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/*
* Copyright (c) 2005-2009 Douglas Gilbert.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
*/
#include <fcntl.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include <sys/ioctl.h>
#include <io/common/devgetinfo.h>
#include <io/common/iotypes.h>
#include <io/cam/cam.h>
#include <io/cam/uagt.h>
#include <io/cam/rzdisk.h>
#include <io/cam/scsi_opcodes.h>
#include <io/cam/scsi_all.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include "sg_pt.h"
#include "sg_lib.h"
/* Changed to use struct sg_pt_base 20070403 */
#define OSF1_MAXDEV 64
struct osf1_dev_channel {
int bus;
int tgt;
int lun;
};
// Private table of open devices: guaranteed zero on startup since
// part of static data.
static struct osf1_dev_channel *devicetable[OSF1_MAXDEV] = {0};
static char *cam_dev = "/dev/cam";
static int camfd;
static int camopened = 0;
struct sg_pt_osf1_scsi {
unsigned char * cdb;
int cdb_len;
unsigned char * sense;
int sense_len;
unsigned char * dxferp;
int dxfer_len;
int dxfer_dir;
int scsi_status;
int resid;
int sense_resid;
int in_err;
int os_err;
int transport_err;
};
struct sg_pt_base {
struct sg_pt_osf1_scsi impl;
};
/* Returns >= 0 if successful. If error in Unix returns negated errno. */
int
scsi_pt_open_device(const char * device_name, int read_only, int verbose)
{
int oflags = 0 /* O_NONBLOCK*/ ;
oflags |= (read_only ? O_RDONLY : O_RDWR);
return scsi_pt_open_flags(device_name, oflags, verbose);
}
/* Similar to scsi_pt_open_device() but takes Unix style open flags OR-ed
* together. The 'flags' argument is ignored in OSF-1.
* Returns >= 0 if successful, otherwise returns negated errno. */
int
scsi_pt_open_flags(const char * device_name, int flags, int verbose)
{
struct osf1_dev_channel *fdchan;
int fd, k;
if (NULL == sg_warnings_strm)
sg_warnings_strm = stderr;
if (!camopened) {
camfd = open(cam_dev, O_RDWR, 0);
if (camfd < 0)
return -1;
camopened++;
}
// Search table for a free entry
for (k = 0; k < OSF1_MAXDEV; k++)
if (! devicetable[k])
break;
if (k == OSF1_MAXDEV) {
if (verbose)
fprintf(sg_warnings_strm, "too many open devices "
"(%d)\n", OSF1_MAXDEV);
errno=EMFILE;
return -1;
}
fdchan = (struct osf1_dev_channel *)calloc(1,
sizeof(struct osf1_dev_channel));
if (fdchan == NULL) {
// errno already set by call to malloc()
return -1;
}
fd = open(device_name, O_RDONLY|O_NONBLOCK);
if (fd > 0) {
device_info_t devinfo;
bzero(&devinfo, sizeof(devinfo));
if (ioctl(fd, DEVGETINFO, &devinfo) == 0) {
fdchan->bus = devinfo.v1.businfo.bus.scsi.bus_num;
fdchan->tgt = devinfo.v1.businfo.bus.scsi.tgt_id;
fdchan->lun = devinfo.v1.businfo.bus.scsi.lun;
}
close (fd);
} else {
free(fdchan);
return -1;
}
devicetable[k] = fdchan;
return k;
}
/* Returns 0 if successful. If error in Unix returns negated errno. */
int
scsi_pt_close_device(int device_fd)
{
struct osf1_dev_channel *fdchan;
int i;
if ((device_fd < 0) || (device_fd >= OSF1_MAXDEV)) {
errno = ENODEV;
return -1;
}
fdchan = devicetable[device_fd];
if (NULL == fdchan) {
errno = ENODEV;
return -1;
}
free(fdchan);
devicetable[device_fd] = NULL;
for (i = 0; i < OSF1_MAXDEV; i++) {
if (devicetable[i])
break;
}
if (i == OSF1_MAXDEV) {
close(camfd);
camopened = 0;
}
return 0;
}
struct sg_pt_base *
construct_scsi_pt_obj()
{
struct sg_pt_osf1_scsi * ptp;
ptp = (struct sg_pt_osf1_scsi *)malloc(sizeof(struct sg_pt_osf1_scsi));
if (ptp) {
bzero(ptp, sizeof(struct sg_pt_osf1_scsi));
ptp->dxfer_dir = CAM_DIR_NONE;
}
return (struct sg_pt_base *)ptp;
}
void
destruct_scsi_pt_obj(struct sg_pt_base * vp)
{
struct sg_pt_osf1_scsi * ptp = &vp->impl;
if (ptp)
free(ptp);
}
void
clear_scsi_pt_obj(struct sg_pt_base * vp)
{
struct sg_pt_osf1_scsi * ptp = &vp->impl;
if (ptp) {
bzero(ptp, sizeof(struct sg_pt_osf1_scsi));
ptp->dxfer_dir = CAM_DIR_NONE;
}
}
void
set_scsi_pt_cdb(struct sg_pt_base * vp, const unsigned char * cdb,
int cdb_len)
{
struct sg_pt_osf1_scsi * ptp = &vp->impl;
if (ptp->cdb)
++ptp->in_err;
ptp->cdb = (unsigned char *)cdb;
ptp->cdb_len = cdb_len;
}
void
set_scsi_pt_sense(struct sg_pt_base * vp, unsigned char * sense,
int max_sense_len)
{
struct sg_pt_osf1_scsi * ptp = &vp->impl;
if (ptp->sense)
++ptp->in_err;
bzero(sense, max_sense_len);
ptp->sense = sense;
ptp->sense_len = max_sense_len;
}
/* from device */
void
set_scsi_pt_data_in(struct sg_pt_base * vp, unsigned char * dxferp,
int dxfer_len)
{
struct sg_pt_osf1_scsi * ptp = &vp->impl;
if (ptp->dxferp)
++ptp->in_err;
if (dxfer_len > 0) {
ptp->dxferp = dxferp;
ptp->dxfer_len = dxfer_len;
ptp->dxfer_dir = CAM_DIR_IN;
}
}
/* to device */
void
set_scsi_pt_data_out(struct sg_pt_base * vp, const unsigned char * dxferp,
int dxfer_len)
{
struct sg_pt_osf1_scsi * ptp = &vp->impl;
if (ptp->dxferp)
++ptp->in_err;
if (dxfer_len > 0) {
ptp->dxferp = (unsigned char *)dxferp;
ptp->dxfer_len = dxfer_len;
ptp->dxfer_dir = CAM_DIR_OUT;
}
}
void
set_scsi_pt_packet_id(struct sg_pt_base * vp, int pack_id)
{
}
void
set_scsi_pt_tag(struct sg_pt_base * vp, uint64_t tag)
{
struct sg_pt_osf1_scsi * ptp = &vp->impl;
++ptp->in_err;
}
void
set_scsi_pt_task_management(struct sg_pt_base * vp, int tmf_code)
{
struct sg_pt_osf1_scsi * ptp = &vp->impl;
++ptp->in_err;
}
void
set_scsi_pt_task_attr(struct sg_pt_base * vp, int attrib, int priority)
{
struct sg_pt_osf1_scsi * ptp = &vp->impl;
++ptp->in_err;
}
static int
release_sim(struct sg_pt_base *vp, int device_fd, int verbose) {
struct sg_pt_osf1_scsi * ptp = &vp->impl;
struct osf1_dev_channel *fdchan = devicetable[device_fd];
UAGT_CAM_CCB uagt;
CCB_RELSIM relsim;
int retval;
if (NULL == sg_warnings_strm)
sg_warnings_strm = stderr;
bzero(&uagt, sizeof(uagt));
bzero(&relsim, sizeof(relsim));
uagt.uagt_ccb = (CCB_HEADER *) &relsim;
uagt.uagt_ccblen = sizeof(relsim);
relsim.cam_ch.cam_ccb_len = sizeof(relsim);
relsim.cam_ch.cam_func_code = XPT_REL_SIMQ;
relsim.cam_ch.cam_flags = CAM_DIR_IN | CAM_DIS_CALLBACK;
relsim.cam_ch.cam_path_id = fdchan->bus;
relsim.cam_ch.cam_target_id = fdchan->tgt;
relsim.cam_ch.cam_target_lun = fdchan->lun;
retval = ioctl(camfd, UAGT_CAM_IO, &uagt);
if (retval < 0) {
if (verbose)
fprintf(sg_warnings_strm, "CAM ioctl error (Release SIM Queue)\n");
}
return retval;
}
int
do_scsi_pt(struct sg_pt_base * vp, int device_fd, int time_secs, int verbose)
{
struct sg_pt_osf1_scsi * ptp = &vp->impl;
struct osf1_dev_channel *fdchan;
int len, retval;
CCB_SCSIIO ccb;
UAGT_CAM_CCB uagt;
unsigned char sensep[ADDL_SENSE_LENGTH];
if (NULL == sg_warnings_strm)
sg_warnings_strm = stderr;
ptp->os_err = 0;
if (ptp->in_err) {
if (verbose)
fprintf(sg_warnings_strm, "Replicated or unused set_scsi_pt...\n");
return SCSI_PT_DO_BAD_PARAMS;
}
if (NULL == ptp->cdb) {
if (verbose)
fprintf(sg_warnings_strm, "No command (cdb) given\n");
return SCSI_PT_DO_BAD_PARAMS;
}
if ((device_fd < 0) || (device_fd >= OSF1_MAXDEV)) {
if (verbose)
fprintf(sg_warnings_strm, "Bad file descriptor\n");
ptp->os_err = ENODEV;
return -ptp->os_err;
}
fdchan = devicetable[device_fd];
if (NULL == fdchan) {
if (verbose)
fprintf(sg_warnings_strm, "File descriptor closed??\n");
ptp->os_err = ENODEV;
return -ptp->os_err;
}
if (0 == camopened) {
if (verbose)
fprintf(sg_warnings_strm, "No open CAM device\n");
return SCSI_PT_DO_BAD_PARAMS;
}
bzero(&uagt, sizeof(uagt));
bzero(&ccb, sizeof(ccb));
uagt.uagt_ccb = (CCB_HEADER *) &ccb;
uagt.uagt_ccblen = sizeof(ccb);
uagt.uagt_snsbuf = ccb.cam_sense_ptr = ptp->sense ? ptp->sense : sensep;
uagt.uagt_snslen = ccb.cam_sense_len = ptp->sense ? ptp->sense_len : sizeof sensep;
uagt.uagt_buffer = ccb.cam_data_ptr = ptp->dxferp;
uagt.uagt_buflen = ccb.cam_dxfer_len = ptp->dxfer_len;
ccb.cam_timeout = time_secs;
ccb.cam_ch.my_addr = (CCB_HEADER *) &ccb;
ccb.cam_ch.cam_ccb_len = sizeof(ccb);
ccb.cam_ch.cam_func_code = XPT_SCSI_IO;
ccb.cam_ch.cam_flags = ptp->dxfer_dir;
ccb.cam_cdb_len = ptp->cdb_len;
memcpy(ccb.cam_cdb_io.cam_cdb_bytes, ptp->cdb, ptp->cdb_len);
ccb.cam_ch.cam_path_id = fdchan->bus;
ccb.cam_ch.cam_target_id = fdchan->tgt;
ccb.cam_ch.cam_target_lun = fdchan->lun;
if (ioctl(camfd, UAGT_CAM_IO, &uagt) < 0) {
if (verbose)
fprintf(sg_warnings_strm, "CAN I/O Error\n");
ptp->os_err = EIO;
return -ptp->os_err;
}
if (((ccb.cam_ch.cam_status & CAM_STATUS_MASK) == CAM_REQ_CMP) ||
((ccb.cam_ch.cam_status & CAM_STATUS_MASK) == CAM_REQ_CMP_ERR)) {
ptp->scsi_status = ccb.cam_scsi_status;
ptp->resid = ccb.cam_resid;
if (ptp->sense)
ptp->sense_resid = ccb.cam_sense_resid;
} else {
ptp->transport_err = 1;
}
/* If the SIM queue is frozen, release SIM queue. */
if (ccb.cam_ch.cam_status & CAM_SIM_QFRZN)
release_sim(vp, device_fd, verbose);
return 0;
}
int
get_scsi_pt_result_category(const struct sg_pt_base * vp)
{
const struct sg_pt_osf1_scsi * ptp = &vp->impl;
if (ptp->os_err)
return SCSI_PT_RESULT_OS_ERR;
else if (ptp->transport_err)
return SCSI_PT_RESULT_TRANSPORT_ERR;
else if ((SAM_STAT_CHECK_CONDITION == ptp->scsi_status) ||
(SAM_STAT_COMMAND_TERMINATED == ptp->scsi_status))
return SCSI_PT_RESULT_SENSE;
else if (ptp->scsi_status)
return SCSI_PT_RESULT_STATUS;
else
return SCSI_PT_RESULT_GOOD;
}
int
get_scsi_pt_resid(const struct sg_pt_base * vp)
{
const struct sg_pt_osf1_scsi * ptp = &vp->impl;
return ptp->resid;
}
int
get_scsi_pt_status_response(const struct sg_pt_base * vp)
{
const struct sg_pt_osf1_scsi * ptp = &vp->impl;
return ptp->scsi_status;
}
int
get_scsi_pt_sense_len(const struct sg_pt_base * vp)
{
const struct sg_pt_osf1_scsi * ptp = &vp->impl;
int len;
len = ptp->sense_len - ptp->sense_resid;
return (len > 0) ? len : 0;
}
int
get_scsi_pt_duration_ms(const struct sg_pt_base * vp)
{
// const struct sg_pt_osf1_scsi * ptp = &vp->impl;
return -1;
}
int
get_scsi_pt_transport_err(const struct sg_pt_base * vp)
{
const struct sg_pt_osf1_scsi * ptp = &vp->impl;
return ptp->transport_err;
}
int
get_scsi_pt_os_err(const struct sg_pt_base * vp)
{
const struct sg_pt_osf1_scsi * ptp = &vp->impl;
return ptp->os_err;
}
char *
get_scsi_pt_transport_err_str(const struct sg_pt_base * vp, int max_b_len,
char * b)
{
const struct sg_pt_osf1_scsi * ptp = &vp->impl;
if (0 == ptp->transport_err) {
strncpy(b, "no transport error available", max_b_len);
b[max_b_len - 1] = '\0';
return b;
}
strncpy(b, "no transport error available", max_b_len);
b[max_b_len - 1] = '\0';
return b;
}
char *
get_scsi_pt_os_err_str(const struct sg_pt_base * vp, int max_b_len, char * b)
{
const struct sg_pt_osf1_scsi * ptp = &vp->impl;
const char * cp;
cp = safe_strerror(ptp->os_err);
strncpy(b, cp, max_b_len);
if ((int)strlen(cp) >= max_b_len)
b[max_b_len - 1] = '\0';
return b;
}
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