the Scatter Gather buffers back to user space */
1740 struct sg_simple_element
* sg
;
1743 // re-acquire the original message to handle correctly the sg copy operation
1744 memset(&msg
, 0, MAX_MESSAGE_SIZE
*4);
1745 // get user msg size in u32s
1746 if(get_user(size
, &user_msg
[0])){
1752 /* Copy in the user's I2O command */
1753 if (copy_from_user (msg
, user_msg
, size
)) {
1757 sg_count
= (size
- sg_offset
*4) / sizeof(struct sg_simple_element
);
1760 sg
= (struct sg_simple_element
*)(msg
+ sg_offset
);
1761 for (j
= 0; j
< sg_count
; j
++) {
1762 /* Copy out the SG list to user's buffer if necessary */
1763 if(! (sg
[j
].flag_count
& 0x4000000 /*I2O_SGL_FLAGS_DIR*/)) {
1764 sg_size
= sg
[j
].flag_count
& 0xffffff;
1766 if (copy_to_user((void __user
*)sg
[j
].addr_bus
,sg_list
[j
], sg_size
)) {
1767 printk(KERN_WARNING
"%s: Could not copy %p TO user %x\n",pHba
->name
, sg_list
[j
], sg
[j
].addr_bus
);
1775 /* Copy back the reply to user space */
1777 // we wrote our own values for context - now restore the user supplied ones
1778 if(copy_from_user(reply
+2, user_msg
+2, sizeof(u32
)*2)) {
1779 printk(KERN_WARNING
"%s: Could not copy message context FROM user\n",pHba
->name
);
1782 if(copy_to_user(user_reply
, reply
, reply_size
)) {
1783 printk(KERN_WARNING
"%s: Could not copy reply TO user\n",pHba
->name
);
1790 if (rcode
!= -ETIME
&& rcode
!= -EINTR
)
1793 if(sg_list
[--sg_index
]) {
1794 if (rcode
!= -ETIME
&& rcode
!= -EINTR
)
1795 kfree(sg_list
[sg_index
]);
1803 * This routine returns information about the system. This does not effect
1804 * any logic and if the info is wrong - it doesn't matter.
1807 /* Get all the info we can not get from kernel services */
1808 static int adpt_system_info(void __user
*buffer
)
1812 memset(&si
, 0, sizeof(si
));
1814 si
.osType
= OS_LINUX
;
1815 si
.osMajorVersion
= 0;
1816 si
.osMinorVersion
= 0;
1818 si
.busType
= SI_PCI_BUS
;
1819 si
.processorFamily
= DPTI_sig
.dsProcessorFamily
;
1821 #if defined __i386__
1822 adpt_i386_info(&si
);
1823 #elif defined (__ia64__)
1824 adpt_ia64_info(&si
);
1825 #elif defined(__sparc__)
1826 adpt_sparc_info(&si
);
1827 #elif defined (__alpha__)
1828 adpt_alpha_info(&si
);
1830 si
.processorType
= 0xff ;
1832 if(copy_to_user(buffer
, &si
, sizeof(si
))){
1833 printk(KERN_WARNING
"dpti: Could not copy buffer TO user\n");
1840 #if defined __ia64__
1841 static void adpt_ia64_info(sysInfo_S
* si
)
1843 // This is all the info we need for now
1844 // We will add more info as our new
1845 // managmenent utility requires it
1846 si
->processorType
= PROC_IA64
;
1851 #if defined __sparc__
1852 static void adpt_sparc_info(sysInfo_S
* si
)
1854 // This is all the info we need for now
1855 // We will add more info as our new
1856 // managmenent utility requires it
1857 si
->processorType
= PROC_ULTRASPARC
;
1861 #if defined __alpha__
1862 static void adpt_alpha_info(sysInfo_S
* si
)
1864 // This is all the info we need for now
1865 // We will add more info as our new
1866 // managmenent utility requires it
1867 si
->processorType
= PROC_ALPHA
;
1871 #if defined __i386__
1873 static void adpt_i386_info(sysInfo_S
* si
)
1875 // This is all the info we need for now
1876 // We will add more info as our new
1877 // managmenent utility requires it
1878 switch (boot_cpu_data
.x86
) {
1880 si
->processorType
= PROC_386
;
1883 si
->processorType
= PROC_486
;
1886 si
->processorType
= PROC_PENTIUM
;
1888 default: // Just in case
1889 si
->processorType
= PROC_PENTIUM
;
1897 static int adpt_ioctl(struct inode
*inode
, struct file
*file
, uint cmd
,
1904 void __user
*argp
= (void __user
*)arg
;
1906 minor
= iminor(inode
);
1907 if (minor
>= DPTI_MAX_HBA
){
1910 mutex_lock(&adpt_configuration_lock
);
1911 for (pHba
= hba_chain
; pHba
; pHba
= pHba
->next
) {
1912 if (pHba
->unit
== minor
) {
1913 break; /* found adapter */
1916 mutex_unlock(&adpt_configuration_lock
);
1921 while((volatile u32
) pHba
->state
& DPTI_STATE_RESET
)
1922 schedule_timeout_uninterruptible(2);
1925 // TODO: handle 3 cases
1927 if (copy_to_user(argp
, &DPTI_sig
, sizeof(DPTI_sig
))) {
1932 return adpt_i2o_passthru(pHba
, argp
);
1935 drvrHBAinfo_S HbaInfo
;
1937 #define FLG_OSD_PCI_VALID 0x0001
1938 #define FLG_OSD_DMA 0x0002
1939 #define FLG_OSD_I2O 0x0004
1940 memset(&HbaInfo
, 0, sizeof(HbaInfo
));
1941 HbaInfo
.drvrHBAnum
= pHba
->unit
;
1942 HbaInfo
.baseAddr
= (ulong
) pHba
->base_addr_phys
;
1943 HbaInfo
.blinkState
= adpt_read_blink_led(pHba
);
1944 HbaInfo
.pciBusNum
= pHba
->pDev
->bus
->number
;
1945 HbaInfo
.pciDeviceNum
=PCI_SLOT(pHba
->pDev
->devfn
);
1946 HbaInfo
.Interrupt
= pHba
->pDev
->irq
;
1947 HbaInfo
.hbaFlags
= FLG_OSD_PCI_VALID
| FLG_OSD_DMA
| FLG_OSD_I2O
;
1948 if(copy_to_user(argp
, &HbaInfo
, sizeof(HbaInfo
))){
1949 printk(KERN_WARNING
"%s: Could not copy HbaInfo TO user\n",pHba
->name
);
1955 return adpt_system_info(argp
);
1958 value
= (u32
)adpt_read_blink_led(pHba
);
1959 if (copy_to_user(argp
, &value
, sizeof(value
))) {
1966 spin_lock_irqsave(pHba
->host
->host_lock
, flags
);
1967 adpt_hba_reset(pHba
);
1969 spin_unlock_irqrestore(pHba
->host
->host_lock
, flags
);
1982 static irqreturn_t
adpt_isr(int irq
, void *dev_id
)
1984 struct scsi_cmnd
* cmd
;
1985 adpt_hba
* pHba
= dev_id
;
1987 void __iomem
*reply
;
1994 printk(KERN_WARNING
"adpt_isr: NULL dev_id\n");
1998 spin_lock_irqsave(pHba
->host
->host_lock
, flags
);
2000 while( readl(pHba
->irq_mask
) & I2O_INTERRUPT_PENDING_B
) {
2001 m
= readl(pHba
->reply_port
);
2002 if(m
== EMPTY_QUEUE
){
2003 // Try twice then give up
2005 m
= readl(pHba
->reply_port
);
2006 if(m
== EMPTY_QUEUE
){
2007 // This really should not happen
2008 printk(KERN_ERR
"dpti: Could not get reply frame\n");
2012 reply
= bus_to_virt(m
);
2014 if (readl(reply
) & MSG_FAIL
) {
2015 u32 old_m
= readl(reply
+28);
2018 PDEBUG("%s: Failed message\n",pHba
->name
);
2019 if(old_m
>= 0x100000){
2020 printk(KERN_ERR
"%s: Bad preserved MFA (%x)- dropping frame\n",pHba
->name
,old_m
);
2021 writel(m
,pHba
->reply_port
);
2024 // Transaction context is 0 in failed reply frame
2025 msg
= pHba
->msg_addr_virt
+ old_m
;
2026 old_context
= readl(msg
+12);
2027 writel(old_context
, reply
+12);
2028 adpt_send_nop(pHba
, old_m
);
2030 context
= readl(reply
+8);
2031 if(context
& 0x40000000){ // IOCTL
2032 void *p
= (void *)readl(reply
+12);
2034 memcpy_fromio(p
, reply
, REPLY_FRAME_SIZE
* 4);
2036 // All IOCTLs will also be post wait
2038 if(context
& 0x80000000){ // Post wait message
2039 status
= readl(reply
+16);
2041 status
&= 0xffff; /* Get detail status */
2043 status
= I2O_POST_WAIT_OK
;
2045 if(!(context
& 0x40000000)) {
2046 cmd
= (struct scsi_cmnd
*) readl(reply
+12);
2048 printk(KERN_WARNING
"%s: Apparent SCSI cmd in Post Wait Context - cmd=%p context=%x\n", pHba
->name
, cmd
, context
);
2051 adpt_i2o_post_wait_complete(context
, status
);
2052 } else { // SCSI message
2053 cmd
= (struct scsi_cmnd
*) readl(reply
+12);
2055 if(cmd
->serial_number
!= 0) { // If not timedout
2056 adpt_i2o_to_scsi(reply
, cmd
);
2060 writel(m
, pHba
->reply_port
);
2066 spin_unlock_irqrestore(pHba
->host
->host_lock
, flags
);
2067 return IRQ_RETVAL(handled
);
2070 static s32
adpt_scsi_to_i2o(adpt_hba
* pHba
, struct scsi_cmnd
* cmd
, struct adpt_device
* d
)
2073 u32 msg
[MAX_MESSAGE_SIZE
];
2083 memset(msg
, 0 , sizeof(msg
));
2084 len
= scsi_bufflen(cmd
);
2085 direction
= 0x00000000;
2087 scsidir
= 0x00000000; // DATA NO XFER
2090 * Set SCBFlags to indicate if data is being transferred
2091 * in or out, or no data transfer
2092 * Note: Do not have to verify index is less than 0 since
2093 * cmd->cmnd[0] is an unsigned char
2095 switch(cmd
->sc_data_direction
){
2096 case DMA_FROM_DEVICE
:
2097 scsidir
=0x40000000; // DATA IN (iop<--dev)
2100 direction
=0x04000000; // SGL OUT
2101 scsidir
=0x80000000; // DATA OUT (iop-->dev)
2105 case DMA_BIDIRECTIONAL
:
2106 scsidir
=0x40000000; // DATA IN (iop<--dev)
2107 // Assume In - and continue;
2110 printk(KERN_WARNING
"%s: scsi opcode 0x%x not supported.\n",
2111 pHba
->name
, cmd
->cmnd
[0]);
2112 cmd
->result
= (DID_OK
<<16) | (INITIATOR_ERROR
<< 8);
2113 cmd
->scsi_done(cmd
);
2117 // msg[0] is set later
2118 // I2O_CMD_SCSI_EXEC
2119 msg
[1] = ((0xff<<24)|(HOST_TID
<<12)|d
->tid
);
2121 msg
[3] = (u32
)cmd
; /* We want the SCSI control block back */
2122 // Our cards use the transaction context as the tag for queueing
2123 // Adaptec/DPT Private stuff
2124 msg
[4] = I2O_CMD_SCSI_EXEC
|(DPT_ORGANIZATION_ID
<<16);
2126 /* Direction, disconnect ok | sense data | simple queue , CDBLen */
2127 // I2O_SCB_FLAG_ENABLE_DISCONNECT |
2128 // I2O_SCB_FLAG_SIMPLE_QUEUE_TAG |
2129 // I2O_SCB_FLAG_SENSE_DATA_IN_MESSAGE;
2130 msg
[6] = scsidir
|0x20a00000|cmd
->cmd_len
;
2134 // Write SCSI command into the message - always 16 byte block
2135 memset(mptr
, 0, 16);
2136 memcpy(mptr
, cmd
->cmnd
, cmd
->cmd_len
);
2138 lenptr
=mptr
++; /* Remember me - fill in when we know */
2139 reqlen
= 14; // SINGLE SGE
2140 /* Now fill in the SGList and command */
2142 nseg
= scsi_dma_map(cmd
);
2145 struct scatterlist
*sg
;
2148 scsi_for_each_sg(cmd
, sg
, nseg
, i
) {
2149 *mptr
++ = direction
|0x10000000|sg_dma_len(sg
);
2150 len
+=sg_dma_len(sg
);
2151 *mptr
++ = sg_dma_address(sg
);
2152 /* Make this an end of list */
2154 mptr
[-2] = direction
|0xD0000000|sg_dma_len(sg
);
2156 reqlen
= mptr
- msg
;
2159 if(cmd
->underflow
&& len
!= cmd
->underflow
){
2160 printk(KERN_WARNING
"Cmd len %08X Cmd underflow %08X\n",
2161 len
, cmd
->underflow
);
2168 /* Stick the headers on */
2169 msg
[0] = reqlen
<<16 | ((reqlen
> 12) ? SGL_OFFSET_12
: SGL_OFFSET_0
);
2171 // Send it on it's way
2172 rcode
= adpt_i2o_post_this(pHba
, msg
, reqlen
<<2);
2180 static s32
adpt_scsi_register(adpt_hba
* pHba
,struct scsi_host_template
* sht
)
2182 struct Scsi_Host
*host
= NULL
;
2184 host
= scsi_register(sht
, sizeof(adpt_hba
*));
2186 printk ("%s: scsi_register returned NULL\n",pHba
->name
);
2189 host
->hostdata
[0] = (unsigned long)pHba
;
2192 host
->irq
= pHba
->pDev
->irq
;
2193 /* no IO ports, so don't have to set host->io_port and
2197 host
->n_io_port
= 0;
2198 /* see comments in scsi_host.h */
2200 host
->max_lun
= 256;
2201 host
->max_channel
= pHba
->top_scsi_channel
+ 1;
2202 host
->cmd_per_lun
= 1;
2203 host
->unique_id
= (uint
) pHba
;
2204 host
->sg_tablesize
= pHba
->sg_tablesize
;
2205 host
->can_queue
= pHba
->post_fifo_size
;
2211 static s32
adpt_i2o_to_scsi(void __iomem
*reply
, struct scsi_cmnd
* cmd
)
2216 u32 reply_flags
= readl(reply
) & 0xff00; // Leave it shifted up 8 bits
2217 // I know this would look cleaner if I just read bytes
2218 // but the model I have been using for all the rest of the
2219 // io is in 4 byte words - so I keep that model
2220 u16 detailed_status
= readl(reply
+16) &0xffff;
2221 dev_status
= (detailed_status
& 0xff);
2222 hba_status
= detailed_status
>> 8;
2224 // calculate resid for sg
2225 scsi_set_resid(cmd
, scsi_bufflen(cmd
) - readl(reply
+5));
2227 pHba
= (adpt_hba
*) cmd
->device
->host
->hostdata
[0];
2229 cmd
->sense_buffer
[0] = '\0'; // initialize sense valid flag to false
2231 if(!(reply_flags
& MSG_FAIL
)) {
2232 switch(detailed_status
& I2O_SCSI_DSC_MASK
) {
2233 case I2O_SCSI_DSC_SUCCESS
:
2234 cmd
->result
= (DID_OK
<< 16);
2236 if(readl(reply
+5) < cmd
->underflow
) {
2237 cmd
->result
= (DID_ERROR
<<16);
2238 printk(KERN_WARNING
"%s: SCSI CMD underflow\n",pHba
->name
);
2241 case I2O_SCSI_DSC_REQUEST_ABORTED
:
2242 cmd
->result
= (DID_ABORT
<< 16);
2244 case I2O_SCSI_DSC_PATH_INVALID
:
2245 case I2O_SCSI_DSC_DEVICE_NOT_PRESENT
:
2246 case I2O_SCSI_DSC_SELECTION_TIMEOUT
:
2247 case I2O_SCSI_DSC_COMMAND_TIMEOUT
:
2248 case I2O_SCSI_DSC_NO_ADAPTER
:
2249 case I2O_SCSI_DSC_RESOURCE_UNAVAILABLE
:
2250 printk(KERN_WARNING
"%s: SCSI Timeout-Device (%d,%d,%d) hba status=0x%x, dev status=0x%x, cmd=0x%x\n",
2251 pHba
->name
, (u32
)cmd
->device
->channel
, (u32
)cmd
->device
->id
, (u32
)cmd
->device
->lun
, hba_status
, dev_status
, cmd
->cmnd
[0]);
2252 cmd
->result
= (DID_TIME_OUT
<< 16);
2254 case I2O_SCSI_DSC_ADAPTER_BUSY
:
2255 case I2O_SCSI_DSC_BUS_BUSY
:
2256 cmd
->result
= (DID_BUS_BUSY
<< 16);
2258 case I2O_SCSI_DSC_SCSI_BUS_RESET
:
2259 case I2O_SCSI_DSC_BDR_MESSAGE_SENT
:
2260 cmd
->result
= (DID_RESET
<< 16);
2262 case I2O_SCSI_DSC_PARITY_ERROR_FAILURE
:
2263 printk(KERN_WARNING
"%s: SCSI CMD parity error\n",pHba
->name
);
2264 cmd
->result
= (DID_PARITY
<< 16);
2266 case I2O_SCSI_DSC_UNABLE_TO_ABORT
:
2267 case I2O_SCSI_DSC_COMPLETE_WITH_ERROR
:
2268 case I2O_SCSI_DSC_UNABLE_TO_TERMINATE
:
2269 case I2O_SCSI_DSC_MR_MESSAGE_RECEIVED
:
2270 case I2O_SCSI_DSC_AUTOSENSE_FAILED
:
2271 case I2O_SCSI_DSC_DATA_OVERRUN
:
2272 case I2O_SCSI_DSC_UNEXPECTED_BUS_FREE
:
2273 case I2O_SCSI_DSC_SEQUENCE_FAILURE
:
2274 case I2O_SCSI_DSC_REQUEST_LENGTH_ERROR
:
2275 case I2O_SCSI_DSC_PROVIDE_FAILURE
:
2276 case I2O_SCSI_DSC_REQUEST_TERMINATED
:
2277 case I2O_SCSI_DSC_IDE_MESSAGE_SENT
:
2278 case I2O_SCSI_DSC_UNACKNOWLEDGED_EVENT
:
2279 case I2O_SCSI_DSC_MESSAGE_RECEIVED
:
2280 case I2O_SCSI_DSC_INVALID_CDB
:
2281 case I2O_SCSI_DSC_LUN_INVALID
:
2282 case I2O_SCSI_DSC_SCSI_TID_INVALID
:
2283 case I2O_SCSI_DSC_FUNCTION_UNAVAILABLE
:
2284 case I2O_SCSI_DSC_NO_NEXUS
:
2285 case I2O_SCSI_DSC_CDB_RECEIVED
:
2286 case I2O_SCSI_DSC_LUN_ALREADY_ENABLED
:
2287 case I2O_SCSI_DSC_QUEUE_FROZEN
:
2288 case I2O_SCSI_DSC_REQUEST_INVALID
:
2290 printk(KERN_WARNING
"%s: SCSI error %0x-Device(%d,%d,%d) hba_status=0x%x, dev_status=0x%x, cmd=0x%x\n",
2291 pHba
->name
, detailed_status
& I2O_SCSI_DSC_MASK
, (u32
)cmd
->device
->channel
, (u32
)cmd
->device
->id
, (u32
)cmd
->device
->lun
,
2292 hba_status
, dev_status
, cmd
->cmnd
[0]);
2293 cmd
->result
= (DID_ERROR
<< 16);
2297 // copy over the request sense data if it was a check
2299 if (dev_status
== SAM_STAT_CHECK_CONDITION
) {
2300 u32 len
= min(SCSI_SENSE_BUFFERSIZE
, 40);
2301 // Copy over the sense data
2302 memcpy_fromio(cmd
->sense_buffer
, (reply
+28) , len
);
2303 if(cmd
->sense_buffer
[0] == 0x70 /* class 7 */ &&
2304 cmd
->sense_buffer
[2] == DATA_PROTECT
){
2305 /* This is to handle an array failed */
2306 cmd
->result
= (DID_TIME_OUT
<< 16);
2307 printk(KERN_WARNING
"%s: SCSI Data Protect-Device (%d,%d,%d) hba_status=0x%x, dev_status=0x%x, cmd=0x%x\n",
2308 pHba
->name
, (u32
)cmd
->device
->channel
, (u32
)cmd
->device
->id
, (u32
)cmd
->device
->lun
,
2309 hba_status
, dev_status
, cmd
->cmnd
[0]);
2314 /* In this condtion we could not talk to the tid
2315 * the card rejected it. We should signal a retry
2316 * for a limitted number of retries.
2318 cmd
->result
= (DID_TIME_OUT
<< 16);
2319 printk(KERN_WARNING
"%s: I2O MSG_FAIL - Device (%d,%d,%d) tid=%d, cmd=0x%x\n",
2320 pHba
->name
, (u32
)cmd
->device
->channel
, (u32
)cmd
->device
->id
, (u32
)cmd
->device
->lun
,
2321 ((struct adpt_device
*)(cmd
->device
->hostdata
))->tid
, cmd
->cmnd
[0]);
2324 cmd
->result
|= (dev_status
);
2326 if(cmd
->scsi_done
!= NULL
){
2327 cmd
->scsi_done(cmd
);
2333 static s32
adpt_rescan(adpt_hba
* pHba
)
2339 spin_lock_irqsave(pHba
->host
->host_lock
, flags
);
2340 if ((rcode
=adpt_i2o_lct_get(pHba
)) < 0)
2342 if ((rcode
=adpt_i2o_reparse_lct(pHba
)) < 0)
2346 spin_unlock_irqrestore(pHba
->host
->host_lock
, flags
);
2351 static s32
adpt_i2o_reparse_lct(adpt_hba
* pHba
)
2356 struct i2o_device
*d
;
2357 i2o_lct
*lct
= pHba
->lct
;
2361 u32 buf
[10]; // at least 8 u32's
2362 struct adpt_device
* pDev
= NULL
;
2363 struct i2o_device
* pI2o_dev
= NULL
;
2366 printk(KERN_ERR
"%s: LCT is empty???\n",pHba
->name
);
2370 max
= lct
->table_size
;
2374 // Mark each drive as unscanned
2375 for (d
= pHba
->devices
; d
; d
= d
->next
) {
2376 pDev
=(struct adpt_device
*) d
->owner
;
2380 pDev
->state
|= DPTI_DEV_UNSCANNED
;
2383 printk(KERN_INFO
"%s: LCT has %d entries.\n", pHba
->name
,max
);
2385 for(i
=0;i
<max
;i
++) {
2386 if( lct
->lct_entry
[i
].user_tid
!= 0xfff){
2390 if( lct
->lct_entry
[i
].class_id
== I2O_CLASS_RANDOM_BLOCK_STORAGE
||
2391 lct
->lct_entry
[i
].class_id
== I2O_CLASS_SCSI_PERIPHERAL
||
2392 lct
->lct_entry
[i
].class_id
== I2O_CLASS_FIBRE_CHANNEL_PERIPHERAL
){
2393 tid
= lct
->lct_entry
[i
].tid
;
2394 if(adpt_i2o_query_scalar(pHba
, tid
, 0x8000, -1, buf
, 32)<0) {
2395 printk(KERN_ERR
"%s: Could not query device\n",pHba
->name
);
2398 bus_no
= buf
[0]>>16;
2400 scsi_lun
= (buf
[2]>>8 )&0xff;
2401 pDev
= pHba
->channel
[bus_no
].device
[scsi_id
];
2404 if(pDev
->scsi_lun
== scsi_lun
) {
2407 pDev
= pDev
->next_lun
;
2409 if(!pDev
) { // Something new add it
2410 d
= kmalloc(sizeof(struct i2o_device
), GFP_KERNEL
);
2413 printk(KERN_CRIT
"Out of memory for I2O device data.\n");
2417 d
->controller
= pHba
;
2420 memcpy(&d
->lct_data
, &lct
->lct_entry
[i
], sizeof(i2o_lct_entry
));
2423 adpt_i2o_report_hba_unit(pHba
, d
);
2424 adpt_i2o_install_device(pHba
, d
);
2426 if(bus_no
>= MAX_CHANNEL
) { // Something wrong skip it
2427 printk(KERN_WARNING
"%s: Channel number %d out of range \n", pHba
->name
, bus_no
);
2430 pDev
= pHba
->channel
[bus_no
].device
[scsi_id
];
2432 pDev
= kzalloc(sizeof(struct adpt_device
),GFP_KERNEL
);
2436 pHba
->channel
[bus_no
].device
[scsi_id
] = pDev
;
2438 while (pDev
->next_lun
) {
2439 pDev
= pDev
->next_lun
;
2441 pDev
= pDev
->next_lun
= kzalloc(sizeof(struct adpt_device
),GFP_KERNEL
);
2446 pDev
->tid
= d
->lct_data
.tid
;
2447 pDev
->scsi_channel
= bus_no
;
2448 pDev
->scsi_id
= scsi_id
;
2449 pDev
->scsi_lun
= scsi_lun
;
2452 pDev
->type
= (buf
[0])&0xff;
2453 pDev
->flags
= (buf
[0]>>8)&0xff;
2454 // Too late, SCSI system has made up it's mind, but what the hey ...
2455 if(scsi_id
> pHba
->top_scsi_id
){
2456 pHba
->top_scsi_id
= scsi_id
;
2458 if(scsi_lun
> pHba
->top_scsi_lun
){
2459 pHba
->top_scsi_lun
= scsi_lun
;
2462 } // end of new i2o device
2464 // We found an old device - check it
2466 if(pDev
->scsi_lun
== scsi_lun
) {
2467 if(!scsi_device_online(pDev
->pScsi_dev
)) {
2468 printk(KERN_WARNING
"%s: Setting device (%d,%d,%d) back online\n",
2469 pHba
->name
,bus_no
,scsi_id
,scsi_lun
);
2470 if (pDev
->pScsi_dev
) {
2471 scsi_device_set_state(pDev
->pScsi_dev
, SDEV_RUNNING
);
2475 if(d
->lct_data
.tid
!= tid
) { // something changed
2477 memcpy(&d
->lct_data
, &lct
->lct_entry
[i
], sizeof(i2o_lct_entry
));
2478 if (pDev
->pScsi_dev
) {
2479 pDev
->pScsi_dev
->changed
= TRUE
;
2480 pDev
->pScsi_dev
->removable
= TRUE
;
2483 // Found it - mark it scanned
2484 pDev
->state
= DPTI_DEV_ONLINE
;
2487 pDev
= pDev
->next_lun
;
2491 for (pI2o_dev
= pHba
->devices
; pI2o_dev
; pI2o_dev
= pI2o_dev
->next
) {
2492 pDev
=(struct adpt_device
*) pI2o_dev
->owner
;
2496 // Drive offline drives that previously existed but could not be found
2498 if (pDev
->state
& DPTI_DEV_UNSCANNED
){
2499 pDev
->state
= DPTI_DEV_OFFLINE
;
2500 printk(KERN_WARNING
"%s: Device (%d,%d,%d) offline\n",pHba
->name
,pDev
->scsi_channel
,pDev
->scsi_id
,pDev
->scsi_lun
);
2501 if (pDev
->pScsi_dev
) {
2502 scsi_device_set_state(pDev
->pScsi_dev
, SDEV_OFFLINE
);
2509 static void adpt_fail_posted_scbs(adpt_hba
* pHba
)
2511 struct scsi_cmnd
* cmd
= NULL
;
2512 struct scsi_device
* d
= NULL
;
2514 shost_for_each_device(d
, pHba
->host
) {
2515 unsigned long flags
;
2516 spin_lock_irqsave(&d
->list_lock
, flags
);
2517 list_for_each_entry(cmd
, &d
->cmd_list
, list
) {
2518 if(cmd
->serial_number
== 0){
2521 cmd
->result
= (DID_OK
<< 16) | (QUEUE_FULL
<<1);
2522 cmd
->scsi_done(cmd
);
2524 spin_unlock_irqrestore(&d
->list_lock
, flags
);
2529 /*============================================================================
2530 * Routines from i2o subsystem
2531 *============================================================================
2537 * Bring an I2O controller into HOLD state. See the spec.
2539 static int adpt_i2o_activate_hba(adpt_hba
* pHba
)
2543 if(pHba
->initialized
) {
2544 if (adpt_i2o_status_get(pHba
) < 0) {
2545 if((rcode
= adpt_i2o_reset_hba(pHba
)) != 0){
2546 printk(KERN_WARNING
"%s: Could NOT reset.\n", pHba
->name
);
2549 if (adpt_i2o_status_get(pHba
) < 0) {
2550 printk(KERN_INFO
"HBA not responding.\n");
2555 if(pHba
->status_block
->iop_state
== ADAPTER_STATE_FAULTED
) {
2556 printk(KERN_CRIT
"%s: hardware fault\n", pHba
->name
);
2560 if (pHba
->status_block
->iop_state
== ADAPTER_STATE_READY
||
2561 pHba
->status_block
->iop_state
== ADAPTER_STATE_OPERATIONAL
||
2562 pHba
->status_block
->iop_state
== ADAPTER_STATE_HOLD
||
2563 pHba
->status_block
->iop_state
== ADAPTER_STATE_FAILED
) {
2564 adpt_i2o_reset_hba(pHba
);
2565 if (adpt_i2o_status_get(pHba
) < 0 || pHba
->status_block
->iop_state
!= ADAPTER_STATE_RESET
) {
2566 printk(KERN_ERR
"%s: Failed to initialize.\n", pHba
->name
);
2571 if((rcode
= adpt_i2o_reset_hba(pHba
)) != 0){
2572 printk(KERN_WARNING
"%s: Could NOT reset.\n", pHba
->name
);
2578 if (adpt_i2o_init_outbound_q(pHba
) < 0) {
2584 if (adpt_i2o_hrt_get(pHba
) < 0) {
2592 * Bring a controller online into OPERATIONAL state.
2595 static int adpt_i2o_online_hba(adpt_hba
* pHba
)
2597 if (adpt_i2o_systab_send(pHba
) < 0) {
2598 adpt_i2o_delete_hba(pHba
);
2601 /* In READY state */
2603 if (adpt_i2o_enable_hba(pHba
) < 0) {
2604 adpt_i2o_delete_hba(pHba
);
2608 /* In OPERATIONAL state */
2612 static s32
adpt_send_nop(adpt_hba
*pHba
,u32 m
)
2615 ulong timeout
= jiffies
+ 5*HZ
;
2617 while(m
== EMPTY_QUEUE
){
2619 m
= readl(pHba
->post_port
);
2620 if(m
!= EMPTY_QUEUE
){
2623 if(time_after(jiffies
,timeout
)){
2624 printk(KERN_ERR
"%s: Timeout waiting for message frame!\n",pHba
->name
);
2627 schedule_timeout_uninterruptible(1);
2629 msg
= (u32 __iomem
*)(pHba
->msg_addr_virt
+ m
);
2630 writel( THREE_WORD_MSG_SIZE
| SGL_OFFSET_0
,&msg
[0]);
2631 writel( I2O_CMD_UTIL_NOP
<< 24 | HOST_TID
<< 12 | 0,&msg
[1]);
2635 writel(m
, pHba
->post_port
);
2640 static s32
adpt_i2o_init_outbound_q(adpt_hba
* pHba
)
2643 u32 __iomem
*msg
= NULL
;
2645 ulong timeout
= jiffies
+ TMOUT_INITOUTBOUND
*HZ
;
2647 u32 outbound_frame
; // This had to be a 32 bit address
2652 m
= readl(pHba
->post_port
);
2653 if (m
!= EMPTY_QUEUE
) {
2657 if(time_after(jiffies
,timeout
)){
2658 printk(KERN_WARNING
"%s: Timeout waiting for message frame\n",pHba
->name
);
2661 schedule_timeout_uninterruptible(1);
2662 } while(m
== EMPTY_QUEUE
);
2664 msg
=(u32 __iomem
*)(pHba
->msg_addr_virt
+m
);
2666 status
= kzalloc(4, GFP_KERNEL
|ADDR32
);
2668 adpt_send_nop(pHba
, m
);
2669 printk(KERN_WARNING
"%s: IOP reset failed - no free memory.\n",
2674 writel(EIGHT_WORD_MSG_SIZE
| SGL_OFFSET_6
, &msg
[0]);
2675 writel(I2O_CMD_OUTBOUND_INIT
<<24 | HOST_TID
<<12 | ADAPTER_TID
, &msg
[1]);
2677 writel(0x0106, &msg
[3]); /* Transaction context */
2678 writel(4096, &msg
[4]); /* Host page frame size */
2679 writel((REPLY_FRAME_SIZE
)<<16|0x80, &msg
[5]); /* Outbound msg frame size and Initcode */
2680 writel(0xD0000004, &msg
[6]); /* Simple SG LE, EOB */
2681 writel(virt_to_bus(status
), &msg
[7]);
2683 writel(m
, pHba
->post_port
);
2686 // Wait for the reply status to come back
2689 if (*status
!= 0x01 /*I2O_EXEC_OUTBOUND_INIT_IN_PROGRESS*/) {
2694 if(time_after(jiffies
,timeout
)){
2695 printk(KERN_WARNING
"%s: Timeout Initializing\n",pHba
->name
);
2698 schedule_timeout_uninterruptible(1);
2701 // If the command was successful, fill the fifo with our reply
2703 if(*status
!= 0x04 /*I2O_EXEC_OUTBOUND_INIT_COMPLETE*/) {
2709 kfree(pHba
->reply_pool
);
2711 pHba
->reply_pool
= kzalloc(pHba
->reply_fifo_size
* REPLY_FRAME_SIZE
* 4, GFP_KERNEL
|ADDR32
);
2712 if (!pHba
->reply_pool
) {
2713 printk(KERN_ERR
"%s: Could not allocate reply pool\n", pHba
->name
);
2717 ptr
= pHba
->reply_pool
;
2718 for(i
= 0; i
< pHba
->reply_fifo_size
; i
++) {
2719 outbound_frame
= (u32
)virt_to_bus(ptr
);
2720 writel(outbound_frame
, pHba
->reply_port
);
2722 ptr
+= REPLY_FRAME_SIZE
;
2724 adpt_i2o_status_get(pHba
);
2730 * I2O System Table. Contains information about
2731 * all the IOPs in the system. Used to inform IOPs
2732 * about each other's existence.
2734 * sys_tbl_ver is the CurrentChangeIndicator that is
2735 * used by IOPs to track changes.
2740 static s32
adpt_i2o_status_get(adpt_hba
* pHba
)
2745 u8
*status_block
=NULL
;
2746 ulong status_block_bus
;
2748 if(pHba
->status_block
== NULL
) {
2749 pHba
->status_block
= (i2o_status_block
*)
2750 kmalloc(sizeof(i2o_status_block
),GFP_KERNEL
|ADDR32
);
2751 if(pHba
->status_block
== NULL
) {
2753 "dpti%d: Get Status Block failed; Out of memory. \n",
2758 memset(pHba
->status_block
, 0, sizeof(i2o_status_block
));
2759 status_block
= (u8
*)(pHba
->status_block
);
2760 status_block_bus
= virt_to_bus(pHba
->status_block
);
2761 timeout
= jiffies
+TMOUT_GETSTATUS
*HZ
;
2764 m
= readl(pHba
->post_port
);
2765 if (m
!= EMPTY_QUEUE
) {
2768 if(time_after(jiffies
,timeout
)){
2769 printk(KERN_ERR
"%s: Timeout waiting for message !\n",
2773 schedule_timeout_uninterruptible(1);
2774 } while(m
==EMPTY_QUEUE
);
2777 msg
=(u32 __iomem
*)(pHba
->msg_addr_virt
+m
);
2779 writel(NINE_WORD_MSG_SIZE
|SGL_OFFSET_0
, &msg
[0]);
2780 writel(I2O_CMD_STATUS_GET
<<24|HOST_TID
<<12|ADAPTER_TID
, &msg
[1]);
2785 writel(((u32
)status_block_bus
)&0xffffffff, &msg
[6]);
2787 writel(sizeof(i2o_status_block
), &msg
[8]); // 88 bytes
2790 writel(m
, pHba
->post_port
);
2793 while(status_block
[87]!=0xff){
2794 if(time_after(jiffies
,timeout
)){
2795 printk(KERN_ERR
"dpti%d: Get status timeout.\n",
2800 schedule_timeout_uninterruptible(1);
2803 // Set up our number of outbound and inbound messages
2804 pHba
->post_fifo_size
= pHba
->status_block
->max_inbound_frames
;
2805 if (pHba
->post_fifo_size
> MAX_TO_IOP_MESSAGES
) {
2806 pHba
->post_fifo_size
= MAX_TO_IOP_MESSAGES
;
2809 pHba
->reply_fifo_size
= pHba
->status_block
->max_outbound_frames
;
2810 if (pHba
->reply_fifo_size
> MAX_FROM_IOP_MESSAGES
) {
2811 pHba
->reply_fifo_size
= MAX_FROM_IOP_MESSAGES
;
2814 // Calculate the Scatter Gather list size
2815 pHba
->sg_tablesize
= (pHba
->status_block
->inbound_frame_size
* 4 -40)/ sizeof(struct sg_simple_element
);
2816 if (pHba
->sg_tablesize
> SG_LIST_ELEMENTS
) {
2817 pHba
->sg_tablesize
= SG_LIST_ELEMENTS
;
2822 printk("dpti%d: State = ",pHba
->unit
);
2823 switch(pHba
->status_block
->iop_state
) {
2837 printk("OPERATIONAL\n");
2843 printk("FAULTED\n");
2846 printk("%x (unknown!!)\n",pHba
->status_block
->iop_state
);
2853 * Get the IOP's Logical Configuration Table
2855 static int adpt_i2o_lct_get(adpt_hba
* pHba
)
2861 if ((pHba
->lct_size
== 0) || (pHba
->lct
== NULL
)){
2862 pHba
->lct_size
= pHba
->status_block
->expected_lct_size
;
2865 if (pHba
->lct
== NULL
) {
2866 pHba
->lct
= kmalloc(pHba
->lct_size
, GFP_KERNEL
|ADDR32
);
2867 if(pHba
->lct
== NULL
) {
2868 printk(KERN_CRIT
"%s: Lct Get failed. Out of memory.\n",
2873 memset(pHba
->lct
, 0, pHba
->lct_size
);
2875 msg
[0] = EIGHT_WORD_MSG_SIZE
|SGL_OFFSET_6
;
2876 msg
[1] = I2O_CMD_LCT_NOTIFY
<<24 | HOST_TID
<<12 | ADAPTER_TID
;
2879 msg
[4] = 0xFFFFFFFF; /* All devices */
2880 msg
[5] = 0x00000000; /* Report now */
2881 msg
[6] = 0xD0000000|pHba
->lct_size
;
2882 msg
[7] = virt_to_bus(pHba
->lct
);
2884 if ((ret
=adpt_i2o_post_wait(pHba
, msg
, sizeof(msg
), 360))) {
2885 printk(KERN_ERR
"%s: LCT Get failed (status=%#10x.\n",
2887 printk(KERN_ERR
"Adaptec: Error Reading Hardware.\n");
2891 if ((pHba
->lct
->table_size
<< 2) > pHba
->lct_size
) {
2892 pHba
->lct_size
= pHba
->lct
->table_size
<< 2;
2896 } while (pHba
->lct
== NULL
);
2898 PDEBUG("%s: Hardware resource table read.\n", pHba
->name
);
2901 // I2O_DPT_EXEC_IOP_BUFFERS_GROUP_NO;
2902 if(adpt_i2o_query_scalar(pHba
, 0 , 0x8000, -1, buf
, sizeof(buf
))>=0) {
2903 pHba
->FwDebugBufferSize
= buf
[1];
2904 pHba
->FwDebugBuffer_P
= pHba
->base_addr_virt
+ buf
[0];
2905 pHba
->FwDebugFlags_P
= pHba
->FwDebugBuffer_P
+ FW_DEBUG_FLAGS_OFFSET
;
2906 pHba
->FwDebugBLEDvalue_P
= pHba
->FwDebugBuffer_P
+ FW_DEBUG_BLED_OFFSET
;
2907 pHba
->FwDebugBLEDflag_P
= pHba
->FwDebugBLEDvalue_P
+ 1;
2908 pHba
->FwDebugStrLength_P
= pHba
->FwDebugBuffer_P
+ FW_DEBUG_STR_LENGTH_OFFSET
;
2909 pHba
->FwDebugBuffer_P
+= buf
[2];
2910 pHba
->FwDebugFlags
= 0;
2916 static int adpt_i2o_build_sys_table(void)
2918 adpt_hba
* pHba
= NULL
;
2921 sys_tbl_len
= sizeof(struct i2o_sys_tbl
) + // Header + IOPs
2922 (hba_count
) * sizeof(struct i2o_sys_tbl_entry
);
2926 sys_tbl
= kzalloc(sys_tbl_len
, GFP_KERNEL
|ADDR32
);
2928 printk(KERN_WARNING
"SysTab Set failed. Out of memory.\n");
2932 sys_tbl
->num_entries
= hba_count
;
2933 sys_tbl
->version
= I2OVERSION
;
2934 sys_tbl
->change_ind
= sys_tbl_ind
++;
2936 for(pHba
= hba_chain
; pHba
; pHba
= pHba
->next
) {
2937 // Get updated Status Block so we have the latest information
2938 if (adpt_i2o_status_get(pHba
)) {
2939 sys_tbl
->num_entries
--;
2940 continue; // try next one
2943 sys_tbl
->iops
[count
].org_id
= pHba
->status_block
->org_id
;
2944 sys_tbl
->iops
[count
].iop_id
= pHba
->unit
+ 2;
2945 sys_tbl
->iops
[count
].seg_num
= 0;
2946 sys_tbl
->iops
[count
].i2o_version
= pHba
->status_block
->i2o_version
;
2947 sys_tbl
->iops
[count
].iop_state
= pHba
->status_block
->iop_state
;
2948 sys_tbl
->iops
[count
].msg_type
= pHba
->status_block
->msg_type
;
2949 sys_tbl
->iops
[count
].frame_size
= pHba
->status_block
->inbound_frame_size
;
2950 sys_tbl
->iops
[count
].last_changed
= sys_tbl_ind
- 1; // ??
2951 sys_tbl
->iops
[count
].iop_capabilities
= pHba
->status_block
->iop_capabilities
;
2952 sys_tbl
->iops
[count
].inbound_low
= (u32
)virt_to_bus(pHba
->post_port
);
2953 sys_tbl
->iops
[count
].inbound_high
= (u32
)((u64
)virt_to_bus(pHba
->post_port
)>>32);
2960 u32
*table
= (u32
*)sys_tbl
;
2961 printk(KERN_DEBUG
"sys_tbl_len=%d in 32bit words\n",(sys_tbl_len
>>2));
2962 for(count
= 0; count
< (sys_tbl_len
>>2); count
++) {
2963 printk(KERN_INFO
"sys_tbl[%d] = %0#10x\n",
2964 count
, table
[count
]);
2974 * Dump the information block associated with a given unit (TID)
2977 static void adpt_i2o_report_hba_unit(adpt_hba
* pHba
, struct i2o_device
*d
)
2980 int unit
= d
->lct_data
.tid
;
2982 printk(KERN_INFO
"TID %3.3d ", unit
);
2984 if(adpt_i2o_query_scalar(pHba
, unit
, 0xF100, 3, buf
, 16)>=0)
2987 printk(" Vendor: %-12.12s", buf
);
2989 if(adpt_i2o_query_scalar(pHba
, unit
, 0xF100, 4, buf
, 16)>=0)
2992 printk(" Device: %-12.12s", buf
);
2994 if(adpt_i2o_query_scalar(pHba
, unit
, 0xF100, 6, buf
, 8)>=0)
2997 printk(" Rev: %-12.12s\n", buf
);
3000 printk(KERN_INFO
"\tClass: %.21s\n", adpt_i2o_get_class_name(d
->lct_data
.class_id
));
3001 printk(KERN_INFO
"\tSubclass: 0x%04X\n", d
->lct_data
.sub_class
);
3002 printk(KERN_INFO
"\tFlags: ");
3004 if(d
->lct_data
.device_flags
&(1<<0))
3005 printk("C"); // ConfigDialog requested
3006 if(d
->lct_data
.device_flags
&(1<<1))
3007 printk("U"); // Multi-user capable
3008 if(!(d
->lct_data
.device_flags
&(1<<4)))
3009 printk("P"); // Peer service enabled!
3010 if(!(d
->lct_data
.device_flags
&(1<<5)))
3011 printk("M"); // Mgmt service enabled!
3018 * Do i2o class name lookup
3020 static const char *adpt_i2o_get_class_name(int class)
3023 static char *i2o_class_name
[] = {
3025 "Device Driver Module",
3030 "Fibre Channel Port",
3031 "Fibre Channel Device",
3035 "Floppy Controller",
3037 "Secondary Bus Port",
3038 "Peer Transport Agent",
3043 switch(class&0xFFF) {
3044 case I2O_CLASS_EXECUTIVE
:
3048 case I2O_CLASS_RANDOM_BLOCK_STORAGE
:
3050 case I2O_CLASS_SEQUENTIAL_STORAGE
:
3056 case I2O_CLASS_FIBRE_CHANNEL_PORT
:
3058 case I2O_CLASS_FIBRE_CHANNEL_PERIPHERAL
:
3060 case I2O_CLASS_SCSI_PERIPHERAL
:
3062 case I2O_CLASS_ATE_PORT
:
3064 case I2O_CLASS_ATE_PERIPHERAL
:
3066 case I2O_CLASS_FLOPPY_CONTROLLER
:
3068 case I2O_CLASS_FLOPPY_DEVICE
:
3070 case I2O_CLASS_BUS_ADAPTER_PORT
:
3072 case I2O_CLASS_PEER_TRANSPORT_AGENT
:
3074 case I2O_CLASS_PEER_TRANSPORT
:
3077 return i2o_class_name
[idx
];
3082 static s32
adpt_i2o_hrt_get(adpt_hba
* pHba
)
3085 int ret
, size
= sizeof(i2o_hrt
);
3088 if (pHba
->hrt
== NULL
) {
3089 pHba
->hrt
=kmalloc(size
, GFP_KERNEL
|ADDR32
);
3090 if (pHba
->hrt
== NULL
) {
3091 printk(KERN_CRIT
"%s: Hrt Get failed; Out of memory.\n", pHba
->name
);
3096 msg
[0]= SIX_WORD_MSG_SIZE
| SGL_OFFSET_4
;
3097 msg
[1]= I2O_CMD_HRT_GET
<<24 | HOST_TID
<<12 | ADAPTER_TID
;
3100 msg
[4]= (0xD0000000 | size
); /* Simple transaction */
3101 msg
[5]= virt_to_bus(pHba
->hrt
); /* Dump it here */
3103 if ((ret
= adpt_i2o_post_wait(pHba
, msg
, sizeof(msg
),20))) {
3104 printk(KERN_ERR
"%s: Unable to get HRT (status=%#10x)\n", pHba
->name
, ret
);
3108 if (pHba
->hrt
->num_entries
* pHba
->hrt
->entry_len
<< 2 > size
) {
3109 size
= pHba
->hrt
->num_entries
* pHba
->hrt
->entry_len
<< 2;
3113 } while(pHba
->hrt
== NULL
);
3118 * Query one scalar group value or a whole scalar group.
3120 static int adpt_i2o_query_scalar(adpt_hba
* pHba
, int tid
,
3121 int group
, int field
, void *buf
, int buflen
)
3123 u16 opblk
[] = { 1, 0, I2O_PARAMS_FIELD_GET
, group
, 1, field
};
3128 /* 8 bytes for header */
3129 resblk
= kmalloc(sizeof(u8
) * (8+buflen
), GFP_KERNEL
|ADDR32
);
3130 if (resblk
== NULL
) {
3131 printk(KERN_CRIT
"%s: query scalar failed; Out of memory.\n", pHba
->name
);
3135 if (field
== -1) /* whole group */
3138 size
= adpt_i2o_issue_params(I2O_CMD_UTIL_PARAMS_GET
, pHba
, tid
,
3139 opblk
, sizeof(opblk
), resblk
, sizeof(u8
)*(8+buflen
));
3140 if (size
== -ETIME
) {
3141 printk(KERN_WARNING
"%s: issue params failed; Timed out.\n", pHba
->name
);
3143 } else if (size
== -EINTR
) {
3144 printk(KERN_WARNING
"%s: issue params failed; Interrupted.\n", pHba
->name
);
3148 memcpy(buf
, resblk
+8, buflen
); /* cut off header */
3158 /* Issue UTIL_PARAMS_GET or UTIL_PARAMS_SET
3160 * This function can be used for all UtilParamsGet/Set operations.
3161 * The OperationBlock is given in opblk-buffer,
3162 * and results are returned in resblk-buffer.
3163 * Note that the minimum sized resblk is 8 bytes and contains
3164 * ResultCount, ErrorInfoSize, BlockStatus and BlockSize.
3166 static int adpt_i2o_issue_params(int cmd
, adpt_hba
* pHba
, int tid
,
3167 void *opblk
, int oplen
, void *resblk
, int reslen
)
3170 u32
*res
= (u32
*)resblk
;
3173 msg
[0] = NINE_WORD_MSG_SIZE
| SGL_OFFSET_5
;
3174 msg
[1] = cmd
<< 24 | HOST_TID
<< 12 | tid
;
3178 msg
[5] = 0x54000000 | oplen
; /* OperationBlock */
3179 msg
[6] = virt_to_bus(opblk
);
3180 msg
[7] = 0xD0000000 | reslen
; /* ResultBlock */
3181 msg
[8] = virt_to_bus(resblk
);
3183 if ((wait_status
= adpt_i2o_post_wait(pHba
, msg
, sizeof(msg
), 20))) {
3184 printk("adpt_i2o_issue_params: post_wait failed (%p)\n", resblk
);
3185 return wait_status
; /* -DetailedStatus */
3188 if (res
[1]&0x00FF0000) { /* BlockStatus != SUCCESS */
3189 printk(KERN_WARNING
"%s: %s - Error:\n ErrorInfoSize = 0x%02x, "
3190 "BlockStatus = 0x%02x, BlockSize = 0x%04x\n",
3192 (cmd
== I2O_CMD_UTIL_PARAMS_SET
) ? "PARAMS_SET"
3194 res
[1]>>24, (res
[1]>>16)&0xFF, res
[1]&0xFFFF);
3195 return -((res
[1] >> 16) & 0xFF); /* -BlockStatus */
3198 return 4 + ((res
[1] & 0x0000FFFF) << 2); /* bytes used in resblk */
3202 static s32
adpt_i2o_quiesce_hba(adpt_hba
* pHba
)
3207 adpt_i2o_status_get(pHba
);
3209 /* SysQuiesce discarded if IOP not in READY or OPERATIONAL state */
3211 if((pHba
->status_block
->iop_state
!= ADAPTER_STATE_READY
) &&
3212 (pHba
->status_block
->iop_state
!= ADAPTER_STATE_OPERATIONAL
)){
3216 msg
[0] = FOUR_WORD_MSG_SIZE
|SGL_OFFSET_0
;
3217 msg
[1] = I2O_CMD_SYS_QUIESCE
<<24|HOST_TID
<<12|ADAPTER_TID
;
3221 if((ret
= adpt_i2o_post_wait(pHba
, msg
, sizeof(msg
), 240))) {
3222 printk(KERN_INFO
"dpti%d: Unable to quiesce (status=%#x).\n",
3225 printk(KERN_INFO
"dpti%d: Quiesced.\n",pHba
->unit
);
3228 adpt_i2o_status_get(pHba
);
3234 * Enable IOP. Allows the IOP to resume external operations.
3236 static int adpt_i2o_enable_hba(adpt_hba
* pHba
)
3241 adpt_i2o_status_get(pHba
);
3242 if(!pHba
->status_block
){
3245 /* Enable only allowed on READY state */
3246 if(pHba
->status_block
->iop_state
== ADAPTER_STATE_OPERATIONAL
)
3249 if(pHba
->status_block
->iop_state
!= ADAPTER_STATE_READY
)
3252 msg
[0]=FOUR_WORD_MSG_SIZE
|SGL_OFFSET_0
;
3253 msg
[1]=I2O_CMD_SYS_ENABLE
<<24|HOST_TID
<<12|ADAPTER_TID
;
3257 if ((ret
= adpt_i2o_post_wait(pHba
, msg
, sizeof(msg
), 240))) {
3258 printk(KERN_WARNING
"%s: Could not enable (status=%#10x).\n",
3261 PDEBUG("%s: Enabled.\n", pHba
->name
);
3264 adpt_i2o_status_get(pHba
);
3269 static int adpt_i2o_systab_send(adpt_hba
* pHba
)
3274 msg
[0] = I2O_MESSAGE_SIZE(12) | SGL_OFFSET_6
;
3275 msg
[1] = I2O_CMD_SYS_TAB_SET
<<24 | HOST_TID
<<12 | ADAPTER_TID
;
3278 msg
[4] = (0<<16) | ((pHba
->unit
+2) << 12); /* Host 0 IOP ID (unit + 2) */
3279 msg
[5] = 0; /* Segment 0 */
3282 * Provide three SGL-elements:
3283 * System table (SysTab), Private memory space declaration and
3284 * Private i/o space declaration
3286 msg
[6] = 0x54000000 | sys_tbl_len
;
3287 msg
[7] = virt_to_phys(sys_tbl
);
3288 msg
[8] = 0x54000000 | 0;
3290 msg
[10] = 0xD4000000 | 0;
3293 if ((ret
=adpt_i2o_post_wait(pHba
, msg
, sizeof(msg
), 120))) {
3294 printk(KERN_INFO
"%s: Unable to set SysTab (status=%#10x).\n",
3299 PINFO("%s: SysTab set.\n", pHba
->name
);
3307 /*============================================================================
3309 *============================================================================
3315 static static void adpt_delay(int millisec
)
3318 for (i
= 0; i
< millisec
; i
++) {
3319 udelay(1000); /* delay for one millisecond */
3325 static struct scsi_host_template driver_template
= {
3327 .proc_name
= "dpt_i2o",
3328 .proc_info
= adpt_proc_info
,
3329 .detect
= adpt_detect
,
3330 .release
= adpt_release
,
3332 .queuecommand
= adpt_queue
,
3333 .eh_abort_handler
= adpt_abort
,
3334 .eh_device_reset_handler
= adpt_device_reset
,
3335 .eh_bus_reset_handler
= adpt_bus_reset
,
3336 .eh_host_reset_handler
= adpt_reset
,
3337 .bios_param
= adpt_bios_param
,
3338 .slave_configure
= adpt_slave_configure
,
3339 .can_queue
= MAX_TO_IOP_MESSAGES
,
3342 .use_clustering
= ENABLE_CLUSTERING
,
3344 #include "scsi_module.c"
3345 MODULE_LICENSE("GPL");