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[/] [or1k/] [trunk/] [rc203soc/] [sw/] [uClinux/] [drivers/] [scsi/] [eata_dma.c] - Blame information for rev 1777

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1 1626 jcastillo
/************************************************************
2
 *                                                          *
3
 *                  Linux EATA SCSI driver                  *
4
 *                                                          *
5
 *  based on the CAM document CAM/89-004 rev. 2.0c,         *
6
 *  DPT's driver kit, some internal documents and source,   *
7
 *  and several other Linux scsi drivers and kernel docs.   *
8
 *                                                          *
9
 *  The driver currently:                                   *
10
 *      -supports all ISA based EATA-DMA boards             *
11
 *       like PM2011, PM2021, PM2041, PM3021                *
12
 *      -supports all EISA based EATA-DMA boards            *
13
 *       like PM2012B, PM2022, PM2122, PM2322, PM2042,      *
14
 *            PM3122, PM3222, PM3332                        *
15
 *      -supports all PCI based EATA-DMA boards             *
16
 *       like PM2024, PM2124, PM2044, PM2144, PM3224,       *
17
 *            PM3334                                        *
18
 *      -supports the Wide, Ultra Wide and Differential     *
19
 *       versions of the boards                             *
20
 *      -supports multiple HBAs with & without IRQ sharing  *
21
 *      -supports all SCSI channels on multi channel boards *
22
 *      -supports ix86 and MIPS, untested on ALPHA          *
23
 *      -needs identical IDs on all channels of a HBA       *
24
 *      -can be loaded as module                            *
25
 *      -displays statistical and hardware information      *
26
 *       in /proc/scsi/eata_dma                             *
27
 *      -provides rudimentary latency measurement           *
28
 *       possibilities via /proc/scsi/eata_dma/<hostnum>    *
29
 *                                                          *
30
 *  (c)1993-96 Michael Neuffer                              *
31
 *             mike@i-Connect.Net                           *
32
 *             neuffer@mail.uni-mainz.de                    *
33
 *                                                          *
34
 *  This program is free software; you can redistribute it  *
35
 *  and/or modify it under the terms of the GNU General     *
36
 *  Public License as published by the Free Software        *
37
 *  Foundation; either version 2 of the License, or         *
38
 *  (at your option) any later version.                     *
39
 *                                                          *
40
 *  This program is distributed in the hope that it will be *
41
 *  useful, but WITHOUT ANY WARRANTY; without even the      *
42
 *  implied warranty of MERCHANTABILITY or FITNESS FOR A    *
43
 *  PARTICULAR PURPOSE.  See the GNU General Public License *
44
 *  for more details.                                       *
45
 *                                                          *
46
 *  You should have received a copy of the GNU General      *
47
 *  Public License along with this kernel; if not, write to *
48
 *  the Free Software Foundation, Inc., 675 Mass Ave,       *
49
 *  Cambridge, MA 02139, USA.                               *
50
 *                                                          *
51
 * I have to thank DPT for their excellent support. I took  *
52
 * me almost a year and a stopover at their HQ, on my first *
53
 * trip to the USA, to get it, but since then they've been  *
54
 * very helpful and tried to give me all the infos and      *
55
 * support I need.                                          *
56
 *                                                          *
57
 * Thanks also to Simon Shapiro, Greg Hosler and Mike       *
58
 * Jagdis who did a lot of testing and found quite a number *
59
 * of bugs during the development.                          *
60
 ************************************************************
61
 *  last change: 96/10/21                 OS: Linux 2.0.23  *
62
 ************************************************************/
63
 
64
/* Look in eata_dma.h for configuration and revision information */
65
 
66
#include <linux/module.h>
67
#include <linux/kernel.h>
68
#include <linux/sched.h>
69
#include <linux/string.h>
70
#include <linux/ioport.h>
71
#include <linux/malloc.h>
72
#include <linux/in.h>
73
#include <linux/bios32.h>
74
#include <linux/pci.h>
75
#include <linux/proc_fs.h>
76
#include <linux/delay.h>
77
#include <asm/byteorder.h>
78
#include <asm/types.h>
79
#include <asm/io.h>
80
#include <asm/dma.h>
81
#include <asm/pgtable.h>
82
#ifdef __mips__
83
#include <asm/cachectl.h>
84
#endif
85
#include <linux/blk.h>
86
#include "scsi.h"
87
#include "sd.h"
88
#include "hosts.h"
89
#include "eata_dma.h"
90
#include "eata_dma_proc.h" 
91
 
92
#include <linux/stat.h>
93
#include <linux/config.h>       /* for CONFIG_PCI */
94
 
95
struct proc_dir_entry proc_scsi_eata_dma = {
96
    PROC_SCSI_EATA, 8, "eata_dma",
97
    S_IFDIR | S_IRUGO | S_IXUGO, 2
98
};
99
 
100
static u32 ISAbases[] =
101
{0x1F0, 0x170, 0x330, 0x230};
102
static unchar EISAbases[] =
103
{1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1};
104
static uint registered_HBAs = 0;
105
static struct Scsi_Host *last_HBA = NULL;
106
static struct Scsi_Host *first_HBA = NULL;
107
static unchar reg_IRQ[] =
108
{0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
109
static unchar reg_IRQL[] =
110
{0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
111
static struct eata_sp *status = 0;   /* Statuspacket array   */
112
static void *dma_scratch = 0;
113
 
114
static struct eata_register *fake_int_base;
115
static int fake_int_result;
116
static int fake_int_happened;
117
 
118
static ulong int_counter = 0;
119
static ulong queue_counter = 0;
120
 
121
void eata_scsi_done (Scsi_Cmnd * scmd)
122
{
123
    scmd->request.rq_status = RQ_SCSI_DONE;
124
 
125
    if (scmd->request.sem != NULL)
126
        up(scmd->request.sem);
127
 
128
    return;
129
}
130
 
131
void eata_fake_int_handler(s32 irq, void *dev_id, struct pt_regs * regs)
132
{
133
    fake_int_result = inb((ulong)fake_int_base + HA_RSTATUS);
134
    fake_int_happened = TRUE;
135
    DBG(DBG_INTR3, printk("eata_fake_int_handler called irq%d base %p"
136
                          " res %#x\n", irq, fake_int_base, fake_int_result));
137
    return;
138
}
139
 
140
#include "eata_dma_proc.c"
141
 
142
#ifdef MODULE
143
int eata_release(struct Scsi_Host *sh)
144
{
145
    uint i;
146
    if (sh->irq && reg_IRQ[sh->irq] == 1) free_irq(sh->irq, NULL);
147
    else reg_IRQ[sh->irq]--;
148
 
149
    scsi_init_free((void *)status, 512);
150
    scsi_init_free((void *)dma_scratch - 4, 1024);
151
    for (i = 0; i < sh->can_queue; i++){ /* Free all SG arrays */
152
        if(SD(sh)->ccb[i].sg_list != NULL)
153
            scsi_init_free((void *) SD(sh)->ccb[i].sg_list,
154
                           sh->sg_tablesize * sizeof(struct eata_sg_list));
155
    }
156
 
157
    if (SD(sh)->channel == 0) {
158
        if (sh->dma_channel != BUSMASTER) free_dma(sh->dma_channel);
159
        if (sh->io_port && sh->n_io_port)
160
            release_region(sh->io_port, sh->n_io_port);
161
    }
162
    return(TRUE);
163
}
164
#endif
165
 
166
 
167
inline void eata_latency_in(struct eata_ccb *cp, hostdata *hd)
168
{
169
    uint time;
170
    time = jiffies - cp->timestamp;
171
    if(hd->all_lat[1] > time)
172
        hd->all_lat[1] = time;
173
    if(hd->all_lat[2] < time)
174
        hd->all_lat[2] = time;
175
    hd->all_lat[3] += time;
176
    hd->all_lat[0]++;
177
    if((cp->rw_latency) == WRITE) { /* was WRITE */
178
        if(hd->writes_lat[cp->sizeindex][1] > time)
179
            hd->writes_lat[cp->sizeindex][1] = time;
180
        if(hd->writes_lat[cp->sizeindex][2] < time)
181
            hd->writes_lat[cp->sizeindex][2] = time;
182
        hd->writes_lat[cp->sizeindex][3] += time;
183
        hd->writes_lat[cp->sizeindex][0]++;
184
    } else if((cp->rw_latency) == READ) {
185
        if(hd->reads_lat[cp->sizeindex][1] > time)
186
            hd->reads_lat[cp->sizeindex][1] = time;
187
        if(hd->reads_lat[cp->sizeindex][2] < time)
188
            hd->reads_lat[cp->sizeindex][2] = time;
189
        hd->reads_lat[cp->sizeindex][3] += time;
190
        hd->reads_lat[cp->sizeindex][0]++;
191
    }
192
}
193
 
194
inline void eata_latency_out(struct eata_ccb *cp, Scsi_Cmnd *cmd)
195
{
196
    int x, z;
197
    short *sho;
198
    long *lon;
199
    x = 0;                               /* just to keep GCC quiet */
200
    cp->timestamp = jiffies;            /* For latency measurements */
201
    switch(cmd->cmnd[0]) {
202
    case WRITE_6:
203
        x = cmd->cmnd[4]/2;
204
        cp->rw_latency = WRITE;
205
        break;
206
    case READ_6:
207
        x = cmd->cmnd[4]/2;
208
        cp->rw_latency = READ;
209
        break;
210
    case WRITE_10:
211
        sho = (short *) &cmd->cmnd[7];
212
        x = ntohs(*sho)/2;
213
        cp->rw_latency = WRITE;
214
        break;
215
    case READ_10:
216
        sho = (short *) &cmd->cmnd[7];
217
        x = ntohs(*sho)/2;
218
        cp->rw_latency = READ;
219
        break;
220
    case WRITE_12:
221
        lon = (long *) &cmd->cmnd[6];
222
        x = ntohl(*lon)/2;
223
        cp->rw_latency = WRITE;
224
        break;
225
    case READ_12:
226
        lon = (long *) &cmd->cmnd[6];
227
        x = ntohl(*lon)/2;
228
        cp->rw_latency = READ;
229
        break;
230
    default:
231
        cp->rw_latency = OTHER;
232
        break;
233
    }
234
    if (cmd->cmnd[0] == WRITE_6 || cmd->cmnd[0] == WRITE_10 ||
235
        cmd->cmnd[0] == WRITE_12 || cmd->cmnd[0] == READ_6 ||
236
        cmd->cmnd[0] == READ_10 || cmd->cmnd[0] == READ_12) {
237
        for(z = 0; (x > (1 << z)) && (z <= 11); z++)
238
            /* nothing */;
239
        cp->sizeindex = z;
240
    }
241
}
242
 
243
 
244
void eata_int_handler(int irq, void *dev_id, struct pt_regs * regs)
245
{
246
    uint i, result = 0;
247
    uint hba_stat, scsi_stat, eata_stat;
248
    Scsi_Cmnd *cmd;
249
    struct eata_ccb *ccb;
250
    struct eata_sp *sp;
251
    uint base;
252
    uint x;
253
    struct Scsi_Host *sh;
254
 
255
    for (x = 1, sh = first_HBA; x <= registered_HBAs; x++, sh = SD(sh)->next) {
256
        if (sh->irq != irq)
257
            continue;
258
 
259
        while(inb((uint)sh->base + HA_RAUXSTAT) & HA_AIRQ) {
260
 
261
            int_counter++;
262
 
263
            sp = &SD(sh)->sp;
264
#ifdef __mips__
265
            sys_cacheflush(sp, sizeof(struct eata_sp), 2);
266
#endif
267
            ccb = sp->ccb;
268
 
269
            if(ccb == NULL) {
270
                eata_stat = inb((uint)sh->base + HA_RSTATUS);
271
                printk("eata_dma: int_handler, Spurious IRQ %d "
272
                       "received. CCB pointer not set.\n", irq);
273
                break;
274
            }
275
 
276
            cmd = ccb->cmd;
277
            base = (uint) cmd->host->base;
278
            hba_stat = sp->hba_stat;
279
 
280
            scsi_stat = (sp->scsi_stat >> 1) & 0x1f;
281
 
282
            if (sp->EOC == FALSE) {
283
                eata_stat = inb(base + HA_RSTATUS);
284
                printk(KERN_WARNING "eata_dma: int_handler, board: %x cmd %lx "
285
                       "returned unfinished.\n"
286
                       "EATA: %x HBA: %x SCSI: %x spadr %lx spadrirq %lx, "
287
                       "irq%d\n", base, (long)ccb, eata_stat, hba_stat,
288
                       scsi_stat,(long)&status, (long)&status[irq], irq);
289
                cmd->result = DID_ERROR << 16;
290
                ccb->status = FREE;
291
                cmd->scsi_done(cmd);
292
                break;
293
            }
294
 
295
           sp->EOC = FALSE; /* Clean out this flag */
296
 
297
           if (ccb->status == LOCKED || ccb->status == RESET) {
298
               printk("eata_dma: int_handler, reseted command pid %ld returned"
299
                      "\n", cmd->pid);
300
               DBG(DBG_INTR && DBG_DELAY, DELAY(1));
301
            }
302
 
303
            eata_stat = inb(base + HA_RSTATUS);
304
            DBG(DBG_INTR, printk("IRQ %d received, base %#.4x, pid %ld, "
305
                                 "target: %x, lun: %x, ea_s: %#.2x, hba_s: "
306
                                 "%#.2x \n", irq, base, cmd->pid, cmd->target,
307
                                 cmd->lun, eata_stat, hba_stat));
308
 
309
            switch (hba_stat) {
310
            case HA_NO_ERROR:   /* NO Error */
311
                if(HD(cmd)->do_latency == TRUE && ccb->timestamp)
312
                    eata_latency_in(ccb, HD(cmd));
313
                result = DID_OK << 16;
314
                break;
315
            case HA_ERR_SEL_TO:         /* Selection Timeout */
316
            case HA_ERR_CMD_TO:         /* Command Timeout   */
317
                result = DID_TIME_OUT << 16;
318
                break;
319
            case HA_BUS_RESET:          /* SCSI Bus Reset Received */
320
                result = DID_RESET << 16;
321
                DBG(DBG_STATUS, printk(KERN_WARNING "scsi%d: BUS RESET "
322
                                       "received on cmd %ld\n",
323
                                       HD(cmd)->HBA_number, cmd->pid));
324
                break;
325
            case HA_INIT_POWERUP:       /* Initial Controller Power-up */
326
                if (cmd->device->type != TYPE_TAPE)
327
                    result = DID_BUS_BUSY << 16;
328
                else
329
                    result = DID_ERROR << 16;
330
 
331
                for (i = 0; i < MAXTARGET; i++)
332
                DBG(DBG_STATUS, printk(KERN_DEBUG "scsi%d: cmd pid %ld "
333
                                       "returned with INIT_POWERUP\n",
334
                                       HD(cmd)->HBA_number, cmd->pid));
335
                break;
336
            case HA_CP_ABORT_NA:
337
            case HA_CP_ABORTED:
338
                result = DID_ABORT << 16;
339
                DBG(DBG_STATUS, printk(KERN_WARNING "scsi%d: aborted cmd "
340
                                       "returned\n", HD(cmd)->HBA_number));
341
                break;
342
            case HA_CP_RESET_NA:
343
            case HA_CP_RESET:
344
                HD(cmd)->resetlevel[cmd->channel] = 0;
345
                result = DID_RESET << 16;
346
                DBG(DBG_STATUS, printk(KERN_WARNING "scsi%d: reseted cmd "
347
                                       "pid %ldreturned\n",
348
                                       HD(cmd)->HBA_number, cmd->pid));
349
            case HA_SCSI_HUNG:          /* SCSI Hung                 */
350
                printk(KERN_ERR "scsi%d: SCSI hung\n", HD(cmd)->HBA_number);
351
                result = DID_ERROR << 16;
352
                break;
353
            case HA_RSENSE_FAIL:        /* Auto Request-Sense Failed */
354
                DBG(DBG_STATUS, printk(KERN_ERR "scsi%d: Auto Request Sense "
355
                                       "Failed\n", HD(cmd)->HBA_number));
356
                result = DID_ERROR << 16;
357
                break;
358
            case HA_UNX_BUSPHASE:       /* Unexpected Bus Phase */
359
            case HA_UNX_BUS_FREE:       /* Unexpected Bus Free */
360
            case HA_BUS_PARITY:         /* Bus Parity Error */
361
            case HA_UNX_MSGRJCT:        /* Unexpected Message Reject */
362
            case HA_RESET_STUCK:        /* SCSI Bus Reset Stuck */
363
            case HA_PARITY_ERR:         /* Controller Ram Parity */
364
            default:
365
                result = DID_ERROR << 16;
366
                break;
367
            }
368
            cmd->result = result | (scsi_stat << 1);
369
 
370
#if DBG_INTR2
371
            if (scsi_stat || result || hba_stat || eata_stat != 0x50
372
                || cmd->scsi_done == NULL || cmd->device->id == 7)
373
                printk("HBA: %d, channel %d, id: %d, lun %d, pid %ld:\n"
374
                       "eata_stat %#x, hba_stat %#.2x, scsi_stat %#.2x, "
375
                       "sense_key: %#x, result: %#.8x\n", x,
376
                       cmd->device->channel, cmd->device->id, cmd->device->lun,
377
                       cmd->pid, eata_stat, hba_stat, scsi_stat,
378
                       cmd->sense_buffer[2] & 0xf, cmd->result);
379
            DBG(DBG_INTR&&DBG_DELAY,DELAY(1));
380
#endif
381
 
382
            ccb->status = FREE;     /* now we can release the slot  */
383
            cmd->scsi_done(cmd);
384
        }
385
    }
386
 
387
    return;
388
}
389
 
390
inline int eata_send_command(u32 addr, u32 base, u8 command)
391
{
392
    long loop = R_LIMIT;
393
 
394
    while (inb(base + HA_RAUXSTAT) & HA_ABUSY)
395
        if (--loop == 0)
396
            return(FALSE);
397
 
398
    if(addr != (u32) NULL)
399
        addr = virt_to_bus((void *)addr);
400
 
401
    /*
402
     * This is overkill.....but the MIPSen seem to need this
403
     * and it will be optimized away for i86 and ALPHA machines.
404
     */
405
    flush_cache_all();
406
 
407
    /* And now the address in nice little byte chunks */
408
#ifdef __LITTLE_ENDIAN
409
    outb(addr,       base + HA_WDMAADDR);
410
    outb(addr >> 8,  base + HA_WDMAADDR + 1);
411
    outb(addr >> 16, base + HA_WDMAADDR + 2);
412
    outb(addr >> 24, base + HA_WDMAADDR + 3);
413
#else
414
    outb(addr >> 24, base + HA_WDMAADDR);
415
    outb(addr >> 16, base + HA_WDMAADDR + 1);
416
    outb(addr >> 8,  base + HA_WDMAADDR + 2);
417
    outb(addr,       base + HA_WDMAADDR + 3);
418
#endif
419
    outb(command, base + HA_WCOMMAND);
420
    return(TRUE);
421
}
422
 
423
inline int eata_send_immediate(u32 base, u32 addr, u8 ifc, u8 code, u8 code2)
424
{
425
    if(addr != (u32) NULL)
426
        addr = virt_to_bus((void *)addr);
427
 
428
    /*
429
     * This is overkill.....but the MIPSen seem to need this
430
     * and it will be optimized away for i86 and ALPHA machines.
431
     */
432
    flush_cache_all();
433
 
434
    outb(0x0, base + HA_WDMAADDR - 1);
435
    if(addr){
436
#ifdef __LITTLE_ENDIAN
437
        outb(addr,       base + HA_WDMAADDR);
438
        outb(addr >> 8,  base + HA_WDMAADDR + 1);
439
        outb(addr >> 16, base + HA_WDMAADDR + 2);
440
        outb(addr >> 24, base + HA_WDMAADDR + 3);
441
#else
442
        outb(addr >> 24, base + HA_WDMAADDR);
443
        outb(addr >> 16, base + HA_WDMAADDR + 1);
444
        outb(addr >> 8,  base + HA_WDMAADDR + 2);
445
        outb(addr,       base + HA_WDMAADDR + 3);
446
#endif
447
    } else {
448
        outb(0x0, base + HA_WDMAADDR);
449
        outb(0x0, base + HA_WDMAADDR + 1);
450
        outb(code2, base + HA_WCODE2);
451
        outb(code,  base + HA_WCODE);
452
    }
453
 
454
    outb(ifc, base + HA_WIFC);
455
    outb(EATA_CMD_IMMEDIATE, base + HA_WCOMMAND);
456
    return(TRUE);
457
}
458
 
459
int eata_queue(Scsi_Cmnd * cmd, void (* done) (Scsi_Cmnd *))
460
{
461
    unsigned int i, x, y;
462
    ulong flags;
463
    hostdata *hd;
464
    struct Scsi_Host *sh;
465
    struct eata_ccb *ccb;
466
    struct scatterlist *sl;
467
 
468
 
469
    save_flags(flags);
470
    cli();
471
 
472
#if 0
473
    for (x = 1, sh = first_HBA; x <= registered_HBAs; x++, sh = SD(sh)->next) {
474
      if(inb((uint)sh->base + HA_RAUXSTAT) & HA_AIRQ) {
475
            printk("eata_dma: scsi%d interrupt pending in eata_queue.\n"
476
                   "          Calling interrupt handler.\n", sh->host_no);
477
            eata_int_handler(sh->irq, 0, 0);
478
      }
479
    }
480
#endif
481
 
482
    queue_counter++;
483
 
484
    hd = HD(cmd);
485
    sh = cmd->host;
486
 
487
    if (cmd->cmnd[0] == REQUEST_SENSE && cmd->sense_buffer[0] != 0) {
488
        DBG(DBG_REQSENSE, printk(KERN_DEBUG "Tried to REQUEST SENSE\n"));
489
        cmd->result = DID_OK << 16;
490
        done(cmd);
491
 
492
        return(0);
493
    }
494
 
495
    /* check for free slot */
496
    for (y = hd->last_ccb + 1, x = 0; x < sh->can_queue; x++, y++) {
497
        if (y >= sh->can_queue)
498
            y = 0;
499
        if (hd->ccb[y].status == FREE)
500
            break;
501
    }
502
 
503
    hd->last_ccb = y;
504
 
505
    if (x >= sh->can_queue) {
506
        cmd->result = DID_BUS_BUSY << 16;
507
        DBG(DBG_QUEUE && DBG_ABNORM,
508
            printk(KERN_CRIT "eata_queue pid %ld, HBA QUEUE FULL..., "
509
                   "returning DID_BUS_BUSY\n", cmd->pid));
510
        done(cmd);
511
        restore_flags(flags);
512
        return(0);
513
    }
514
    ccb = &hd->ccb[y];
515
 
516
    memset(ccb, 0, sizeof(struct eata_ccb) - sizeof(struct eata_sg_list *));
517
 
518
    ccb->status = USED;                 /* claim free slot */
519
 
520
    restore_flags(flags);
521
 
522
    DBG(DBG_QUEUE, printk("eata_queue pid %ld, target: %x, lun: %x, y %d\n",
523
                          cmd->pid, cmd->target, cmd->lun, y));
524
    DBG(DBG_QUEUE && DBG_DELAY, DELAY(1));
525
 
526
    if(hd->do_latency == TRUE)
527
        eata_latency_out(ccb, cmd);
528
 
529
    cmd->scsi_done = (void *)done;
530
 
531
    switch (cmd->cmnd[0]) {
532
    case CHANGE_DEFINITION: case COMPARE:         case COPY:
533
    case COPY_VERIFY:       case LOG_SELECT:      case MODE_SELECT:
534
    case MODE_SELECT_10:    case SEND_DIAGNOSTIC: case WRITE_BUFFER:
535
    case FORMAT_UNIT:       case REASSIGN_BLOCKS: case RESERVE:
536
    case SEARCH_EQUAL:      case SEARCH_HIGH:     case SEARCH_LOW:
537
    case WRITE_6:           case WRITE_10:        case WRITE_VERIFY:
538
    case UPDATE_BLOCK:      case WRITE_LONG:      case WRITE_SAME:
539
    case SEARCH_HIGH_12:    case SEARCH_EQUAL_12: case SEARCH_LOW_12:
540
    case WRITE_12:          case WRITE_VERIFY_12: case SET_WINDOW:
541
    case MEDIUM_SCAN:       case SEND_VOLUME_TAG:
542
    case 0xea:      /* alternate number for WRITE LONG */
543
        ccb->DataOut = TRUE;    /* Output mode */
544
        break;
545
    case TEST_UNIT_READY:
546
    default:
547
        ccb->DataIn = TRUE;     /* Input mode  */
548
    }
549
 
550
    /* FIXME: This will have to be changed once the midlevel driver
551
     *        allows different HBA IDs on every channel.
552
     */
553
    if (cmd->target == sh->this_id)
554
        ccb->Interpret = TRUE;  /* Interpret command */
555
 
556
    if (cmd->use_sg) {
557
        ccb->scatter = TRUE;    /* SG mode     */
558
        if (ccb->sg_list == NULL) {
559
            ccb->sg_list = kmalloc(sh->sg_tablesize * sizeof(struct eata_sg_list),
560
                                  GFP_ATOMIC | GFP_DMA);
561
        }
562
        if (ccb->sg_list == NULL)
563
            panic("eata_dma: Run out of DMA memory for SG lists !\n");
564
        ccb->cp_dataDMA = htonl(virt_to_bus(ccb->sg_list));
565
 
566
        ccb->cp_datalen = htonl(cmd->use_sg * sizeof(struct eata_sg_list));
567
        sl=(struct scatterlist *)cmd->request_buffer;
568
        for(i = 0; i < cmd->use_sg; i++, sl++){
569
            ccb->sg_list[i].data = htonl(virt_to_bus(sl->address));
570
            ccb->sg_list[i].len = htonl((u32) sl->length);
571
        }
572
    } else {
573
        ccb->scatter = FALSE;
574
        ccb->cp_datalen = htonl(cmd->request_bufflen);
575
        ccb->cp_dataDMA = htonl(virt_to_bus(cmd->request_buffer));
576
    }
577
 
578
    ccb->Auto_Req_Sen = TRUE;
579
    ccb->cp_reqDMA = htonl(virt_to_bus(cmd->sense_buffer));
580
    ccb->reqlen = sizeof(cmd->sense_buffer);
581
 
582
    ccb->cp_id = cmd->target;
583
    ccb->cp_channel = cmd->channel;
584
    ccb->cp_lun = cmd->lun;
585
    ccb->cp_dispri = TRUE;
586
    ccb->cp_identify = TRUE;
587
    memcpy(ccb->cp_cdb, cmd->cmnd, cmd->cmd_len);
588
 
589
    ccb->cp_statDMA = htonl(virt_to_bus(&(hd->sp)));
590
 
591
    ccb->cp_viraddr = ccb; /* This will be passed thru, so we don't need to
592
                            * convert it */
593
    ccb->cmd = cmd;
594
    cmd->host_scribble = (char *)&hd->ccb[y];
595
 
596
    if(eata_send_command((u32) ccb, (u32) sh->base, EATA_CMD_DMA_SEND_CP) == FALSE) {
597
        cmd->result = DID_BUS_BUSY << 16;
598
        DBG(DBG_QUEUE && DBG_ABNORM,
599
            printk("eata_queue target %d, pid %ld, HBA busy, "
600
                   "returning DID_BUS_BUSY\n",cmd->target, cmd->pid));
601
        ccb->status = FREE;
602
        done(cmd);
603
        return(0);
604
    }
605
    DBG(DBG_QUEUE, printk("Queued base %#.4x pid: %ld target: %x lun: %x "
606
                         "slot %d irq %d\n", (s32)sh->base, cmd->pid,
607
                         cmd->target, cmd->lun, y, sh->irq));
608
    DBG(DBG_QUEUE && DBG_DELAY, DELAY(1));
609
 
610
    return(0);
611
}
612
 
613
 
614
int eata_abort(Scsi_Cmnd * cmd)
615
{
616
    ulong loop = HZ / 2;
617
    ulong flags;
618
    int x;
619
    struct Scsi_Host *sh;
620
 
621
    save_flags(flags);
622
    cli();
623
 
624
    DBG(DBG_ABNORM, printk("eata_abort called pid: %ld target: %x lun: %x"
625
                           " reason %x\n", cmd->pid, cmd->target, cmd->lun,
626
                           cmd->abort_reason));
627
    DBG(DBG_ABNORM && DBG_DELAY, DELAY(1));
628
 
629
    /* Some interrupt controllers seem to loose interrupts */
630
    for (x = 1, sh = first_HBA; x <= registered_HBAs; x++, sh = SD(sh)->next) {
631
        if(inb((uint)sh->base + HA_RAUXSTAT) & HA_AIRQ) {
632
            printk("eata_dma: scsi%d interrupt pending in eata_abort.\n"
633
                   "          Calling interrupt handler.\n", sh->host_no);
634
            eata_int_handler(sh->irq, 0, 0);
635
        }
636
    }
637
 
638
    while (inb((u32)(cmd->host->base) + HA_RAUXSTAT) & HA_ABUSY) {
639
        if (--loop == 0) {
640
            printk("eata_dma: abort, timeout error.\n");
641
            DBG(DBG_ABNORM && DBG_DELAY, DELAY(1));
642
            restore_flags(flags);
643
            return (SCSI_ABORT_ERROR);
644
        }
645
    }
646
    if (CD(cmd)->status == RESET) {
647
        printk("eata_dma: abort, command reset error.\n");
648
        DBG(DBG_ABNORM && DBG_DELAY, DELAY(1));
649
        restore_flags(flags);
650
        return (SCSI_ABORT_ERROR);
651
    }
652
    if (CD(cmd)->status == LOCKED) {
653
        DBG(DBG_ABNORM, printk("eata_dma: abort, queue slot locked.\n"));
654
        DBG(DBG_ABNORM && DBG_DELAY, DELAY(1));
655
        restore_flags(flags);
656
        return (SCSI_ABORT_NOT_RUNNING);
657
    }
658
    if (CD(cmd)->status == USED) {
659
        DBG(DBG_ABNORM, printk("Returning: SCSI_ABORT_BUSY\n"));
660
        restore_flags(flags);
661
        return (SCSI_ABORT_BUSY);  /* SNOOZE */
662
    }
663
    if (CD(cmd)->status == FREE) {
664
        DBG(DBG_ABNORM, printk("Returning: SCSI_ABORT_NOT_RUNNING\n"));
665
        restore_flags(flags);
666
        return (SCSI_ABORT_NOT_RUNNING);
667
    }
668
    restore_flags(flags);
669
    panic("eata_dma: abort: invalid slot status\n");
670
}
671
 
672
int eata_reset(Scsi_Cmnd * cmd, unsigned int resetflags)
673
{
674
    uint x;
675
    ulong loop = loops_per_sec / 3;
676
    ulong flags;
677
    unchar success = FALSE;
678
    Scsi_Cmnd *sp;
679
    struct Scsi_Host *sh;
680
 
681
    save_flags(flags);
682
    cli();
683
 
684
    DBG(DBG_ABNORM, printk("eata_reset called pid:%ld target: %x lun: %x"
685
                           " reason %x\n", cmd->pid, cmd->target, cmd->lun,
686
                           cmd->abort_reason));
687
 
688
    for (x = 1, sh = first_HBA; x <= registered_HBAs; x++, sh = SD(sh)->next) {
689
        if(inb((uint)sh->base + HA_RAUXSTAT) & HA_AIRQ) {
690
            printk("eata_dma: scsi%d interrupt pending in eata_reset.\n"
691
                   "          Calling interrupt handler.\n", sh->host_no);
692
            eata_int_handler(sh->irq, 0, 0);
693
      }
694
    }
695
 
696
    if (HD(cmd)->state == RESET) {
697
        printk("eata_reset: exit, already in reset.\n");
698
        restore_flags(flags);
699
        DBG(DBG_ABNORM && DBG_DELAY, DELAY(1));
700
        return (SCSI_RESET_ERROR);
701
    }
702
 
703
    while (inb((u32)(cmd->host->base) + HA_RAUXSTAT) & HA_ABUSY)
704
        if (--loop == 0) {
705
            printk("eata_reset: exit, timeout error.\n");
706
            restore_flags(flags);
707
            DBG(DBG_ABNORM && DBG_DELAY, DELAY(1));
708
            return (SCSI_RESET_ERROR);
709
        }
710
 
711
    for (x = 0; x < cmd->host->can_queue; x++) {
712
        if (HD(cmd)->ccb[x].status == FREE)
713
            continue;
714
 
715
        if (HD(cmd)->ccb[x].status == LOCKED) {
716
            HD(cmd)->ccb[x].status = FREE;
717
            printk("eata_reset: locked slot %d forced free.\n", x);
718
            DBG(DBG_ABNORM && DBG_DELAY, DELAY(1));
719
            continue;
720
        }
721
 
722
 
723
        sp = HD(cmd)->ccb[x].cmd;
724
        HD(cmd)->ccb[x].status = RESET;
725
 
726
        if (sp == NULL)
727
            panic("eata_reset: slot %d, sp==NULL.\n", x);
728
 
729
        printk("eata_reset: slot %d in reset, pid %ld.\n", x, sp->pid);
730
 
731
        DBG(DBG_ABNORM && DBG_DELAY, DELAY(1));
732
 
733
        if (sp == cmd)
734
            success = TRUE;
735
    }
736
 
737
    /* hard reset the HBA  */
738
    inb((u32) (cmd->host->base) + HA_RSTATUS);  /* This might cause trouble */
739
    eata_send_command(0, (u32) cmd->host->base, EATA_CMD_RESET);
740
 
741
    HD(cmd)->state = RESET;
742
 
743
    DBG(DBG_ABNORM, printk("eata_reset: board reset done, enabling "
744
                           "interrupts.\n"));
745
 
746
    DELAY(2); /* In theorie we should get interrupts and set free all
747
               * used queueslots */
748
 
749
    DBG(DBG_ABNORM, printk("eata_reset: interrupts disabled again.\n"));
750
    DBG(DBG_ABNORM && DBG_DELAY, DELAY(1));
751
 
752
    for (x = 0; x < cmd->host->can_queue; x++) {
753
 
754
        /* Skip slots already set free by interrupt and those that
755
         * are still LOCKED from the last reset */
756
        if (HD(cmd)->ccb[x].status != RESET)
757
            continue;
758
 
759
        sp = HD(cmd)->ccb[x].cmd;
760
        sp->result = DID_RESET << 16;
761
 
762
        /* This mailbox is still waiting for its interrupt */
763
        HD(cmd)->ccb[x].status = LOCKED;
764
 
765
        printk("eata_reset: slot %d locked, DID_RESET, pid %ld done.\n",
766
               x, sp->pid);
767
        DBG(DBG_ABNORM && DBG_DELAY, DELAY(1));
768
 
769
        sp->scsi_done(sp);
770
    }
771
 
772
    HD(cmd)->state = FALSE;
773
    restore_flags(flags);
774
 
775
    if (success) {
776
        DBG(DBG_ABNORM, printk("eata_reset: exit, pending.\n"));
777
        DBG(DBG_ABNORM && DBG_DELAY, DELAY(1));
778
        return (SCSI_RESET_PENDING);
779
    } else {
780
        DBG(DBG_ABNORM, printk("eata_reset: exit, wakeup.\n"));
781
        DBG(DBG_ABNORM && DBG_DELAY, DELAY(1));
782
        return (SCSI_RESET_PUNT);
783
    }
784
}
785
 
786
/* Here we try to determine the optimum queue depth for
787
 * each attached device.
788
 *
789
 * At the moment the algorithm is rather simple
790
 */
791
static void eata_select_queue_depths(struct Scsi_Host *host,
792
                                     Scsi_Device *devicelist)
793
{
794
    Scsi_Device *device;
795
    int devcount = 0;
796
    int factor = 0;
797
 
798
#if CRIPPLE_QUEUE    
799
    for(device = devicelist; device != NULL; device = device->next) {
800
        if(device->host == host)
801
            device->queue_depth = 2;
802
    }
803
#else
804
    /* First we do a sample run go find out what we have */
805
    for(device = devicelist; device != NULL; device = device->next) {
806
        if (device->host == host) {
807
            devcount++;
808
            switch(device->type) {
809
            case TYPE_DISK:
810
            case TYPE_MOD:
811
                factor += TYPE_DISK_QUEUE;
812
                break;
813
            case TYPE_TAPE:
814
                factor += TYPE_TAPE_QUEUE;
815
                break;
816
            case TYPE_WORM:
817
            case TYPE_ROM:
818
                factor += TYPE_ROM_QUEUE;
819
                break;
820
            case TYPE_PROCESSOR:
821
            case TYPE_SCANNER:
822
            default:
823
                factor += TYPE_OTHER_QUEUE;
824
                break;
825
            }
826
        }
827
    }
828
 
829
    DBG(DBG_REGISTER, printk(KERN_DEBUG "scsi%d: needed queueslots %d\n",
830
                             host->host_no, factor));
831
 
832
    if(factor == 0)    /* We don't want to get a DIV BY ZERO error */
833
        factor = 1;
834
 
835
    factor = (SD(host)->queuesize * 10) / factor;
836
 
837
    DBG(DBG_REGISTER, printk(KERN_DEBUG "scsi%d: using factor %dE-1\n",
838
                             host->host_no, factor));
839
 
840
    /* Now that have the factor we can set the individual queuesizes */
841
    for(device = devicelist; device != NULL; device = device->next) {
842
        if(device->host == host) {
843
            if(SD(device->host)->bustype != IS_ISA){
844
                switch(device->type) {
845
                case TYPE_DISK:
846
                case TYPE_MOD:
847
                    device->queue_depth = (TYPE_DISK_QUEUE * factor) / 10;
848
                    break;
849
                case TYPE_TAPE:
850
                    device->queue_depth = (TYPE_TAPE_QUEUE * factor) / 10;
851
                    break;
852
                case TYPE_WORM:
853
                case TYPE_ROM:
854
                    device->queue_depth = (TYPE_ROM_QUEUE * factor) / 10;
855
                    break;
856
                case TYPE_PROCESSOR:
857
                case TYPE_SCANNER:
858
                default:
859
                    device->queue_depth = (TYPE_OTHER_QUEUE * factor) / 10;
860
                    break;
861
                }
862
            } else /* ISA forces us to limit the queue depth because of the
863
                    * bounce buffer memory overhead. I know this is cruel */
864
                device->queue_depth = 2;
865
 
866
            /*
867
             * It showed that we need to set an upper limit of commands
868
             * we can allow to  queue for a single device on the bus.
869
             * If we get above that limit, the broken midlevel SCSI code
870
             * will produce bogus timeouts and aborts en masse. :-(
871
             */
872
            if(device->queue_depth > UPPER_DEVICE_QUEUE_LIMIT)
873
                device->queue_depth = UPPER_DEVICE_QUEUE_LIMIT;
874
            if(device->queue_depth == 0)
875
                device->queue_depth = 1;
876
 
877
            printk(KERN_INFO "scsi%d: queue depth for target %d on channel %d "
878
                   "set to %d\n", host->host_no, device->id, device->channel,
879
                   device->queue_depth);
880
        }
881
    }
882
#endif
883
}
884
 
885
#if CHECK_BLINK
886
int check_blink_state(long base)
887
{
888
    ushort loops = 10;
889
    u32 blinkindicator;
890
    u32 state = 0x12345678;
891
    u32 oldstate = 0;
892
 
893
    blinkindicator = htonl(0x54504442);
894
    while ((loops--) && (state != oldstate)) {
895
        oldstate = state;
896
        state = inl((uint) base + 1);
897
    }
898
 
899
    DBG(DBG_BLINK, printk("Did Blink check. Status: %d\n",
900
              (state == oldstate) && (state == blinkindicator)));
901
 
902
    if ((state == oldstate) && (state == blinkindicator))
903
        return(TRUE);
904
    else
905
        return (FALSE);
906
}
907
#endif
908
 
909
char * get_board_data(u32 base, u32 irq, u32 id)
910
{
911
    struct eata_ccb *cp;
912
    struct eata_sp  *sp;
913
    static char *buff;
914
    ulong i;
915
 
916
    cp = (struct eata_ccb *) scsi_init_malloc(sizeof(struct eata_ccb),
917
                                              GFP_ATOMIC | GFP_DMA);
918
    sp = (struct eata_sp *) scsi_init_malloc(sizeof(struct eata_sp),
919
                                             GFP_ATOMIC | GFP_DMA);
920
 
921
    buff = dma_scratch;
922
 
923
    memset(cp, 0, sizeof(struct eata_ccb));
924
    memset(sp, 0, sizeof(struct eata_sp));
925
    memset(buff, 0, 256);
926
 
927
    cp->DataIn = TRUE;
928
    cp->Interpret = TRUE;   /* Interpret command */
929
    cp->cp_dispri = TRUE;
930
    cp->cp_identify = TRUE;
931
 
932
    cp->cp_datalen = htonl(56);
933
    cp->cp_dataDMA = htonl(virt_to_bus(buff));
934
    cp->cp_statDMA = htonl(virt_to_bus(sp));
935
    cp->cp_viraddr = cp;
936
 
937
    cp->cp_id = id;
938
    cp->cp_lun = 0;
939
 
940
    cp->cp_cdb[0] = INQUIRY;
941
    cp->cp_cdb[1] = 0;
942
    cp->cp_cdb[2] = 0;
943
    cp->cp_cdb[3] = 0;
944
    cp->cp_cdb[4] = 56;
945
    cp->cp_cdb[5] = 0;
946
 
947
    fake_int_base = (struct eata_register *) base;
948
    fake_int_result = FALSE;
949
    fake_int_happened = FALSE;
950
 
951
    eata_send_command((u32) cp, (u32) base, EATA_CMD_DMA_SEND_CP);
952
 
953
    i = jiffies + (3 * HZ);
954
    while (fake_int_happened == FALSE && jiffies <= i)
955
        barrier();
956
 
957
    DBG(DBG_INTR3, printk(KERN_DEBUG "fake_int_result: %#x hbastat %#x "
958
                          "scsistat %#x, buff %p sp %p\n",
959
                          fake_int_result, (u32) (sp->hba_stat /*& 0x7f*/),
960
                          (u32) sp->scsi_stat, buff, sp));
961
 
962
    scsi_init_free((void *)cp, sizeof(struct eata_ccb));
963
    scsi_init_free((void *)sp, sizeof(struct eata_sp));
964
 
965
    if ((fake_int_result & HA_SERROR) || jiffies > i){
966
        printk(KERN_WARNING "eata_dma: trying to reset HBA at %x to clear "
967
               "possible blink state\n", base);
968
        /* hard reset the HBA  */
969
        inb((u32) (base) + HA_RSTATUS);
970
        eata_send_command(0, base, EATA_CMD_RESET);
971
        DELAY(1);
972
        return (NULL);
973
    } else
974
        return (buff);
975
}
976
 
977
 
978
int get_conf_PIO(u32 base, struct get_conf *buf)
979
{
980
    ulong loop = R_LIMIT;
981
    u16 *p;
982
 
983
    if(check_region(base, 9))
984
        return (FALSE);
985
 
986
    memset(buf, 0, sizeof(struct get_conf));
987
 
988
    while (inb(base + HA_RSTATUS) & HA_SBUSY)
989
        if (--loop == 0)
990
            return (FALSE);
991
 
992
    fake_int_base = (struct eata_register *) base;
993
    fake_int_result = FALSE;
994
    fake_int_happened = FALSE;
995
 
996
    DBG(DBG_PIO && DBG_PROBE,
997
        printk("Issuing PIO READ CONFIG to HBA at %#x\n", base));
998
    eata_send_command(0, base, EATA_CMD_PIO_READ_CONFIG);
999
 
1000
    loop = R_LIMIT;
1001
    for (p = (u16 *) buf;
1002
         (long)p <= ((long)buf + (sizeof(struct get_conf) / 2)); p++) {
1003
        while (!(inb(base + HA_RSTATUS) & HA_SDRQ))
1004
            if (--loop == 0)
1005
                return (FALSE);
1006
 
1007
        loop = R_LIMIT;
1008
        *p = inw(base + HA_RDATA);
1009
    }
1010
 
1011
    if (!(inb(base + HA_RSTATUS) & HA_SERROR)) {            /* Error ? */
1012
        if (htonl(EATA_SIGNATURE) == buf->signature) {
1013
            DBG(DBG_PIO&&DBG_PROBE, printk("EATA Controller found at %x "
1014
                                           "EATA Level: %x\n", (uint) base,
1015
                                           (uint) (buf->version)));
1016
 
1017
            while (inb(base + HA_RSTATUS) & HA_SDRQ)
1018
                inw(base + HA_RDATA);
1019
            return (TRUE);
1020
        }
1021
    } else {
1022
        DBG(DBG_PROBE, printk("eata_dma: get_conf_PIO, error during transfer "
1023
                  "for HBA at %lx\n", (long)base));
1024
    }
1025
    return (FALSE);
1026
}
1027
 
1028
 
1029
void print_config(struct get_conf *gc)
1030
{
1031
    printk("LEN: %d ver:%d OCS:%d TAR:%d TRNXFR:%d MORES:%d DMAS:%d\n",
1032
           (u32) ntohl(gc->len), gc->version,
1033
           gc->OCS_enabled, gc->TAR_support, gc->TRNXFR, gc->MORE_support,
1034
           gc->DMA_support);
1035
    printk("DMAV:%d HAAV:%d SCSIID0:%d ID1:%d ID2:%d QUEUE:%d SG:%d SEC:%d\n",
1036
           gc->DMA_valid, gc->HAA_valid, gc->scsi_id[3], gc->scsi_id[2],
1037
           gc->scsi_id[1], ntohs(gc->queuesiz), ntohs(gc->SGsiz), gc->SECOND);
1038
    printk("IRQ:%d IRQT:%d DMAC:%d FORCADR:%d SG_64K:%d SG_UAE:%d MID:%d "
1039
           "MCH:%d MLUN:%d\n",
1040
           gc->IRQ, gc->IRQ_TR, (8 - gc->DMA_channel) & 7, gc->FORCADR,
1041
           gc->SG_64K, gc->SG_UAE, gc->MAX_ID, gc->MAX_CHAN, gc->MAX_LUN);
1042
    printk("RIDQ:%d PCI:%d EISA:%d\n",
1043
           gc->ID_qest, gc->is_PCI, gc->is_EISA);
1044
    DBG(DPT_DEBUG, DELAY(14));
1045
}
1046
 
1047
short register_HBA(u32 base, struct get_conf *gc, Scsi_Host_Template * tpnt,
1048
                   u8 bustype)
1049
{
1050
    ulong size = 0;
1051
    unchar dma_channel = 0;
1052
    char *buff = 0;
1053
    unchar bugs = 0;
1054
    struct Scsi_Host *sh;
1055
    hostdata *hd;
1056
    int x;
1057
 
1058
 
1059
    DBG(DBG_REGISTER, print_config(gc));
1060
 
1061
    if (gc->DMA_support == FALSE) {
1062
        printk("The EATA HBA at %#.4x does not support DMA.\n"
1063
               "Please use the EATA-PIO driver.\n", base);
1064
        return (FALSE);
1065
    }
1066
    if(gc->HAA_valid == FALSE || ntohl(gc->len) < 0x22)
1067
        gc->MAX_CHAN = 0;
1068
 
1069
    if (reg_IRQ[gc->IRQ] == FALSE) {    /* Interrupt already registered ? */
1070
        if (!request_irq(gc->IRQ, (void *) eata_fake_int_handler, SA_INTERRUPT,
1071
                         "eata_dma", NULL)){
1072
            reg_IRQ[gc->IRQ]++;
1073
            if (!gc->IRQ_TR)
1074
                reg_IRQL[gc->IRQ] = TRUE;   /* IRQ is edge triggered */
1075
        } else {
1076
            printk("Couldn't allocate IRQ %d, Sorry.", gc->IRQ);
1077
            return (FALSE);
1078
        }
1079
    } else {            /* More than one HBA on this IRQ */
1080
        if (reg_IRQL[gc->IRQ] == TRUE) {
1081
            printk("Can't support more than one HBA on this IRQ,\n"
1082
                   "  if the IRQ is edge triggered. Sorry.\n");
1083
            return (FALSE);
1084
        } else
1085
            reg_IRQ[gc->IRQ]++;
1086
    }
1087
 
1088
 
1089
    /* If DMA is supported but DMA_valid isn't set to indicate that
1090
     * the channel number is given we must have pre 2.0 firmware (1.7?)
1091
     * which leaves us to guess since the "newer ones" also don't set the
1092
     * DMA_valid bit.
1093
     */
1094
    if (gc->DMA_support && !gc->DMA_valid && gc->DMA_channel) {
1095
      printk(KERN_WARNING "eata_dma: If you are using a pre 2.0 firmware "
1096
             "please update it !\n"
1097
             "          You can get new firmware releases from ftp.dpt.com\n");
1098
        gc->DMA_channel = (base == 0x1f0 ? 3 /* DMA=5 */ : 2 /* DMA=6 */);
1099
        gc->DMA_valid = TRUE;
1100
    }
1101
 
1102
    /* if gc->DMA_valid it must be an ISA HBA and we have to register it */
1103
    dma_channel = BUSMASTER;
1104
    if (gc->DMA_valid) {
1105
        if (request_dma(dma_channel = (8 - gc->DMA_channel) & 7, "eata_dma")) {
1106
            printk(KERN_WARNING "Unable to allocate DMA channel %d for ISA HBA"
1107
                   " at %#.4x.\n", dma_channel, base);
1108
            reg_IRQ[gc->IRQ]--;
1109
            if (reg_IRQ[gc->IRQ] == 0)
1110
                free_irq(gc->IRQ, NULL);
1111
            if (gc->IRQ_TR == FALSE)
1112
                reg_IRQL[gc->IRQ] = FALSE;
1113
            return (FALSE);
1114
        }
1115
    }
1116
 
1117
    if (dma_channel != BUSMASTER) {
1118
        disable_dma(dma_channel);
1119
        clear_dma_ff(dma_channel);
1120
        set_dma_mode(dma_channel, DMA_MODE_CASCADE);
1121
        enable_dma(dma_channel);
1122
    }
1123
 
1124
    if (bustype != IS_EISA && bustype != IS_ISA)
1125
        buff = get_board_data(base, gc->IRQ, gc->scsi_id[3]);
1126
 
1127
    if (buff == NULL) {
1128
        if (bustype == IS_EISA || bustype == IS_ISA) {
1129
            bugs = bugs || BROKEN_INQUIRY;
1130
        } else {
1131
            if (gc->DMA_support == FALSE)
1132
                printk(KERN_WARNING "HBA at %#.4x doesn't support DMA. "
1133
                       "Sorry\n", base);
1134
            else
1135
                printk(KERN_WARNING "HBA at %#.4x does not react on INQUIRY. "
1136
                       "Sorry.\n", base);
1137
            if (gc->DMA_valid)
1138
                free_dma(dma_channel);
1139
            reg_IRQ[gc->IRQ]--;
1140
            if (reg_IRQ[gc->IRQ] == 0)
1141
                free_irq(gc->IRQ, NULL);
1142
            if (gc->IRQ_TR == FALSE)
1143
                reg_IRQL[gc->IRQ] = FALSE;
1144
            return (FALSE);
1145
        }
1146
    }
1147
 
1148
    if (gc->DMA_support == FALSE && buff != NULL)
1149
        printk(KERN_WARNING "HBA %.12sat %#.4x doesn't set the DMA_support "
1150
               "flag correctly.\n", &buff[16], base);
1151
 
1152
    request_region(base, 9, "eata_dma"); /* We already checked the
1153
                                          * availability, so this
1154
                                          * should not fail.
1155
                                          */
1156
 
1157
    if(ntohs(gc->queuesiz) == 0) {
1158
        gc->queuesiz = ntohs(64);
1159
        printk(KERN_WARNING "Warning: Queue size has to be corrected. Assuming"
1160
               " 64 queueslots\n"
1161
               "         This might be a PM2012B with a defective Firmware\n"
1162
               "         Contact DPT support@dpt.com for an upgrade\n");
1163
    }
1164
 
1165
    size = sizeof(hostdata) + ((sizeof(struct eata_ccb) + sizeof(long))
1166
                               * ntohs(gc->queuesiz));
1167
 
1168
    DBG(DBG_REGISTER, printk("scsi_register size: %ld\n", size));
1169
 
1170
    sh = scsi_register(tpnt, size);
1171
 
1172
    if(sh != NULL) {
1173
 
1174
        hd = SD(sh);
1175
 
1176
        memset(hd->reads, 0, sizeof(u32) * 26);
1177
 
1178
        sh->select_queue_depths = eata_select_queue_depths;
1179
 
1180
        hd->bustype = bustype;
1181
 
1182
        /*
1183
         * If we are using a ISA board, we can't use extended SG,
1184
         * because we would need excessive amounts of memory for
1185
         * bounce buffers.
1186
         */
1187
        if (gc->SG_64K==TRUE && ntohs(gc->SGsiz)==64 && hd->bustype!=IS_ISA){
1188
            sh->sg_tablesize = SG_SIZE_BIG;
1189
        } else {
1190
            sh->sg_tablesize = ntohs(gc->SGsiz);
1191
            if (sh->sg_tablesize > SG_SIZE || sh->sg_tablesize == 0) {
1192
                if (sh->sg_tablesize == 0)
1193
                    printk(KERN_WARNING "Warning: SG size had to be fixed.\n"
1194
                           "This might be a PM2012 with a defective Firmware"
1195
                           "\nContact DPT support@dpt.com for an upgrade\n");
1196
                sh->sg_tablesize = SG_SIZE;
1197
            }
1198
        }
1199
        hd->sgsize = sh->sg_tablesize;
1200
    }
1201
 
1202
    if(sh != NULL) {
1203
        sh->can_queue = hd->queuesize = ntohs(gc->queuesiz);
1204
        sh->cmd_per_lun = 0;
1205
    }
1206
 
1207
    if(sh == NULL) {
1208
        DBG(DBG_REGISTER, printk(KERN_NOTICE "eata_dma: couldn't register HBA"
1209
                                 " at%x \n", base));
1210
        scsi_unregister(sh);
1211
        if (gc->DMA_valid)
1212
            free_dma(dma_channel);
1213
 
1214
        reg_IRQ[gc->IRQ]--;
1215
        if (reg_IRQ[gc->IRQ] == 0)
1216
            free_irq(gc->IRQ, NULL);
1217
        if (gc->IRQ_TR == FALSE)
1218
            reg_IRQL[gc->IRQ] = FALSE;
1219
        return (FALSE);
1220
    }
1221
 
1222
 
1223
    hd->broken_INQUIRY = (bugs & BROKEN_INQUIRY);
1224
 
1225
    if(hd->broken_INQUIRY == TRUE) {
1226
        strcpy(hd->vendor, "DPT");
1227
        strcpy(hd->name, "??????????");
1228
        strcpy(hd->revision, "???.?");
1229
        hd->firmware_revision = 0;
1230
    } else {
1231
        strncpy(hd->vendor, &buff[8], 8);
1232
        hd->vendor[8] = 0;
1233
        strncpy(hd->name, &buff[16], 17);
1234
        hd->name[17] = 0;
1235
        hd->revision[0] = buff[32];
1236
        hd->revision[1] = buff[33];
1237
        hd->revision[2] = buff[34];
1238
        hd->revision[3] = '.';
1239
        hd->revision[4] = buff[35];
1240
        hd->revision[5] = 0;
1241
        hd->firmware_revision = (buff[32] << 24) + (buff[33] << 16)
1242
                                    + (buff[34] << 8) + buff[35];
1243
    }
1244
 
1245
    if (hd->firmware_revision >= (('0'<<24) + ('7'<<16) + ('G'<< 8) + '0'))
1246
        hd->immediate_support = 1;
1247
    else
1248
        hd->immediate_support = 0;
1249
 
1250
    switch (ntohl(gc->len)) {
1251
    case 0x1c:
1252
        hd->EATA_revision = 'a';
1253
        break;
1254
    case 0x1e:
1255
        hd->EATA_revision = 'b';
1256
        break;
1257
    case 0x22:
1258
        hd->EATA_revision = 'c';
1259
        break;
1260
    case 0x24:
1261
        hd->EATA_revision = 'z';
1262
    default:
1263
        hd->EATA_revision = '?';
1264
    }
1265
 
1266
 
1267
    if(ntohl(gc->len) >= 0x22) {
1268
        sh->max_id = gc->MAX_ID + 1;
1269
        sh->max_lun = gc->MAX_LUN + 1;
1270
    } else {
1271
        sh->max_id = 8;
1272
        sh->max_lun = 8;
1273
    }
1274
 
1275
    hd->HBA_number = sh->host_no;
1276
    hd->channel = gc->MAX_CHAN;
1277
    sh->max_channel = gc->MAX_CHAN;
1278
    sh->unique_id = base;
1279
    sh->base = (char *) base;
1280
    sh->io_port = base;
1281
    sh->n_io_port = 9;
1282
    sh->irq = gc->IRQ;
1283
    sh->dma_channel = dma_channel;
1284
 
1285
    /* FIXME:
1286
     * SCSI midlevel code should support different HBA ids on every channel
1287
     */
1288
    sh->this_id = gc->scsi_id[3];
1289
 
1290
    if (gc->SECOND)
1291
        hd->primary = FALSE;
1292
    else
1293
        hd->primary = TRUE;
1294
 
1295
    sh->wish_block = FALSE;
1296
 
1297
    if (hd->bustype != IS_ISA) {
1298
        sh->unchecked_isa_dma = FALSE;
1299
    } else {
1300
        sh->unchecked_isa_dma = TRUE;   /* We're doing ISA DMA */
1301
    }
1302
 
1303
    for(x = 0; x <= 11; x++){             /* Initialize min. latency */
1304
        hd->writes_lat[x][1] = 0xffffffff;
1305
        hd->reads_lat[x][1] = 0xffffffff;
1306
    }
1307
    hd->all_lat[1] = 0xffffffff;
1308
 
1309
    hd->next = NULL;    /* build a linked list of all HBAs */
1310
    hd->prev = last_HBA;
1311
    if(hd->prev != NULL)
1312
        SD(hd->prev)->next = sh;
1313
    last_HBA = sh;
1314
    if (first_HBA == NULL)
1315
        first_HBA = sh;
1316
    registered_HBAs++;
1317
 
1318
    return (TRUE);
1319
}
1320
 
1321
 
1322
 
1323
void find_EISA(struct get_conf *buf, Scsi_Host_Template * tpnt)
1324
{
1325
    u32 base;
1326
    int i;
1327
 
1328
#if CHECKPAL
1329
    u8 pal1, pal2, pal3;
1330
#endif
1331
 
1332
    for (i = 0; i < MAXEISA; i++) {
1333
        if (EISAbases[i] == TRUE) { /* Still a possibility ?          */
1334
 
1335
            base = 0x1c88 + (i * 0x1000);
1336
#if CHECKPAL
1337
            pal1 = inb((u16)base - 8);
1338
            pal2 = inb((u16)base - 7);
1339
            pal3 = inb((u16)base - 6);
1340
 
1341
            if (((pal1 == DPT_ID1) && (pal2 == DPT_ID2)) ||
1342
                ((pal1 == NEC_ID1) && (pal2 == NEC_ID2) && (pal3 == NEC_ID3))||
1343
                ((pal1 == ATT_ID1) && (pal2 == ATT_ID2) && (pal3 == ATT_ID3))){
1344
                DBG(DBG_PROBE, printk("EISA EATA id tags found: %x %x %x \n",
1345
                                      (int)pal1, (int)pal2, (int)pal3));
1346
#endif
1347
                if (get_conf_PIO(base, buf) == TRUE) {
1348
                    if (buf->IRQ) {
1349
                        DBG(DBG_EISA, printk("Registering EISA HBA\n"));
1350
                        register_HBA(base, buf, tpnt, IS_EISA);
1351
                    } else
1352
                        printk("eata_dma: No valid IRQ. HBA removed from list\n");
1353
                }
1354
#if CHECK_BLINK
1355
                else {
1356
                    if (check_blink_state(base))
1357
                        printk("HBA is in BLINK state. Consult your HBAs "
1358
                               "Manual to correct this.\n");
1359
                }
1360
#endif
1361
                /* Nothing found here so we take it from the list */
1362
                EISAbases[i] = 0;
1363
#if CHECKPAL
1364
            }
1365
#endif
1366
        }
1367
    }
1368
    return;
1369
}
1370
 
1371
void find_ISA(struct get_conf *buf, Scsi_Host_Template * tpnt)
1372
{
1373
    int i;
1374
 
1375
    for (i = 0; i < MAXISA; i++) {
1376
        if (ISAbases[i]) {
1377
            if (get_conf_PIO(ISAbases[i],buf) == TRUE){
1378
                DBG(DBG_ISA, printk("Registering ISA HBA\n"));
1379
                register_HBA(ISAbases[i], buf, tpnt, IS_ISA);
1380
            }
1381
#if CHECK_BLINK
1382
            else {
1383
                if (check_blink_state(ISAbases[i]))
1384
                    printk("HBA is in BLINK state. Consult your HBAs "
1385
                           "Manual to correct this.\n");
1386
            }
1387
#endif
1388
            ISAbases[i] = 0;
1389
        }
1390
    }
1391
    return;
1392
}
1393
 
1394
void find_PCI(struct get_conf *buf, Scsi_Host_Template * tpnt)
1395
{
1396
 
1397
#ifndef CONFIG_PCI
1398
    printk("eata_dma: kernel PCI support not enabled. Skipping scan for PCI HBAs.\n");
1399
#else
1400
 
1401
    u8 pci_bus, pci_device_fn;
1402
    static s16 pci_index = 0;    /* Device index to PCI BIOS calls */
1403
    u32 base = 0;
1404
    u16 com_adr;
1405
    u16 rev_device;
1406
    u32 error, i, x;
1407
    u8 pal1, pal2, pal3;
1408
 
1409
    if (pcibios_present()) {
1410
        for (i = 0; i <= MAXPCI; ++i, ++pci_index) {
1411
            if (pcibios_find_device(PCI_VENDOR_ID_DPT, PCI_DEVICE_ID_DPT,
1412
                                    pci_index, &pci_bus, &pci_device_fn))
1413
                break;
1414
            DBG(DBG_PROBE && DBG_PCI,
1415
                printk("eata_dma: find_PCI, HBA at bus %d, device %d,"
1416
                       " function %d, index %d\n", (s32)pci_bus,
1417
                       (s32)((pci_device_fn & 0xf8) >> 3),
1418
                       (s32)(pci_device_fn & 7), pci_index));
1419
 
1420
            if (!(error = pcibios_read_config_word(pci_bus, pci_device_fn,
1421
                                       PCI_CLASS_DEVICE, &rev_device))) {
1422
                if (rev_device == PCI_CLASS_STORAGE_SCSI) {
1423
                    if (!(error = pcibios_read_config_word(pci_bus,
1424
                                               pci_device_fn, PCI_COMMAND,
1425
                                               (u16 *) & com_adr))) {
1426
                        if (!((com_adr & PCI_COMMAND_IO) &&
1427
                              (com_adr & PCI_COMMAND_MASTER))) {
1428
                            printk("eata_dma: find_PCI, HBA has IO or"
1429
                                   " BUSMASTER mode disabled\n");
1430
                            continue;
1431
                        }
1432
                    } else
1433
                        printk("eata_dma: find_PCI, error %x while reading "
1434
                               "PCI_COMMAND\n", error);
1435
                } else
1436
                    printk("eata_dma: find_PCI, DEVICECLASSID %x didn't match\n",
1437
                           rev_device);
1438
            } else {
1439
                printk("eata_dma: find_PCI, error %x while reading "
1440
                       "PCI_CLASS_BASE\n",
1441
                       error);
1442
                continue;
1443
            }
1444
 
1445
            if (!(error = pcibios_read_config_dword(pci_bus, pci_device_fn,
1446
                                       PCI_BASE_ADDRESS_0, (int *) &base))){
1447
 
1448
                /* Check if the address is valid */
1449
                if (base & 0x01) {
1450
                    base &= 0xfffffffe;
1451
                    /* EISA tag there ? */
1452
                    pal1 = inb(base);
1453
                    pal2 = inb(base + 1);
1454
                    pal3 = inb(base + 2);
1455
                    if (((pal1 == DPT_ID1) && (pal2 == DPT_ID2)) ||
1456
                        ((pal1 == NEC_ID1) && (pal2 == NEC_ID2) &&
1457
                         (pal3 == NEC_ID3)) ||
1458
                        ((pal1 == ATT_ID1) && (pal2 == ATT_ID2) &&
1459
                         (pal3 == ATT_ID3)))
1460
                        base += 0x08;
1461
                    else
1462
                        base += 0x10;   /* Now, THIS is the real address */
1463
 
1464
                    if (base != 0x1f8) {
1465
                        /* We didn't find it in the primary search */
1466
                        if (get_conf_PIO(base, buf) == TRUE) {
1467
 
1468
                            /* OK. We made it till here, so we can go now
1469
                             * and register it. We  only have to check and
1470
                             * eventually remove it from the EISA and ISA list
1471
                             */
1472
                            DBG(DBG_PCI, printk("Registering PCI HBA\n"));
1473
                            register_HBA(base, buf, tpnt, IS_PCI);
1474
 
1475
                            if (base < 0x1000) {
1476
                                for (x = 0; x < MAXISA; ++x) {
1477
                                    if (ISAbases[x] == base) {
1478
                                        ISAbases[x] = 0;
1479
                                        break;
1480
                                    }
1481
                                }
1482
                            } else if ((base & 0x0fff) == 0x0c88)
1483
                                EISAbases[(base >> 12) & 0x0f] = 0;
1484
                            continue;  /* break; */
1485
                        }
1486
#if CHECK_BLINK
1487
                        else if (check_blink_state(base) == TRUE) {
1488
                            printk("eata_dma: HBA is in BLINK state.\n"
1489
                                   "Consult your HBAs manual to correct this.\n");
1490
                        }
1491
#endif
1492
                    }
1493
                }
1494
            } else {
1495
                printk("eata_dma: error %x while reading "
1496
                       "PCI_BASE_ADDRESS_0\n", error);
1497
            }
1498
        }
1499
    } else {
1500
        printk("eata_dma: No BIOS32 extensions present. This driver release "
1501
               "still depends on it.\n"
1502
               "          Skipping scan for PCI HBAs. \n");
1503
    }
1504
#endif /* #ifndef CONFIG_PCI */
1505
    return;
1506
}
1507
 
1508
int eata_detect(Scsi_Host_Template * tpnt)
1509
{
1510
    struct Scsi_Host *HBA_ptr;
1511
    struct get_conf gc;
1512
    int i;
1513
 
1514
    DBG((DBG_PROBE && DBG_DELAY) || DPT_DEBUG,
1515
        printk("Using lots of delays to let you read the debugging output\n"));
1516
 
1517
    tpnt->proc_dir = &proc_scsi_eata_dma;
1518
 
1519
    status = scsi_init_malloc(512, GFP_ATOMIC | GFP_DMA);
1520
    dma_scratch = scsi_init_malloc(1024, GFP_ATOMIC | GFP_DMA);
1521
 
1522
    if(status == NULL || dma_scratch == NULL) {
1523
        printk("eata_dma: can't allocate enough memory to probe for hosts !\n");
1524
        return(0);
1525
    }
1526
 
1527
    dma_scratch += 4;
1528
 
1529
    find_PCI(&gc, tpnt);
1530
 
1531
    find_EISA(&gc, tpnt);
1532
 
1533
    find_ISA(&gc, tpnt);
1534
 
1535
    for (i = 0; i <= MAXIRQ; i++) { /* Now that we know what we have, we     */
1536
        if (reg_IRQ[i] >= 1){       /* exchange the interrupt handler which  */
1537
            free_irq(i, NULL);      /* we used for probing with the real one */
1538
            request_irq(i, (void *)(eata_int_handler), SA_INTERRUPT|SA_SHIRQ,
1539
                        "eata_dma", NULL);
1540
        }
1541
    }
1542
 
1543
    HBA_ptr = first_HBA;
1544
 
1545
    if (registered_HBAs != 0) {
1546
        printk("EATA (Extended Attachment) driver version: %d.%d%s"
1547
               "\ndeveloped in co-operation with DPT\n"
1548
               "(c) 1993-96 Michael Neuffer, mike@i-Connect.Net\n",
1549
               VER_MAJOR, VER_MINOR, VER_SUB);
1550
        printk("Registered HBAs:");
1551
        printk("\nHBA no. Boardtype    Revis  EATA Bus  BaseIO IRQ"
1552
               " DMA Ch ID Pr QS  S/G IS\n");
1553
        for (i = 1; i <= registered_HBAs; i++) {
1554
            printk("scsi%-2d: %.12s v%s 2.0%c %s %#.4x  %2d",
1555
                   HBA_ptr->host_no, SD(HBA_ptr)->name, SD(HBA_ptr)->revision,
1556
                   SD(HBA_ptr)->EATA_revision, (SD(HBA_ptr)->bustype == 'P')?
1557
                   "PCI ":(SD(HBA_ptr)->bustype == 'E')?"EISA":"ISA ",
1558
                   (u32) HBA_ptr->base, HBA_ptr->irq);
1559
            if(HBA_ptr->dma_channel != BUSMASTER)
1560
                printk("  %2x ", HBA_ptr->dma_channel);
1561
            else
1562
                printk(" %s", "BMST");
1563
            printk(" %d  %d  %c %3d %3d %c\n",
1564
                   SD(HBA_ptr)->channel+1, HBA_ptr->this_id,
1565
                   (SD(HBA_ptr)->primary == TRUE)?'Y':'N',
1566
                   HBA_ptr->can_queue, HBA_ptr->sg_tablesize,
1567
                   (SD(HBA_ptr)->immediate_support == TRUE)?'Y':'N');
1568
            HBA_ptr = SD(HBA_ptr)->next;
1569
        }
1570
    } else {
1571
        scsi_init_free((void *)status, 512);
1572
    }
1573
 
1574
    scsi_init_free((void *)dma_scratch - 4, 1024);
1575
 
1576
    DBG(DPT_DEBUG, DELAY(12));
1577
 
1578
    return(registered_HBAs);
1579
}
1580
 
1581
#ifdef MODULE
1582
/* Eventually this will go into an include file, but this will be later */
1583
Scsi_Host_Template driver_template = EATA_DMA;
1584
#include "scsi_module.c"
1585
#endif
1586
 
1587
/*
1588
 * Overrides for Emacs so that we almost follow Linus's tabbing style.
1589
 * Emacs will notice this stuff at the end of the file and automatically
1590
 * adjust the settings for this buffer only.  This must remain at the end
1591
 * of the file.
1592
 * ---------------------------------------------------------------------------
1593
 * Local variables:
1594
 * c-indent-level: 4
1595
 * c-brace-imaginary-offset: 0
1596
 * c-brace-offset: -4
1597
 * c-argdecl-indent: 4
1598
 * c-label-offset: -4
1599
 * c-continued-statement-offset: 4
1600
 * c-continued-brace-offset: 0
1601
 * tab-width: 8
1602
 * End:
1603
 */

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