freebsd-nq/sys/scsi/scsi_base.c

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/*
* Written By Julian ELischer
* Copyright julian Elischer 1993.
* Permission is granted to use or redistribute this file in any way as long
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* as this notice remains. Julian Elischer does not guarantee that this file
* is totally correct for any given task and users of this file must
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* accept responsibility for any damage that occurs from the application of this
* file.
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*
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* Written by Julian Elischer (julian@dialix.oz.au)
* $Id: scsi_base.c,v 1.35 1996/01/05 20:12:45 wollman Exp $
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*/
#include "opt_bounce.h"
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#define SPLSD splbio
#define ESUCCESS 0
#include <sys/types.h>
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#include <sys/param.h>
#include <sys/systm.h>
#include <sys/proc.h>
#include <sys/kernel.h>
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#include <sys/buf.h>
#include <sys/uio.h>
#include <sys/malloc.h>
#include <sys/errno.h>
#include <vm/vm.h>
#include <vm/vm_param.h>
#include <vm/pmap.h>
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#include <scsi/scsi_all.h>
#include <scsi/scsi_disk.h>
#include <scsi/scsiconf.h>
static errval sc_err1(struct scsi_xfer *);
static errval scsi_interpret_sense(struct scsi_xfer *);
static struct scsi_xfer *get_xs( struct scsi_link *sc_link, u_int32_t flags);
static void free_xs(struct scsi_xfer *xs, struct scsi_link *sc_link,
u_int32_t flags);
static void show_mem(unsigned char *address, u_int32_t num);
static void show_scsi_xs (struct scsi_xfer *);
#ifdef notyet
static int scsi_sense_qualifiers (struct scsi_xfer *, int *, int *);
#endif
static struct scsi_xfer *next_free_xs;
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/*
* Get a scsi transfer structure for the caller. Charge the structure
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* to the device that is referenced by the sc_link structure. If the
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* sc_link structure has no 'credits' then the device already has the
* maximum number or outstanding operations under way. In this stage,
* wait on the structure so that when one is freed, we are awoken again
* If the SCSI_NOSLEEP flag is set, then do not wait, but rather, return
* a NULL pointer, signifying that no slots were available
* Note in the link structure, that we are waiting on it.
*/
static struct scsi_xfer *
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get_xs(sc_link, flags)
struct scsi_link *sc_link; /* who to charge the xs to */
u_int32_t flags; /* if this call can sleep */
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{
struct scsi_xfer *xs;
u_int32_t s;
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SC_DEBUG(sc_link, SDEV_DB3, ("get_xs\n"));
s = splbio();
while (!sc_link->opennings) {
SC_DEBUG(sc_link, SDEV_DB3, ("sleeping\n"));
if (flags & SCSI_NOSLEEP) {
splx(s);
return 0;
}
sc_link->flags |= SDEV_WAITING;
tsleep((caddr_t)sc_link, PRIBIO, "scsiget", 0);
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}
sc_link->active++;
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sc_link->opennings--;
if ( (xs = next_free_xs) ) {
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next_free_xs = xs->next;
splx(s);
} else {
splx(s);
SC_DEBUG(sc_link, SDEV_DB3, ("making\n"));
xs = malloc(sizeof(*xs), M_TEMP,
((flags & SCSI_NOSLEEP) ? M_NOWAIT : M_WAITOK));
if (xs == NULL) {
sc_print_addr(sc_link);
printf("cannot allocate scsi xs\n");
return (NULL);
}
}
SC_DEBUG(sc_link, SDEV_DB3, ("returning\n"));
xs->sc_link = sc_link;
return (xs);
}
/*
* Given a scsi_xfer struct, and a device (referenced through sc_link)
* return the struct to the free pool and credit the device with it
* If another process is waiting for an xs, do a wakeup, let it proceed
*/
static void
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free_xs(xs, sc_link, flags)
struct scsi_xfer *xs;
struct scsi_link *sc_link; /* who to credit for returning it */
u_int32_t flags;
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{
xs->next = next_free_xs;
next_free_xs = xs;
SC_DEBUG(sc_link, SDEV_DB3, ("free_xs\n"));
/* if was 0 and someone waits, wake them up */
sc_link->active--;
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if ((!sc_link->opennings++) && (sc_link->flags & SDEV_WAITING)) {
sc_link->flags &= ~SDEV_WAITING;
wakeup((caddr_t)sc_link); /* remember, it wakes them ALL up */
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} else {
if (sc_link->device->start) {
SC_DEBUG(sc_link, SDEV_DB2, ("calling private start()\n"));
(*(sc_link->device->start)) (sc_link->dev_unit, flags);
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}
}
}
/* XXX dufault: Replace "sd_size" with "scsi_read_capacity"
* when bde is done with sd.c
*/
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/*
* Find out from the device what its capacity is.
*/
u_int32_t
scsi_read_capacity(sc_link, blk_size, flags)
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struct scsi_link *sc_link;
u_int32_t *blk_size;
u_int32_t flags;
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{
struct scsi_read_cap_data rdcap;
struct scsi_read_capacity scsi_cmd;
u_int32_t size;
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/*
* make up a scsi command and ask the scsi driver to do
* it for you.
*/
bzero(&scsi_cmd, sizeof(scsi_cmd));
scsi_cmd.op_code = READ_CAPACITY;
/*
* If the command works, interpret the result as a 4 byte
* number of blocks
*/
if (scsi_scsi_cmd(sc_link,
(struct scsi_generic *) &scsi_cmd,
sizeof(scsi_cmd),
(u_char *) & rdcap,
sizeof(rdcap),
4,
5000000, /* WORMs tend to take a HUGE amount of time */
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NULL,
flags | SCSI_DATA_IN) != 0) {
sc_print_addr(sc_link);
printf("could not get size\n");
return (0);
} else {
size = scsi_4btou(&rdcap.addr_3) + 1;
if (blk_size)
*blk_size = scsi_4btou(&rdcap.length_3);
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}
return (size);
}
errval
scsi_reset_target(sc_link)
struct scsi_link *sc_link;
{
return (scsi_scsi_cmd(sc_link,
0,
0,
0,
0,
1,
2000,
NULL,
SCSI_RESET));
}
errval
scsi_target_mode(sc_link, on_off)
struct scsi_link *sc_link;
int on_off;
{
struct scsi_generic scsi_cmd;
bzero(&scsi_cmd, sizeof(scsi_cmd));
scsi_cmd.opcode = SCSI_OP_TARGET;
scsi_cmd.bytes[0] = (on_off) ? 1 : 0;
return (scsi_scsi_cmd(sc_link,
&scsi_cmd,
sizeof(scsi_cmd),
0,
0,
1,
2000,
NULL,
SCSI_ESCAPE));
}
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/*
* Get scsi driver to send a "are you ready?" command
*/
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errval
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scsi_test_unit_ready(sc_link, flags)
struct scsi_link *sc_link;
u_int32_t flags;
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{
struct scsi_test_unit_ready scsi_cmd;
bzero(&scsi_cmd, sizeof(scsi_cmd));
scsi_cmd.op_code = TEST_UNIT_READY;
return (scsi_scsi_cmd(sc_link,
(struct scsi_generic *) &scsi_cmd,
sizeof(scsi_cmd),
0,
0,
2,
100000,
NULL,
flags));
}
#ifdef SCSI_2_DEF
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/*
* Do a scsi operation, asking a device to run as SCSI-II if it can.
*/
errval
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scsi_change_def(sc_link, flags)
struct scsi_link *sc_link;
u_int32_t flags;
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{
struct scsi_changedef scsi_cmd;
bzero(&scsi_cmd, sizeof(scsi_cmd));
scsi_cmd.op_code = CHANGE_DEFINITION;
scsi_cmd.how = SC_SCSI_2;
return (scsi_scsi_cmd(sc_link,
(struct scsi_generic *) &scsi_cmd,
sizeof(scsi_cmd),
0,
0,
2,
100000,
NULL,
flags));
}
#endif /* SCSI_2_DEF */
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/*
* Do a scsi operation asking a device what it is
* Use the scsi_cmd routine in the switch table.
*/
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errval
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scsi_inquire(sc_link, inqbuf, flags)
struct scsi_link *sc_link;
struct scsi_inquiry_data *inqbuf;
u_int32_t flags;
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{
struct scsi_inquiry scsi_cmd;
bzero(&scsi_cmd, sizeof(scsi_cmd));
scsi_cmd.op_code = INQUIRY;
scsi_cmd.length = sizeof(struct scsi_inquiry_data);
return (scsi_scsi_cmd(sc_link,
(struct scsi_generic *) &scsi_cmd,
sizeof(scsi_cmd),
(u_char *) inqbuf,
sizeof(struct scsi_inquiry_data),
2,
100000,
NULL,
SCSI_DATA_IN | flags));
}
/*
* Prevent or allow the user to remove the media
*/
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errval
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scsi_prevent(sc_link, type, flags)
struct scsi_link *sc_link;
u_int32_t type, flags;
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{
struct scsi_prevent scsi_cmd;
bzero(&scsi_cmd, sizeof(scsi_cmd));
scsi_cmd.op_code = PREVENT_ALLOW;
scsi_cmd.how = type;
return (scsi_scsi_cmd(sc_link,
(struct scsi_generic *) &scsi_cmd,
sizeof(scsi_cmd),
0,
0,
2,
5000,
NULL,
flags));
}
/*
* Get scsi driver to send a "start up" command
*/
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errval
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scsi_start_unit(sc_link, flags)
struct scsi_link *sc_link;
u_int32_t flags;
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{
struct scsi_start_stop scsi_cmd;
bzero(&scsi_cmd, sizeof(scsi_cmd));
scsi_cmd.op_code = START_STOP;
scsi_cmd.how = SSS_START;
return (scsi_scsi_cmd(sc_link,
(struct scsi_generic *) &scsi_cmd,
sizeof(scsi_cmd),
0,
0,
2,
10000,
NULL,
flags));
}
/*
* Get scsi driver to send a "stop" command
*/
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errval
scsi_stop_unit(sc_link, eject, flags)
struct scsi_link *sc_link;
u_int32_t eject;
u_int32_t flags;
{
struct scsi_start_stop scsi_cmd;
bzero(&scsi_cmd, sizeof(scsi_cmd));
scsi_cmd.op_code = START_STOP;
if (eject) {
scsi_cmd.how = SSS_LOEJ;
}
return (scsi_scsi_cmd(sc_link,
(struct scsi_generic *) &scsi_cmd,
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sizeof(scsi_cmd),
0,
0,
2,
10000,
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NULL,
flags));
}
/*
* This routine is called by the scsi interrupt when the transfer is complete.
*/
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void
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scsi_done(xs)
struct scsi_xfer *xs;
{
struct scsi_link *sc_link = xs->sc_link;
struct buf *bp = xs->bp;
errval retval;
SC_DEBUG(sc_link, SDEV_DB2, ("scsi_done\n"));
#ifdef SCSIDEBUG
if (sc_link->flags & SDEV_DB1)
{
show_scsi_cmd(xs);
}
#endif /*SCSIDEBUG */
/*
* If it's a user level request, bypass all usual completion processing,
* let the user work it out.. We take reponsibility for freeing the
* xs when the user returns. (and restarting the device's queue).
*/
if (xs->flags & SCSI_USER) {
SC_DEBUG(sc_link, SDEV_DB3, ("calling user done()\n"));
scsi_user_done(xs); /* to take a copy of the sense etc. */
SC_DEBUG(sc_link, SDEV_DB3, ("returned from user done()\n "));
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free_xs(xs, sc_link, SCSI_NOSLEEP); /* restarts queue too */
SC_DEBUG(sc_link, SDEV_DB3, ("returning to adapter\n"));
return;
}
/*
* If the device has it's own done routine, call it first.
* If it returns a legit error value, return that, otherwise
* it wants us to continue with normal processing.
*/
if (sc_link->device->done) {
SC_DEBUG(sc_link, SDEV_DB2, ("calling private done()\n"));
retval = (*sc_link->device->done) (xs);
if (retval == -1) {
free_xs(xs, sc_link, SCSI_NOSLEEP); /*XXX */
return; /* it did it all, finish up */
}
/* XXX: This isn't used anywhere. Do you have plans for it,
* Julian? (dufault@hda.com).
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* This allows a private 'done' handler to
* resubmit the command if it wants to retry,
* In this case the xs must NOT be freed. (julian)
*/
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if (retval == -2) {
return; /* it did it all, finish up */
}
SC_DEBUG(sc_link, SDEV_DB3, ("continuing with generic done()\n"));
}
if ((bp = xs->bp) == NULL) {
/*
* if it's a normal upper level request, then ask
* the upper level code to handle error checking
* rather than doing it here at interrupt time
*/
wakeup((caddr_t)xs);
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return;
}
/*
* Go and handle errors now.
* If it returns SCSIRET_DO_RETRY then we should RETRY
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*/
if ((retval = sc_err1(xs)) == SCSIRET_DO_RETRY) {
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if ((*(sc_link->adapter->scsi_cmd)) (xs)
== SUCCESSFULLY_QUEUED) { /* don't wake the job, ok? */
return;
}
xs->flags |= ITSDONE;
}
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free_xs(xs, sc_link, SCSI_NOSLEEP); /* does a start if needed */
biodone(bp);
}
/*
* ask the scsi driver to perform a command for us.
* tell it where to read/write the data, and how
* long the data is supposed to be. If we have a buf
* to associate with the transfer, we need that too.
*/
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errval
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scsi_scsi_cmd(sc_link, scsi_cmd, cmdlen, data_addr, datalen,
retries, timeout, bp, flags)
struct scsi_link *sc_link;
struct scsi_generic *scsi_cmd;
u_int32_t cmdlen;
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u_char *data_addr;
u_int32_t datalen;
u_int32_t retries;
u_int32_t timeout;
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struct buf *bp;
u_int32_t flags;
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{
struct scsi_xfer *xs;
errval retval;
u_int32_t s;
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/*
* Illegal command lengths will wedge host adapter software.
* Reject zero length commands and assert all defined commands
* are the correct length.
*/
if ((flags & (SCSI_RESET | SCSI_ESCAPE)) == 0)
{
if (cmdlen == 0)
return EFAULT;
else
{
static u_int8_t sizes[] = {6, 10, 10, 0, 0, 12, 0, 0 };
u_int8_t size = sizes[((scsi_cmd->opcode) >> 5)];
if (size && (size != cmdlen))
return EIO;
}
}
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SC_DEBUG(sc_link, SDEV_DB2, ("scsi_cmd\n"));
xs = get_xs(sc_link, flags);
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if (!xs) return (ENOMEM);
/*
* Fill out the scsi_xfer structure. We don't know whose context
* the cmd is in, so copy it.
*/
bcopy(scsi_cmd, &(xs->cmdstore), cmdlen);
xs->flags = INUSE | flags;
xs->sc_link = sc_link;
xs->retries = retries;
xs->timeout = timeout;
xs->cmd = &xs->cmdstore;
xs->cmdlen = cmdlen;
xs->data = data_addr;
xs->datalen = datalen;
xs->resid = 0;
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xs->bp = bp;
/*XXX*/ /*use constant not magic number */
if (datalen && ((caddr_t) data_addr < (caddr_t) KERNBASE)) {
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if (bp) {
printf("Data buffered space not in kernel context\n");
#ifdef SCSIDEBUG
show_scsi_cmd(xs);
#endif /* SCSIDEBUG */
retval = EFAULT;
goto bad;
}
#ifdef BOUNCE_BUFFERS
xs->data = (caddr_t) vm_bounce_kva_alloc( (datalen + PAGE_SIZE - 1)/PAGE_SIZE);
#else
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xs->data = malloc(datalen, M_TEMP, M_WAITOK);
#endif
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/* I think waiting is ok *//*XXX */
switch ((int)(flags & (SCSI_DATA_IN | SCSI_DATA_OUT))) {
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case 0:
printf("No direction flags, assuming both\n");
#ifdef SCSIDEBUG
show_scsi_cmd(xs);
#endif /* SCSIDEBUG */
case SCSI_DATA_IN | SCSI_DATA_OUT: /* weird */
case SCSI_DATA_OUT:
bcopy(data_addr, xs->data, datalen);
break;
case SCSI_DATA_IN:
bzero(xs->data, datalen);
}
}
retry:
xs->error = XS_NOERROR;
#ifdef PARANOID
if (datalen && ((caddr_t) xs->data < (caddr_t) KERNBASE)) {
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printf("It's still wrong!\n");
}
#endif /*PARANOID*/
#ifdef SCSIDEBUG
if (sc_link->flags & SDEV_DB3) show_scsi_xs(xs);
#endif /* SCSIDEBUG */
/*
* Do the transfer. If we are polling we will return:
* COMPLETE, Was poll, and scsi_done has been called
* TRY_AGAIN_LATER, Adapter short resources, try again
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*
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* if under full steam (interrupts) it will return:
* SUCCESSFULLY_QUEUED, will do a wakeup when complete
* TRY_AGAIN_LATER, (as for polling)
* After the wakeup, we must still check if it succeeded
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*
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* If we have a bp however, all the error proccessing
* and the buffer code both expect us to return straight
* to them, so as soon as the command is queued, return
*/
retval = (*(sc_link->adapter->scsi_cmd)) (xs);
switch (retval) {
case SUCCESSFULLY_QUEUED:
if (bp) {
return 0; /* will sleep (or not) elsewhere */
}
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s = splbio();
while (!(xs->flags & ITSDONE)) {
tsleep((caddr_t)xs, PRIBIO + 1, "scsicmd", 0);
}
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splx(s);
/* fall through to check success of completed command */
case COMPLETE: /* Polling command completed ok */
/*XXX*/ case HAD_ERROR: /* Polling command completed with error */
SC_DEBUG(sc_link, SDEV_DB3, ("back in cmd()\n"));
if ((retval = sc_err1(xs)) == SCSIRET_DO_RETRY)
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goto retry;
break;
case TRY_AGAIN_LATER: /* adapter resource shortage */
SC_DEBUG(sc_link, SDEV_DB3, ("will try again \n"));
/* should sleep 1 sec here */
if (xs->retries--) {
xs->flags &= ~ITSDONE;
goto retry;
}
default:
retval = EIO;
}
/*
* If we had to copy the data out of the user's context,
* then do the other half (copy it back or whatever)
* and free the memory buffer
*/
if (datalen && (xs->data != data_addr)) {
switch ((int)(flags & (SCSI_DATA_IN | SCSI_DATA_OUT))) {
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case 0:
case SCSI_DATA_IN | SCSI_DATA_OUT: /* weird */
case SCSI_DATA_IN:
bcopy(xs->data, data_addr, datalen);
break;
}
#ifdef BOUNCE_BUFFERS
vm_bounce_kva_alloc_free((vm_offset_t) xs->data,
(datalen + PAGE_SIZE - 1)/PAGE_SIZE);
#else
free(xs->data, M_TEMP);
#endif
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}
/*
* we have finished with the xfer stuct, free it and
* check if anyone else needs to be started up.
*/
bad:
free_xs(xs, sc_link, flags); /* includes the 'start' op */
if (bp && retval) {
bp->b_error = retval;
bp->b_flags |= B_ERROR;
biodone(bp);
}
return (retval);
}
static errval
sc_done(struct scsi_xfer *xs, int code)
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{
/*
* If it has a buf, we might be working with
* a request from the buffer cache or some other
* piece of code that requires us to process
* errors at interrupt time. We have probably
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* been called by scsi_done()
*/
struct buf *bp;
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if (code == SCSIRET_DO_RETRY) {
if (xs->retries--) {
xs->error = XS_NOERROR;
xs->flags &= ~ITSDONE;
return SCSIRET_DO_RETRY;
}
code = EIO; /* Too many retries */
}
/*
* an EOF condition results in a VALID resid..
*/
if(xs->flags & SCSI_EOF) {
xs->resid = xs->datalen;
xs->flags |= SCSI_RESID_VALID;
}
bp = xs->bp;
if (code != ESUCCESS) {
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if (bp) {
bp->b_error = 0;
bp->b_flags |= B_ERROR;
bp->b_error = code;
bp->b_resid = bp->b_bcount;
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SC_DEBUG(xs->sc_link, SDEV_DB3,
("scsi_interpret_sense (bp) returned %d\n", code));
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} else {
SC_DEBUG(xs->sc_link, SDEV_DB3,
("scsi_interpret_sense (no bp) returned %d\n", code));
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}
}
else {
if (bp) {
bp->b_error = 0;
/* XXX: We really shouldn't need this SCSI_RESID_VALID flag.
* If we initialize it to 0 and only touch it if we have
* a value then we can leave out the test.
*/
if (xs->flags & SCSI_RESID_VALID) {
bp->b_resid = xs->resid;
bp->b_flags |= B_ERROR;
} else {
bp->b_resid = 0;
}
}
}
return code;
}
/*
* submit a scsi command, given the command.. used for retries
* and callable from timeout()
*/
#ifdef NOTYET
errval scsi_submit(xs)
struct scsi_xfer *xs;
{
struct scsi_link *sc_link = xs->sc_link;
int retval;
retval = (*(sc_link->adapter->scsi_cmd)) (xs);
return retval;
}
/*
* Retry a scsi command, given the command, and a delay.
*/
errval scsi_retry(xs,delay)
struct scsi_xfer *xs;
int delay;
{
if(delay)
{
timeout(((void())*)scsi_submit,xs,hz*delay);
return(0);
}
else
{
return(scsi_submit(xs));
}
}
#endif
/*
* handle checking for errors..
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* called at interrupt time from scsi_done() and
* at user time from scsi_scsi_cmd(), depending on whether
* there was a bp (basically, if there is a bp, there may be no
* associated process at the time. (it could be an async operation))
* lower level routines shouldn't know about xs->bp.. we are the lowest.
*/
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static errval
sc_err1(xs)
struct scsi_xfer *xs;
{
SC_DEBUG(xs->sc_link, SDEV_DB3, ("sc_err1,err = 0x%lx \n", xs->error));
switch ((int)xs->error) {
case XS_SENSE:
return sc_done(xs, scsi_interpret_sense(xs));
case XS_NOERROR:
return sc_done(xs, ESUCCESS);
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case XS_BUSY:
/* should somehow arange for a 1 sec delay here (how?)[jre]
* tsleep(&localvar, priority, "foo", hz);
* that's how! [unknown]
* no, we could be at interrupt context.. use
* timeout(scsi_resubmit,xs,hz); [jre] (not implimenteed yet)
*/
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case XS_TIMEOUT:
return sc_done(xs, SCSIRET_DO_RETRY);
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/* fall through */
case XS_DRIVER_STUFFUP:
return sc_done(xs, EIO);
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default:
sc_print_addr(xs->sc_link);
printf("unknown error category from scsi driver\n");
return sc_done(xs, EIO);
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}
}
#ifdef notyet
static int
scsi_sense_qualifiers(xs, asc, ascq)
struct scsi_xfer *xs;
int *asc;
int *ascq;
{
struct scsi_sense_data_new *sense;
struct scsi_sense_extended *ext;
sense = (struct scsi_sense_data_new *)&(xs->sense);
ext = &(sense->ext.extended);
if (ext->extra_len < 5)
return 0;
*asc = (ext->extra_len >= 5) ? ext->add_sense_code : 0;
*ascq = (ext->extra_len >= 6) ? ext->add_sense_code_qual : 0;
return 1;
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}
#endif
/*
* scsi_sense_print will decode the sense data into human
* readable form. Sense handlers can use this to generate
* a report. This NOW DOES send the closing "\n".
*/
void scsi_sense_print(xs)
struct scsi_xfer *xs;
{
struct scsi_sense_data_new *sense;
struct scsi_sense_extended *ext;
u_int32_t key;
u_int32_t info;
int asc, ascq;
/* This sense key text now matches what is in the SCSI spec
* (Yes, even the capitals)
* so that it is easier to look through the spec to find the
* appropriate place.
*/
static char *sense_key_text[] =
{
"NO SENSE", "RECOVERED ERROR",
"NOT READY", "MEDIUM ERROR",
"HARDWARE FAILURE", "ILLEGAL REQUEST",
"UNIT ATTENTION", "DATA PROTECT",
"BLANK CHECK", "Vendor Specific",
"COPY ABORTED", "ABORTED COMMAND",
"EQUAL", "VOLUME OVERFLOW",
"MISCOMPARE", "RESERVED"
};
sc_print_start(xs->sc_link);
sense = (struct scsi_sense_data_new *)&(xs->sense);
ext = &(sense->ext.extended);
key = ext->flags & SSD_KEY;
switch (sense->error_code & SSD_ERRCODE) {
case 0x71: /* deferred error */
printf("Deferred Error: ");
/* DROP THROUGH */
case 0x70:
printf("%s", sense_key_text[key]);
info = ntohl(*((long *) ext->info));
if (sense->error_code & SSD_ERRCODE_VALID) {
switch ((int)key) {
case 0x2: /* NOT READY */
case 0x5: /* ILLEGAL REQUEST */
case 0x6: /* UNIT ATTENTION */
case 0x7: /* DATA PROTECT */
break;
case 0x8: /* BLANK CHECK */
printf(" req sz: %ld (decimal)",
info);
break;
default:
if (info) {
if (sense->ext.extended.flags & SSD_ILI) {
printf(" ILI (length mismatch): %ld", info);
}
else {
printf(" info:%lx", info);
}
}
}
}
else if (info)
printf(" info?:%lx", info);
if (ext->extra_len >= 4) {
if (bcmp(ext->cmd_spec_info, "\0\0\0\0", 4)) {
printf(" csi:%x,%x,%x,%x",
ext->cmd_spec_info[0],
ext->cmd_spec_info[1],
ext->cmd_spec_info[2],
ext->cmd_spec_info[3]);
}
}
asc = (ext->extra_len >= 5) ? ext->add_sense_code : 0;
ascq = (ext->extra_len >= 6) ? ext->add_sense_code_qual : 0;
if (asc || ascq)
{
char *desc = scsi_sense_desc(asc, ascq);
printf(" asc:%x,%x", asc, ascq);
if (strlen(desc) > 40)
sc_print_addr(xs->sc_link);;
printf(" %s", desc);
}
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if (ext->extra_len >= 7 && ext->fru) {
printf(" field replaceable unit: %x", ext->fru);
}
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if (ext->extra_len >= 10 &&
(ext->sense_key_spec_1 & SSD_SCS_VALID)) {
printf(" sks:%x,%x", ext->sense_key_spec_1,
(ext->sense_key_spec_2 |
ext->sense_key_spec_3));
}
break;
/*
* Not code 70, just report it
*/
default:
printf("error code %d",
sense->error_code & SSD_ERRCODE);
if (sense->error_code & SSD_ERRCODE_VALID) {
printf(" at block no. %ld (decimal)",
(((unsigned long)sense->ext.unextended.blockhi) << 16) +
(((unsigned long)sense->ext.unextended.blockmed) << 8) +
((unsigned long)sense->ext.unextended.blocklow));
}
}
printf("\n");
sc_print_finish();
}
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/*
* Look at the returned sense and act on the error, determining
* the unix error number to pass back. (0 = report no error)
*
* THIS IS THE DEFAULT SENSE HANDLER
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*/
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static errval
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scsi_interpret_sense(xs)
struct scsi_xfer *xs;
{
struct scsi_sense_data *sense;
struct scsi_link *sc_link = xs->sc_link;
u_int32_t key;
u_int32_t silent;
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errval errcode;
int error_code;
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/*
* If the flags say errs are ok, then always return ok.
* XXX: What if it is a deferred error?
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*/
if (xs->flags & SCSI_ERR_OK)
return (ESUCCESS);
sense = &(xs->sense);
#ifdef SCSIDEBUG
if (sc_link->flags & SDEV_DB1) {
u_int32_t count = 0;
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printf("code%x valid%x ",
sense->error_code & SSD_ERRCODE,
sense->error_code & SSD_ERRCODE_VALID ? 1 : 0);
printf("seg%x key%x ili%x eom%x fmark%x\n",
sense->ext.extended.segment,
sense->ext.extended.flags & SSD_KEY,
sense->ext.extended.flags & SSD_ILI ? 1 : 0,
sense->ext.extended.flags & SSD_EOM ? 1 : 0,
sense->ext.extended.flags & SSD_FILEMARK ? 1 : 0);
printf("info: %x %x %x %x followed by %d extra bytes\n",
sense->ext.extended.info[0],
sense->ext.extended.info[1],
sense->ext.extended.info[2],
sense->ext.extended.info[3],
sense->ext.extended.extra_len);
printf("extra: ");
while (count < sense->ext.extended.extra_len) {
printf("%x ", sense->ext.extended.extra_bytes[count++]);
}
printf("\n");
}
#endif /*SCSIDEBUG */
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/*
* If the device has it's own sense handler, call it first.
* If it returns a legit errno value, return that, otherwise
* it should return either DO_RETRY or CONTINUE to either
* request a retry or continue with default sense handling.
1993-11-18 05:03:27 +00:00
*/
if (sc_link->device->err_handler) {
SC_DEBUG(sc_link, SDEV_DB2,
("calling private err_handler()\n"));
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errcode = (*sc_link->device->err_handler) (xs);
SC_DEBUG(sc_link, SDEV_DB2,
("private err_handler() returned %d\n",errcode));
if (errcode >= 0) {
SC_DEBUG(sc_link, SDEV_DB2,
("SCSI_EOF = %d\n",(xs->flags & SCSI_EOF)?1:0));
SC_DEBUG(sc_link, SDEV_DB2,
("SCSI_RESID_VALID = %d\n",
(xs->flags & SCSI_RESID_VALID)?1:0));
if(xs->flags & SCSI_EOF) {
xs->resid = xs->datalen;
xs->flags |= SCSI_RESID_VALID;
}
return errcode; /* valid errno value */
}
switch(errcode) {
case SCSIRET_DO_RETRY: /* Requested a retry */
return errcode;
case SCSIRET_CONTINUE: /* Continue with default sense processing */
break;
default:
sc_print_addr(xs->sc_link);
printf("unknown return code %d from sense handler.\n",
errcode);
return errcode;
}
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}
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/* otherwise use the default */
silent = (xs->flags & SCSI_SILENT);
key = sense->ext.extended.flags & SSD_KEY;
error_code = sense->error_code & SSD_ERRCODE;
if (!silent) {
scsi_sense_print(xs);
}
switch (error_code) {
case 0x71: /* deferred error */
/* Print even if silent (not silent was already done)
*/
if (silent) {
scsi_sense_print(xs);
}
/* XXX:
* This error doesn't relate to the command associated
* with this request sense. A deferred error is an error
* for a command that has already returned GOOD status (see 7.2.14.2).
*
* By my reading of that section, it looks like the current command
* has been cancelled, we should now clean things up (hopefully
* recovering any lost data) and then
* retry the current command. There are two easy choices, both
* wrong:
* 1. Drop through (like we had been doing), thus treating this as
* if the error were for the current command and return and stop
* the current command.
* 2. Issue a retry (like I made it do) thus hopefully recovering
* the current transfer, and ignoring the fact that we've dropped
* a command.
*
* These should probably be handled in a device specific
* sense handler or punted back up to a user mode daemon
*/
return SCSIRET_DO_RETRY;
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/*
* If it's code 70, use the extended stuff and interpret the key
*/
case 0x70:
switch ((int)key) {
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case 0x0: /* NO SENSE */
case 0x1: /* RECOVERED ERROR */
case 0xc: /* EQUAL */
if(xs->flags & SCSI_EOF) {
xs->resid = xs->datalen;
xs->flags |= SCSI_RESID_VALID;
}
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return (ESUCCESS);
case 0x2: /* NOT READY */
sc_link->flags &= ~SDEV_MEDIA_LOADED;
return (EBUSY);
case 0x5: /* ILLEGAL REQUEST */
return (EINVAL);
case 0x6: /* UNIT ATTENTION */
sc_link->flags &= ~SDEV_MEDIA_LOADED;
if (sc_link->flags & SDEV_OPEN) {
return (EIO);
} else {
return 0;
}
case 0x7: /* DATA PROTECT */
return (EACCES);
case 0xd: /* VOLUME OVERFLOW */
return (ENOSPC);
case 0x8: /* BLANK CHECK */
xs->flags |= SCSI_EOF; /* force EOF on tape read */
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return (ESUCCESS);
default:
return (EIO);
}
/*
* Not code 70, return EIO
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*/
default:
return (EIO);
}
}
/*
* Utility routines often used in SCSI stuff
*/
/*
1995-05-30 08:16:23 +00:00
* convert a physical address to 3 bytes,
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* MSB at the lowest address,
* LSB at the highest.
*/
void
scsi_uto3b(val, bytes)
u_int32_t val;
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u_char *bytes;
{
*bytes++ = (val & 0xff0000) >> 16;
*bytes++ = (val & 0xff00) >> 8;
*bytes = val & 0xff;
}
u_int32_t
scsi_3btou(bytes)
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u_char *bytes;
{
u_int32_t rc;
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rc = (*bytes++ << 16);
rc += (*bytes++ << 8);
rc += *bytes;
return rc;
}
int32_t
scsi_3btoi(bytes)
u_char *bytes;
{
u_int32_t rc = scsi_3btou(bytes);
if (rc & 0x00800000)
rc |= 0xff000000;
return (int32_t) rc;
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}
void
scsi_uto2b(val, bytes)
u_int32_t val;
u_char *bytes;
{
*bytes++ = (val & 0xff00) >> 8;
*bytes = val & 0xff;
}
u_int32_t
scsi_2btou(bytes)
u_char *bytes;
{
u_int32_t rc;
rc = (*bytes++ << 8);
rc += *bytes;
return rc;
}
void
scsi_uto4b(val, bytes)
u_int32_t val;
u_char *bytes;
{
*bytes++ = (val & 0xff000000) >> 24;
*bytes++ = (val & 0xff0000) >> 16;
*bytes++ = (val & 0xff00) >> 8;
*bytes = val & 0xff;
}
u_int32_t
scsi_4btou(bytes)
u_char *bytes;
{
u_int32_t rc;
rc = (*bytes++ << 24);
rc += (*bytes++ << 16);
rc += (*bytes++ << 8);
rc += *bytes;
return rc;
}
static sc_printing;
void
sc_print_start(sc_link)
struct scsi_link *sc_link;
{
sc_print_addr(sc_link);
sc_printing++;
}
void
sc_print_finish()
{
sc_printing--;
}
static void
id_put(int id, char *after)
{
switch(id)
{
case SCCONF_UNSPEC:
break;
case SCCONF_ANY:
printf("?");
break;
default:
printf("%d", id);
break;
}
printf("%s", after);
}
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/*
* sc_print_addr: Print out the scsi_link structure's address info.
* This should handle any circumstance, even the transitory ones
* during system configuration.
1993-11-18 05:03:27 +00:00
*/
void
sc_print_addr(sc_link)
struct scsi_link *sc_link;
{
if (sc_printing)
printf("\n");
if (sc_link->device == 0) {
printf("nodevice");
}
else if (strcmp(sc_link->device->name, "probe") != 0) {
printf("%s", sc_link->device->name);
id_put(sc_link->dev_unit, "");
}
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if (sc_link->adapter == 0) {
printf("(noadapter:");
}
else {
printf("(%s", sc_link->adapter->name);
id_put(sc_link->adapter_unit, ":");
}
id_put(sc_link->target, ":");
id_put(sc_link->lun, "): ");
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}
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#ifdef SCSIDEBUG
/*
* Given a scsi_xfer, dump the request, in all it's glory
*/
static void
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show_scsi_xs(xs)
struct scsi_xfer *xs;
{
printf("xs(%p): ", xs);
printf("flg(0x%lx)", xs->flags);
printf("sc_link(%p)", xs->sc_link);
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printf("retr(0x%x)", xs->retries);
printf("timo(0x%lx)", xs->timeout);
printf("cmd(%p)", xs->cmd);
printf("len(0x%lx)", xs->cmdlen);
printf("data(%p)", xs->data);
printf("len(0x%lx)", xs->datalen);
printf("res(0x%lx)", xs->resid);
printf("err(0x%lx)", xs->error);
printf("bp(%p)", xs->bp);
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show_scsi_cmd(xs);
}
void
show_scsi_cmd(struct scsi_xfer *xs)
{
u_char *b = (u_char *) xs->cmd;
int i = 0;
sc_print_addr(xs->sc_link);
printf("command: ");
if (!(xs->flags & SCSI_RESET)) {
while (i < xs->cmdlen) {
if (i)
printf(",");
printf("%x", b[i++]);
}
printf("-[%ld bytes]\n", xs->datalen);
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if (xs->datalen)
show_mem(xs->data, min(64, xs->datalen));
} else {
printf("-RESET-\n");
}
}
static void
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show_mem(address, num)
unsigned char *address;
u_int32_t num;
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{
u_int32_t y;
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printf("------------------------------");
for (y = 0; y < num; y += 1) {
if (!(y % 16))
printf("\n%03ld: ", y);
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printf("%02x ", *address++);
}
printf("\n------------------------------\n");
}
#endif /*SCSIDEBUG */