/* @(#)scsi-linux-sg.c 1.83 04/05/20 Copyright 1997 J. Schilling */
#ifndef lint
static char __sccsid[] =
"@(#)scsi-linux-sg.c 1.83 04/05/20 Copyright 1997 J. Schilling";
#endif
/*
* Interface for Linux generic SCSI implementation (sg).
*
* This is the interface for the broken Linux SCSI generic driver.
* This is a hack, that tries to emulate the functionality
* of the scg driver.
*
* Design flaws of the sg driver:
* - cannot see if SCSI command could not be send
* - cannot get SCSI status byte
* - cannot get real dma count of tranfer
* - cannot get number of bytes valid in auto sense data
* - to few data in auto sense (CCS/SCSI-2/SCSI-3 needs >= 18)
*
* This code contains support for the sg driver version 2 by
* H. Eißfeld & J. Schilling
* Although this enhanced version has been announced to Linus and Alan,
* there was no reaction at all.
*
* About half a year later there occured a version in the official
* Linux that was also called version 2. The interface of this version
* looks like a playground - the enhancements from this version are
* more or less useless for a portable real-world program.
*
* With Linux 2.4 the official version of the sg driver is called 3.x
* and seems to be usable again. The main problem now is the curious
* interface that is provided to raise the DMA limit from 32 kB to a
* more reasonable value. To do this in a reliable way, a lot of actions
* are required.
*
* Warning: you may change this source, but if you do that
* you need to change the _scg_version and _scg_auth* string below.
* You may not return "schily" for an SCG_AUTHOR request anymore.
* Choose your name instead of "schily" and make clear that the version
* string is related to a modified source.
*
* Copyright (c) 1997 J. Schilling
*/
/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; see the file COPYING. If not, write to the Free Software
* Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include <linux/version.h>
#ifndef LINUX_VERSION_CODE /* Very old kernel? */
# define LINUX_VERSION_CODE 0
#endif
#if LINUX_VERSION_CODE >= 0x01031a /* <linux/scsi.h> introduced in 1.3.26 */
#if LINUX_VERSION_CODE >= 0x020000 /* <scsi/scsi.h> introduced somewhere. */
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 0)
#define __KERNEL__
#include <asm/types.h>
#include <asm/byteorder.h>
#undef __KERNEL__
#endif
/* Need to fine tune the ifdef so we get the transition point right. */
#include <scsi/scsi.h>
#else
#include <linux/scsi.h>
#endif
#else /* LINUX_VERSION_CODE == 0 Very old kernel? */
#define __KERNEL__ /* Some Linux Include files are inconsistent */
#include <linux/fs.h> /* From ancient versions, really needed? */
#undef __KERNEL__
#include "block/blk.h" /* From ancient versions, really needed? */
#include "scsi/scsi.h"
#endif
#include "scsi/sg.h"
#include "oexcl.h"
#undef sense /* conflict in struct cdrom_generic_command */
#include <linux/cdrom.h>
#if defined(CDROM_PACKET_SIZE) && defined(CDROM_SEND_PACKET)
#define USE_ATA
#endif
/*
* Warning: you may change this source, but if you do that
* you need to change the _scg_version and _scg_auth* string below.
* You may not return "schily" for an SCG_AUTHOR request anymore.
* Choose your name instead of "schily" and make clear that the version
* string is related to a modified source.
*/
LOCAL char _scg_trans_version[] = "scsi-linux-sg.c-1.83-RH"; /* The version for this transport*/
#ifndef SCSI_IOCTL_GET_BUS_NUMBER
#define SCSI_IOCTL_GET_BUS_NUMBER 0x5386
#endif
/*
* XXX There must be a better way than duplicating things from system include
* XXX files. This is stolen from /usr/src/linux/drivers/scsi/scsi.h
*/
#ifndef DID_OK
#define DID_OK 0x00 /* NO error */
#define DID_NO_CONNECT 0x01 /* Couldn't connect before timeout period */
#define DID_BUS_BUSY 0x02 /* BUS stayed busy through time out period */
#define DID_TIME_OUT 0x03 /* TIMED OUT for other reason */
#define DID_BAD_TARGET 0x04 /* BAD target. */
#define DID_ABORT 0x05 /* Told to abort for some other reason */
#define DID_PARITY 0x06 /* Parity error */
#define DID_ERROR 0x07 /* Internal error */
#define DID_RESET 0x08 /* Reset by somebody. */
#define DID_BAD_INTR 0x09 /* Got an interrupt we weren't expecting. */
#endif
/*
* These indicate the error that occurred, and what is available.
*/
#ifndef DRIVER_BUSY
#define DRIVER_BUSY 0x01
#define DRIVER_SOFT 0x02
#define DRIVER_MEDIA 0x03
#define DRIVER_ERROR 0x04
#define DRIVER_INVALID 0x05
#define DRIVER_TIMEOUT 0x06
#define DRIVER_HARD 0x07
#define DRIVER_SENSE 0x08
#endif
/*
* XXX Should add extra space in buscookies and scgfiles for a "PP bus"
* XXX and for two or more "ATAPI busses".
*/
#define MAX_SCG 256 /* Max # of SCSI controllers */
#define MAX_TGT 16
#define MAX_LUN 8
#ifdef USE_ATA
/*
* # of virtual buses (schilly_host number)
*/
#define MAX_SCHILLY_HOSTS MAX_SCG
typedef struct {
Uchar typ:4;
Uchar bus:4;
Uchar host:8;
} ata_buscookies;
#endif
struct scg_local {
int scgfile; /* Used for SG_GET_BUFSIZE ioctl()*/
short scgfiles[MAX_SCG][MAX_TGT][MAX_LUN];
short buscookies[MAX_SCG];
int pgbus;
int pack_id; /* Should be a random number */
int drvers;
short isold;
short flags;
long xbufsize;
char *xbuf;
char *SCSIbuf;
#ifdef USE_ATA
ata_buscookies bc[MAX_SCHILLY_HOSTS];
#endif
};
#define scglocal(p) ((struct scg_local *)((p)->local))
/*
* Flag definitions
*/
#define LF_ATA 0x01 /* Using /dev/hd* ATA interface */
#ifdef SG_BIG_BUFF
#define MAX_DMA_LINUX SG_BIG_BUFF /* Defined in include/scsi/sg.h */
#else
#define MAX_DMA_LINUX (4*1024) /* Old Linux versions */
#endif
#ifndef SG_MAX_SENSE
# define SG_MAX_SENSE 16 /* Too small for CCS / SCSI-2 */
#endif /* But cannot be changed */
#if !defined(__i386) && !defined(i386) && !defined(mc68000)
#define MISALIGN
#endif
/*#define MISALIGN*/
/*#undef SG_GET_BUFSIZE*/
#if defined(USE_PG) && !defined(USE_PG_ONLY)
#include "scsi-linux-pg.c"
#endif
#ifdef USE_ATA
#include "scsi-linux-ata.c"
#endif
#ifdef MISALIGN
LOCAL int sg_getint __PR((int *ip));
#endif
LOCAL int scgo_send __PR((SCSI *scgp));
#ifdef SG_IO
LOCAL int sg_rwsend __PR((SCSI *scgp));
#endif
LOCAL void sg_clearnblock __PR((int f));
LOCAL BOOL sg_setup __PR((SCSI *scgp, int f, int busno, int tgt, int tlun, int ataidx));
LOCAL void sg_initdev __PR((SCSI *scgp, int f));
LOCAL int sg_mapbus __PR((SCSI *scgp, int busno, int ino));
LOCAL BOOL sg_mapdev __PR((SCSI *scgp, int f, int *busp, int *tgtp, int *lunp,
int *chanp, int *inop, int ataidx));
#if defined(SG_SET_RESERVED_SIZE) && defined(SG_GET_RESERVED_SIZE)
LOCAL long sg_raisedma __PR((SCSI *scgp, long newmax));
#endif
LOCAL void sg_settimeout __PR((int f, int timeout));
/*
* Return version information for the low level SCSI transport code.
* This has been introduced to make it easier to trace down problems
* in applications.
*/
LOCAL char *
scgo_version(scgp, what)
SCSI *scgp;
int what;
{
if (scgp != (SCSI *)0) {
#ifdef USE_PG
/*
* If we only have a Parallel port or only opened a handle
* for PP, just return PP version.
*/
if (scglocal(scgp)->pgbus == 0 ||
(scg_scsibus(scgp) >= 0 &&
scg_scsibus(scgp) == scglocal(scgp)->pgbus))
return (pg_version(scgp, what));
#endif
switch (what) {
case SCG_VERSION:
return (_scg_trans_version);
/*
* If you changed this source, you are not allowed to
* return "schily" for the SCG_AUTHOR request.
*/
case SCG_AUTHOR:
return ("schily - Red Hat");
case SCG_SCCS_ID:
return (__sccsid);
case SCG_KVERSION:
{
static char kv[16];
int n;
if (scglocal(scgp)->drvers >= 0) {
n = scglocal(scgp)->drvers;
js_snprintf(kv, sizeof (kv),
"%d.%d.%d",
n/10000, (n%10000)/100, n%100);
return (kv);
}
}
}
}
return ((char *)0);
}
LOCAL int
scgo_help(scgp, f)
SCSI *scgp;
FILE *f;
{
__scg_help(f, "sg", "Generic transport independent SCSI",
"", "bus,target,lun", "1,2,0", TRUE, FALSE);
#ifdef USE_PG
pg_help(scgp, f);
#endif
#ifdef USE_ATA
scgo_ahelp(scgp, f);
#endif
__scg_help(f, "ATA", "ATA Packet specific SCSI transport using sg interface",
"ATA:", "bus,target,lun", "1,2,0", TRUE, FALSE);
return (0);
}
#include <glob.h>
LOCAL int
scgo_open(scgp, device)
SCSI *scgp;
char *device;
{
int busno = scg_scsibus(scgp);
int tgt = scg_target(scgp);
int tlun = scg_lun(scgp);
register int f;
register int i;
register int b;
register int t;
register int l;
register int nopen = 0;
char *devname;
BOOL use_ata = FALSE;
glob_t globbuf;
if (busno >= MAX_SCG || tgt >= MAX_TGT || tlun >= MAX_LUN) {
errno = EINVAL;
if (scgp->errstr)
js_snprintf(scgp->errstr, SCSI_ERRSTR_SIZE,
"Illegal value for busno, target or lun '%d,%d,%d'",
busno, tgt, tlun);
return (-1);
}
if (device != NULL && *device != '\0') {
#ifdef USE_ATA
if (strncmp(device, "ATAPI", 5) == 0) {
if (scgp->overbose) {
js_fprintf((FILE *)scgp->errfile,
"Use of ATA is preferred over ATAPI.\n");
}
scgp->ops = &ata_ops;
return (SCGO_OPEN(scgp, device));
}
#endif
if (strcmp(device, "ATA") == 0) {
/*
* Sending generic SCSI commands via /dev/hd* is a
* really bad idea when there also is a generic
* SCSI driver interface - it breaks the protocol
* layering model. A better idea would be to
* have a SCSI host bus adapter driver that sends
* the SCSI commands via the ATA hardware. This way,
* the layering model would be honored.
*
* People like Jens Axboe should finally fix the DMA
* bugs in the ide-scsi hostadaptor emulation module
* from Linux instead of publishing childish patches
* to the comment above.
*/
use_ata = TRUE;
device = NULL;
}
}
if (scgp->local == NULL) {
scgp->local = malloc(sizeof (struct scg_local));
if (scgp->local == NULL)
return (0);
scglocal(scgp)->scgfile = -1;
scglocal(scgp)->pgbus = -2;
scglocal(scgp)->SCSIbuf = (char *)-1;
scglocal(scgp)->pack_id = 5;
scglocal(scgp)->drvers = -1;
scglocal(scgp)->isold = -1;
scglocal(scgp)->flags = 0;
if (use_ata)
scglocal(scgp)->flags |= LF_ATA;
scglocal(scgp)->xbufsize = 0L;
scglocal(scgp)->xbuf = NULL;
for (b = 0; b < MAX_SCG; b++) {
scglocal(scgp)->buscookies[b] = (short)-1;
for (t = 0; t < MAX_TGT; t++) {
for (l = 0; l < MAX_LUN; l++)
scglocal(scgp)->scgfiles[b][t][l] = (short)-1;
}
}
}
if (use_ata)
goto scanopen;
if ((device != NULL && *device != '\0') || (busno == -2 && tgt == -2))
goto openbydev;
scanopen:
/*
* Note that it makes no sense to scan less than all /dev/hd* devices
* as even /dev/hda may be a device that talks SCSI (e.g. a ATAPI
* notebook disk or a CD/DVD writer). The CD/DVD writer case may
* look silly but there may be users that did boot from a SCSI hdd
* and connected 4 CD/DVD writers to both IDE cables in the PC.
*/
if (use_ata) {
glob("/dev/hd[a-z]", GLOB_NOSORT, NULL, &globbuf);
for (i = 0; globbuf.gl_pathv && globbuf.gl_pathv[i] != NULL ; i++) {
devname = globbuf.gl_pathv[i];
f = open(devname, O_RDWR | O_NONBLOCK);
if (f < 0) {
/*
* Set up error string but let us clear it later
* if at least one open succeeded.
*/
if (scgp->errstr)
js_snprintf(scgp->errstr, SCSI_ERRSTR_SIZE,
"Cannot open '/dev/hd*'");
if (errno != ENOENT && errno != ENXIO && errno != ENODEV && errno != EACCES) {
if (scgp->errstr)
js_snprintf(scgp->errstr, SCSI_ERRSTR_SIZE,
"Cannot open '%s'", devname);
globfree(&globbuf);
return (0);
}
} else {
int iparm;
if (ioctl(f, SG_GET_TIMEOUT, &iparm) < 0) {
if (scgp->errstr)
js_snprintf(scgp->errstr, SCSI_ERRSTR_SIZE,
"SCSI unsupported with '/dev/hd*'");
close(f);
continue;
}
sg_clearnblock(f); /* Be very proper about this */
if (sg_setup(scgp, f, busno, tgt, tlun, devname[7]-'a')) {
globfree(&globbuf);
return (++nopen);
}
if (busno < 0 && tgt < 0 && tlun < 0)
nopen++;
}
}
globfree(&globbuf);
}
if (use_ata && nopen == 0)
return (0);
if (nopen > 0 && scgp->errstr)
scgp->errstr[0] = '\0';
if (nopen == 0) {
glob("/dev/scd[0-9]", GLOB_NOSORT, NULL, &globbuf);
glob("/dev/scd[0-9][0-9]", GLOB_NOSORT|GLOB_APPEND, NULL, &globbuf);
glob("/dev/sg[a-z]", GLOB_NOSORT|GLOB_APPEND, NULL, &globbuf);
glob("/dev/sg[0-9]", GLOB_NOSORT|GLOB_APPEND, NULL, &globbuf);
glob("/dev/sr[0-9]", GLOB_NOSORT|GLOB_APPEND, NULL, &globbuf);
for (i = 0; globbuf.gl_pathv && globbuf.gl_pathv[i] != NULL ; i++) {
devname = globbuf.gl_pathv[i];
f = open(devname, O_RDWR | O_NONBLOCK);
if (f < 0) {
/*
* Set up error string but let us clear it later
* if at least one open succeeded.
*/
if (scgp->errstr)
js_snprintf(scgp->errstr, SCSI_ERRSTR_SIZE,
"Cannot open '/dev/scd*'");
} else {
sg_clearnblock(f); /* Be very proper about this */
if (sg_setup(scgp, f, busno, tgt, tlun, -1)) {
globfree(&globbuf);
return (++nopen);
}
if (busno < 0 && tgt < 0 && tlun < 0)
nopen++;
}
}
}
if (nopen > 0 && scgp->errstr)
scgp->errstr[0] = '\0';
openbydev:
if (device != NULL && *device != '\0') {
b = -1;
if (strlen(device) == 8 && strncmp(device, "/dev/hd", 7) == 0) {
b = device[7] - 'a';
if (b < 0 || b > 25)
b = -1;
}
/* O_NONBLOCK is dangerous */
f = openexcl(device, O_RDWR | O_NONBLOCK);
/* if (f < 0 && errno == ENOENT)*/
/* goto openpg;*/
if (f < 0) {
/*
* The pg driver has the same rules to decide whether
* to use openbydev. If we cannot open the device, it
* makes no sense to try the /dev/pg* driver.
*/
if (scgp->errstr)
js_snprintf(scgp->errstr, SCSI_ERRSTR_SIZE,
"Cannot open '%s'",
device);
return (0);
}
sg_clearnblock(f); /* Be very proper about this */
if (!sg_mapdev(scgp, f, &busno, &tgt, &tlun, 0, 0, b)) {
close(f);
/*
* If sg_mapdev() failes, this may be /dev/pg* device.
*/
goto openpg;
}
#ifdef OOO
if (scg_scsibus(scgp) < 0)
scg_scsibus(scgp) = busno;
if (scg_target(scgp) < 0)
scg_target(scgp) = tgt;
if (scg_lun(scgp) < 0)
scg_lun(scgp) = tlun;
#endif
scg_settarget(scgp, busno, tgt, tlun);
if (sg_setup(scgp, f, busno, tgt, tlun, b))
return (++nopen);
}
openpg:
#ifdef USE_PG
nopen += pg_open(scgp, device);
#endif
if (scgp->debug > 0) for (b = 0; b < MAX_SCG; b++) {
js_fprintf((FILE *)scgp->errfile,
"Bus: %d cookie: %X\n",
b, scglocal(scgp)->buscookies[b]);
for (t = 0; t < MAX_TGT; t++) {
for (l = 0; l < MAX_LUN; l++) {
if (scglocal(scgp)->scgfiles[b][t][l] != (short)-1) {
js_fprintf((FILE *)scgp->errfile,
"file (%d,%d,%d): %d\n",
b, t, l, scglocal(scgp)->scgfiles[b][t][l]);
}
}
}
}
return (nopen);
}
LOCAL int
scgo_close(scgp)
SCSI *scgp;
{
register int f;
register int b;
register int t;
register int l;
if (scgp->local == NULL)
return (-1);
for (b = 0; b < MAX_SCG; b++) {
if (b == scglocal(scgp)->pgbus)
continue;
scglocal(scgp)->buscookies[b] = (short)-1;
for (t = 0; t < MAX_TGT; t++) {
for (l = 0; l < MAX_LUN; l++) {
f = scglocal(scgp)->scgfiles[b][t][l];
if (f >= 0)
close(f);
scglocal(scgp)->scgfiles[b][t][l] = (short)-1;
}
}
}
if (scglocal(scgp)->xbuf != NULL) {
free(scglocal(scgp)->xbuf);
scglocal(scgp)->xbufsize = 0L;
scglocal(scgp)->xbuf = NULL;
}
#ifdef USE_PG
pg_close(scgp);
#endif
return (0);
}
/*
* The Linux kernel becomes more and more unmaintainable.
* Every year, a new incompatible SCSI transport interface is added.
* Each of them has it's own contradictory constraints.
* While you cannot have O_NONBLOCK set during operation, at least one
* of the drivers requires O_NONBLOCK to be set during open().
* This is used to clear O_NONBLOCK immediately after open() succeeded.
*/
LOCAL void
sg_clearnblock(f)
int f;
{
int n;
n = fcntl(f, F_GETFL);
n &= ~O_NONBLOCK;
fcntl(f, F_SETFL, n);
}
LOCAL BOOL
sg_setup(scgp, f, busno, tgt, tlun, ataidx)
SCSI *scgp;
int f;
int busno;
int tgt;
int tlun;
int ataidx;
{
int n;
int Chan;
int Ino;
int Bus;
int Target;
int Lun;
BOOL onetarget = FALSE;
#ifdef SG_GET_VERSION_NUM
if (scglocal(scgp)->drvers < 0) {
scglocal(scgp)->drvers = 0;
if (ioctl(f, SG_GET_VERSION_NUM, &n) >= 0) {
scglocal(scgp)->drvers = n;
if (scgp->overbose) {
js_fprintf((FILE *)scgp->errfile,
"Linux sg driver version: %d.%d.%d\n",
n/10000, (n%10000)/100, n%100);
}
}
}
#endif
if (scg_scsibus(scgp) >= 0 && scg_target(scgp) >= 0 && scg_lun(scgp) >= 0)
onetarget = TRUE;
sg_mapdev(scgp, f, &Bus, &Target, &Lun, &Chan, &Ino, ataidx);
/*
* For old kernels try to make the best guess.
*/
Ino |= Chan << 8;
n = sg_mapbus(scgp, Bus, Ino);
if (Bus == -1) {
Bus = n;
if (scgp->debug > 0) {
js_fprintf((FILE *)scgp->errfile,
"SCSI Bus: %d (mapped from %d)\n", Bus, Ino);
}
}
if (Bus < 0 || Bus >= MAX_SCG || Target < 0 || Target >= MAX_TGT ||
Lun < 0 || Lun >= MAX_LUN) {
return (FALSE);
}
if (scglocal(scgp)->scgfiles[Bus][Target][Lun] == (short)-1)
scglocal(scgp)->scgfiles[Bus][Target][Lun] = (short)f;
if (onetarget) {
if (Bus == busno && Target == tgt && Lun == tlun) {
sg_initdev(scgp, f);
scglocal(scgp)->scgfile = f; /* remember file for ioctl's */
return (TRUE);
} else {
scglocal(scgp)->scgfiles[Bus][Target][Lun] = (short)-1;
close(f);
}
} else {
/*
* SCSI bus scanning may cause other generic SCSI activities to
* fail because we set the default timeout and clear command
* queues (in case of the old sg driver interface).
*/
sg_initdev(scgp, f);
if (scglocal(scgp)->scgfile < 0)
scglocal(scgp)->scgfile = f; /* remember file for ioctl's */
}
return (FALSE);
}
LOCAL void
sg_initdev(scgp, f)
SCSI *scgp;
int f;
{
struct sg_rep {
struct sg_header hd;
unsigned char rbuf[100];
} sg_rep;
int n;
int i;
struct stat sb;
sg_settimeout(f, scgp->deftimeout);
/*
* If it's a block device, don't read.... pre Linux-2.4 /dev/sg*
* definitely is a character device and we only need to clear the
* queue for old /dev/sg* versions. If somebody ever implements
* raw disk access for Linux, this test may fail.
*/
if (fstat(f, &sb) >= 0 && S_ISBLK(sb.st_mode))
return;
/* Eat any unwanted garbage from prior use of this device */
n = fcntl(f, F_GETFL); /* Be very proper about this */
fcntl(f, F_SETFL, n|O_NONBLOCK);
fillbytes((caddr_t)&sg_rep, sizeof (struct sg_header), '\0');
sg_rep.hd.reply_len = sizeof (struct sg_header);
/*
* This is really ugly.
* We come here if 'f' is related to a raw device. If Linux
* will ever have raw devices for /dev/hd* we may get problems.
* As long as there is no clean way to find out whether the
* filedescriptor 'f' is related to an old /dev/sg* or to
* /dev/hd*, we must assume that we found an old /dev/sg* and
* clean it up. Unfortunately, reading from /dev/hd* will
* Access the medium.
*/
for (i = 0; i < 1000; i++) { /* Read at least 32k from /dev/sg* */
int ret;
ret = read(f, &sg_rep, sizeof (sg_rep));
if (ret > 0)
continue;
if (ret == 0 || errno == EAGAIN || errno == EIO)
break;
if (ret < 0 && i > 10) /* Stop on repeated unknown error */
break;
}
fcntl(f, F_SETFL, n);
}
LOCAL int
sg_mapbus(scgp, busno, ino)
SCSI *scgp;
int busno;
int ino;
{
register int i;
if (busno >= 0 && busno < MAX_SCG) {
/*
* SCSI_IOCTL_GET_BUS_NUMBER worked.
* Now we have the problem that Linux does not properly number
* SCSI busses. The Bus number that Linux creates really is
* the controller (card) number. I case of multi SCSI bus
* cards we are lost.
*/
if (scglocal(scgp)->buscookies[busno] == (short)-1) {
scglocal(scgp)->buscookies[busno] = ino;
return (busno);
}
if (scglocal(scgp)->buscookies[busno] != (short)ino)
errmsgno(EX_BAD, "Warning Linux Bus mapping botch.\n");
return (busno);
} else for (i = 0; i < MAX_SCG; i++) {
if (scglocal(scgp)->buscookies[i] == (short)-1) {
scglocal(scgp)->buscookies[i] = ino;
return (i);
}
if (scglocal(scgp)->buscookies[i] == ino)
return (i);
}
return (0);
}
LOCAL BOOL
sg_mapdev(scgp, f, busp, tgtp, lunp, chanp, inop, ataidx)
SCSI *scgp;
int f;
int *busp;
int *tgtp;
int *lunp;
int *chanp;
int *inop;
int ataidx;
{
struct sg_id {
long l1; /* target | lun << 8 | channel << 16 | low_ino << 24 */
long l2; /* Unique id */
} sg_id;
int Chan;
int Ino;
int Bus;
int Target;
int Lun;
if (ataidx >= 0) {
/*
* The badly designed /dev/hd* interface maps everything
* to 0,0,0 so we need to do the mapping ourselves.
*/
*busp = ataidx / 2;
*tgtp = ataidx % 2;
*lunp = 0;
if (chanp)
*chanp = 0;
if (inop)
*inop = 0;
return (TRUE);
}
if (ioctl(f, SCSI_IOCTL_GET_IDLUN, &sg_id))
return (FALSE);
if (scgp->debug > 0) {
js_fprintf((FILE *)scgp->errfile,
"l1: 0x%lX l2: 0x%lX\n", sg_id.l1, sg_id.l2);
}
if (ioctl(f, SCSI_IOCTL_GET_BUS_NUMBER, &Bus) < 0) {
Bus = -1;
}
Target = sg_id.l1 & 0xFF;
Lun = (sg_id.l1 >> 8) & 0xFF;
Chan = (sg_id.l1 >> 16) & 0xFF;
Ino = (sg_id.l1 >> 24) & 0xFF;
if (scgp->debug > 0) {
js_fprintf((FILE *)scgp->errfile,
"Bus: %d Target: %d Lun: %d Chan: %d Ino: %d\n",
Bus, Target, Lun, Chan, Ino);
}
*busp = Bus;
*tgtp = Target;
*lunp = Lun;
if (chanp)
*chanp = Chan;
if (inop)
*inop = Ino;
return (TRUE);
}
#if defined(SG_SET_RESERVED_SIZE) && defined(SG_GET_RESERVED_SIZE)
/*
* The way Linux does DMA resouce management is a bit curious.
* It totally deviates from all other OS and forces long ugly code.
* If we are opening all drivers for a SCSI bus scan operation, we need
* to set the limit for all open devices.
* This may use up all kernel memory ... so do the job carefully.
*
* A big problem is that SG_SET_RESERVED_SIZE does not return any hint
* on whether the request did fail. The only way to find if it worked
* is to use SG_GET_RESERVED_SIZE to read back the current values.
*/
LOCAL long
sg_raisedma(scgp, newmax)
SCSI *scgp;
long newmax;
{
register int b;
register int t;
register int l;
register int f;
int val;
int old;
/*
* First try to raise the DMA limit to a moderate value that
* most likely does not use up all kernel memory.
*/
val = 126*1024;
if (val > MAX_DMA_LINUX) {
for (b = 0; b < MAX_SCG; b++) {
for (t = 0; t < MAX_TGT; t++) {
for (l = 0; l < MAX_LUN; l++) {
if ((f = SCGO_FILENO(scgp, b, t, l)) < 0)
continue;
old = 0;
if (ioctl(f, SG_GET_RESERVED_SIZE, &old) < 0)
continue;
if (val > old)
ioctl(f, SG_SET_RESERVED_SIZE, &val);
}
}
}
}
/*
* Now to raise the DMA limit to what we really need.
*/
if (newmax > val) {
val = newmax;
for (b = 0; b < MAX_SCG; b++) {
for (t = 0; t < MAX_TGT; t++) {
for (l = 0; l < MAX_LUN; l++) {
if ((f = SCGO_FILENO(scgp, b, t, l)) < 0)
continue;
old = 0;
if (ioctl(f, SG_GET_RESERVED_SIZE, &old) < 0)
continue;
if (val > old)
ioctl(f, SG_SET_RESERVED_SIZE, &val);
}
}
}
}
/*
* To make sure we did not fail (the ioctl does not report errors)
* we need to check the DMA limits. We return the smallest value.
*/
for (b = 0; b < MAX_SCG; b++) {
for (t = 0; t < MAX_TGT; t++) {
for (l = 0; l < MAX_LUN; l++) {
if ((f = SCGO_FILENO(scgp, b, t, l)) < 0)
continue;
if (ioctl(f, SG_GET_RESERVED_SIZE, &val) < 0)
continue;
if (scgp->debug > 0) {
js_fprintf((FILE *)scgp->errfile,
"Target (%d,%d,%d): DMA max %d old max: %ld\n",
b, t, l, val, newmax);
}
if (val < newmax)
newmax = val;
}
}
}
return ((long)newmax);
}
#endif
LOCAL long
scgo_maxdma(scgp, amt)
SCSI *scgp;
long amt;
{
long maxdma = MAX_DMA_LINUX;
#if defined(SG_SET_RESERVED_SIZE) && defined(SG_GET_RESERVED_SIZE)
/*
* Use the curious new kernel interface found on Linux >= 2.2.10
* This interface first appeared in 2.2.6 but it was not working.
*/
if (scglocal(scgp)->drvers >= 20134)
maxdma = sg_raisedma(scgp, amt);
#endif
#ifdef SG_GET_BUFSIZE
/*
* We assume that all /dev/sg instances use the same
* maximum buffer size.
*/
maxdma = ioctl(scglocal(scgp)->scgfile, SG_GET_BUFSIZE, 0);
#endif
if (maxdma < 0) {
#ifdef USE_PG
/*
* If we only have a Parallel port, just return PP maxdma.
*/
if (scglocal(scgp)->pgbus == 0)
return (pg_maxdma(scgp, amt));
#endif
if (scglocal(scgp)->scgfile >= 0)
maxdma = MAX_DMA_LINUX;
}
#ifdef USE_PG
if (scg_scsibus(scgp) == scglocal(scgp)->pgbus)
return (pg_maxdma(scgp, amt));
if ((scg_scsibus(scgp) < 0) && (pg_maxdma(scgp, amt) < maxdma))
return (pg_maxdma(scgp, amt));
#endif
return (maxdma);
}
LOCAL void *
scgo_getbuf(scgp, amt)
SCSI *scgp;
long amt;
{
char *ret;
if (scgp->debug > 0) {
js_fprintf((FILE *)scgp->errfile,
"scgo_getbuf: %ld bytes\n", amt);
}
/*
* For performance reason, we allocate pagesize()
* bytes before the SCSI buffer to avoid
* copying the whole buffer contents when
* setting up the /dev/sg data structures.
*/
ret = valloc((size_t)(amt+getpagesize()));
if (ret == NULL)
return (ret);
scgp->bufbase = ret;
ret += getpagesize();
scglocal(scgp)->SCSIbuf = ret;
return ((void *)ret);
}
LOCAL void
scgo_freebuf(scgp)
SCSI *scgp;
{
if (scgp->bufbase)
free(scgp->bufbase);
scgp->bufbase = NULL;
}
LOCAL BOOL
scgo_havebus(scgp, busno)
SCSI *scgp;
int busno;
{
register int t;
register int l;
if (busno < 0 || busno >= MAX_SCG)
return (FALSE);
if (scgp->local == NULL)
return (FALSE);
for (t = 0; t < MAX_TGT; t++) {
for (l = 0; l < MAX_LUN; l++)
if (scglocal(scgp)->scgfiles[busno][t][l] >= 0)
return (TRUE);
}
return (FALSE);
}
LOCAL int
scgo_fileno(scgp, busno, tgt, tlun)
SCSI *scgp;
int busno;
int tgt;
int tlun;
{
if (busno < 0 || busno >= MAX_SCG ||
tgt < 0 || tgt >= MAX_TGT ||
tlun < 0 || tlun >= MAX_LUN)
return (-1);
if (scgp->local == NULL)
return (-1);
return ((int)scglocal(scgp)->scgfiles[busno][tgt][tlun]);
}
LOCAL int
scgo_initiator_id(scgp)
SCSI *scgp;
{
#ifdef USE_PG
if (scg_scsibus(scgp) == scglocal(scgp)->pgbus)
return (pg_initiator_id(scgp));
#endif
return (-1);
}
LOCAL int
scgo_isatapi(scgp)
SCSI *scgp;
{
#ifdef USE_PG
if (scg_scsibus(scgp) == scglocal(scgp)->pgbus)
return (pg_isatapi(scgp));
#endif
/*
* The /dev/hd* interface always returns TRUE for SG_EMULATED_HOST.
* So this is completely useless.
*/
if (scglocal(scgp)->flags & LF_ATA)
return (-1);
#ifdef SG_EMULATED_HOST
{
int emulated = FALSE;
/*
* XXX Should we use this at all?
* XXX The badly designed /dev/hd* interface always
* XXX returns TRUE, even when used with e.g. /dev/sr0.
*/
if (ioctl(scgp->fd, SG_EMULATED_HOST, &emulated) >= 0)
return (emulated != 0);
}
#endif
return (-1);
}
LOCAL int
scgo_reset(scgp, what)
SCSI *scgp;
int what;
{
#ifdef SG_SCSI_RESET
int f = scgp->fd;
int func = -1;
#endif
#ifdef USE_PG
if (scg_scsibus(scgp) == scglocal(scgp)->pgbus)
return (pg_reset(scgp, what));
#endif
/*
* Do we have a SCSI reset in the Linux sg driver?
*/
#ifdef SG_SCSI_RESET
/*
* Newer Linux sg driver seem to finally implement it...
*/
#ifdef SG_SCSI_RESET_NOTHING
func = SG_SCSI_RESET_NOTHING;
if (ioctl(f, SG_SCSI_RESET, &func) >= 0) {
if (what == SCG_RESET_NOP)
return (0);
#ifdef SG_SCSI_RESET_DEVICE
if (what == SCG_RESET_TGT) {
func = SG_SCSI_RESET_DEVICE;
if (ioctl(f, SG_SCSI_RESET, &func) >= 0)
return (0);
}
#endif
#ifdef SG_SCSI_RESET_BUS
if (what == SCG_RESET_BUS) {
func = SG_SCSI_RESET_BUS;
if (ioctl(f, SG_SCSI_RESET, &func) >= 0)
return (0);
}
#endif
}
#endif
#endif
return (-1);
}
LOCAL void
sg_settimeout(f, tmo)
int f;
int tmo;
{
tmo *= HZ;
if (tmo)
tmo += HZ/2;
if (ioctl(f, SG_SET_TIMEOUT, &tmo) < 0)
comerr("Cannot set SG_SET_TIMEOUT.\n");
}
/*
* Get misaligned int.
* Needed for all recent processors (sparc/ppc/alpha)
* because the /dev/sg design forces us to do misaligned
* reads of integers.
*/
#ifdef MISALIGN
LOCAL int
sg_getint(ip)
int *ip;
{
int ret;
register char *cp = (char *)ip;
register char *tp = (char *)&ret;
register int i;
for (i = sizeof (int); --i >= 0; )
*tp++ = *cp++;
return (ret);
}
#define GETINT(a) sg_getint(&(a))
#else
#define GETINT(a) (a)
#endif
#ifdef SG_IO
LOCAL int
scgo_send(scgp)
SCSI *scgp;
{
struct scg_cmd *sp = scgp->scmd;
int ret;
sg_io_hdr_t sg_io;
struct timeval to;
if (scgp->fd < 0) {
sp->error = SCG_FATAL;
sp->ux_errno = EIO;
return (0);
}
if (scglocal(scgp)->isold > 0) {
return (sg_rwsend(scgp));
}
fillbytes((caddr_t)&sg_io, sizeof (sg_io), '\0');
sg_io.interface_id = 'S';
if (sp->flags & SCG_RECV_DATA) {
sg_io.dxfer_direction = SG_DXFER_FROM_DEV;
} else if (sp->size > 0) {
sg_io.dxfer_direction = SG_DXFER_TO_DEV;
} else {
sg_io.dxfer_direction = SG_DXFER_NONE;
}
sg_io.cmd_len = sp->cdb_len;
if (sp->sense_len > SG_MAX_SENSE)
sg_io.mx_sb_len = SG_MAX_SENSE;
else
sg_io.mx_sb_len = sp->sense_len;
sg_io.dxfer_len = sp->size;
sg_io.dxferp = sp->addr;
sg_io.cmdp = sp->cdb.cmd_cdb;
sg_io.sbp = sp->u_sense.cmd_sense;
sg_io.timeout = sp->timeout*1000;
sg_io.flags |= SG_FLAG_DIRECT_IO;
ret = ioctl(scgp->fd, SG_IO, &sg_io);
if (scgp->debug > 0) {
js_fprintf((FILE *)scgp->errfile,
"ioctl ret: %d\n", ret);
}
if (ret < 0) {
sp->ux_errno = geterrno();
/*
* Check if SCSI command cound not be send at all.
* Linux usually returns EINVAL for an unknoen ioctl.
* In case somebody from the Linux kernel team learns that the
* corect errno would be ENOTTY, we check for this errno too.
*/
if ((sp->ux_errno == ENOTTY || sp->ux_errno == EINVAL) &&
scglocal(scgp)->isold < 0) {
scglocal(scgp)->isold = 1;
return (sg_rwsend(scgp));
}
if (sp->ux_errno == ENXIO ||
sp->ux_errno == EINVAL || sp->ux_errno == EACCES) {
return (-1);
}
}
sp->u_scb.cmd_scb[0] = sg_io.status;
sp->sense_count = sg_io.sb_len_wr;
if (scgp->debug > 0) {
js_fprintf((FILE *)scgp->errfile,
"host_status: %02X driver_status: %02X\n",
sg_io.host_status, sg_io.driver_status);
}
switch (sg_io.host_status) {
case DID_OK:
/*
* If there is no DMA overrun and there is a
* SCSI Status byte != 0 then the SCSI cdb transport
* was OK and sp->error must be SCG_NO_ERROR.
*/
if ((sg_io.driver_status & DRIVER_SENSE) != 0) {
if (sp->ux_errno == 0)
sp->ux_errno = EIO;
if (sp->u_sense.cmd_sense[0] != 0 &&
sp->u_scb.cmd_scb[0] == 0) {
/*
* The Linux SCSI system up to 2.4.xx
* trashes the status byte in the
* kernel. This is true at least for
* ide-scsi emulation. Until this gets
* fixed, we need this hack.
*/
sp->u_scb.cmd_scb[0] = ST_CHK_COND;
if (sp->sense_count == 0)
sp->sense_count = SG_MAX_SENSE;
if ((sp->u_sense.cmd_sense[2] == 0) &&
(sp->u_sense.cmd_sense[12] == 0) &&
(sp->u_sense.cmd_sense[13] == 0)) {
/*
* The Linux SCSI system will
* send a request sense for
* even a dma underrun error.
* Clear CHECK CONDITION state
* in case of No Sense.
*/
sp->u_scb.cmd_scb[0] = 0;
sp->u_sense.cmd_sense[0] = 0;
sp->sense_count = 0;
}
}
}
break;
case DID_NO_CONNECT: /* Arbitration won, retry NO_CONNECT? */
sp->error = SCG_RETRYABLE;
break;
case DID_BAD_TARGET:
sp->error = SCG_FATAL;
break;
case DID_TIME_OUT:
__scg_times(scgp);
if (sp->timeout > 1 && scgp->cmdstop->tv_sec == 0) {
sp->u_scb.cmd_scb[0] = 0;
sp->error = SCG_FATAL; /* a selection timeout */
} else {
sp->error = SCG_TIMEOUT;
}
break;
default:
to.tv_sec = sp->timeout;
to.tv_usec = 500000;
__scg_times(scgp);
if (scgp->cmdstop->tv_sec < to.tv_sec ||
(scgp->cmdstop->tv_sec == to.tv_sec &&
scgp->cmdstop->tv_usec < to.tv_usec)) {
sp->ux_errno = 0;
sp->error = SCG_TIMEOUT; /* a timeout */
} else {
sp->error = SCG_RETRYABLE;
}
break;
}
if (sp->error && sp->ux_errno == 0)
sp->ux_errno = EIO;
sp->resid = sg_io.resid;
return (0);
}
#else
# define sg_rwsend scgo_send
#endif
LOCAL int
sg_rwsend(scgp)
SCSI *scgp;
{
int f = scgp->fd;
struct scg_cmd *sp = scgp->scmd;
struct sg_rq *sgp;
struct sg_rq *sgp2;
int i;
int pack_len;
int reply_len;
int amt = sp->cdb_len;
struct sg_rq {
struct sg_header hd;
unsigned char buf[MAX_DMA_LINUX+SCG_MAX_CMD];
} sg_rq;
#ifdef SG_GET_BUFSIZE /* We may use a 'sg' version 2 driver */
char driver_byte;
char host_byte;
char msg_byte;
char status_byte;
#endif
if (f < 0) {
sp->error = SCG_FATAL;
sp->ux_errno = EIO;
return (0);
}
#ifdef USE_PG
if (scg_scsibus(scgp) == scglocal(scgp)->pgbus)
return (pg_send(scgp));
#endif
if (sp->timeout != scgp->deftimeout)
sg_settimeout(f, sp->timeout);
sgp2 = sgp = &sg_rq;
if (sp->addr == scglocal(scgp)->SCSIbuf) {
sgp = (struct sg_rq *)
(scglocal(scgp)->SCSIbuf - (sizeof (struct sg_header) + amt));
sgp2 = (struct sg_rq *)
(scglocal(scgp)->SCSIbuf - (sizeof (struct sg_header)));
} else {
if (scgp->debug > 0) {
js_fprintf((FILE *)scgp->errfile,
"DMA addr: 0x%8.8lX size: %d - using copy buffer\n",
(long)sp->addr, sp->size);
}
if (sp->size > (int)(sizeof (sg_rq.buf) - SCG_MAX_CMD)) {
if (scglocal(scgp)->xbuf == NULL) {
scglocal(scgp)->xbufsize = scgp->maxbuf;
scglocal(scgp)->xbuf =
malloc(scglocal(scgp)->xbufsize +
SCG_MAX_CMD +
sizeof (struct sg_header));
if (scgp->debug > 0) {
js_fprintf((FILE *)scgp->errfile,
"Allocated DMA copy buffer, addr: 0x%8.8lX size: %ld\n",
(long)scglocal(scgp)->xbuf,
scgp->maxbuf);
}
}
if (scglocal(scgp)->xbuf == NULL ||
sp->size > scglocal(scgp)->xbufsize) {
errno = ENOMEM;
return (-1);
}
sgp2 = sgp = (struct sg_rq *)scglocal(scgp)->xbuf;
}
}
/*
* This is done to avoid misaligned access of sgp->some_int
*/
pack_len = sizeof (struct sg_header) + amt;
reply_len = sizeof (struct sg_header);
if (sp->flags & SCG_RECV_DATA) {
reply_len += sp->size;
} else {
pack_len += sp->size;
}
#ifdef MISALIGN
/*
* sgp->some_int may be misaligned if (sp->addr == SCSIbuf)
* This is no problem on Intel porocessors, however
* all other processors don't like it.
* sizeof (struct sg_header) + amt is usually not a multiple of
* sizeof (int). For this reason, we fill in the values into sg_rq
* which is always corectly aligned and then copy it to the real
* location if this location differs from sg_rq.
* Never read/write directly to sgp->some_int !!!!!
*/
fillbytes((caddr_t)&sg_rq, sizeof (struct sg_header), '\0');
sg_rq.hd.pack_len = pack_len;
sg_rq.hd.reply_len = reply_len;
sg_rq.hd.pack_id = scglocal(scgp)->pack_id++;
/* sg_rq.hd.result = 0; not needed because of fillbytes() */
if ((caddr_t)&sg_rq != (caddr_t)sgp)
movebytes((caddr_t)&sg_rq, (caddr_t)sgp, sizeof (struct sg_header));
#else
fillbytes((caddr_t)sgp, sizeof (struct sg_header), '\0');
sgp->hd.pack_len = pack_len;
sgp->hd.reply_len = reply_len;
sgp->hd.pack_id = scglocal(scgp)->pack_id++;
/* sgp->hd.result = 0; not needed because of fillbytes() */
#endif
if (amt == 12)
sgp->hd.twelve_byte = 1;
for (i = 0; i < amt; i++) {
sgp->buf[i] = sp->cdb.cmd_cdb[i];
}
if (!(sp->flags & SCG_RECV_DATA)) {
if ((void *)sp->addr != (void *)&sgp->buf[amt])
movebytes(sp->addr, &sgp->buf[amt], sp->size);
amt += sp->size;
}
#ifdef SG_GET_BUFSIZE
sgp->hd.want_new = 1; /* Order new behaviour */
sgp->hd.cdb_len = sp->cdb_len; /* Set CDB length */
if (sp->sense_len > SG_MAX_SENSE)
sgp->hd.sense_len = SG_MAX_SENSE;
else
sgp->hd.sense_len = sp->sense_len;
#endif
i = sizeof (struct sg_header) + amt;
if ((amt = write(f, sgp, i)) < 0) { /* write */
sg_settimeout(f, scgp->deftimeout);
return (-1);
} else if (amt != i) {
errmsg("scgo_send(%s) wrote %d bytes (expected %d).\n",
scgp->cmdname, amt, i);
}
if (sp->addr == scglocal(scgp)->SCSIbuf) {
movebytes(sgp, sgp2, sizeof (struct sg_header));
sgp = sgp2;
}
sgp->hd.sense_buffer[0] = 0;
if ((amt = read(f, sgp, reply_len)) < 0) { /* read */
sg_settimeout(f, scgp->deftimeout);
return (-1);
}
if (sp->flags & SCG_RECV_DATA && ((void *)sgp->buf != (void *)sp->addr)) {
movebytes(sgp->buf, sp->addr, sp->size);
}
sp->ux_errno = GETINT(sgp->hd.result); /* Unaligned read */
sp->error = SCG_NO_ERROR;
#ifdef SG_GET_BUFSIZE
if (sgp->hd.grant_new) {
sp->sense_count = sgp->hd.sense_len;
pack_len = GETINT(sgp->hd.sg_cmd_status); /* Unaligned read */
driver_byte = (pack_len >> 24) & 0xFF;
host_byte = (pack_len >> 16) & 0xFF;
msg_byte = (pack_len >> 8) & 0xFF;
status_byte = pack_len & 0xFF;
switch (host_byte) {
case DID_OK:
if ((driver_byte & DRIVER_SENSE ||
sgp->hd.sense_buffer[0] != 0) &&
status_byte == 0) {
/*
* The Linux SCSI system up to 2.4.xx
* trashes the status byte in the
* kernel. This is true at least for
* ide-scsi emulation. Until this gets
* fixed, we need this hack.
*/
status_byte = ST_CHK_COND;
if (sgp->hd.sense_len == 0)
sgp->hd.sense_len = SG_MAX_SENSE;
if ((sp->u_sense.cmd_sense[2] == 0) &&
(sp->u_sense.cmd_sense[12] == 0) &&
(sp->u_sense.cmd_sense[13] == 0)) {
/*
* The Linux SCSI system will
* send a request sense for
* even a dma underrun error.
* Clear CHECK CONDITION state
* in case of No Sense.
*/
sp->u_scb.cmd_scb[0] = 0;
sp->u_sense.cmd_sense[0] = 0;
sp->sense_count = 0;
}
}
break;
case DID_NO_CONNECT: /* Arbitration won, retry NO_CONNECT? */
sp->error = SCG_RETRYABLE;
break;
case DID_BAD_TARGET:
sp->error = SCG_FATAL;
break;
case DID_TIME_OUT:
sp->error = SCG_TIMEOUT;
break;
default:
sp->error = SCG_RETRYABLE;
if ((driver_byte & DRIVER_SENSE ||
sgp->hd.sense_buffer[0] != 0) &&
status_byte == 0) {
status_byte = ST_CHK_COND;
sp->error = SCG_NO_ERROR;
}
if (status_byte != 0 && sgp->hd.sense_len == 0) {
sgp->hd.sense_len = SG_MAX_SENSE;
sp->error = SCG_NO_ERROR;
}
break;
}
if ((host_byte != DID_OK || status_byte != 0) && sp->ux_errno == 0)
sp->ux_errno = EIO;
sp->u_scb.cmd_scb[0] = status_byte;
if (status_byte & ST_CHK_COND) {
sp->sense_count = sgp->hd.sense_len;
movebytes(sgp->hd.sense_buffer, sp->u_sense.cmd_sense, sp->sense_count);
}
} else
#endif
{
if (GETINT(sgp->hd.result) == EBUSY) { /* Unaligned read */
struct timeval to;
to.tv_sec = sp->timeout;
to.tv_usec = 500000;
__scg_times(scgp);
if (sp->timeout > 1 && scgp->cmdstop->tv_sec == 0) {
sp->u_scb.cmd_scb[0] = 0;
sp->ux_errno = EIO;
sp->error = SCG_FATAL; /* a selection timeout */
} else if (scgp->cmdstop->tv_sec < to.tv_sec ||
(scgp->cmdstop->tv_sec == to.tv_sec &&
scgp->cmdstop->tv_usec < to.tv_usec)) {
sp->ux_errno = EIO;
sp->error = SCG_TIMEOUT; /* a timeout */
} else {
sp->error = SCG_RETRYABLE; /* may be BUS_BUSY */
}
}
if (sp->flags & SCG_RECV_DATA)
sp->resid = (sp->size + sizeof (struct sg_header)) - amt;
else
sp->resid = 0; /* sg version1 cannot return DMA resid count */
if (sgp->hd.sense_buffer[0] != 0) {
sp->scb.chk = 1;
sp->sense_count = SG_MAX_SENSE;
movebytes(sgp->hd.sense_buffer, sp->u_sense.cmd_sense, sp->sense_count);
if (sp->ux_errno == 0)
sp->ux_errno = EIO;
}
}
if (scgp->verbose > 0 && scgp->debug > 0) {
#ifdef SG_GET_BUFSIZE
js_fprintf((FILE *)scgp->errfile,
"status: 0x%08X pack_len: %d, reply_len: %d pack_id: %d result: %d wn: %d gn: %d cdb_len: %d sense_len: %d sense[0]: %02X\n",
GETINT(sgp->hd.sg_cmd_status),
GETINT(sgp->hd.pack_len),
GETINT(sgp->hd.reply_len),
GETINT(sgp->hd.pack_id),
GETINT(sgp->hd.result),
sgp->hd.want_new,
sgp->hd.grant_new,
sgp->hd.cdb_len,
sgp->hd.sense_len,
sgp->hd.sense_buffer[0]);
#else
js_fprintf((FILE *)scgp->errfile,
"pack_len: %d, reply_len: %d pack_id: %d result: %d sense[0]: %02X\n",
GETINT(sgp->hd.pack_len),
GETINT(sgp->hd.reply_len),
GETINT(sgp->hd.pack_id),
GETINT(sgp->hd.result),
sgp->hd.sense_buffer[0]);
#endif
#ifdef DEBUG
js_fprintf((FILE *)scgp->errfile, "sense: ");
for (i = 0; i < 16; i++)
js_fprintf((FILE *)scgp->errfile, "%02X ", sgp->hd.sense_buffer[i]);
js_fprintf((FILE *)scgp->errfile, "\n");
#endif
}
if (sp->timeout != scgp->deftimeout)
sg_settimeout(f, scgp->deftimeout);
return (0);
}