| blob | 80594947c6f6c1a97117be2bedde8fa9b83c75a8 |
1 /* $Id: aha1542.c,v 1.1 1992/07/24 06:27:38 root Exp root $
2 * linux/kernel/aha1542.c
3 *
4 * Copyright (C) 1992 Tommy Thorn
5 * Copyright (C) 1993, 1994, 1995 Eric Youngdale
6 *
7 * Modified by Eric Youngdale
8 * Use request_irq and request_dma to help prevent unexpected conflicts
9 * Set up on-board DMA controller, such that we do not have to
10 * have the bios enabled to use the aha1542.
11 * Modified by David Gentzel
12 * Don't call request_dma if dma mask is 0 (for BusLogic BT-445S VL-Bus
13 * controller).
14 * Modified by Matti Aarnio
15 * Accept parameters from LILO cmd-line. -- 1-Oct-94
16 * Modified by Mike McLagan <mike.mclagan@linux.org>
17 * Recognise extended mode on AHA1542CP, different bit than 1542CF
18 * 1-Jan-97
19 * Modified by Bjorn L. Thordarson and Einar Thor Einarsson
20 * Recognize that DMA0 is valid DMA channel -- 13-Jul-98
21 * Modified by Chris Faulhaber <jedgar@fxp.org>
22 * Added module command-line options
23 * 19-Jul-99
24 * Modified by Adam Fritzler
25 * Added proper detection of the AHA-1640 (MCA version of AHA-1540)
26 */
28 #include <linux/module.h>
29 #include <linux/interrupt.h>
30 #include <linux/kernel.h>
31 #include <linux/types.h>
32 #include <linux/string.h>
33 #include <linux/ioport.h>
34 #include <linux/delay.h>
35 #include <linux/proc_fs.h>
36 #include <linux/init.h>
37 #include <linux/spinlock.h>
38 #include <linux/isapnp.h>
39 #include <linux/blkdev.h>
40 #include <linux/mca.h>
41 #include <linux/mca-legacy.h>
43 #include <asm/dma.h>
44 #include <asm/system.h>
45 #include <asm/io.h>
48 #include <scsi/scsi_host.h>
51 #define SCSI_BUF_PA(address) isa_virt_to_bus(address)
52 #define SCSI_SG_PA(sgent) (isa_page_to_bus(sg_page((sgent))) + (sgent)->offset)
58 {
64 /*
65 * Not safe to continue.
66 */
68 }
70 #include<linux/stat.h>
72 #ifdef DEBUG
73 #define DEB(x) x
74 #else
75 #define DEB(x)
76 #endif
78 /*
79 static const char RCSid[] = "$Header: /usr/src/linux/kernel/blk_drv/scsi/RCS/aha1542.c,v 1.1 1992/07/24 06:27:38 root Exp root $";
80 */
82 /* The adaptec can be configured for quite a number of addresses, but
83 I generally do not want the card poking around at random. We allow
84 two addresses - this allows people to use the Adaptec with a Midi
85 card, which also used 0x330 -- can be overridden with LILO! */
88 arrays below, if you need more.. */
90 /* Boards 3,4 slots are reserved for ISAPnP/MCA scans */
94 /* set by aha1542_setup according to the command line; they also may
95 be marked __initdata, but require zero initializers then */
102 /*
103 * LILO/Module params: aha1542=<PORTBASE>[,<BUSON>,<BUSOFF>[,<DMASPEED>]]
104 *
105 * Where: <PORTBASE> is any of the valid AHA addresses:
106 * 0x130, 0x134, 0x230, 0x234, 0x330, 0x334
107 * <BUSON> is the time (in microsecs) that AHA spends on the AT-bus
108 * when transferring data. 1542A power-on default is 11us,
109 * valid values are in range: 2..15 (decimal)
110 * <BUSOFF> is the time that AHA spends OFF THE BUS after while
111 * it is transferring data (not to monopolize the bus).
112 * Power-on default is 4us, valid range: 1..64 microseconds.
113 * <DMASPEED> Default is jumper selected (1542A: on the J1),
114 * but experimenter can alter it with this.
115 * Valid values: 5, 6, 7, 8, 10 (MB/s)
116 * Factory default is 5 MB/s.
117 */
119 #if defined(MODULE)
126 {
129 0
130 },
132 };
136 #else
138 #endif
145 /* This will effectively start both of them at the first mailbox */
152 };
154 #define HOSTDATA(host) ((struct aha1542_hostdata *) &host->hostdata)
160 #define WAITnexttimeout 3000000
166 #define aha1542_intr_reset(base) outb(IRST, CONTROL(base))
168 #define WAIT(port, mask, allof, noneof) \
169 { register int WAITbits; \
170 register int WAITtimeout = WAITnexttimeout; \
171 while (1) { \
172 WAITbits = inb(port) & (mask); \
173 if ((WAITbits & (allof)) == (allof) && ((WAITbits & (noneof)) == 0)) \
174 break; \
175 if (--WAITtimeout == 0) goto fail; \
176 } \
177 }
179 /* Similar to WAIT, except we use the udelay call to regulate the
180 amount of time we wait. */
181 #define WAITd(port, mask, allof, noneof, timeout) \
182 { register int WAITbits; \
183 register int WAITtimeout = timeout; \
184 while (1) { \
185 WAITbits = inb(port) & (mask); \
186 if ((WAITbits & (allof)) == (allof) && ((WAITbits & (noneof)) == 0)) \
187 break; \
188 mdelay(1); \
189 if (--WAITtimeout == 0) goto fail; \
190 } \
191 }
194 {
195 /* int s = inb(STATUS), i = inb(INTRFLAGS);
196 printk("status=%x intrflags=%x\n", s, i, WAITnexttimeout-WAITtimeout); */
197 }
199 /* This is a bit complicated, but we need to make sure that an interrupt
200 routine does not send something out while we are in the middle of this.
201 Fortunately, it is only at boot time that multi-byte messages
202 are ever sent. */
204 {
216 }
220 }
227 }
229 }
231 fail:
237 }
239 /* Only used at boot time, so we do not need to worry about latency as much
240 here */
243 {
250 }
253 fail:
258 }
260 /* Similar to aha1542_in, except that we wait a very short period of time.
261 We use this if we know the board is alive and awake, but we are not sure
262 if the board will respond to the command we are about to send or not */
264 {
271 }
274 fail:
277 }
280 {
289 reselection was not complete within the SCSI Time out period */
294 than was allocated by the Data Length field or the sum of the
295 Scatter / Gather Data Length fields. */
300 invalid. This usually indicates a software failure. */
303 This usually indicates a software failure. */
306 of linked CCB's does not specify the same logical unit number as
307 the first. */
309 Target Mode CCB was invalid. */
312 received to service data transfer between the same target LUN
313 and initiator SCSI ID in the same direction. */
316 length segment or invalid segment list boundaries was received.
317 A CCB parameter was invalid. */
323 phase sequence was requested by the target. The host adapter
324 will generate a SCSI Reset Condition, notifying the host with
325 a SCRD interrupt */
331 }
333 }
336 {
343 /* Quick and dirty test for presence of the card. */
347 /* Reset the adapter. I ought to make a hard reset, but it's not really necessary */
349 /* DEB(printk("aha1542_test_port called \n")); */
351 /* In case some other card was probing here, reset interrupts */
359 /* Expect INIT and IDLE, any of the others are bad */
363 /* Shouldn't have generated any interrupts during reset */
368 /* Perform a host adapter inquiry instead so we do not need to set
369 up the mailboxes ahead of time */
380 }
383 /* Reading port should reset DF */
388 /* When HACC, command is completed, and we're though testing */
390 /* now initialize adapter */
393 /* Clear interrupts */
399 fail:
401 }
403 /* A quick wrapper for do_aha1542_intr_handle to grab the spin lock */
405 {
413 }
415 /* A "high" level interrupt handler */
417 {
431 #ifdef DEBUG
432 {
446 };
447 #endif
454 /* Check for unusual interrupts. If any of these happen, we should
455 probably do something special, but for now just printing a message
456 is sufficient. A SCSI reset detected is something that we really
457 need to deal with in some way. */
466 }
467 }
478 mbi++;
485 /* Hmm, no mail. Must have read it the last time around */
488 /* We detected a reset. Restart all pending commands for
489 devices that use the hard reset option */
493 };
501 #ifdef DEBUG
502 {
506 };
507 #endif
512 #ifdef DEBUG
514 #endif
523 }
527 /* Fetch the sense data, and tuck it away, in the required slot. The
528 Adaptec automatically fetches it, and there is no guarantee that
529 we will still have it in the cdb when we come back */
532 SCSI_SENSE_BUFFERSIZE);
535 /* is there mail :-) */
537 /* more error checking left out here */
539 /* This is surely wrong, but I don't know what's right */
541 else
544 #ifdef DEBUG
548 #endif
551 #ifdef DEBUG
553 #endif
555 #ifdef DEBUG
559 #endif
560 /*
561 DEB(printk("aha1542_intr_handle: buf:"));
562 for (i = 0; i < bufflen; i++)
563 printk("%02x ", ((unchar *)buff)[i]);
564 printk("\n");
565 */
566 }
570 far as queuecommand is concerned */
572 number_serviced++;
573 };
574 }
577 {
579 unchar direction;
597 }
598 );
601 /* Don't do the command - we have the sense data already */
602 #if 0
603 /* scsi_request_sense() provides a buffer of size 256,
604 so there is no reason to expect equality */
608 #endif
612 }
613 #ifdef DEBUG
618 else
621 printk(KERN_DEBUG "aha1542_queuecommand: dev %d cmd %02x pos %d len %d ", target, *cmd, i, bufflen);
622 else
631 #endif
632 /* Use the outgoing mailboxes in a round-robin fashion, because this
633 is how the host adapter will scan for them */
643 mbo++;
651 HOSTDATA(SCpnt->device->host)->SCint[mbo] = SCpnt; /* This will effectively prevent someone else from
652 screwing with this cdb. */
657 #ifdef DEBUG
659 #endif
678 #ifdef DEBUG
680 #endif
687 /* free the claimed mailbox slot */
690 }
696 };
699 #ifdef DEBUG
704 #endif
710 };
716 #ifdef DEBUG
717 {
722 };
723 #endif
736 }
738 /* Initialize mailboxes */
740 {
753 };
759 fail:
761 }
763 }
765 static int __init aha1542_getconfig(int base_io, unsigned char *irq_level, unsigned char *dma_chan, unsigned char *scsi_id)
766 {
773 };
778 fail:
780 }
796 /* This means that the adapter, although Adaptec 1542 compatible, doesn't use a DMA channel.
797 Currently only aware of the BusLogic BT-445S VL-Bus adapter which needs this. */
803 };
826 };
829 }
831 /* This function should only be called for 1542C boards - we can detect
832 the special firmware settings and unlock the board */
835 {
859 };
861 fail:
863 }
866 }
868 /* Query the board to find out if it is a 1542 or a 1740, or whatever. */
870 {
877 };
882 fail:
884 }
889 /* For an AHA1740 series board, we ignore the board since there is a
890 hardware bug which can lead to wrong blocks being returned if the board
891 is operating in the 1542 emulation mode. Since there is an extended mode
892 driver, we simply ignore the board and let the 1740 driver pick it up.
893 */
898 };
900 /* Always call this - boards that do not support extended bios translation
901 will ignore the command, and we will set the proper default */
906 }
908 #ifndef MODULE
913 {
923 }
928 }
936 {
957 printk(KERN_ERR "aha1542: Valid values for DMASPEED are 5-8, 10 MB/s. Using jumper defaults.\n");
959 }
961 }
966 }
969 {
978 }
981 #endif
983 /* return non-zero on detection */
985 {
1000 #ifdef MODULE
1004 {
1022 };
1024 }
1025 #endif
1027 /*
1028 * Find MicroChannel cards (AHA1640)
1029 */
1030 #ifdef CONFIG_MCA_LEGACY
1040 /* Detect only AHA-1640 cards -- MCA ID 0F1F */
1045 /* Found one */
1048 /* Decode address */
1053 else
1058 }
1063 else
1068 }
1069 }
1071 /* No need to decode IRQ and Arb level -- those are
1072 * read off the card later.
1073 */
1080 /* Go on */
1081 slot++;
1082 }
1084 }
1085 #endif
1087 /*
1088 * Hunt for ISA Plug'n'Pray Adaptecs (AHA1535)
1089 */
1092 {
1101 /*
1102 * Activate the PnP card
1103 */
1111 }
1116 }
1120 /* The card can be queried for its DMA, we have
1121 the DMA set up that is enough */
1124 }
1125 }
1134 }
1135 /* For now we do this - until kmalloc is more intelligent
1136 we are resigned to stupid hacks like this */
1140 }
1147 /* Set the Bus on/off-times as not to ruin floppy performance */
1148 {
1155 }
1168 }
1170 fail:
1172 }
1174 }
1181 printk(KERN_INFO "Configuring Adaptec (SCSI-ID %d) at IO:%x, IRQ %d", scsi_id, base_io, irq_level);
1198 }
1205 }
1209 }
1210 }
1225 #if 0
1228 {
1239 }
1240 }
1256 }
1257 #endif
1258 count++;
1260 unregister:
1265 };
1268 }
1271 {
1280 }
1283 {
1286 #if 0
1288 #endif
1293 #if 0
1295 #endif
1296 count++;
1297 }
1299 #if 0
1300 /* start scsi command */
1303 #endif
1305 }
1307 /*
1308 * This is a device reset. This is handled by sending a special command
1309 * to the device.
1310 */
1312 {
1332 mbo++;
1341 prevent someone else from
1342 screwing with this cdb. */
1358 /*
1359 * Now tell the 1542 to flush all pending commands for this
1360 * target
1361 */
1370 #ifdef ERIC_neverdef
1371 /*
1372 * With the 1542 we apparently never get an interrupt to
1373 * acknowledge a device reset being sent. Then again, Leonard
1374 * says we are doing this wrong in the first place...
1375 *
1376 * Take a wait and see attitude. If we get spurious interrupts,
1377 * then the device reset is doing something sane and useful, and
1378 * we will wait for the interrupt to post completion.
1379 */
1382 /*
1383 * Free the command block for all commands running on this
1384 * target...
1385 */
1395 }
1396 }
1401 }
1404 {
1407 /*
1408 * This does a scsi reset for all devices on the bus.
1409 * In principle, we could also reset the 1542 - should
1410 * we do this? Try this first, and we can add that later
1411 * if it turns out to be useful.
1412 */
1415 /*
1416 * Wait for the thing to settle down a bit. Unfortunately
1417 * this is going to basically lock up the machine while we
1418 * wait for this to complete. To be 100% correct, we need to
1419 * check for timeout, and if we are doing something like this
1420 * we are pretty desperate anyways.
1421 */
1429 /*
1430 * Now try to pick up the pieces. For all pending commands,
1431 * free any internal data structures, and basically clear things
1432 * out. We do not try and restart any commands or anything -
1433 * the strategy handler takes care of that crap.
1434 */
1444 /*
1445 * If this device implements the soft reset option,
1446 * then it is still holding onto the command, and
1447 * may yet complete it. In this case, we don't
1448 * flush the data.
1449 */
1451 }
1456 }
1457 }
1462 fail:
1465 }
1468 {
1471 /*
1472 * This does a scsi reset for all devices on the bus.
1473 * In principle, we could also reset the 1542 - should
1474 * we do this? Try this first, and we can add that later
1475 * if it turns out to be useful.
1476 */
1479 /*
1480 * Wait for the thing to settle down a bit. Unfortunately
1481 * this is going to basically lock up the machine while we
1482 * wait for this to complete. To be 100% correct, we need to
1483 * check for timeout, and if we are doing something like this
1484 * we are pretty desperate anyways.
1485 */
1492 /*
1493 * We need to do this too before the 1542 can interact with
1494 * us again.
1495 */
1498 /*
1499 * Now try to pick up the pieces. For all pending commands,
1500 * free any internal data structures, and basically clear things
1501 * out. We do not try and restart any commands or anything -
1502 * the strategy handler takes care of that crap.
1503 */
1512 /*
1513 * If this device implements the soft reset option,
1514 * then it is still holding onto the command, and
1515 * may yet complete it. In this case, we don't
1516 * flush the data.
1517 */
1519 }
1524 }
1525 }
1530 fail:
1533 }
1535 #if 0
1536 /*
1537 * These are the old error handling routines. They are only temporarily
1538 * here while we play with the new error handling code.
1539 */
1541 {
1542 #if 0
1561 mbi++;
1572 }
1573 /* OK, no lost interrupt. Try looking to see how many pending commands
1574 we think we have. */
1582 );
1586 };
1591 );
1592 }
1593 #endif
1596 #if 0
1604 }
1605 }
1608 #endif
1610 }
1612 /* We do not implement a reset function here, but the upper level code
1613 assumes that it will get some kind of response for the command in
1614 SCpnt. We must oblige, or the command will hang the scsi system.
1615 For a first go, we assume that the 1542 notifies us with all of the
1616 pending commands (it does implement soft reset, after all). */
1619 {
1623 /*
1624 * See if a bus reset was suggested.
1625 */
1627 /*
1628 * This does a scsi reset for all devices on the bus.
1629 * In principle, we could also reset the 1542 - should
1630 * we do this? Try this first, and we can add that later
1631 * if it turns out to be useful.
1632 */
1635 /*
1636 * Wait for the thing to settle down a bit. Unfortunately
1637 * this is going to basically lock up the machine while we
1638 * wait for this to complete. To be 100% correct, we need to
1639 * check for timeout, and if we are doing something like this
1640 * we are pretty desperate anyways.
1641 */
1645 /*
1646 * We need to do this too before the 1542 can interact with
1647 * us again.
1648 */
1651 /*
1652 * Now try to pick up the pieces. Restart all commands
1653 * that are currently active on the bus, and reset all of
1654 * the datastructures. We have some time to kill while
1655 * things settle down, so print a nice message.
1656 */
1671 }
1672 /*
1673 * Now tell the mid-level code what we did here. Since
1674 * we have restarted all of the outstanding commands,
1675 * then report SUCCESS.
1676 */
1678 fail:
1685 /* This does a selective reset of just the one device */
1686 /* First locate the ccb for this command */
1690 /* Now tell the 1542 to flush all pending commands for this target */
1693 /* Here is the tricky part. What to do next. Do we get an interrupt
1694 for the commands that we aborted with the specified target, or
1695 do we generate this on our own? Try it without first and see
1696 what happens */
1699 /* If the first does not work, then try the second. I think the
1700 first option is more likely to be correct. Free the command
1701 block for all commands running on this target... */
1715 }
1717 }
1718 }
1719 /* No active command at this time, so this means that each time we got
1720 some kind of response the last time through. Tell the mid-level code
1721 to request sense information in order to decide what to do next. */
1723 }
1728 {
1735 /* Please verify that this is the same as what DOS returns */
1743 }
1746 }
1766 };