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|
/*-
* Copyright (c) 2003, 2004 Silicon Graphics International Corp.
* Copyright (c) 1997-2007 Kenneth D. Merry
* Copyright (c) 2012 The FreeBSD Foundation
* All rights reserved.
*
* Portions of this software were developed by Edward Tomasz Napierala
* under sponsorship from the FreeBSD Foundation.
*
* 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,
* without modification.
* 2. Redistributions in binary form must reproduce at minimum a disclaimer
* substantially similar to the "NO WARRANTY" disclaimer below
* ("Disclaimer") and any redistribution must be conditioned upon
* including a substantially similar Disclaimer requirement for further
* binary redistribution.
*
* NO WARRANTY
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* HOLDERS OR CONTRIBUTORS BE LIABLE FOR 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 DAMAGES.
*
* $Id: //depot/users/kenm/FreeBSD-test2/usr.sbin/ctladm/ctladm.c#4 $
*/
/*
* CAM Target Layer exercise program.
*
* Author: Ken Merry <ken@FreeBSD.org>
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/ioctl.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/param.h>
#include <sys/linker.h>
#include <sys/queue.h>
#include <sys/callout.h>
#include <sys/sbuf.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <fcntl.h>
#include <getopt.h>
#include <string.h>
#include <errno.h>
#include <err.h>
#include <ctype.h>
#include <bsdxml.h>
#include <cam/scsi/scsi_all.h>
#include <cam/scsi/scsi_message.h>
#include <cam/ctl/ctl.h>
#include <cam/ctl/ctl_io.h>
#include <cam/ctl/ctl_frontend_internal.h>
#include <cam/ctl/ctl_backend.h>
#include <cam/ctl/ctl_ioctl.h>
#include <cam/ctl/ctl_backend_block.h>
#include <cam/ctl/ctl_util.h>
#include <cam/ctl/ctl_scsi_all.h>
#include <camlib.h>
#include <libutil.h>
#include "ctladm.h"
#ifdef min
#undef min
#endif
#define min(x,y) (x < y) ? x : y
typedef enum {
CTLADM_CMD_TUR,
CTLADM_CMD_INQUIRY,
CTLADM_CMD_REQ_SENSE,
CTLADM_CMD_ARRAYLIST,
CTLADM_CMD_REPORT_LUNS,
CTLADM_CMD_HELP,
CTLADM_CMD_DEVLIST,
CTLADM_CMD_ADDDEV,
CTLADM_CMD_RM,
CTLADM_CMD_CREATE,
CTLADM_CMD_READ,
CTLADM_CMD_WRITE,
CTLADM_CMD_PORT,
CTLADM_CMD_READCAPACITY,
CTLADM_CMD_MODESENSE,
CTLADM_CMD_DUMPOOA,
CTLADM_CMD_DUMPSTRUCTS,
CTLADM_CMD_START,
CTLADM_CMD_STOP,
CTLADM_CMD_SYNC_CACHE,
CTLADM_CMD_SHUTDOWN,
CTLADM_CMD_STARTUP,
CTLADM_CMD_LUNLIST,
CTLADM_CMD_HARDSTOP,
CTLADM_CMD_HARDSTART,
CTLADM_CMD_DELAY,
CTLADM_CMD_REALSYNC,
CTLADM_CMD_SETSYNC,
CTLADM_CMD_GETSYNC,
CTLADM_CMD_ERR_INJECT,
CTLADM_CMD_BBRREAD,
CTLADM_CMD_PRES_IN,
CTLADM_CMD_PRES_OUT,
CTLADM_CMD_INQ_VPD_DEVID,
CTLADM_CMD_RTPG,
CTLADM_CMD_MODIFY
} ctladm_cmdfunction;
typedef enum {
CTLADM_ARG_NONE = 0x0000000,
CTLADM_ARG_AUTOSENSE = 0x0000001,
CTLADM_ARG_DEVICE = 0x0000002,
CTLADM_ARG_ARRAYSIZE = 0x0000004,
CTLADM_ARG_BACKEND = 0x0000008,
CTLADM_ARG_CDBSIZE = 0x0000010,
CTLADM_ARG_DATALEN = 0x0000020,
CTLADM_ARG_FILENAME = 0x0000040,
CTLADM_ARG_LBA = 0x0000080,
CTLADM_ARG_PC = 0x0000100,
CTLADM_ARG_PAGE_CODE = 0x0000200,
CTLADM_ARG_PAGE_LIST = 0x0000400,
CTLADM_ARG_SUBPAGE = 0x0000800,
CTLADM_ARG_PAGELIST = 0x0001000,
CTLADM_ARG_DBD = 0x0002000,
CTLADM_ARG_TARG_LUN = 0x0004000,
CTLADM_ARG_BLOCKSIZE = 0x0008000,
CTLADM_ARG_IMMED = 0x0010000,
CTLADM_ARG_RELADR = 0x0020000,
CTLADM_ARG_RETRIES = 0x0040000,
CTLADM_ARG_ONOFFLINE = 0x0080000,
CTLADM_ARG_ONESHOT = 0x0100000,
CTLADM_ARG_TIMEOUT = 0x0200000,
CTLADM_ARG_INITIATOR = 0x0400000,
CTLADM_ARG_NOCOPY = 0x0800000,
CTLADM_ARG_NEED_TL = 0x1000000
} ctladm_cmdargs;
struct ctladm_opts {
const char *optname;
uint32_t cmdnum;
ctladm_cmdargs argnum;
const char *subopt;
};
typedef enum {
CC_OR_NOT_FOUND,
CC_OR_AMBIGUOUS,
CC_OR_FOUND
} ctladm_optret;
static const char rw_opts[] = "Nb:c:d:f:l:";
static const char startstop_opts[] = "io";
static struct ctladm_opts option_table[] = {
{"adddev", CTLADM_CMD_ADDDEV, CTLADM_ARG_NONE, NULL},
{"bbrread", CTLADM_CMD_BBRREAD, CTLADM_ARG_NEED_TL, "d:l:"},
{"create", CTLADM_CMD_CREATE, CTLADM_ARG_NONE, "b:B:d:l:o:s:S:t:"},
{"delay", CTLADM_CMD_DELAY, CTLADM_ARG_NEED_TL, "T:l:t:"},
{"devid", CTLADM_CMD_INQ_VPD_DEVID, CTLADM_ARG_NEED_TL, NULL},
{"devlist", CTLADM_CMD_DEVLIST, CTLADM_ARG_NONE, "b:vx"},
{"dumpooa", CTLADM_CMD_DUMPOOA, CTLADM_ARG_NONE, NULL},
{"dumpstructs", CTLADM_CMD_DUMPSTRUCTS, CTLADM_ARG_NONE, NULL},
{"getsync", CTLADM_CMD_GETSYNC, CTLADM_ARG_NEED_TL, NULL},
{"hardstart", CTLADM_CMD_HARDSTART, CTLADM_ARG_NONE, NULL},
{"hardstop", CTLADM_CMD_HARDSTOP, CTLADM_ARG_NONE, NULL},
{"help", CTLADM_CMD_HELP, CTLADM_ARG_NONE, NULL},
{"inject", CTLADM_CMD_ERR_INJECT, CTLADM_ARG_NEED_TL, "cd:i:p:r:s:"},
{"inquiry", CTLADM_CMD_INQUIRY, CTLADM_ARG_NEED_TL, NULL},
{"lunlist", CTLADM_CMD_LUNLIST, CTLADM_ARG_NONE, NULL},
{"modesense", CTLADM_CMD_MODESENSE, CTLADM_ARG_NEED_TL, "P:S:dlm:c:"},
{"modify", CTLADM_CMD_MODIFY, CTLADM_ARG_NONE, "b:l:s:"},
{"port", CTLADM_CMD_PORT, CTLADM_ARG_NONE, "lo:p:qt:w:W:x"},
{"prin", CTLADM_CMD_PRES_IN, CTLADM_ARG_NEED_TL, "a:"},
{"prout", CTLADM_CMD_PRES_OUT, CTLADM_ARG_NEED_TL, "a:k:r:s:"},
{"read", CTLADM_CMD_READ, CTLADM_ARG_NEED_TL, rw_opts},
{"readcapacity", CTLADM_CMD_READCAPACITY, CTLADM_ARG_NEED_TL, "c:"},
{"realsync", CTLADM_CMD_REALSYNC, CTLADM_ARG_NONE, NULL},
{"remove", CTLADM_CMD_RM, CTLADM_ARG_NONE, "b:l:o:"},
{"reportluns", CTLADM_CMD_REPORT_LUNS, CTLADM_ARG_NEED_TL, NULL},
{"reqsense", CTLADM_CMD_REQ_SENSE, CTLADM_ARG_NEED_TL, NULL},
{"rtpg", CTLADM_CMD_RTPG, CTLADM_ARG_NEED_TL, NULL},
{"setsync", CTLADM_CMD_SETSYNC, CTLADM_ARG_NEED_TL, "i:"},
{"shutdown", CTLADM_CMD_SHUTDOWN, CTLADM_ARG_NONE, NULL},
{"start", CTLADM_CMD_START, CTLADM_ARG_NEED_TL, startstop_opts},
{"startup", CTLADM_CMD_STARTUP, CTLADM_ARG_NONE, NULL},
{"stop", CTLADM_CMD_STOP, CTLADM_ARG_NEED_TL, startstop_opts},
{"synccache", CTLADM_CMD_SYNC_CACHE, CTLADM_ARG_NEED_TL, "b:c:il:r"},
{"tur", CTLADM_CMD_TUR, CTLADM_ARG_NEED_TL, NULL},
{"write", CTLADM_CMD_WRITE, CTLADM_ARG_NEED_TL, rw_opts},
{"-?", CTLADM_CMD_HELP, CTLADM_ARG_NONE, NULL},
{"-h", CTLADM_CMD_HELP, CTLADM_ARG_NONE, NULL},
{NULL, 0, 0, NULL}
};
ctladm_optret getoption(struct ctladm_opts *table, char *arg, uint32_t *cmdnum,
ctladm_cmdargs *argnum, const char **subopt);
static int cctl_parse_tl(char *str, int *target, int *lun);
static int cctl_dump_ooa(int fd, int argc, char **argv);
static int cctl_port_dump(int fd, int quiet, int xml, int32_t fe_num,
ctl_port_type port_type);
static int cctl_port(int fd, int argc, char **argv, char *combinedopt);
static int cctl_do_io(int fd, int retries, union ctl_io *io, const char *func);
static int cctl_delay(int fd, int target, int lun, int argc, char **argv,
char *combinedopt);
static int cctl_lunlist(int fd);
static void cctl_cfi_mt_statusstr(cfi_mt_status status, char *str, int str_len);
static void cctl_cfi_bbr_statusstr(cfi_bbrread_status, char *str, int str_len);
static int cctl_hardstopstart(int fd, ctladm_cmdfunction command);
static int cctl_bbrread(int fd, int target, int lun, int iid, int argc,
char **argv, char *combinedopt);
static int cctl_startup_shutdown(int fd, int target, int lun, int iid,
ctladm_cmdfunction command);
static int cctl_sync_cache(int fd, int target, int lun, int iid, int retries,
int argc, char **argv, char *combinedopt);
static int cctl_start_stop(int fd, int target, int lun, int iid, int retries,
int start, int argc, char **argv, char *combinedopt);
static int cctl_mode_sense(int fd, int target, int lun, int iid, int retries,
int argc, char **argv, char *combinedopt);
static int cctl_read_capacity(int fd, int target, int lun, int iid,
int retries, int argc, char **argv,
char *combinedopt);
static int cctl_read_write(int fd, int target, int lun, int iid, int retries,
int argc, char **argv, char *combinedopt,
ctladm_cmdfunction command);
static int cctl_get_luns(int fd, int target, int lun, int iid, int retries,
struct scsi_report_luns_data **lun_data,
uint32_t *num_luns);
static int cctl_report_luns(int fd, int target, int lun, int iid, int retries);
static int cctl_tur(int fd, int target, int lun, int iid, int retries);
static int cctl_get_inquiry(int fd, int target, int lun, int iid, int retries,
char *path_str, int path_len,
struct scsi_inquiry_data *inq_data);
static int cctl_inquiry(int fd, int target, int lun, int iid, int retries);
static int cctl_req_sense(int fd, int target, int lun, int iid, int retries);
static int cctl_persistent_reserve_in(int fd, int target, int lun,
int initiator, int argc, char **argv,
char *combinedopt, int retry_count);
static int cctl_persistent_reserve_out(int fd, int target, int lun,
int initiator, int argc, char **argv,
char *combinedopt, int retry_count);
static int cctl_create_lun(int fd, int argc, char **argv, char *combinedopt);
static int cctl_inquiry_vpd_devid(int fd, int target, int lun, int initiator);
static int cctl_report_target_port_group(int fd, int target, int lun,
int initiator);
static int cctl_modify_lun(int fd, int argc, char **argv, char *combinedopt);
ctladm_optret
getoption(struct ctladm_opts *table, char *arg, uint32_t *cmdnum,
ctladm_cmdargs *argnum, const char **subopt)
{
struct ctladm_opts *opts;
int num_matches = 0;
for (opts = table; (opts != NULL) && (opts->optname != NULL);
opts++) {
if (strncmp(opts->optname, arg, strlen(arg)) == 0) {
*cmdnum = opts->cmdnum;
*argnum = opts->argnum;
*subopt = opts->subopt;
if (strcmp(opts->optname, arg) == 0)
return (CC_OR_FOUND);
if (++num_matches > 1)
return(CC_OR_AMBIGUOUS);
}
}
if (num_matches > 0)
return(CC_OR_FOUND);
else
return(CC_OR_NOT_FOUND);
}
static int
cctl_parse_tl(char *str, int *target, int *lun)
{
char *tmpstr;
int retval;
retval = 0;
while (isspace(*str) && (*str != '\0'))
str++;
tmpstr = (char *)strtok(str, ":");
if ((tmpstr != NULL) && (*tmpstr != '\0')) {
*target = strtol(tmpstr, NULL, 0);
tmpstr = (char *)strtok(NULL, ":");
if ((tmpstr != NULL) && (*tmpstr != '\0')) {
*lun = strtol(tmpstr, NULL, 0);
} else
retval = -1;
} else
retval = -1;
return (retval);
}
static int
cctl_dump_ooa(int fd, int argc, char **argv)
{
struct ctl_ooa ooa;
long double cmd_latency;
int num_entries, len;
int target = -1, lun = -1;
int retval;
unsigned int i;
num_entries = 104;
if ((argc > 2)
&& (isdigit(argv[2][0]))) {
retval = cctl_parse_tl(argv[2], &target, &lun);
if (retval != 0)
warnx("invalid target:lun argument %s", argv[2]);
}
retry:
len = num_entries * sizeof(struct ctl_ooa_entry);
bzero(&ooa, sizeof(ooa));
ooa.entries = malloc(len);
if (ooa.entries == NULL) {
warn("%s: error mallocing %d bytes", __func__, len);
return (1);
}
if (argc > 2) {
ooa.lun_num = lun;
} else
ooa.flags |= CTL_OOA_FLAG_ALL_LUNS;
ooa.alloc_len = len;
ooa.alloc_num = num_entries;
if (ioctl(fd, CTL_GET_OOA, &ooa) == -1) {
warn("%s: CTL_GET_OOA ioctl failed", __func__);
retval = 1;
goto bailout;
}
if (ooa.status == CTL_OOA_NEED_MORE_SPACE) {
num_entries = num_entries * 2;
free(ooa.entries);
ooa.entries = NULL;
goto retry;
}
if (ooa.status != CTL_OOA_OK) {
warnx("%s: CTL_GET_OOA ioctl returned error %d", __func__,
ooa.status);
retval = 1;
goto bailout;
}
fprintf(stdout, "Dumping OOA queues\n");
for (i = 0; i < ooa.fill_num; i++) {
struct ctl_ooa_entry *entry;
char cdb_str[(SCSI_MAX_CDBLEN * 3) +1];
struct bintime delta_bt;
struct timespec ts;
entry = &ooa.entries[i];
delta_bt = ooa.cur_bt;
bintime_sub(&delta_bt, &entry->start_bt);
bintime2timespec(&delta_bt, &ts);
cmd_latency = ts.tv_sec * 1000;
if (ts.tv_nsec > 0)
cmd_latency += ts.tv_nsec / 1000000;
fprintf(stdout, "LUN %jd tag 0x%04x%s%s%s%s%s: %s. CDB: %s "
"(%0.0Lf ms)\n",
(intmax_t)entry->lun_num, entry->tag_num,
(entry->cmd_flags & CTL_OOACMD_FLAG_BLOCKED) ?
" BLOCKED" : "",
(entry->cmd_flags & CTL_OOACMD_FLAG_DMA) ? " DMA" : "",
(entry->cmd_flags & CTL_OOACMD_FLAG_DMA_QUEUED) ?
" DMAQUEUED" : "",
(entry->cmd_flags & CTL_OOACMD_FLAG_ABORT) ?
" ABORT" : "",
(entry->cmd_flags & CTL_OOACMD_FLAG_RTR) ? " RTR" :"",
scsi_op_desc(entry->cdb[0], NULL),
scsi_cdb_string(entry->cdb, cdb_str, sizeof(cdb_str)),
cmd_latency);
}
fprintf(stdout, "OOA queues dump done\n");
#if 0
if (ioctl(fd, CTL_DUMP_OOA) == -1) {
warn("%s: CTL_DUMP_OOA ioctl failed", __func__);
return (1);
}
#endif
bailout:
free(ooa.entries);
return (0);
}
static int
cctl_dump_structs(int fd, ctladm_cmdargs cmdargs __unused)
{
if (ioctl(fd, CTL_DUMP_STRUCTS) == -1) {
warn(__func__);
return (1);
}
return (0);
}
static int
cctl_port_dump(int fd, int quiet, int xml, int32_t targ_port,
ctl_port_type port_type)
{
struct ctl_port_list port_list;
struct ctl_port_entry *entries;
struct sbuf *sb = NULL;
int num_entries;
int did_print = 0;
unsigned int i;
num_entries = 16;
retry:
entries = malloc(sizeof(*entries) * num_entries);
bzero(&port_list, sizeof(port_list));
port_list.entries = entries;
port_list.alloc_num = num_entries;
port_list.alloc_len = num_entries * sizeof(*entries);
if (ioctl(fd, CTL_GET_PORT_LIST, &port_list) != 0) {
warn("%s: CTL_GET_PORT_LIST ioctl failed", __func__);
return (1);
}
if (port_list.status == CTL_PORT_LIST_NEED_MORE_SPACE) {
printf("%s: allocated %d, need %d, retrying\n", __func__,
num_entries, port_list.fill_num + port_list.dropped_num);
free(entries);
num_entries = port_list.fill_num + port_list.dropped_num;
goto retry;
}
if ((quiet == 0)
&& (xml == 0))
printf("Port Online Type Name pp vp %-18s %-18s\n",
"WWNN", "WWPN");
if (xml != 0) {
sb = sbuf_new_auto();
sbuf_printf(sb, "<ctlfelist>\n");
}
for (i = 0; i < port_list.fill_num; i++) {
struct ctl_port_entry *entry;
const char *type;
entry = &entries[i];
switch (entry->port_type) {
case CTL_PORT_FC:
type = "FC";
break;
case CTL_PORT_SCSI:
type = "SCSI";
break;
case CTL_PORT_IOCTL:
type = "IOCTL";
break;
case CTL_PORT_INTERNAL:
type = "INTERNAL";
break;
case CTL_PORT_ISC:
type = "ISC";
break;
default:
type = "UNKNOWN";
break;
}
/*
* If the user specified a frontend number or a particular
* frontend type, only print out that particular frontend
* or frontend type.
*/
if ((targ_port != -1)
&& (targ_port != entry->targ_port))
continue;
else if ((port_type != CTL_PORT_NONE)
&& ((port_type & entry->port_type) == 0))
continue;
did_print = 1;
#if 0
printf("Num: %ju Type: %s (%#x) Name: %s Physical Port: %d "
"Virtual Port: %d\n", (uintmax_t)entry->fe_num, type,
entry->port_type, entry->fe_name, entry->physical_port,
entry->virtual_port);
printf("WWNN %#jx WWPN %#jx Online: %s\n",
(uintmax_t)entry->wwnn, (uintmax_t)entry->wwpn,
(entry->online) ? "YES" : "NO" );
#endif
if (xml == 0) {
printf("%-4d %-6s %-8s %-12s %-2d %-2d %#-18jx "
"%#-18jx\n",
entry->targ_port, (entry->online) ? "YES" : "NO",
type, entry->port_name, entry->physical_port,
entry->virtual_port, (uintmax_t)entry->wwnn,
(uintmax_t)entry->wwpn);
} else {
sbuf_printf(sb, "<targ_port id=\"%d\">\n",
entry->targ_port);
sbuf_printf(sb, "<online>%s</online>\n",
(entry->online) ? "YES" : "NO");
sbuf_printf(sb, "<port_type>%s</port_type>\n", type);
sbuf_printf(sb, "<port_name>%s</port_name>\n",
entry->port_name);
sbuf_printf(sb, "<physical_port>%d</physical_port>\n",
entry->physical_port);
sbuf_printf(sb, "<virtual_port>%d</virtual_port>\n",
entry->virtual_port);
sbuf_printf(sb, "<wwnn>%#jx</wwnn>\n",
(uintmax_t)entry->wwnn);
sbuf_printf(sb, "<wwpn>%#jx</wwpn>\n",
(uintmax_t)entry->wwpn);
sbuf_printf(sb, "</targ_port>\n");
}
}
if (xml != 0) {
sbuf_printf(sb, "</ctlfelist>\n");
if (sbuf_finish(sb) != 0)
err(1, "%s: sbuf_finish", __func__);
printf("%s", sbuf_data(sb));
sbuf_delete(sb);
}
/*
* Give some indication that we didn't find the frontend or
* frontend type requested by the user. We could print something
* out, but it would probably be better to hide that behind a
* verbose flag.
*/
if ((did_print == 0)
&& ((targ_port != -1)
|| (port_type != CTL_PORT_NONE)))
return (1);
else
return (0);
}
typedef enum {
CCTL_PORT_MODE_NONE,
CCTL_PORT_MODE_LIST,
CCTL_PORT_MODE_SET,
CCTL_PORT_MODE_ON,
CCTL_PORT_MODE_OFF
} cctl_port_mode;
static struct ctladm_opts cctl_fe_table[] = {
{"fc", CTL_PORT_FC, CTLADM_ARG_NONE, NULL},
{"scsi", CTL_PORT_SCSI, CTLADM_ARG_NONE, NULL},
{"internal", CTL_PORT_INTERNAL, CTLADM_ARG_NONE, NULL},
{"all", CTL_PORT_ALL, CTLADM_ARG_NONE, NULL},
{NULL, 0, 0, NULL}
};
static int
cctl_port(int fd, int argc, char **argv, char *combinedopt)
{
int c;
int32_t targ_port = -1;
int retval = 0;
int wwnn_set = 0, wwpn_set = 0;
uint64_t wwnn = 0, wwpn = 0;
cctl_port_mode port_mode = CCTL_PORT_MODE_NONE;
struct ctl_port_entry entry;
ctl_port_type port_type = CTL_PORT_NONE;
int quiet = 0, xml = 0;
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'l':
if (port_mode != CCTL_PORT_MODE_NONE)
goto bailout_badarg;
port_mode = CCTL_PORT_MODE_LIST;
break;
case 'o':
if (port_mode != CCTL_PORT_MODE_NONE)
goto bailout_badarg;
if (strcasecmp(optarg, "on") == 0)
port_mode = CCTL_PORT_MODE_ON;
else if (strcasecmp(optarg, "off") == 0)
port_mode = CCTL_PORT_MODE_OFF;
else {
warnx("Invalid -o argument %s, \"on\" or "
"\"off\" are the only valid args",
optarg);
retval = 1;
goto bailout;
}
break;
case 'p':
targ_port = strtol(optarg, NULL, 0);
break;
case 'q':
quiet = 1;
break;
case 't': {
ctladm_optret optret;
ctladm_cmdargs argnum;
const char *subopt;
ctl_port_type tmp_port_type;
optret = getoption(cctl_fe_table, optarg, &tmp_port_type,
&argnum, &subopt);
if (optret == CC_OR_AMBIGUOUS) {
warnx("%s: ambiguous frontend type %s",
__func__, optarg);
retval = 1;
goto bailout;
} else if (optret == CC_OR_NOT_FOUND) {
warnx("%s: invalid frontend type %s",
__func__, optarg);
retval = 1;
goto bailout;
}
port_type |= tmp_port_type;
break;
}
case 'w':
if ((port_mode != CCTL_PORT_MODE_NONE)
&& (port_mode != CCTL_PORT_MODE_SET))
goto bailout_badarg;
port_mode = CCTL_PORT_MODE_SET;
wwnn = strtoull(optarg, NULL, 0);
wwnn_set = 1;
break;
case 'W':
if ((port_mode != CCTL_PORT_MODE_NONE)
&& (port_mode != CCTL_PORT_MODE_SET))
goto bailout_badarg;
port_mode = CCTL_PORT_MODE_SET;
wwpn = strtoull(optarg, NULL, 0);
wwpn_set = 1;
break;
case 'x':
xml = 1;
break;
}
}
/*
* The user can specify either one or more frontend types (-t), or
* a specific frontend, but not both.
*
* If the user didn't specify a frontend type or number, set it to
* all. This is primarily needed for the enable/disable ioctls.
* This will be a no-op for the listing code. For the set ioctl,
* we'll throw an error, since that only works on one port at a time.
*/
if ((port_type != CTL_PORT_NONE) && (targ_port != -1)) {
warnx("%s: can only specify one of -t or -n", __func__);
retval = 1;
goto bailout;
} else if ((targ_port == -1) && (port_type == CTL_PORT_NONE))
port_type = CTL_PORT_ALL;
bzero(&entry, sizeof(&entry));
/*
* These are needed for all but list/dump mode.
*/
entry.port_type = port_type;
entry.targ_port = targ_port;
switch (port_mode) {
case CCTL_PORT_MODE_LIST:
cctl_port_dump(fd, quiet, xml, targ_port, port_type);
break;
case CCTL_PORT_MODE_SET:
if (targ_port == -1) {
warnx("%s: -w and -W require -n", __func__);
retval = 1;
goto bailout;
}
if (wwnn_set) {
entry.flags |= CTL_PORT_WWNN_VALID;
entry.wwnn = wwnn;
}
if (wwpn_set) {
entry.flags |= CTL_PORT_WWPN_VALID;
entry.wwpn = wwpn;
}
if (ioctl(fd, CTL_SET_PORT_WWNS, &entry) == -1) {
warn("%s: CTL_SET_PORT_WWNS ioctl failed", __func__);
retval = 1;
goto bailout;
}
break;
case CCTL_PORT_MODE_ON:
if (ioctl(fd, CTL_ENABLE_PORT, &entry) == -1) {
warn("%s: CTL_ENABLE_PORT ioctl failed", __func__);
retval = 1;
goto bailout;
}
fprintf(stdout, "Front End Ports enabled\n");
break;
case CCTL_PORT_MODE_OFF:
if (ioctl(fd, CTL_DISABLE_PORT, &entry) == -1) {
warn("%s: CTL_DISABLE_PORT ioctl failed", __func__);
retval = 1;
goto bailout;
}
fprintf(stdout, "Front End Ports disabled\n");
break;
default:
warnx("%s: one of -l, -o or -w/-W must be specified", __func__);
retval = 1;
goto bailout;
break;
}
bailout:
return (retval);
bailout_badarg:
warnx("%s: only one of -l, -o or -w/-W may be specified", __func__);
return (1);
}
static int
cctl_do_io(int fd, int retries, union ctl_io *io, const char *func)
{
do {
if (ioctl(fd, CTL_IO, io) == -1) {
warn("%s: error sending CTL_IO ioctl", func);
return (-1);
}
} while (((io->io_hdr.status & CTL_STATUS_MASK) != CTL_SUCCESS)
&& (retries-- > 0));
return (0);
}
static int
cctl_delay(int fd, int target, int lun, int argc, char **argv,
char *combinedopt)
{
struct ctl_io_delay_info delay_info;
char *delayloc = NULL;
char *delaytype = NULL;
int delaytime = -1;
int retval;
int c;
retval = 0;
memset(&delay_info, 0, sizeof(delay_info));
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'T':
delaytype = strdup(optarg);
break;
case 'l':
delayloc = strdup(optarg);
break;
case 't':
delaytime = strtoul(optarg, NULL, 0);
break;
}
}
if (delaytime == -1) {
warnx("%s: you must specify the delaytime with -t", __func__);
retval = 1;
goto bailout;
}
if (strcasecmp(delayloc, "datamove") == 0)
delay_info.delay_loc = CTL_DELAY_LOC_DATAMOVE;
else if (strcasecmp(delayloc, "done") == 0)
delay_info.delay_loc = CTL_DELAY_LOC_DONE;
else {
warnx("%s: invalid delay location %s", __func__, delayloc);
retval = 1;
goto bailout;
}
if ((delaytype == NULL)
|| (strcmp(delaytype, "oneshot") == 0))
delay_info.delay_type = CTL_DELAY_TYPE_ONESHOT;
else if (strcmp(delaytype, "cont") == 0)
delay_info.delay_type = CTL_DELAY_TYPE_CONT;
else {
warnx("%s: invalid delay type %s", __func__, delaytype);
retval = 1;
goto bailout;
}
delay_info.target_id = target;
delay_info.lun_id = lun;
delay_info.delay_secs = delaytime;
if (ioctl(fd, CTL_DELAY_IO, &delay_info) == -1) {
warn("%s: CTL_DELAY_IO ioctl failed", __func__);
retval = 1;
goto bailout;
}
switch (delay_info.status) {
case CTL_DELAY_STATUS_NONE:
warnx("%s: no delay status??", __func__);
retval = 1;
break;
case CTL_DELAY_STATUS_OK:
break;
case CTL_DELAY_STATUS_INVALID_LUN:
warnx("%s: invalid lun %d", __func__, lun);
retval = 1;
break;
case CTL_DELAY_STATUS_INVALID_TYPE:
warnx("%s: invalid delay type %d", __func__,
delay_info.delay_type);
retval = 1;
break;
case CTL_DELAY_STATUS_INVALID_LOC:
warnx("%s: delay location %s not implemented?", __func__,
delayloc);
retval = 1;
break;
case CTL_DELAY_STATUS_NOT_IMPLEMENTED:
warnx("%s: delay not implemented in the kernel", __func__);
warnx("%s: recompile with the CTL_IO_DELAY flag set", __func__);
retval = 1;
break;
default:
warnx("%s: unknown delay return status %d", __func__,
delay_info.status);
retval = 1;
break;
}
bailout:
/* delayloc should never be NULL, but just in case...*/
if (delayloc != NULL)
free(delayloc);
return (retval);
}
static int
cctl_realsync(int fd, int argc, char **argv)
{
int syncstate;
int retval;
char *syncarg;
retval = 0;
if (argc != 3) {
warnx("%s %s takes exactly one argument", argv[0], argv[1]);
retval = 1;
goto bailout;
}
syncarg = argv[2];
if (strncasecmp(syncarg, "query", min(strlen(syncarg),
strlen("query"))) == 0) {
if (ioctl(fd, CTL_REALSYNC_GET, &syncstate) == -1) {
warn("%s: CTL_REALSYNC_GET ioctl failed", __func__);
retval = 1;
goto bailout;
}
fprintf(stdout, "SYNCHRONIZE CACHE support is: ");
switch (syncstate) {
case 0:
fprintf(stdout, "OFF\n");
break;
case 1:
fprintf(stdout, "ON\n");
break;
default:
fprintf(stdout, "unknown (%d)\n", syncstate);
break;
}
goto bailout;
} else if (strcasecmp(syncarg, "on") == 0) {
syncstate = 1;
} else if (strcasecmp(syncarg, "off") == 0) {
syncstate = 0;
} else {
warnx("%s: invalid realsync argument %s", __func__, syncarg);
retval = 1;
goto bailout;
}
if (ioctl(fd, CTL_REALSYNC_SET, &syncstate) == -1) {
warn("%s: CTL_REALSYNC_SET ioctl failed", __func__);
retval = 1;
goto bailout;
}
bailout:
return (retval);
}
static int
cctl_getsetsync(int fd, int target, int lun, ctladm_cmdfunction command,
int argc, char **argv, char *combinedopt)
{
struct ctl_sync_info sync_info;
uint32_t ioctl_cmd;
int sync_interval = -1;
int retval;
int c;
retval = 0;
memset(&sync_info, 0, sizeof(sync_info));
sync_info.target_id = target;
sync_info.lun_id = lun;
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'i':
sync_interval = strtoul(optarg, NULL, 0);
break;
default:
break;
}
}
if (command == CTLADM_CMD_SETSYNC) {
if (sync_interval == -1) {
warnx("%s: you must specify the sync interval with -i",
__func__);
retval = 1;
goto bailout;
}
sync_info.sync_interval = sync_interval;
ioctl_cmd = CTL_SETSYNC;
} else {
ioctl_cmd = CTL_GETSYNC;
}
if (ioctl(fd, ioctl_cmd, &sync_info) == -1) {
warn("%s: CTL_%sSYNC ioctl failed", __func__,
(command == CTLADM_CMD_SETSYNC) ? "SET" : "GET");
retval = 1;
goto bailout;
}
switch (sync_info.status) {
case CTL_GS_SYNC_OK:
if (command == CTLADM_CMD_GETSYNC) {
fprintf(stdout, "%d:%d: sync interval: %d\n",
target, lun, sync_info.sync_interval);
}
break;
case CTL_GS_SYNC_NO_LUN:
warnx("%s: unknown target:LUN %d:%d", __func__, target, lun);
retval = 1;
break;
case CTL_GS_SYNC_NONE:
default:
warnx("%s: unknown CTL_%sSYNC status %d", __func__,
(command == CTLADM_CMD_SETSYNC) ? "SET" : "GET",
sync_info.status);
retval = 1;
break;
}
bailout:
return (retval);
}
static struct ctladm_opts cctl_err_types[] = {
{"aborted", CTL_LUN_INJ_ABORTED, CTLADM_ARG_NONE, NULL},
{"mediumerr", CTL_LUN_INJ_MEDIUM_ERR, CTLADM_ARG_NONE, NULL},
{"ua", CTL_LUN_INJ_UA, CTLADM_ARG_NONE, NULL},
{"custom", CTL_LUN_INJ_CUSTOM, CTLADM_ARG_NONE, NULL},
{NULL, 0, 0, NULL}
};
static struct ctladm_opts cctl_err_patterns[] = {
{"read", CTL_LUN_PAT_READ, CTLADM_ARG_NONE, NULL},
{"write", CTL_LUN_PAT_WRITE, CTLADM_ARG_NONE, NULL},
{"rw", CTL_LUN_PAT_READWRITE, CTLADM_ARG_NONE, NULL},
{"readwrite", CTL_LUN_PAT_READWRITE, CTLADM_ARG_NONE, NULL},
{"readcap", CTL_LUN_PAT_READCAP, CTLADM_ARG_NONE, NULL},
{"tur", CTL_LUN_PAT_TUR, CTLADM_ARG_NONE, NULL},
{"any", CTL_LUN_PAT_ANY, CTLADM_ARG_NONE, NULL},
#if 0
{"cmd", CTL_LUN_PAT_CMD, CTLADM_ARG_NONE, NULL},
#endif
{NULL, 0, 0, NULL}
};
static int
cctl_error_inject(int fd, uint32_t target, uint32_t lun, int argc, char **argv,
char *combinedopt)
{
int retval = 0;
struct ctl_error_desc err_desc;
uint64_t lba = 0;
uint32_t len = 0;
uint64_t delete_id = 0;
int delete_id_set = 0;
int continuous = 0;
int sense_len = 0;
int fd_sense = 0;
int c;
bzero(&err_desc, sizeof(err_desc));
err_desc.target_id = target;
err_desc.lun_id = lun;
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'c':
continuous = 1;
break;
case 'd':
delete_id = strtoull(optarg, NULL, 0);
delete_id_set = 1;
break;
case 'i':
case 'p': {
ctladm_optret optret;
ctladm_cmdargs argnum;
const char *subopt;
if (c == 'i') {
ctl_lun_error err_type;
if (err_desc.lun_error != CTL_LUN_INJ_NONE) {
warnx("%s: can't specify multiple -i "
"arguments", __func__);
retval = 1;
goto bailout;
}
optret = getoption(cctl_err_types, optarg,
&err_type, &argnum, &subopt);
err_desc.lun_error = err_type;
} else {
ctl_lun_error_pattern pattern;
optret = getoption(cctl_err_patterns, optarg,
&pattern, &argnum, &subopt);
err_desc.error_pattern |= pattern;
}
if (optret == CC_OR_AMBIGUOUS) {
warnx("%s: ambiguous argument %s", __func__,
optarg);
retval = 1;
goto bailout;
} else if (optret == CC_OR_NOT_FOUND) {
warnx("%s: argument %s not found", __func__,
optarg);
retval = 1;
goto bailout;
}
break;
}
case 'r': {
char *tmpstr, *tmpstr2;
tmpstr = strdup(optarg);
if (tmpstr == NULL) {
warn("%s: error duplicating string %s",
__func__, optarg);
retval = 1;
goto bailout;
}
tmpstr2 = strsep(&tmpstr, ",");
if (tmpstr2 == NULL) {
warnx("%s: invalid -r argument %s", __func__,
optarg);
retval = 1;
free(tmpstr);
goto bailout;
}
lba = strtoull(tmpstr2, NULL, 0);
tmpstr2 = strsep(&tmpstr, ",");
if (tmpstr2 == NULL) {
warnx("%s: no len argument for -r lba,len, got"
" %s", __func__, optarg);
retval = 1;
free(tmpstr);
goto bailout;
}
len = strtoul(tmpstr2, NULL, 0);
free(tmpstr);
break;
}
case 's': {
struct get_hook hook;
char *sensestr;
sense_len = strtol(optarg, NULL, 0);
if (sense_len <= 0) {
warnx("invalid number of sense bytes %d",
sense_len);
retval = 1;
goto bailout;
}
sense_len = MIN(sense_len, SSD_FULL_SIZE);
hook.argc = argc - optind;
hook.argv = argv + optind;
hook.got = 0;
sensestr = cget(&hook, NULL);
if ((sensestr != NULL)
&& (sensestr[0] == '-')) {
fd_sense = 1;
} else {
buff_encode_visit(
(uint8_t *)&err_desc.custom_sense,
sense_len, sensestr, iget, &hook);
}
optind += hook.got;
break;
}
default:
break;
}
}
if (delete_id_set != 0) {
err_desc.serial = delete_id;
if (ioctl(fd, CTL_ERROR_INJECT_DELETE, &err_desc) == -1) {
warn("%s: error issuing CTL_ERROR_INJECT_DELETE ioctl",
__func__);
retval = 1;
}
goto bailout;
}
if (err_desc.lun_error == CTL_LUN_INJ_NONE) {
warnx("%s: error injection command (-i) needed",
__func__);
retval = 1;
goto bailout;
} else if ((err_desc.lun_error == CTL_LUN_INJ_CUSTOM)
&& (sense_len == 0)) {
warnx("%s: custom error requires -s", __func__);
retval = 1;
goto bailout;
}
if (continuous != 0)
err_desc.lun_error |= CTL_LUN_INJ_CONTINUOUS;
/*
* If fd_sense is set, we need to read the sense data the user
* wants returned from stdin.
*/
if (fd_sense == 1) {
ssize_t amt_read;
int amt_to_read = sense_len;
u_int8_t *buf_ptr = (uint8_t *)&err_desc.custom_sense;
for (amt_read = 0; amt_to_read > 0;
amt_read = read(STDIN_FILENO, buf_ptr, amt_to_read)) {
if (amt_read == -1) {
warn("error reading sense data from stdin");
retval = 1;
goto bailout;
}
amt_to_read -= amt_read;
buf_ptr += amt_read;
}
}
if (err_desc.error_pattern == CTL_LUN_PAT_NONE) {
warnx("%s: command pattern (-p) needed", __func__);
retval = 1;
goto bailout;
}
if (len != 0) {
err_desc.error_pattern |= CTL_LUN_PAT_RANGE;
/*
* We could check here to see whether it's a read/write
* command, but that will be pointless once we allow
* custom patterns. At that point, the user could specify
* a READ(6) CDB type, and we wouldn't have an easy way here
* to verify whether range checking is possible there. The
* user will just figure it out when his error never gets
* executed.
*/
#if 0
if ((err_desc.pattern & CTL_LUN_PAT_READWRITE) == 0) {
warnx("%s: need read and/or write pattern if range "
"is specified", __func__);
retval = 1;
goto bailout;
}
#endif
err_desc.lba_range.lba = lba;
err_desc.lba_range.len = len;
}
if (ioctl(fd, CTL_ERROR_INJECT, &err_desc) == -1) {
warn("%s: error issuing CTL_ERROR_INJECT ioctl", __func__);
retval = 1;
} else {
printf("Error injection succeeded, serial number is %ju\n",
(uintmax_t)err_desc.serial);
}
bailout:
return (retval);
}
static int
cctl_lunlist(int fd)
{
struct scsi_report_luns_data *lun_data;
struct scsi_inquiry_data *inq_data;
uint32_t num_luns;
int target;
int initid;
unsigned int i;
int retval;
retval = 0;
inq_data = NULL;
target = 6;
initid = 7;
/*
* XXX KDM assuming LUN 0 is fine, but we may need to change this
* if we ever acquire the ability to have multiple targets.
*/
if ((retval = cctl_get_luns(fd, target, /*lun*/ 0, initid,
/*retries*/ 2, &lun_data, &num_luns)) != 0)
goto bailout;
inq_data = malloc(sizeof(*inq_data));
if (inq_data == NULL) {
warn("%s: couldn't allocate memory for inquiry data\n",
__func__);
retval = 1;
goto bailout;
}
for (i = 0; i < num_luns; i++) {
char scsi_path[40];
int lun_val;
switch (lun_data->luns[i].lundata[0] & RPL_LUNDATA_ATYP_MASK) {
case RPL_LUNDATA_ATYP_PERIPH:
lun_val = lun_data->luns[i].lundata[1];
break;
case RPL_LUNDATA_ATYP_FLAT:
lun_val = (lun_data->luns[i].lundata[0] &
RPL_LUNDATA_FLAT_LUN_MASK) |
(lun_data->luns[i].lundata[1] <<
RPL_LUNDATA_FLAT_LUN_BITS);
break;
case RPL_LUNDATA_ATYP_LUN:
case RPL_LUNDATA_ATYP_EXTLUN:
default:
fprintf(stdout, "Unsupported LUN format %d\n",
lun_data->luns[i].lundata[0] &
RPL_LUNDATA_ATYP_MASK);
lun_val = -1;
break;
}
if (lun_val == -1)
continue;
if ((retval = cctl_get_inquiry(fd, target, lun_val, initid,
/*retries*/ 2, scsi_path,
sizeof(scsi_path),
inq_data)) != 0) {
goto bailout;
}
printf("%s", scsi_path);
scsi_print_inquiry(inq_data);
}
bailout:
if (lun_data != NULL)
free(lun_data);
if (inq_data != NULL)
free(inq_data);
return (retval);
}
static void
cctl_cfi_mt_statusstr(cfi_mt_status status, char *str, int str_len)
{
switch (status) {
case CFI_MT_PORT_OFFLINE:
snprintf(str, str_len, "Port Offline");
break;
case CFI_MT_ERROR:
snprintf(str, str_len, "Error");
break;
case CFI_MT_SUCCESS:
snprintf(str, str_len, "Success");
break;
case CFI_MT_NONE:
snprintf(str, str_len, "None??");
break;
default:
snprintf(str, str_len, "Unknown status: %d", status);
break;
}
}
static void
cctl_cfi_bbr_statusstr(cfi_bbrread_status status, char *str, int str_len)
{
switch (status) {
case CFI_BBR_SUCCESS:
snprintf(str, str_len, "Success");
break;
case CFI_BBR_LUN_UNCONFIG:
snprintf(str, str_len, "LUN not configured");
break;
case CFI_BBR_NO_LUN:
snprintf(str, str_len, "LUN does not exist");
break;
case CFI_BBR_NO_MEM:
snprintf(str, str_len, "Memory allocation error");
break;
case CFI_BBR_BAD_LEN:
snprintf(str, str_len, "Length is not a multiple of blocksize");
break;
case CFI_BBR_RESERV_CONFLICT:
snprintf(str, str_len, "Reservation conflict");
break;
case CFI_BBR_LUN_STOPPED:
snprintf(str, str_len, "LUN is powered off");
break;
case CFI_BBR_LUN_OFFLINE_CTL:
snprintf(str, str_len, "LUN is offline");
break;
case CFI_BBR_LUN_OFFLINE_RC:
snprintf(str, str_len, "RAIDCore array is offline (double "
"failure?)");
break;
case CFI_BBR_SCSI_ERROR:
snprintf(str, str_len, "SCSI Error");
break;
case CFI_BBR_ERROR:
snprintf(str, str_len, "Error");
break;
default:
snprintf(str, str_len, "Unknown status: %d", status);
break;
}
}
static int
cctl_hardstopstart(int fd, ctladm_cmdfunction command)
{
struct ctl_hard_startstop_info hs_info;
char error_str[256];
int do_start;
int retval;
retval = 0;
if (command == CTLADM_CMD_HARDSTART)
do_start = 1;
else
do_start = 0;
if (ioctl(fd, (do_start == 1) ? CTL_HARD_START : CTL_HARD_STOP,
&hs_info) == -1) {
warn("%s: CTL_HARD_%s ioctl failed", __func__,
(do_start == 1) ? "START" : "STOP");
retval = 1;
goto bailout;
}
fprintf(stdout, "Hard %s Status: ", (command == CTLADM_CMD_HARDSTOP) ?
"Stop" : "Start");
cctl_cfi_mt_statusstr(hs_info.status, error_str, sizeof(error_str));
fprintf(stdout, "%s\n", error_str);
fprintf(stdout, "Total LUNs: %d\n", hs_info.total_luns);
fprintf(stdout, "LUNs complete: %d\n", hs_info.luns_complete);
fprintf(stdout, "LUNs failed: %d\n", hs_info.luns_failed);
bailout:
return (retval);
}
static int
cctl_bbrread(int fd, int target __unused, int lun, int iid __unused,
int argc, char **argv, char *combinedopt)
{
struct ctl_bbrread_info bbr_info;
char error_str[256];
int datalen = -1;
uint64_t lba = 0;
int lba_set = 0;
int retval;
int c;
retval = 0;
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'd':
datalen = strtoul(optarg, NULL, 0);
break;
case 'l':
lba = strtoull(optarg, NULL, 0);
lba_set = 1;
break;
default:
break;
}
}
if (lba_set == 0) {
warnx("%s: you must specify an LBA with -l", __func__);
retval = 1;
goto bailout;
}
if (datalen == -1) {
warnx("%s: you must specify a length with -d", __func__);
retval = 1;
goto bailout;
}
bbr_info.lun_num = lun;
bbr_info.lba = lba;
/*
* XXX KDM get the blocksize first??
*/
if ((datalen % 512) != 0) {
warnx("%s: data length %d is not a multiple of 512 bytes",
__func__, datalen);
retval = 1;
goto bailout;
}
bbr_info.len = datalen;
if (ioctl(fd, CTL_BBRREAD, &bbr_info) == -1) {
warn("%s: CTL_BBRREAD ioctl failed", __func__);
retval = 1;
goto bailout;
}
cctl_cfi_mt_statusstr(bbr_info.status, error_str, sizeof(error_str));
fprintf(stdout, "BBR Read Overall Status: %s\n", error_str);
cctl_cfi_bbr_statusstr(bbr_info.bbr_status, error_str,
sizeof(error_str));
fprintf(stdout, "BBR Read Status: %s\n", error_str);
/*
* XXX KDM should we bother printing out SCSI status if we get
* CFI_BBR_SCSI_ERROR back?
*
* Return non-zero if this fails?
*/
bailout:
return (retval);
}
static int
cctl_startup_shutdown(int fd, int target, int lun, int iid,
ctladm_cmdfunction command)
{
union ctl_io *io;
struct ctl_id id;
struct scsi_report_luns_data *lun_data;
struct scsi_inquiry_data *inq_data;
uint32_t num_luns;
unsigned int i;
int retval;
retval = 0;
inq_data = NULL;
/*
* - report luns
* - step through each lun, do an inquiry
* - check OOA queue on direct access luns
* - send stop with offline bit to each direct access device with a
* clear OOA queue
* - if we get a reservation conflict, reset the LUN to clear it
* and reissue the stop with the offline bit set
*/
id.id = iid;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
warnx("%s: can't allocate memory", __func__);
return (1);
}
if ((retval = cctl_get_luns(fd, target, lun, iid, /*retries*/ 2,
&lun_data, &num_luns)) != 0)
goto bailout;
inq_data = malloc(sizeof(*inq_data));
if (inq_data == NULL) {
warn("%s: couldn't allocate memory for inquiry data\n",
__func__);
retval = 1;
goto bailout;
}
for (i = 0; i < num_luns; i++) {
char scsi_path[40];
int lun_val;
/*
* XXX KDM figure out a way to share this code with
* cctl_lunlist()?
*/
switch (lun_data->luns[i].lundata[0] & RPL_LUNDATA_ATYP_MASK) {
case RPL_LUNDATA_ATYP_PERIPH:
lun_val = lun_data->luns[i].lundata[1];
break;
case RPL_LUNDATA_ATYP_FLAT:
lun_val = (lun_data->luns[i].lundata[0] &
RPL_LUNDATA_FLAT_LUN_MASK) |
(lun_data->luns[i].lundata[1] <<
RPL_LUNDATA_FLAT_LUN_BITS);
break;
case RPL_LUNDATA_ATYP_LUN:
case RPL_LUNDATA_ATYP_EXTLUN:
default:
fprintf(stdout, "Unsupported LUN format %d\n",
lun_data->luns[i].lundata[0] &
RPL_LUNDATA_ATYP_MASK);
lun_val = -1;
break;
}
if (lun_val == -1)
continue;
if ((retval = cctl_get_inquiry(fd, target, lun_val, iid,
/*retries*/ 2, scsi_path,
sizeof(scsi_path),
inq_data)) != 0) {
goto bailout;
}
printf("%s", scsi_path);
scsi_print_inquiry(inq_data);
/*
* We only want to shutdown direct access devices.
*/
if (SID_TYPE(inq_data) != T_DIRECT) {
printf("%s LUN is not direct access, skipped\n",
scsi_path);
continue;
}
if (command == CTLADM_CMD_SHUTDOWN) {
struct ctl_ooa_info ooa_info;
ooa_info.target_id = target;
ooa_info.lun_id = lun_val;
if (ioctl(fd, CTL_CHECK_OOA, &ooa_info) == -1) {
printf("%s CTL_CHECK_OOA ioctl failed\n",
scsi_path);
continue;
}
if (ooa_info.status != CTL_OOA_SUCCESS) {
printf("%s CTL_CHECK_OOA returned status %d\n",
scsi_path, ooa_info.status);
continue;
}
if (ooa_info.num_entries != 0) {
printf("%s %d entr%s in the OOA queue, "
"skipping shutdown\n", scsi_path,
ooa_info.num_entries,
(ooa_info.num_entries > 1)?"ies" : "y" );
continue;
}
}
ctl_scsi_start_stop(/*io*/ io,
/*start*/(command == CTLADM_CMD_STARTUP) ?
1 : 0,
/*load_eject*/ 0,
/*immediate*/ 0,
/*power_conditions*/ SSS_PC_START_VALID,
/*onoffline*/ 1,
/*ctl_tag_type*/
(command == CTLADM_CMD_STARTUP) ?
CTL_TAG_SIMPLE :CTL_TAG_ORDERED,
/*control*/ 0);
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun_val;
io->io_hdr.nexus.initid = id;
if (cctl_do_io(fd, /*retries*/ 3, io, __func__) != 0) {
retval = 1;
goto bailout;
}
if ((io->io_hdr.status & CTL_STATUS_MASK) != CTL_SUCCESS)
ctl_io_error_print(io, inq_data, stderr);
else {
printf("%s LUN is now %s\n", scsi_path,
(command == CTLADM_CMD_STARTUP) ? "online" :
"offline");
}
}
bailout:
if (lun_data != NULL)
free(lun_data);
if (inq_data != NULL)
free(inq_data);
if (io != NULL)
ctl_scsi_free_io(io);
return (retval);
}
static int
cctl_sync_cache(int fd, int target, int lun, int iid, int retries,
int argc, char **argv, char *combinedopt)
{
union ctl_io *io;
struct ctl_id id;
int cdb_size = -1;
int retval;
uint64_t our_lba = 0;
uint32_t our_block_count = 0;
int reladr = 0, immed = 0;
int c;
id.id = iid;
retval = 0;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
warnx("%s: can't allocate memory", __func__);
return (1);
}
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'b':
our_block_count = strtoul(optarg, NULL, 0);
break;
case 'c':
cdb_size = strtol(optarg, NULL, 0);
break;
case 'i':
immed = 1;
break;
case 'l':
our_lba = strtoull(optarg, NULL, 0);
break;
case 'r':
reladr = 1;
break;
default:
break;
}
}
if (cdb_size != -1) {
switch (cdb_size) {
case 10:
case 16:
break;
default:
warnx("%s: invalid cdbsize %d, valid sizes are 10 "
"and 16", __func__, cdb_size);
retval = 1;
goto bailout;
break; /* NOTREACHED */
}
} else
cdb_size = 10;
ctl_scsi_sync_cache(/*io*/ io,
/*immed*/ immed,
/*reladr*/ reladr,
/*minimum_cdb_size*/ cdb_size,
/*starting_lba*/ our_lba,
/*block_count*/ our_block_count,
/*tag_type*/ CTL_TAG_SIMPLE,
/*control*/ 0);
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun;
io->io_hdr.nexus.initid = id;
if (cctl_do_io(fd, retries, io, __func__) != 0) {
retval = 1;
goto bailout;
}
if ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS) {
fprintf(stdout, "Cache synchronized successfully\n");
} else
ctl_io_error_print(io, NULL, stderr);
bailout:
ctl_scsi_free_io(io);
return (retval);
}
static int
cctl_start_stop(int fd, int target, int lun, int iid, int retries, int start,
int argc, char **argv, char *combinedopt)
{
union ctl_io *io;
struct ctl_id id;
char scsi_path[40];
int immed = 0, onoffline = 0;
int retval, c;
id.id = iid;
retval = 0;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
warnx("%s: can't allocate memory", __func__);
return (1);
}
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'i':
immed = 1;
break;
case 'o':
onoffline = 1;
break;
default:
break;
}
}
/*
* Use an ordered tag for the stop command, to guarantee that any
* pending I/O will finish before the stop command executes. This
* would normally be the case anyway, since CTL will basically
* treat the start/stop command as an ordered command with respect
* to any other command except an INQUIRY. (See ctl_ser_table.c.)
*/
ctl_scsi_start_stop(/*io*/ io,
/*start*/ start,
/*load_eject*/ 0,
/*immediate*/ immed,
/*power_conditions*/ SSS_PC_START_VALID,
/*onoffline*/ onoffline,
/*ctl_tag_type*/ start ? CTL_TAG_SIMPLE :
CTL_TAG_ORDERED,
/*control*/ 0);
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun;
io->io_hdr.nexus.initid = id;
if (cctl_do_io(fd, retries, io, __func__) != 0) {
retval = 1;
goto bailout;
}
ctl_scsi_path_string(io, scsi_path, sizeof(scsi_path));
if ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS) {
fprintf(stdout, "%s LUN %s successfully\n", scsi_path,
(start) ? "started" : "stopped");
} else
ctl_io_error_print(io, NULL, stderr);
bailout:
ctl_scsi_free_io(io);
return (retval);
}
static int
cctl_mode_sense(int fd, int target, int lun, int iid, int retries,
int argc, char **argv, char *combinedopt)
{
union ctl_io *io;
struct ctl_id id;
uint32_t datalen;
uint8_t *dataptr;
int pc = -1, cdbsize, retval, dbd = 0, subpage = -1;
int list = 0;
int page_code = -1;
int c;
id.id = iid;
cdbsize = 0;
retval = 0;
dataptr = NULL;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
warn("%s: can't allocate memory", __func__);
return (1);
}
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'P':
pc = strtoul(optarg, NULL, 0);
break;
case 'S':
subpage = strtoul(optarg, NULL, 0);
break;
case 'd':
dbd = 1;
break;
case 'l':
list = 1;
break;
case 'm':
page_code = strtoul(optarg, NULL, 0);
break;
case 'c':
cdbsize = strtol(optarg, NULL, 0);
break;
default:
break;
}
}
if (((list == 0) && (page_code == -1))
|| ((list != 0) && (page_code != -1))) {
warnx("%s: you must specify either a page code (-m) or -l",
__func__);
retval = 1;
goto bailout;
}
if ((page_code != -1)
&& ((page_code > SMS_ALL_PAGES_PAGE)
|| (page_code < 0))) {
warnx("%s: page code %d is out of range", __func__,
page_code);
retval = 1;
goto bailout;
}
if (list == 1) {
page_code = SMS_ALL_PAGES_PAGE;
if (pc != -1) {
warnx("%s: arg -P makes no sense with -l",
__func__);
retval = 1;
goto bailout;
}
if (subpage != -1) {
warnx("%s: arg -S makes no sense with -l", __func__);
retval = 1;
goto bailout;
}
}
if (pc == -1)
pc = SMS_PAGE_CTRL_CURRENT;
else {
if ((pc > 3)
|| (pc < 0)) {
warnx("%s: page control value %d is out of range: 0-3",
__func__, pc);
retval = 1;
goto bailout;
}
}
if ((subpage != -1)
&& ((subpage > 255)
|| (subpage < 0))) {
warnx("%s: subpage code %d is out of range: 0-255", __func__,
subpage);
retval = 1;
goto bailout;
}
if (cdbsize != 0) {
switch (cdbsize) {
case 6:
case 10:
break;
default:
warnx("%s: invalid cdbsize %d, valid sizes are 6 "
"and 10", __func__, cdbsize);
retval = 1;
goto bailout;
break;
}
} else
cdbsize = 6;
if (subpage == -1)
subpage = 0;
if (cdbsize == 6)
datalen = 255;
else
datalen = 65535;
dataptr = (uint8_t *)malloc(datalen);
if (dataptr == NULL) {
warn("%s: can't allocate %d bytes", __func__, datalen);
retval = 1;
goto bailout;
}
memset(dataptr, 0, datalen);
ctl_scsi_mode_sense(io,
/*data_ptr*/ dataptr,
/*data_len*/ datalen,
/*dbd*/ dbd,
/*llbaa*/ 0,
/*page_code*/ page_code,
/*pc*/ pc << 6,
/*subpage*/ subpage,
/*minimum_cdb_size*/ cdbsize,
/*tag_type*/ CTL_TAG_SIMPLE,
/*control*/ 0);
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun;
io->io_hdr.nexus.initid = id;
if (cctl_do_io(fd, retries, io, __func__) != 0) {
retval = 1;
goto bailout;
}
if ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS) {
int pages_len, used_len;
uint32_t returned_len;
uint8_t *ndataptr;
if (io->scsiio.cdb[0] == MODE_SENSE_6) {
struct scsi_mode_hdr_6 *hdr6;
int bdlen;
hdr6 = (struct scsi_mode_hdr_6 *)dataptr;
returned_len = hdr6->datalen + 1;
bdlen = hdr6->block_descr_len;
ndataptr = (uint8_t *)((uint8_t *)&hdr6[1] + bdlen);
} else {
struct scsi_mode_hdr_10 *hdr10;
int bdlen;
hdr10 = (struct scsi_mode_hdr_10 *)dataptr;
returned_len = scsi_2btoul(hdr10->datalen) + 2;
bdlen = scsi_2btoul(hdr10->block_descr_len);
ndataptr = (uint8_t *)((uint8_t *)&hdr10[1] + bdlen);
}
/* just in case they can give us more than we allocated for */
returned_len = min(returned_len, datalen);
pages_len = returned_len - (ndataptr - dataptr);
#if 0
fprintf(stdout, "returned_len = %d, pages_len = %d\n",
returned_len, pages_len);
#endif
if (list == 1) {
fprintf(stdout, "Supported mode pages:\n");
for (used_len = 0; used_len < pages_len;) {
struct scsi_mode_page_header *header;
header = (struct scsi_mode_page_header *)
&ndataptr[used_len];
fprintf(stdout, "%d\n", header->page_code);
used_len += header->page_length + 2;
}
} else {
for (used_len = 0; used_len < pages_len; used_len++) {
fprintf(stdout, "0x%x ", ndataptr[used_len]);
if (((used_len+1) % 16) == 0)
fprintf(stdout, "\n");
}
fprintf(stdout, "\n");
}
} else
ctl_io_error_print(io, NULL, stderr);
bailout:
ctl_scsi_free_io(io);
if (dataptr != NULL)
free(dataptr);
return (retval);
}
static int
cctl_read_capacity(int fd, int target, int lun, int iid, int retries,
int argc, char **argv, char *combinedopt)
{
union ctl_io *io;
struct ctl_id id;
struct scsi_read_capacity_data *data;
struct scsi_read_capacity_data_long *longdata;
int cdbsize = -1, retval;
uint8_t *dataptr;
int c;
cdbsize = 10;
dataptr = NULL;
retval = 0;
id.id = iid;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
warn("%s: can't allocate memory\n", __func__);
return (1);
}
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'c':
cdbsize = strtol(optarg, NULL, 0);
break;
default:
break;
}
}
if (cdbsize != -1) {
switch (cdbsize) {
case 10:
case 16:
break;
default:
warnx("%s: invalid cdbsize %d, valid sizes are 10 "
"and 16", __func__, cdbsize);
retval = 1;
goto bailout;
break; /* NOTREACHED */
}
} else
cdbsize = 10;
dataptr = (uint8_t *)malloc(sizeof(*longdata));
if (dataptr == NULL) {
warn("%s: can't allocate %zd bytes\n", __func__,
sizeof(*longdata));
retval = 1;
goto bailout;
}
memset(dataptr, 0, sizeof(*longdata));
retry:
switch (cdbsize) {
case 10:
ctl_scsi_read_capacity(io,
/*data_ptr*/ dataptr,
/*data_len*/ sizeof(*longdata),
/*addr*/ 0,
/*reladr*/ 0,
/*pmi*/ 0,
/*tag_type*/ CTL_TAG_SIMPLE,
/*control*/ 0);
break;
case 16:
ctl_scsi_read_capacity_16(io,
/*data_ptr*/ dataptr,
/*data_len*/ sizeof(*longdata),
/*addr*/ 0,
/*reladr*/ 0,
/*pmi*/ 0,
/*tag_type*/ CTL_TAG_SIMPLE,
/*control*/ 0);
break;
}
io->io_hdr.nexus.initid = id;
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun;
if (cctl_do_io(fd, retries, io, __func__) != 0) {
retval = 1;
goto bailout;
}
if ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS) {
uint64_t maxlba;
uint32_t blocksize;
if (cdbsize == 10) {
data = (struct scsi_read_capacity_data *)dataptr;
maxlba = scsi_4btoul(data->addr);
blocksize = scsi_4btoul(data->length);
if (maxlba == 0xffffffff) {
cdbsize = 16;
goto retry;
}
} else {
longdata=(struct scsi_read_capacity_data_long *)dataptr;
maxlba = scsi_8btou64(longdata->addr);
blocksize = scsi_4btoul(longdata->length);
}
fprintf(stdout, "Disk Capacity: %ju, Blocksize: %d\n",
(uintmax_t)maxlba, blocksize);
} else {
ctl_io_error_print(io, NULL, stderr);
}
bailout:
ctl_scsi_free_io(io);
if (dataptr != NULL)
free(dataptr);
return (retval);
}
static int
cctl_read_write(int fd, int target, int lun, int iid, int retries,
int argc, char **argv, char *combinedopt,
ctladm_cmdfunction command)
{
union ctl_io *io;
struct ctl_id id;
int file_fd, do_stdio;
int cdbsize = -1, databytes;
uint8_t *dataptr;
char *filename = NULL;
int datalen = -1, blocksize = -1;
uint64_t lba = 0;
int lba_set = 0;
int retval;
int c;
retval = 0;
do_stdio = 0;
dataptr = NULL;
file_fd = -1;
id.id = iid;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
warn("%s: can't allocate memory\n", __func__);
return (1);
}
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'N':
io->io_hdr.flags |= CTL_FLAG_NO_DATAMOVE;
break;
case 'b':
blocksize = strtoul(optarg, NULL, 0);
break;
case 'c':
cdbsize = strtoul(optarg, NULL, 0);
break;
case 'd':
datalen = strtoul(optarg, NULL, 0);
break;
case 'f':
filename = strdup(optarg);
break;
case 'l':
lba = strtoull(optarg, NULL, 0);
lba_set = 1;
break;
default:
break;
}
}
if (filename == NULL) {
warnx("%s: you must supply a filename using -f", __func__);
retval = 1;
goto bailout;
}
if (datalen == -1) {
warnx("%s: you must specify the data length with -d", __func__);
retval = 1;
goto bailout;
}
if (lba_set == 0) {
warnx("%s: you must specify the LBA with -l", __func__);
retval = 1;
goto bailout;
}
if (blocksize == -1) {
warnx("%s: you must specify the blocksize with -b", __func__);
retval = 1;
goto bailout;
}
if (cdbsize != -1) {
switch (cdbsize) {
case 6:
case 10:
case 12:
case 16:
break;
default:
warnx("%s: invalid cdbsize %d, valid sizes are 6, "
"10, 12 or 16", __func__, cdbsize);
retval = 1;
goto bailout;
break; /* NOTREACHED */
}
} else
cdbsize = 6;
databytes = datalen * blocksize;
dataptr = (uint8_t *)malloc(databytes);
if (dataptr == NULL) {
warn("%s: can't allocate %d bytes\n", __func__, databytes);
retval = 1;
goto bailout;
}
if (strcmp(filename, "-") == 0) {
if (command == CTLADM_CMD_READ)
file_fd = STDOUT_FILENO;
else
file_fd = STDIN_FILENO;
do_stdio = 1;
} else {
file_fd = open(filename, O_RDWR | O_CREAT, S_IRUSR | S_IWUSR);
if (file_fd == -1) {
warn("%s: can't open file %s", __func__, filename);
retval = 1;
goto bailout;
}
}
memset(dataptr, 0, databytes);
if (command == CTLADM_CMD_WRITE) {
int bytes_read;
bytes_read = read(file_fd, dataptr, databytes);
if (bytes_read == -1) {
warn("%s: error reading file %s", __func__, filename);
retval = 1;
goto bailout;
}
if (bytes_read != databytes) {
warnx("%s: only read %d bytes from file %s",
__func__, bytes_read, filename);
retval = 1;
goto bailout;
}
}
ctl_scsi_read_write(io,
/*data_ptr*/ dataptr,
/*data_len*/ databytes,
/*read_op*/ (command == CTLADM_CMD_READ) ? 1 : 0,
/*byte2*/ 0,
/*minimum_cdb_size*/ cdbsize,
/*lba*/ lba,
/*num_blocks*/ datalen,
/*tag_type*/ CTL_TAG_SIMPLE,
/*control*/ 0);
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun;
io->io_hdr.nexus.initid = id;
if (cctl_do_io(fd, retries, io, __func__) != 0) {
retval = 1;
goto bailout;
}
if (((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS)
&& (command == CTLADM_CMD_READ)) {
int bytes_written;
bytes_written = write(file_fd, dataptr, databytes);
if (bytes_written == -1) {
warn("%s: can't write to %s", __func__, filename);
goto bailout;
}
} else if ((io->io_hdr.status & CTL_STATUS_MASK) != CTL_SUCCESS)
ctl_io_error_print(io, NULL, stderr);
bailout:
ctl_scsi_free_io(io);
if (dataptr != NULL)
free(dataptr);
if ((do_stdio == 0)
&& (file_fd != -1))
close(file_fd);
return (retval);
}
static int
cctl_get_luns(int fd, int target, int lun, int iid, int retries, struct
scsi_report_luns_data **lun_data, uint32_t *num_luns)
{
union ctl_io *io;
struct ctl_id id;
uint32_t nluns;
int lun_datalen;
int retval;
retval = 0;
id.id = iid;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
warnx("%s: can't allocate memory", __func__);
return (1);
}
/*
* lun_data includes space for 1 lun, allocate space for 4 initially.
* If that isn't enough, we'll allocate more.
*/
nluns = 4;
retry:
lun_datalen = sizeof(*lun_data) +
(nluns * sizeof(struct scsi_report_luns_lundata));
*lun_data = malloc(lun_datalen);
if (*lun_data == NULL) {
warnx("%s: can't allocate memory", __func__);
ctl_scsi_free_io(io);
return (1);
}
ctl_scsi_report_luns(io,
/*data_ptr*/ (uint8_t *)*lun_data,
/*data_len*/ lun_datalen,
/*select_report*/ RPL_REPORT_ALL,
/*tag_type*/ CTL_TAG_SIMPLE,
/*control*/ 0);
io->io_hdr.nexus.initid = id;
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun;
if (cctl_do_io(fd, retries, io, __func__) != 0) {
retval = 1;
goto bailout;
}
if ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS) {
uint32_t returned_len, returned_luns;
returned_len = scsi_4btoul((*lun_data)->length);
returned_luns = returned_len / 8;
if (returned_luns > nluns) {
nluns = returned_luns;
free(*lun_data);
goto retry;
}
/* These should be the same */
*num_luns = MIN(returned_luns, nluns);
} else {
ctl_io_error_print(io, NULL, stderr);
retval = 1;
}
bailout:
ctl_scsi_free_io(io);
return (retval);
}
static int
cctl_report_luns(int fd, int target, int lun, int iid, int retries)
{
struct scsi_report_luns_data *lun_data;
uint32_t num_luns, i;
int retval;
lun_data = NULL;
if ((retval = cctl_get_luns(fd, target, lun, iid, retries, &lun_data,
&num_luns)) != 0)
goto bailout;
fprintf(stdout, "%u LUNs returned\n", num_luns);
for (i = 0; i < num_luns; i++) {
int lun_val;
/*
* XXX KDM figure out a way to share this code with
* cctl_lunlist()?
*/
switch (lun_data->luns[i].lundata[0] & RPL_LUNDATA_ATYP_MASK) {
case RPL_LUNDATA_ATYP_PERIPH:
lun_val = lun_data->luns[i].lundata[1];
break;
case RPL_LUNDATA_ATYP_FLAT:
lun_val = (lun_data->luns[i].lundata[0] &
RPL_LUNDATA_FLAT_LUN_MASK) |
(lun_data->luns[i].lundata[1] <<
RPL_LUNDATA_FLAT_LUN_BITS);
break;
case RPL_LUNDATA_ATYP_LUN:
case RPL_LUNDATA_ATYP_EXTLUN:
default:
fprintf(stdout, "Unsupported LUN format %d\n",
lun_data->luns[i].lundata[0] &
RPL_LUNDATA_ATYP_MASK);
lun_val = -1;
break;
}
if (lun_val == -1)
continue;
fprintf(stdout, "%d\n", lun_val);
}
bailout:
if (lun_data != NULL)
free(lun_data);
return (retval);
}
static int
cctl_tur(int fd, int target, int lun, int iid, int retries)
{
union ctl_io *io;
struct ctl_id id;
id.id = iid;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
fprintf(stderr, "can't allocate memory\n");
return (1);
}
ctl_scsi_tur(io,
/* tag_type */ CTL_TAG_SIMPLE,
/* control */ 0);
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun;
io->io_hdr.nexus.initid = id;
if (cctl_do_io(fd, retries, io, __func__) != 0) {
ctl_scsi_free_io(io);
return (1);
}
if ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS)
fprintf(stdout, "Unit is ready\n");
else
ctl_io_error_print(io, NULL, stderr);
return (0);
}
static int
cctl_get_inquiry(int fd, int target, int lun, int iid, int retries,
char *path_str, int path_len,
struct scsi_inquiry_data *inq_data)
{
union ctl_io *io;
struct ctl_id id;
int retval;
retval = 0;
id.id = iid;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
warnx("cctl_inquiry: can't allocate memory\n");
return (1);
}
ctl_scsi_inquiry(/*io*/ io,
/*data_ptr*/ (uint8_t *)inq_data,
/*data_len*/ sizeof(*inq_data),
/*byte2*/ 0,
/*page_code*/ 0,
/*tag_type*/ CTL_TAG_SIMPLE,
/*control*/ 0);
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun;
io->io_hdr.nexus.initid = id;
if (cctl_do_io(fd, retries, io, __func__) != 0) {
retval = 1;
goto bailout;
}
if ((io->io_hdr.status & CTL_STATUS_MASK) != CTL_SUCCESS) {
retval = 1;
ctl_io_error_print(io, NULL, stderr);
} else if (path_str != NULL)
ctl_scsi_path_string(io, path_str, path_len);
bailout:
ctl_scsi_free_io(io);
return (retval);
}
static int
cctl_inquiry(int fd, int target, int lun, int iid, int retries)
{
struct scsi_inquiry_data *inq_data;
char scsi_path[40];
int retval;
retval = 0;
inq_data = malloc(sizeof(*inq_data));
if (inq_data == NULL) {
warnx("%s: can't allocate inquiry data", __func__);
retval = 1;
goto bailout;
}
if ((retval = cctl_get_inquiry(fd, target, lun, iid, retries, scsi_path,
sizeof(scsi_path), inq_data)) != 0)
goto bailout;
printf("%s", scsi_path);
scsi_print_inquiry(inq_data);
bailout:
if (inq_data != NULL)
free(inq_data);
return (retval);
}
static int
cctl_req_sense(int fd, int target, int lun, int iid, int retries)
{
union ctl_io *io;
struct scsi_sense_data *sense_data;
struct ctl_id id;
int retval;
retval = 0;
id.id = iid;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
warnx("cctl_req_sense: can't allocate memory\n");
return (1);
}
sense_data = malloc(sizeof(*sense_data));
memset(sense_data, 0, sizeof(*sense_data));
ctl_scsi_request_sense(/*io*/ io,
/*data_ptr*/ (uint8_t *)sense_data,
/*data_len*/ sizeof(*sense_data),
/*byte2*/ 0,
/*tag_type*/ CTL_TAG_SIMPLE,
/*control*/ 0);
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun;
io->io_hdr.nexus.initid = id;
if (cctl_do_io(fd, retries, io, __func__) != 0) {
retval = 1;
goto bailout;
}
if ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS) {
bcopy(sense_data, &io->scsiio.sense_data, sizeof(*sense_data));
io->scsiio.sense_len = sizeof(*sense_data);
ctl_scsi_sense_print(&io->scsiio, NULL, stdout);
} else
ctl_io_error_print(io, NULL, stderr);
bailout:
ctl_scsi_free_io(io);
free(sense_data);
return (retval);
}
static int
cctl_report_target_port_group(int fd, int target, int lun, int initiator)
{
union ctl_io *io;
struct ctl_id id;
uint32_t datalen;
uint8_t *dataptr;
int retval;
id.id = initiator;
dataptr = NULL;
retval = 0;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
warn("%s: can't allocate memory", __func__);
return (1);
}
datalen = 64;
dataptr = (uint8_t *)malloc(datalen);
if (dataptr == NULL) {
warn("%s: can't allocate %d bytes", __func__, datalen);
retval = 1;
goto bailout;
}
memset(dataptr, 0, datalen);
ctl_scsi_maintenance_in(/*io*/ io,
/*data_ptr*/ dataptr,
/*data_len*/ datalen,
/*action*/ SA_RPRT_TRGT_GRP,
/*tag_type*/ CTL_TAG_SIMPLE,
/*control*/ 0);
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun;
io->io_hdr.nexus.initid = id;
if (cctl_do_io(fd, 0, io, __func__) != 0) {
retval = 1;
goto bailout;
}
if ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS) {
int returned_len, used_len;
returned_len = scsi_4btoul(&dataptr[0]) + 4;
for (used_len = 0; used_len < returned_len; used_len++) {
fprintf(stdout, "0x%02x ", dataptr[used_len]);
if (((used_len+1) % 8) == 0)
fprintf(stdout, "\n");
}
fprintf(stdout, "\n");
} else
ctl_io_error_print(io, NULL, stderr);
bailout:
ctl_scsi_free_io(io);
if (dataptr != NULL)
free(dataptr);
return (retval);
}
static int
cctl_inquiry_vpd_devid(int fd, int target, int lun, int initiator)
{
union ctl_io *io;
struct ctl_id id;
uint32_t datalen;
uint8_t *dataptr;
int retval;
id.id = initiator;
retval = 0;
dataptr = NULL;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
warn("%s: can't allocate memory", __func__);
return (1);
}
datalen = 256;
dataptr = (uint8_t *)malloc(datalen);
if (dataptr == NULL) {
warn("%s: can't allocate %d bytes", __func__, datalen);
retval = 1;
goto bailout;
}
memset(dataptr, 0, datalen);
ctl_scsi_inquiry(/*io*/ io,
/*data_ptr*/ dataptr,
/*data_len*/ datalen,
/*byte2*/ SI_EVPD,
/*page_code*/ SVPD_DEVICE_ID,
/*tag_type*/ CTL_TAG_SIMPLE,
/*control*/ 0);
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun;
io->io_hdr.nexus.initid = id;
if (cctl_do_io(fd, 0, io, __func__) != 0) {
retval = 1;
goto bailout;
}
if ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS) {
int returned_len, used_len;
returned_len = scsi_2btoul(&dataptr[2]) + 4;
for (used_len = 0; used_len < returned_len; used_len++) {
fprintf(stdout, "0x%02x ", dataptr[used_len]);
if (((used_len+1) % 8) == 0)
fprintf(stdout, "\n");
}
fprintf(stdout, "\n");
} else
ctl_io_error_print(io, NULL, stderr);
bailout:
ctl_scsi_free_io(io);
if (dataptr != NULL)
free(dataptr);
return (retval);
}
static int
cctl_persistent_reserve_in(int fd, int target, int lun, int initiator,
int argc, char **argv, char *combinedopt,
int retry_count)
{
union ctl_io *io;
struct ctl_id id;
uint32_t datalen;
uint8_t *dataptr;
int action = -1;
int retval;
int c;
id.id = initiator;
retval = 0;
dataptr = NULL;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
warn("%s: can't allocate memory", __func__);
return (1);
}
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'a':
action = strtol(optarg, NULL, 0);
break;
default:
break;
}
}
if (action < 0 || action > 2) {
warn("action must be specified and in the range: 0-2");
retval = 1;
goto bailout;
}
datalen = 256;
dataptr = (uint8_t *)malloc(datalen);
if (dataptr == NULL) {
warn("%s: can't allocate %d bytes", __func__, datalen);
retval = 1;
goto bailout;
}
memset(dataptr, 0, datalen);
ctl_scsi_persistent_res_in(io,
/*data_ptr*/ dataptr,
/*data_len*/ datalen,
/*action*/ action,
/*tag_type*/ CTL_TAG_SIMPLE,
/*control*/ 0);
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun;
io->io_hdr.nexus.initid = id;
if (cctl_do_io(fd, retry_count, io, __func__) != 0) {
retval = 1;
goto bailout;
}
if ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS) {
int returned_len, used_len;
returned_len = 0;
switch (action) {
case 0:
returned_len = scsi_4btoul(&dataptr[4]) + 8;
returned_len = min(returned_len, 256);
break;
case 1:
returned_len = scsi_4btoul(&dataptr[4]) + 8;
break;
case 2:
returned_len = 8;
break;
default:
warnx("%s: invalid action %d", __func__, action);
goto bailout;
break; /* NOTREACHED */
}
for (used_len = 0; used_len < returned_len; used_len++) {
fprintf(stdout, "0x%02x ", dataptr[used_len]);
if (((used_len+1) % 8) == 0)
fprintf(stdout, "\n");
}
fprintf(stdout, "\n");
} else
ctl_io_error_print(io, NULL, stderr);
bailout:
ctl_scsi_free_io(io);
if (dataptr != NULL)
free(dataptr);
return (retval);
}
static int
cctl_persistent_reserve_out(int fd, int target, int lun, int initiator,
int argc, char **argv, char *combinedopt,
int retry_count)
{
union ctl_io *io;
struct ctl_id id;
uint32_t datalen;
uint64_t key = 0, sa_key = 0;
int action = -1, restype = -1;
uint8_t *dataptr;
int retval;
int c;
id.id = initiator;
retval = 0;
dataptr = NULL;
io = ctl_scsi_alloc_io(id);
if (io == NULL) {
warn("%s: can't allocate memory", __func__);
return (1);
}
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'a':
action = strtol(optarg, NULL, 0);
break;
case 'k':
key = strtoull(optarg, NULL, 0);
break;
case 'r':
restype = strtol(optarg, NULL, 0);
break;
case 's':
sa_key = strtoull(optarg, NULL, 0);
break;
default:
break;
}
}
if (action < 0 || action > 5) {
warn("action must be specified and in the range: 0-5");
retval = 1;
goto bailout;
}
if (restype < 0 || restype > 5) {
if (action != 0 && action != 5 && action != 3) {
warn("'restype' must specified and in the range: 0-5");
retval = 1;
goto bailout;
}
}
datalen = 24;
dataptr = (uint8_t *)malloc(datalen);
if (dataptr == NULL) {
warn("%s: can't allocate %d bytes", __func__, datalen);
retval = 1;
goto bailout;
}
memset(dataptr, 0, datalen);
ctl_scsi_persistent_res_out(io,
/*data_ptr*/ dataptr,
/*data_len*/ datalen,
/*action*/ action,
/*type*/ restype,
/*key*/ key,
/*sa key*/ sa_key,
/*tag_type*/ CTL_TAG_SIMPLE,
/*control*/ 0);
io->io_hdr.nexus.targ_target.id = target;
io->io_hdr.nexus.targ_lun = lun;
io->io_hdr.nexus.initid = id;
if (cctl_do_io(fd, retry_count, io, __func__) != 0) {
retval = 1;
goto bailout;
}
if ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS) {
char scsi_path[40];
ctl_scsi_path_string(io, scsi_path, sizeof(scsi_path));
fprintf( stdout, "%sPERSISTENT RESERVE OUT executed "
"successfully\n", scsi_path);
} else
ctl_io_error_print(io, NULL, stderr);
bailout:
ctl_scsi_free_io(io);
if (dataptr != NULL)
free(dataptr);
return (retval);
}
struct cctl_req_option {
char *name;
int namelen;
char *value;
int vallen;
STAILQ_ENTRY(cctl_req_option) links;
};
static int
cctl_create_lun(int fd, int argc, char **argv, char *combinedopt)
{
struct ctl_lun_req req;
int device_type = -1;
uint64_t lun_size = 0;
uint32_t blocksize = 0, req_lun_id = 0;
char *serial_num = NULL;
char *device_id = NULL;
int lun_size_set = 0, blocksize_set = 0, lun_id_set = 0;
char *backend_name = NULL;
STAILQ_HEAD(, cctl_req_option) option_list;
int num_options = 0;
int retval = 0, c;
STAILQ_INIT(&option_list);
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'b':
backend_name = strdup(optarg);
break;
case 'B':
blocksize = strtoul(optarg, NULL, 0);
blocksize_set = 1;
break;
case 'd':
device_id = strdup(optarg);
break;
case 'l':
req_lun_id = strtoul(optarg, NULL, 0);
lun_id_set = 1;
break;
case 'o': {
struct cctl_req_option *option;
char *tmpstr;
char *name, *value;
tmpstr = strdup(optarg);
name = strsep(&tmpstr, "=");
if (name == NULL) {
warnx("%s: option -o takes \"name=value\""
"argument", __func__);
retval = 1;
goto bailout;
}
value = strsep(&tmpstr, "=");
if (value == NULL) {
warnx("%s: option -o takes \"name=value\""
"argument", __func__);
retval = 1;
goto bailout;
}
option = malloc(sizeof(*option));
if (option == NULL) {
warn("%s: error allocating %zd bytes",
__func__, sizeof(*option));
retval = 1;
goto bailout;
}
option->name = strdup(name);
option->namelen = strlen(name) + 1;
option->value = strdup(value);
option->vallen = strlen(value) + 1;
free(tmpstr);
STAILQ_INSERT_TAIL(&option_list, option, links);
num_options++;
break;
}
case 's':
if (strcasecmp(optarg, "auto") != 0) {
retval = expand_number(optarg, &lun_size);
if (retval != 0) {
warn("%s: invalid -s argument",
__func__);
retval = 1;
goto bailout;
}
}
lun_size_set = 1;
break;
case 'S':
serial_num = strdup(optarg);
break;
case 't':
device_type = strtoul(optarg, NULL, 0);
break;
default:
break;
}
}
if (backend_name == NULL) {
warnx("%s: backend name (-b) must be specified", __func__);
retval = 1;
goto bailout;
}
bzero(&req, sizeof(req));
strlcpy(req.backend, backend_name, sizeof(req.backend));
req.reqtype = CTL_LUNREQ_CREATE;
if (blocksize_set != 0)
req.reqdata.create.blocksize_bytes = blocksize;
if (lun_size_set != 0)
req.reqdata.create.lun_size_bytes = lun_size;
if (lun_id_set != 0) {
req.reqdata.create.flags |= CTL_LUN_FLAG_ID_REQ;
req.reqdata.create.req_lun_id = req_lun_id;
}
req.reqdata.create.flags |= CTL_LUN_FLAG_DEV_TYPE;
if (device_type != -1)
req.reqdata.create.device_type = device_type;
else
req.reqdata.create.device_type = T_DIRECT;
if (serial_num != NULL) {
strlcpy(req.reqdata.create.serial_num, serial_num,
sizeof(req.reqdata.create.serial_num));
req.reqdata.create.flags |= CTL_LUN_FLAG_SERIAL_NUM;
}
if (device_id != NULL) {
strlcpy(req.reqdata.create.device_id, device_id,
sizeof(req.reqdata.create.device_id));
req.reqdata.create.flags |= CTL_LUN_FLAG_DEVID;
}
req.num_be_args = num_options;
if (num_options > 0) {
struct cctl_req_option *option, *next_option;
int i;
req.be_args = malloc(num_options * sizeof(*req.be_args));
if (req.be_args == NULL) {
warn("%s: error allocating %zd bytes", __func__,
num_options * sizeof(*req.be_args));
retval = 1;
goto bailout;
}
for (i = 0, option = STAILQ_FIRST(&option_list);
i < num_options; i++, option = next_option) {
next_option = STAILQ_NEXT(option, links);
req.be_args[i].namelen = option->namelen;
req.be_args[i].name = strdup(option->name);
req.be_args[i].vallen = option->vallen;
req.be_args[i].value = strdup(option->value);
/*
* XXX KDM do we want a way to specify a writeable
* flag of some sort? Do we want a way to specify
* binary data?
*/
req.be_args[i].flags = CTL_BEARG_ASCII | CTL_BEARG_RD;
STAILQ_REMOVE(&option_list, option, cctl_req_option,
links);
free(option->name);
free(option->value);
free(option);
}
}
if (ioctl(fd, CTL_LUN_REQ, &req) == -1) {
warn("%s: error issuing CTL_LUN_REQ ioctl", __func__);
retval = 1;
goto bailout;
}
if (req.status == CTL_LUN_ERROR) {
warnx("%s: error returned from LUN creation request:\n%s",
__func__, req.error_str);
retval = 1;
goto bailout;
} else if (req.status != CTL_LUN_OK) {
warnx("%s: unknown LUN creation request status %d",
__func__, req.status);
retval = 1;
goto bailout;
}
fprintf(stdout, "LUN created successfully\n");
fprintf(stdout, "backend: %s\n", req.backend);
fprintf(stdout, "device type: %d\n",req.reqdata.create.device_type);
fprintf(stdout, "LUN size: %ju bytes\n",
(uintmax_t)req.reqdata.create.lun_size_bytes);
fprintf(stdout, "blocksize %u bytes\n",
req.reqdata.create.blocksize_bytes);
fprintf(stdout, "LUN ID: %d\n", req.reqdata.create.req_lun_id);
fprintf(stdout, "Serial Number: %s\n", req.reqdata.create.serial_num);
fprintf(stdout, "Device ID; %s\n", req.reqdata.create.device_id);
bailout:
return (retval);
}
static int
cctl_rm_lun(int fd, int argc, char **argv, char *combinedopt)
{
struct ctl_lun_req req;
uint32_t lun_id = 0;
int lun_id_set = 0;
char *backend_name = NULL;
STAILQ_HEAD(, cctl_req_option) option_list;
int num_options = 0;
int retval = 0, c;
STAILQ_INIT(&option_list);
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'b':
backend_name = strdup(optarg);
break;
case 'l':
lun_id = strtoul(optarg, NULL, 0);
lun_id_set = 1;
break;
case 'o': {
struct cctl_req_option *option;
char *tmpstr;
char *name, *value;
tmpstr = strdup(optarg);
name = strsep(&tmpstr, "=");
if (name == NULL) {
warnx("%s: option -o takes \"name=value\""
"argument", __func__);
retval = 1;
goto bailout;
}
value = strsep(&tmpstr, "=");
if (value == NULL) {
warnx("%s: option -o takes \"name=value\""
"argument", __func__);
retval = 1;
goto bailout;
}
option = malloc(sizeof(*option));
if (option == NULL) {
warn("%s: error allocating %zd bytes",
__func__, sizeof(*option));
retval = 1;
goto bailout;
}
option->name = strdup(name);
option->namelen = strlen(name) + 1;
option->value = strdup(value);
option->vallen = strlen(value) + 1;
free(tmpstr);
STAILQ_INSERT_TAIL(&option_list, option, links);
num_options++;
break;
}
default:
break;
}
}
if (backend_name == NULL)
errx(1, "%s: backend name (-b) must be specified", __func__);
if (lun_id_set == 0)
errx(1, "%s: LUN id (-l) must be specified", __func__);
bzero(&req, sizeof(req));
strlcpy(req.backend, backend_name, sizeof(req.backend));
req.reqtype = CTL_LUNREQ_RM;
req.reqdata.rm.lun_id = lun_id;
req.num_be_args = num_options;
if (num_options > 0) {
struct cctl_req_option *option, *next_option;
int i;
req.be_args = malloc(num_options * sizeof(*req.be_args));
if (req.be_args == NULL) {
warn("%s: error allocating %zd bytes", __func__,
num_options * sizeof(*req.be_args));
retval = 1;
goto bailout;
}
for (i = 0, option = STAILQ_FIRST(&option_list);
i < num_options; i++, option = next_option) {
next_option = STAILQ_NEXT(option, links);
req.be_args[i].namelen = option->namelen;
req.be_args[i].name = strdup(option->name);
req.be_args[i].vallen = option->vallen;
req.be_args[i].value = strdup(option->value);
/*
* XXX KDM do we want a way to specify a writeable
* flag of some sort? Do we want a way to specify
* binary data?
*/
req.be_args[i].flags = CTL_BEARG_ASCII | CTL_BEARG_RD;
STAILQ_REMOVE(&option_list, option, cctl_req_option,
links);
free(option->name);
free(option->value);
free(option);
}
}
if (ioctl(fd, CTL_LUN_REQ, &req) == -1) {
warn("%s: error issuing CTL_LUN_REQ ioctl", __func__);
retval = 1;
goto bailout;
}
if (req.status == CTL_LUN_ERROR) {
warnx("%s: error returned from LUN removal request:\n%s",
__func__, req.error_str);
retval = 1;
goto bailout;
} else if (req.status != CTL_LUN_OK) {
warnx("%s: unknown LUN removal request status %d",
__func__, req.status);
retval = 1;
goto bailout;
}
printf("LUN %d deleted successfully\n", lun_id);
bailout:
return (retval);
}
static int
cctl_modify_lun(int fd, int argc, char **argv, char *combinedopt)
{
struct ctl_lun_req req;
uint64_t lun_size = 0;
uint32_t lun_id = 0;
int lun_id_set = 0, lun_size_set = 0;
char *backend_name = NULL;
int retval = 0, c;
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'b':
backend_name = strdup(optarg);
break;
case 'l':
lun_id = strtoul(optarg, NULL, 0);
lun_id_set = 1;
break;
case 's':
if (strcasecmp(optarg, "auto") != 0) {
retval = expand_number(optarg, &lun_size);
if (retval != 0) {
warn("%s: invalid -s argument",
__func__);
retval = 1;
goto bailout;
}
}
lun_size_set = 1;
break;
default:
break;
}
}
if (backend_name == NULL)
errx(1, "%s: backend name (-b) must be specified", __func__);
if (lun_id_set == 0)
errx(1, "%s: LUN id (-l) must be specified", __func__);
if (lun_size_set == 0)
errx(1, "%s: size (-s) must be specified", __func__);
bzero(&req, sizeof(req));
strlcpy(req.backend, backend_name, sizeof(req.backend));
req.reqtype = CTL_LUNREQ_MODIFY;
req.reqdata.modify.lun_id = lun_id;
req.reqdata.modify.lun_size_bytes = lun_size;
if (ioctl(fd, CTL_LUN_REQ, &req) == -1) {
warn("%s: error issuing CTL_LUN_REQ ioctl", __func__);
retval = 1;
goto bailout;
}
if (req.status == CTL_LUN_ERROR) {
warnx("%s: error returned from LUN modification request:\n%s",
__func__, req.error_str);
retval = 1;
goto bailout;
} else if (req.status != CTL_LUN_OK) {
warnx("%s: unknown LUN modification request status %d",
__func__, req.status);
retval = 1;
goto bailout;
}
printf("LUN %d modified successfully\n", lun_id);
bailout:
return (retval);
}
/*
* Name/value pair used for per-LUN attributes.
*/
struct cctl_lun_nv {
char *name;
char *value;
STAILQ_ENTRY(cctl_lun_nv) links;
};
/*
* Backend LUN information.
*/
struct cctl_lun {
uint64_t lun_id;
char *backend_type;
uint64_t size_blocks;
uint32_t blocksize;
char *serial_number;
char *device_id;
STAILQ_HEAD(,cctl_lun_nv) attr_list;
STAILQ_ENTRY(cctl_lun) links;
};
struct cctl_devlist_data {
int num_luns;
STAILQ_HEAD(,cctl_lun) lun_list;
struct cctl_lun *cur_lun;
int level;
struct sbuf *cur_sb[32];
};
static void
cctl_start_element(void *user_data, const char *name, const char **attr)
{
int i;
struct cctl_devlist_data *devlist;
struct cctl_lun *cur_lun;
devlist = (struct cctl_devlist_data *)user_data;
cur_lun = devlist->cur_lun;
devlist->level++;
if ((u_int)devlist->level > (sizeof(devlist->cur_sb) /
sizeof(devlist->cur_sb[0])))
errx(1, "%s: too many nesting levels, %zd max", __func__,
sizeof(devlist->cur_sb) / sizeof(devlist->cur_sb[0]));
devlist->cur_sb[devlist->level] = sbuf_new_auto();
if (devlist->cur_sb[devlist->level] == NULL)
err(1, "%s: Unable to allocate sbuf", __func__);
if (strcmp(name, "lun") == 0) {
if (cur_lun != NULL)
errx(1, "%s: improper lun element nesting", __func__);
cur_lun = calloc(1, sizeof(*cur_lun));
if (cur_lun == NULL)
err(1, "%s: cannot allocate %zd bytes", __func__,
sizeof(*cur_lun));
devlist->num_luns++;
devlist->cur_lun = cur_lun;
STAILQ_INIT(&cur_lun->attr_list);
STAILQ_INSERT_TAIL(&devlist->lun_list, cur_lun, links);
for (i = 0; attr[i] != NULL; i += 2) {
if (strcmp(attr[i], "id") == 0) {
cur_lun->lun_id = strtoull(attr[i+1], NULL, 0);
} else {
errx(1, "%s: invalid LUN attribute %s = %s",
__func__, attr[i], attr[i+1]);
}
}
}
}
static void
cctl_end_element(void *user_data, const char *name)
{
struct cctl_devlist_data *devlist;
struct cctl_lun *cur_lun;
char *str;
devlist = (struct cctl_devlist_data *)user_data;
cur_lun = devlist->cur_lun;
if ((cur_lun == NULL)
&& (strcmp(name, "ctllunlist") != 0))
errx(1, "%s: cur_lun == NULL! (name = %s)", __func__, name);
if (devlist->cur_sb[devlist->level] == NULL)
errx(1, "%s: no valid sbuf at level %d (name %s)", __func__,
devlist->level, name);
if (sbuf_finish(devlist->cur_sb[devlist->level]) != 0)
err(1, "%s: sbuf_finish", __func__);
str = strdup(sbuf_data(devlist->cur_sb[devlist->level]));
if (str == NULL)
err(1, "%s can't allocate %zd bytes for string", __func__,
sbuf_len(devlist->cur_sb[devlist->level]));
if (strlen(str) == 0) {
free(str);
str = NULL;
}
sbuf_delete(devlist->cur_sb[devlist->level]);
devlist->cur_sb[devlist->level] = NULL;
devlist->level--;
if (strcmp(name, "backend_type") == 0) {
cur_lun->backend_type = str;
str = NULL;
} else if (strcmp(name, "size") == 0) {
cur_lun->size_blocks = strtoull(str, NULL, 0);
} else if (strcmp(name, "blocksize") == 0) {
cur_lun->blocksize = strtoul(str, NULL, 0);
} else if (strcmp(name, "serial_number") == 0) {
cur_lun->serial_number = str;
str = NULL;
} else if (strcmp(name, "device_id") == 0) {
cur_lun->device_id = str;
str = NULL;
} else if (strcmp(name, "lun") == 0) {
devlist->cur_lun = NULL;
} else if (strcmp(name, "ctllunlist") == 0) {
} else {
struct cctl_lun_nv *nv;
nv = calloc(1, sizeof(*nv));
if (nv == NULL)
err(1, "%s: can't allocate %zd bytes for nv pair",
__func__, sizeof(*nv));
nv->name = strdup(name);
if (nv->name == NULL)
err(1, "%s: can't allocated %zd bytes for string",
__func__, strlen(name));
nv->value = str;
str = NULL;
STAILQ_INSERT_TAIL(&cur_lun->attr_list, nv, links);
}
free(str);
}
static void
cctl_char_handler(void *user_data, const XML_Char *str, int len)
{
struct cctl_devlist_data *devlist;
devlist = (struct cctl_devlist_data *)user_data;
sbuf_bcat(devlist->cur_sb[devlist->level], str, len);
}
static int
cctl_devlist(int fd, int argc, char **argv, char *combinedopt)
{
struct ctl_lun_list list;
struct cctl_devlist_data devlist;
struct cctl_lun *lun;
XML_Parser parser;
char *lun_str;
int lun_len;
int dump_xml = 0;
int retval, c;
char *backend = NULL;
int verbose = 0;
retval = 0;
lun_len = 4096;
bzero(&devlist, sizeof(devlist));
STAILQ_INIT(&devlist.lun_list);
while ((c = getopt(argc, argv, combinedopt)) != -1) {
switch (c) {
case 'b':
backend = strdup(optarg);
break;
case 'v':
verbose++;
break;
case 'x':
dump_xml = 1;
break;
default:
break;
}
}
retry:
lun_str = malloc(lun_len);
bzero(&list, sizeof(list));
list.alloc_len = lun_len;
list.status = CTL_LUN_LIST_NONE;
list.lun_xml = lun_str;
if (ioctl(fd, CTL_LUN_LIST, &list) == -1) {
warn("%s: error issuing CTL_LUN_LIST ioctl", __func__);
retval = 1;
goto bailout;
}
if (list.status == CTL_LUN_LIST_ERROR) {
warnx("%s: error returned from CTL_LUN_LIST ioctl:\n%s",
__func__, list.error_str);
} else if (list.status == CTL_LUN_LIST_NEED_MORE_SPACE) {
lun_len = lun_len << 1;
goto retry;
}
if (dump_xml != 0) {
printf("%s", lun_str);
goto bailout;
}
parser = XML_ParserCreate(NULL);
if (parser == NULL) {
warn("%s: Unable to create XML parser", __func__);
retval = 1;
goto bailout;
}
XML_SetUserData(parser, &devlist);
XML_SetElementHandler(parser, cctl_start_element, cctl_end_element);
XML_SetCharacterDataHandler(parser, cctl_char_handler);
retval = XML_Parse(parser, lun_str, strlen(lun_str), 1);
XML_ParserFree(parser);
if (retval != 1) {
retval = 1;
goto bailout;
}
printf("LUN Backend %18s %4s %-16s %-16s\n", "Size (Blocks)", "BS",
"Serial Number", "Device ID");
STAILQ_FOREACH(lun, &devlist.lun_list, links) {
struct cctl_lun_nv *nv;
if ((backend != NULL)
&& (strcmp(lun->backend_type, backend) != 0))
continue;
printf("%3ju %-8s %18ju %4u %-16s %-16s\n",
(uintmax_t)lun->lun_id,
lun->backend_type, (uintmax_t)lun->size_blocks,
lun->blocksize, lun->serial_number, lun->device_id);
if (verbose == 0)
continue;
STAILQ_FOREACH(nv, &lun->attr_list, links) {
printf(" %s=%s\n", nv->name, nv->value);
}
}
bailout:
free(lun_str);
return (retval);
}
void
usage(int error)
{
fprintf(error ? stderr : stdout,
"Usage:\n"
"Primary commands:\n"
" ctladm tur [dev_id][general options]\n"
" ctladm inquiry [dev_id][general options]\n"
" ctladm devid [dev_id][general options]\n"
" ctladm reqsense [dev_id][general options]\n"
" ctladm reportluns [dev_id][general options]\n"
" ctladm read [dev_id][general options] <-l lba> <-d len>\n"
" <-f file|-> <-b blocksize> [-c cdbsize][-N]\n"
" ctladm write [dev_id][general options] <-l lba> <-d len>\n"
" <-f file|-> <-b blocksize> [-c cdbsize][-N]\n"
" ctladm readcap [dev_id][general options] [-c cdbsize]\n"
" ctladm modesense [dev_id][general options] <-m page|-l> [-P pc]\n"
" [-d] [-S subpage] [-c cdbsize]\n"
" ctladm prin [dev_id][general options] <-a action>\n"
" ctladm prout [dev_id][general options] <-a action>\n"
" <-r restype] [-k key] [-s sa_key]\n"
" ctladm rtpg [dev_id][general options]\n"
" ctladm start [dev_id][general options] [-i] [-o]\n"
" ctladm stop [dev_id][general options] [-i] [-o]\n"
" ctladm synccache [dev_id][general options] [-l lba]\n"
" [-b blockcount] [-r] [-i] [-c cdbsize]\n"
" ctladm create <-b backend> [-B blocksize] [-d device_id]\n"
" [-l lun_id] [-o name=value] [-s size_bytes]\n"
" [-S serial_num] [-t dev_type]\n"
" ctladm remove <-b backend> <-l lun_id> [-o name=value]\n"
" ctladm modify <-b backend> <-l lun_id> <-s size_bytes>\n"
" ctladm devlist [-b][-v][-x]\n"
" ctladm shutdown\n"
" ctladm startup\n"
" ctladm hardstop\n"
" ctladm hardstart\n"
" ctladm lunlist\n"
" ctladm bbrread [dev_id] <-l lba> <-d datalen>\n"
" ctladm delay [dev_id] <-l datamove|done> [-T oneshot|cont]\n"
" [-t secs]\n"
" ctladm realsync <on|off|query>\n"
" ctladm setsync [dev_id] <-i interval>\n"
" ctladm getsync [dev_id]\n"
" ctladm inject [dev_id] <-i action> <-p pattern> [-r lba,len]\n"
" [-s len fmt [args]] [-c] [-d delete_id]\n"
" ctladm port <-l | -o <on|off> | [-w wwnn][-W wwpn]>\n"
" [-p targ_port] [-t port_type] [-q] [-x]\n"
" ctladm dumpooa\n"
" ctladm dumpstructs\n"
" ctladm help\n"
"General Options:\n"
"-I intiator_id : defaults to 7, used to change the initiator id\n"
"-C retries : specify the number of times to retry this command\n"
"-D devicename : specify the device to operate on\n"
" : (default is %s)\n"
"read/write options:\n"
"-l lba : logical block address\n"
"-d len : read/write length, in blocks\n"
"-f file|- : write/read data to/from file or stdout/stdin\n"
"-b blocksize : block size, in bytes\n"
"-c cdbsize : specify minimum cdb size: 6, 10, 12 or 16\n"
"-N : do not copy data to/from userland\n"
"readcapacity options:\n"
"-c cdbsize : specify minimum cdb size: 10 or 16\n"
"modesense options:\n"
"-m page : specify the mode page to view\n"
"-l : request a list of supported pages\n"
"-P pc : specify the page control value: 0-3 (current,\n"
" changeable, default, saved, respectively)\n"
"-d : disable block descriptors for mode sense\n"
"-S subpage : specify a subpage\n"
"-c cdbsize : specify minimum cdb size: 6 or 10\n"
"persistent reserve in options:\n"
"-a action : specify the action value: 0-2 (read key, read\n"
" reservation, read capabilities, respectively)\n"
"persistent reserve out options:\n"
"-a action : specify the action value: 0-5 (register, reserve,\n"
" release, clear, preempt, register and ignore)\n"
"-k key : key value\n"
"-s sa_key : service action value\n"
"-r restype : specify the reservation type: 0-5(wr ex, ex ac,\n"
" wr ex ro, ex ac ro, wr ex ar, ex ac ar)\n"
"start/stop options:\n"
"-i : set the immediate bit (CTL does not support this)\n"
"-o : set the on/offline bit\n"
"synccache options:\n"
"-l lba : set the starting LBA\n"
"-b blockcount : set the length to sync in blocks\n"
"-r : set the relative addressing bit\n"
"-i : set the immediate bit\n"
"-c cdbsize : specify minimum cdb size: 10 or 16\n"
"create options:\n"
"-b backend : backend name (\"block\", \"ramdisk\", etc.)\n"
"-B blocksize : LUN blocksize in bytes (some backends)\n"
"-d device_id : SCSI VPD page 0x83 ID\n"
"-l lun_id : requested LUN number\n"
"-o name=value : backend-specific options, multiple allowed\n"
"-s size_bytes : LUN size in bytes (some backends)\n"
"-S serial_num : SCSI VPD page 0x80 serial number\n"
"-t dev_type : SCSI device type (0=disk, 3=processor)\n"
"remove options:\n"
"-b backend : backend name (\"block\", \"ramdisk\", etc.)\n"
"-l lun_id : LUN number to delete\n"
"-o name=value : backend-specific options, multiple allowed\n"
"devlist options:\n"
"-b backend : list devices from specified backend only\n"
"-v : be verbose, show backend attributes\n"
"-x : dump raw XML\n"
"delay options:\n"
"-l datamove|done : delay command at datamove or done phase\n"
"-T oneshot : delay one command, then resume normal completion\n"
"-T cont : delay all commands\n"
"-t secs : number of seconds to delay\n"
"inject options:\n"
"-i error_action : action to perform\n"
"-p pattern : command pattern to look for\n"
"-r lba,len : LBA range for pattern\n"
"-s len fmt [args] : sense data for custom sense action\n"
"-c : continuous operation\n"
"-d delete_id : error id to delete\n"
"port options:\n"
"-l : list frontend ports\n"
"-o on|off : turn frontend ports on or off\n"
"-w wwnn : set WWNN for one frontend\n"
"-W wwpn : set WWPN for one frontend\n"
"-t port_type : specify fc, scsi, ioctl, internal frontend type\n"
"-p targ_port : specify target port number\n"
"-q : omit header in list output\n"
"-x : output port list in XML format\n"
"bbrread options:\n"
"-l lba : starting LBA\n"
"-d datalen : length, in bytes, to read\n",
CTL_DEFAULT_DEV);
}
int
main(int argc, char **argv)
{
int c;
ctladm_cmdfunction command;
ctladm_cmdargs cmdargs;
ctladm_optret optreturn;
char *device;
const char *mainopt = "C:D:I:";
const char *subopt = NULL;
char combinedopt[256];
int target, lun;
int optstart = 2;
int retval, fd;
int retries;
int initid;
int saved_errno;
retval = 0;
cmdargs = CTLADM_ARG_NONE;
command = CTLADM_CMD_HELP;
device = NULL;
fd = -1;
retries = 0;
target = 0;
lun = 0;
initid = 7;
if (argc < 2) {
usage(1);
retval = 1;
goto bailout;
}
/*
* Get the base option.
*/
optreturn = getoption(option_table,argv[1], &command, &cmdargs,&subopt);
if (optreturn == CC_OR_AMBIGUOUS) {
warnx("ambiguous option %s", argv[1]);
usage(0);
exit(1);
} else if (optreturn == CC_OR_NOT_FOUND) {
warnx("option %s not found", argv[1]);
usage(0);
exit(1);
}
if (cmdargs & CTLADM_ARG_NEED_TL) {
if ((argc < 3)
|| (!isdigit(argv[2][0]))) {
warnx("option %s requires a target:lun argument",
argv[1]);
usage(0);
exit(1);
}
retval = cctl_parse_tl(argv[2], &target, &lun);
if (retval != 0)
errx(1, "invalid target:lun argument %s", argv[2]);
cmdargs |= CTLADM_ARG_TARG_LUN;
optstart++;
}
/*
* Ahh, getopt(3) is a pain.
*
* This is a gross hack. There really aren't many other good
* options (excuse the pun) for parsing options in a situation like
* this. getopt is kinda braindead, so you end up having to run
* through the options twice, and give each invocation of getopt
* the option string for the other invocation.
*
* You would think that you could just have two groups of options.
* The first group would get parsed by the first invocation of
* getopt, and the second group would get parsed by the second
* invocation of getopt. It doesn't quite work out that way. When
* the first invocation of getopt finishes, it leaves optind pointing
* to the argument _after_ the first argument in the second group.
* So when the second invocation of getopt comes around, it doesn't
* recognize the first argument it gets and then bails out.
*
* A nice alternative would be to have a flag for getopt that says
* "just keep parsing arguments even when you encounter an unknown
* argument", but there isn't one. So there's no real clean way to
* easily parse two sets of arguments without having one invocation
* of getopt know about the other.
*
* Without this hack, the first invocation of getopt would work as
* long as the generic arguments are first, but the second invocation
* (in the subfunction) would fail in one of two ways. In the case
* where you don't set optreset, it would fail because optind may be
* pointing to the argument after the one it should be pointing at.
* In the case where you do set optreset, and reset optind, it would
* fail because getopt would run into the first set of options, which
* it doesn't understand.
*
* All of this would "sort of" work if you could somehow figure out
* whether optind had been incremented one option too far. The
* mechanics of that, however, are more daunting than just giving
* both invocations all of the expect options for either invocation.
*
* Needless to say, I wouldn't mind if someone invented a better
* (non-GPL!) command line parsing interface than getopt. I
* wouldn't mind if someone added more knobs to getopt to make it
* work better. Who knows, I may talk myself into doing it someday,
* if the standards weenies let me. As it is, it just leads to
* hackery like this and causes people to avoid it in some cases.
*
* KDM, September 8th, 1998
*/
if (subopt != NULL)
sprintf(combinedopt, "%s%s", mainopt, subopt);
else
sprintf(combinedopt, "%s", mainopt);
/*
* Start getopt processing at argv[2/3], since we've already
* accepted argv[1..2] as the command name, and as a possible
* device name.
*/
optind = optstart;
/*
* Now we run through the argument list looking for generic
* options, and ignoring options that possibly belong to
* subfunctions.
*/
while ((c = getopt(argc, argv, combinedopt))!= -1){
switch (c) {
case 'C':
cmdargs |= CTLADM_ARG_RETRIES;
retries = strtol(optarg, NULL, 0);
break;
case 'D':
device = strdup(optarg);
cmdargs |= CTLADM_ARG_DEVICE;
break;
case 'I':
cmdargs |= CTLADM_ARG_INITIATOR;
initid = strtol(optarg, NULL, 0);
break;
default:
break;
}
}
if ((cmdargs & CTLADM_ARG_INITIATOR) == 0)
initid = 7;
optind = optstart;
optreset = 1;
/*
* Default to opening the CTL device for now.
*/
if (((cmdargs & CTLADM_ARG_DEVICE) == 0)
&& (command != CTLADM_CMD_HELP)) {
device = strdup(CTL_DEFAULT_DEV);
cmdargs |= CTLADM_ARG_DEVICE;
}
if ((cmdargs & CTLADM_ARG_DEVICE)
&& (command != CTLADM_CMD_HELP)) {
fd = open(device, O_RDWR);
if (fd == -1 && errno == ENOENT) {
saved_errno = errno;
retval = kldload("ctl");
if (retval != -1)
fd = open(device, O_RDWR);
else
errno = saved_errno;
}
if (fd == -1) {
fprintf(stderr, "%s: error opening %s: %s\n",
argv[0], device, strerror(errno));
retval = 1;
goto bailout;
}
} else if ((command != CTLADM_CMD_HELP)
&& ((cmdargs & CTLADM_ARG_DEVICE) == 0)) {
fprintf(stderr, "%s: you must specify a device with the "
"--device argument for this command\n", argv[0]);
command = CTLADM_CMD_HELP;
retval = 1;
}
switch (command) {
case CTLADM_CMD_TUR:
retval = cctl_tur(fd, target, lun, initid, retries);
break;
case CTLADM_CMD_INQUIRY:
retval = cctl_inquiry(fd, target, lun, initid, retries);
break;
case CTLADM_CMD_REQ_SENSE:
retval = cctl_req_sense(fd, target, lun, initid, retries);
break;
case CTLADM_CMD_REPORT_LUNS:
retval = cctl_report_luns(fd, target, lun, initid, retries);
break;
case CTLADM_CMD_CREATE:
retval = cctl_create_lun(fd, argc, argv, combinedopt);
break;
case CTLADM_CMD_RM:
retval = cctl_rm_lun(fd, argc, argv, combinedopt);
break;
case CTLADM_CMD_DEVLIST:
retval = cctl_devlist(fd, argc, argv, combinedopt);
break;
case CTLADM_CMD_READ:
case CTLADM_CMD_WRITE:
retval = cctl_read_write(fd, target, lun, initid, retries,
argc, argv, combinedopt, command);
break;
case CTLADM_CMD_PORT:
retval = cctl_port(fd, argc, argv, combinedopt);
break;
case CTLADM_CMD_READCAPACITY:
retval = cctl_read_capacity(fd, target, lun, initid, retries,
argc, argv, combinedopt);
break;
case CTLADM_CMD_MODESENSE:
retval = cctl_mode_sense(fd, target, lun, initid, retries,
argc, argv, combinedopt);
break;
case CTLADM_CMD_START:
case CTLADM_CMD_STOP:
retval = cctl_start_stop(fd, target, lun, initid, retries,
(command == CTLADM_CMD_START) ? 1 : 0,
argc, argv, combinedopt);
break;
case CTLADM_CMD_SYNC_CACHE:
retval = cctl_sync_cache(fd, target, lun, initid, retries,
argc, argv, combinedopt);
break;
case CTLADM_CMD_SHUTDOWN:
case CTLADM_CMD_STARTUP:
retval = cctl_startup_shutdown(fd, target, lun, initid,
command);
break;
case CTLADM_CMD_HARDSTOP:
case CTLADM_CMD_HARDSTART:
retval = cctl_hardstopstart(fd, command);
break;
case CTLADM_CMD_BBRREAD:
retval = cctl_bbrread(fd, target, lun, initid, argc, argv,
combinedopt);
break;
case CTLADM_CMD_LUNLIST:
retval = cctl_lunlist(fd);
break;
case CTLADM_CMD_DELAY:
retval = cctl_delay(fd, target, lun, argc, argv, combinedopt);
break;
case CTLADM_CMD_REALSYNC:
retval = cctl_realsync(fd, argc, argv);
break;
case CTLADM_CMD_SETSYNC:
case CTLADM_CMD_GETSYNC:
retval = cctl_getsetsync(fd, target, lun, command,
argc, argv, combinedopt);
break;
case CTLADM_CMD_ERR_INJECT:
retval = cctl_error_inject(fd, target, lun, argc, argv,
combinedopt);
break;
case CTLADM_CMD_DUMPOOA:
retval = cctl_dump_ooa(fd, argc, argv);
break;
case CTLADM_CMD_DUMPSTRUCTS:
retval = cctl_dump_structs(fd, cmdargs);
break;
case CTLADM_CMD_PRES_IN:
retval = cctl_persistent_reserve_in(fd, target, lun, initid,
argc, argv, combinedopt,
retries);
break;
case CTLADM_CMD_PRES_OUT:
retval = cctl_persistent_reserve_out(fd, target, lun, initid,
argc, argv, combinedopt,
retries);
break;
case CTLADM_CMD_INQ_VPD_DEVID:
retval = cctl_inquiry_vpd_devid(fd, target, lun, initid);
break;
case CTLADM_CMD_RTPG:
retval = cctl_report_target_port_group(fd, target, lun, initid);
break;
case CTLADM_CMD_MODIFY:
retval = cctl_modify_lun(fd, argc, argv, combinedopt);
break;
case CTLADM_CMD_HELP:
default:
usage(retval);
break;
}
bailout:
if (fd != -1)
close(fd);
exit (retval);
}
/*
* vim: ts=8
*/
|