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|
/* $OpenBSD: atactl.c,v 1.35 2005/08/10 15:22:39 jsg Exp $ */
/* $NetBSD: atactl.c,v 1.4 1999/02/24 18:49:14 jwise Exp $ */
/*-
* Copyright (c) 1998 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by Ken Hornstein.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the NetBSD
* Foundation, Inc. and its contributors.
* 4. Neither the name of The NetBSD Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/*
* atactl(8) - a program to control ATA devices.
*/
#include <sys/param.h>
#include <sys/ioctl.h>
#include <err.h>
#include <errno.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <util.h>
#include <dev/ata/atareg.h>
#include <dev/ic/wdcreg.h>
#include <dev/ic/wdcevent.h>
#include <sys/ataio.h>
#include "atasec.h"
#include "atasmart.h"
struct command {
const char *cmd_name;
void (*cmd_func)(int, char *[]);
};
struct bitinfo {
u_int bitmask;
const char *string;
};
struct valinfo {
int value;
const char *string;
};
int main(int, char *[]);
__dead void usage(void);
void ata_command(struct atareq *);
void print_bitinfo(const char *, u_int, struct bitinfo *);
int strtoval(const char *, struct valinfo *);
const char *valtostr(int, struct valinfo *);
int fd; /* file descriptor for device */
extern const char *__progname; /* from crt0.o */
void device_dump(int, char*[]);
void device_identify(int, char *[]);
void device_setidle(int, char *[]);
void device_idle(int, char *[]);
void device_checkpower(int, char *[]);
void device_acoustic(int, char *[]);
void device_apm(int, char *[]);
void device_feature(int, char *[]);
void device_sec_setpass(int, char *[]);
void device_sec_unlock(int, char *[]);
void device_sec_erase(int, char *[]);
void device_sec_freeze(int, char *[]);
void device_sec_disablepass(int, char *[]);
void device_smart_enable(int, char *[]);
void device_smart_disable(int, char *[]);
void device_smart_status(int, char *[]);
void device_smart_autosave(int, char *[]);
void device_smart_offline(int, char *[]);
void device_smart_read(int, char *[]);
void device_smart_readlog(int, char *[]);
void device_attr(int, char *[]);
void smart_print_errdata(struct smart_log_errdata *);
int smart_cksum(u_int8_t *, int);
char *sec_getpass(int, int);
struct command commands[] = {
{ "dump", device_dump },
{ "identify", device_identify },
{ "setidle", device_setidle },
{ "setstandby", device_setidle },
{ "idle", device_idle },
{ "standby", device_idle },
{ "sleep", device_idle },
{ "checkpower", device_checkpower },
{ "acousticdisable", device_feature },
{ "acousticset", device_acoustic },
{ "apmdisable", device_feature },
{ "apmset", device_apm },
{ "poddisable", device_feature },
{ "podenable", device_feature },
{ "puisdisable", device_feature },
{ "puisenable", device_feature },
{ "puisspinup", device_feature },
{ "readaheaddisable", device_feature },
{ "readaheadenable", device_feature },
{ "secsetpass", device_sec_setpass },
{ "secunlock", device_sec_unlock },
{ "secerase", device_sec_erase },
{ "secfreeze", device_sec_freeze },
{ "secdisablepass", device_sec_disablepass },
{ "smartenable", device_smart_enable },
{ "smartdisable", device_smart_disable },
{ "smartstatus", device_smart_status },
{ "smartautosave", device_smart_autosave },
{ "smartoffline", device_smart_offline },
{ "smartread", device_smart_read },
{ "smartreadlog", device_smart_readlog },
{ "readattr", device_attr },
{ "writecachedisable", device_feature },
{ "writecacheenable", device_feature },
{ NULL, NULL },
};
/*
* Tables containing bitmasks used for error reporting and
* device identification.
*/
struct bitinfo ata_caps[] = {
{ ATA_CAP_STBY, "ATA standby timer values" },
{ WDC_CAP_IORDY, "IORDY operation" },
{ WDC_CAP_IORDY_DSBL, "IORDY disabling" },
{ NULL, NULL },
};
struct bitinfo ata_vers[] = {
{ WDC_VER_ATA1, "ATA-1" },
{ WDC_VER_ATA2, "ATA-2" },
{ WDC_VER_ATA3, "ATA-3" },
{ WDC_VER_ATA4, "ATA-4" },
{ WDC_VER_ATA5, "ATA-5" },
{ WDC_VER_ATA6, "ATA-6" },
{ WDC_VER_ATA7, "ATA-7" },
{ WDC_VER_ATA8, "ATA-8" },
{ WDC_VER_ATA9, "ATA-9" },
{ WDC_VER_ATA10, "ATA-10" },
{ WDC_VER_ATA11, "ATA-11" },
{ WDC_VER_ATA12, "ATA-12" },
{ WDC_VER_ATA13, "ATA-13" },
{ WDC_VER_ATA14, "ATA-14" },
{ NULL, NULL },
};
struct bitinfo ata_cmd_set1[] = {
{ WDC_CMD1_NOP, "NOP command" },
{ WDC_CMD1_RB, "READ BUFFER command" },
{ WDC_CMD1_WB, "WRITE BUFFER command" },
{ WDC_CMD1_HPA, "Host Protected Area feature set" },
{ WDC_CMD1_DVRST, "DEVICE RESET command" },
{ WDC_CMD1_SRV, "SERVICE interrupt" },
{ WDC_CMD1_RLSE, "Release interrupt" },
{ WDC_CMD1_AHEAD, "Read look-ahead" },
{ WDC_CMD1_CACHE, "Write cache" },
{ WDC_CMD1_PKT, "PACKET command feature set" },
{ WDC_CMD1_PM, "Power Management feature set" },
{ WDC_CMD1_REMOV, "Removable Media feature set" },
{ WDC_CMD1_SEC, "Security Mode feature set" },
{ WDC_CMD1_SMART, "SMART feature set" },
{ NULL, NULL },
};
struct bitinfo ata_cmd_set2[] = {
{ ATAPI_CMD2_FCE, "Flush Cache Ext command" },
{ ATAPI_CMD2_FC, "Flush Cache command" },
{ ATAPI_CMD2_DCO, "Device Configuration Overlay feature set" },
{ ATAPI_CMD2_48AD, "48bit address feature set" },
{ ATAPI_CMD2_AAM, "Automatic Acoustic Management feature set" },
{ ATAPI_CMD2_SM, "Set Max security extension commands" },
{ ATAPI_CMD2_SF, "Set Features subcommand required" },
{ ATAPI_CMD2_PUIS, "Power-up in standby feature set" },
{ WDC_CMD2_RMSN, "Removable Media Status Notification feature set" },
{ ATA_CMD2_APM, "Advanced Power Management feature set" },
{ ATA_CMD2_CFA, "CFA feature set" },
{ ATA_CMD2_RWQ, "READ/WRITE DMA QUEUED commands" },
{ WDC_CMD2_DM, "DOWNLOAD MICROCODE command" },
{ NULL, NULL },
};
struct bitinfo ata_cmd_ext[] = {
{ ATAPI_CMDE_IIUF, "IDLE IMMEDIATE with UNLOAD FEATURE" },
{ ATAPI_CMDE_MSER, "Media serial number" },
{ ATAPI_CMDE_TEST, "SMART self-test" },
{ ATAPI_CMDE_SLOG, "SMART error logging" },
{ NULL, NULL },
};
/*
* Tables containing bitmasks and values used for
* SMART commands.
*/
struct bitinfo smart_offcap[] = {
{ SMART_OFFCAP_EXEC, "execute immediate" },
{ SMART_OFFCAP_ABORT, "abort/restart" },
{ SMART_OFFCAP_READSCAN, "read scanning" },
{ SMART_OFFCAP_SELFTEST, "self-test routines" },
{ 0, NULL}
};
struct bitinfo smart_smartcap[] = {
{ SMART_SMARTCAP_SAVE, "saving SMART data" },
{ SMART_SMARTCAP_AUTOSAVE, "enable/disable attribute autosave" },
{ 0, NULL }
};
struct valinfo smart_autosave[] = {
{ SMART_AUTOSAVE_EN, "enable" },
{ SMART_AUTOSAVE_DS, "disable" },
{ 0, NULL }
};
struct valinfo smart_offline[] = {
{ SMART_OFFLINE_COLLECT, "collect" },
{ SMART_OFFLINE_SHORTOFF, "shortoffline" },
{ SMART_OFFLINE_EXTENOFF, "extenoffline" },
{ SMART_OFFLINE_ABORT, "abort" },
{ SMART_OFFLINE_SHORTCAP, "shortcaptive" },
{ SMART_OFFLINE_EXTENCAP, "extencaptive" },
{ 0, NULL }
};
struct valinfo smart_readlog[] = {
{ SMART_READLOG_DIR, "directory" },
{ SMART_READLOG_SUM, "summary" },
{ SMART_READLOG_COMP, "comp" },
{ SMART_READLOG_SELF, "selftest" },
{ 0, NULL }
};
struct valinfo smart_offstat[] = {
{ SMART_OFFSTAT_NOTSTART, "never started" },
{ SMART_OFFSTAT_COMPLETE, "completed ok" },
{ SMART_OFFSTAT_SUSPEND, "suspended by an interrupting command" },
{ SMART_OFFSTAT_INTR, "aborted by an interrupting command" },
{ SMART_OFFSTAT_ERROR, "aborted due to fatal error" },
{ 0, NULL }
};
struct valinfo smart_selfstat[] = {
{ SMART_SELFSTAT_COMPLETE, "completed ok or not started" },
{ SMART_SELFSTAT_ABORT, "aborted" },
{ SMART_SELFSTAT_INTR, "hardware or software reset" },
{ SMART_SELFSTAT_ERROR, "fatal error" },
{ SMART_SELFSTAT_UNKFAIL, "unknown test element failed" },
{ SMART_SELFSTAT_ELFAIL, "electrical test element failed" },
{ SMART_SELFSTAT_SRVFAIL, "servo test element failed" },
{ SMART_SELFSTAT_RDFAIL, "read test element failed" },
{ 0, NULL }
};
struct valinfo smart_logstat[] = {
{ SMART_LOG_STATE_UNK, "unknown" },
{ SMART_LOG_STATE_SLEEP, "sleep" },
{ SMART_LOG_STATE_ACTIDL, "active/idle" },
{ SMART_LOG_STATE_OFFSELF, "off-line or self-test" },
{ 0, NULL }
};
/*
* Tables containing values used for reading
* device attributes.
*/
struct valinfo ibm_attr_names[] = {
{ 1, "Raw Read Error Rate" },
{ 2, "Throughput Performance" },
{ 3, "Spin Up Time" },
{ 4, "Start/Stop Count" },
{ 5, "Reallocated Sector Count" },
{ 7, "Seek Error Rate" },
{ 8, "Seek Time Performance" },
{ 9, "Power-on Hours Count" },
{ 10, "Spin Retry Count" },
{ 12, "Device Power Cycle Count" },
{ 192, "Power-off Retract Count" },
{ 193, "Load Cycle Count" },
{ 194, "Temperature" },
{ 196, "Reallocation Event Count" },
{ 197, "Current Pending Sector Count" },
{ 198, "Off-line Scan Uncorrectable Sector Count" },
{ 199, "Ultra DMA CRC Error Count" },
{ 0, NULL },
};
#define MAKEWORD(b1, b2) \
(b2 << 8 | b1)
#define MAKEDWORD(b1, b2, b3, b4) \
(b4 << 24 | b3 << 16 | b2 << 8 | b1)
int
main(int argc, char *argv[])
{
struct command *cmdp;
char dvname_store[MAXPATHLEN];
if (argc < 2)
usage();
/*
* Open the device
*/
fd = opendisk(argv[1], O_RDWR, dvname_store, sizeof(dvname_store), 0);
if (fd == -1) {
if (errno == ENOENT) {
/*
* Device doesn't exist. Probably trying to open
* a device which doesn't use disk semantics for
* device name. Try again, specifying "cooked",
* which leaves off the "r" in front of the device's
* name.
*/
fd = opendisk(argv[1], O_RDWR, dvname_store,
sizeof(dvname_store), 1);
if (fd == -1)
err(1, "%s", argv[1]);
} else
err(1, "%s", argv[1]);
}
/* Skip program name and device name. */
if (argc != 2) {
argv += 2;
argc -= 2;
} else {
argv[1] = "identify";
argv += 1;
argc -= 1;
}
/* Look up and call the command. */
for (cmdp = commands; cmdp->cmd_name != NULL; cmdp++)
if (strcmp(argv[0], cmdp->cmd_name) == 0)
break;
if (cmdp->cmd_name == NULL)
errx(1, "unknown command: %s", argv[0]);
(cmdp->cmd_func)(argc, argv);
return (0);
}
__dead void
usage(void)
{
fprintf(stderr, "usage: %s <device> <command> [arg [...]]\n",
__progname);
exit(1);
}
/*
* Wrapper that calls ATAIOCCOMMAND and checks for errors
*/
void
ata_command(struct atareq *req)
{
if (ioctl(fd, ATAIOCCOMMAND, req) == -1)
err(1, "ATAIOCCOMMAND failed");
switch (req->retsts) {
case ATACMD_OK:
return;
case ATACMD_TIMEOUT:
errx(1, "ATA command timed out");
case ATACMD_DF:
errx(1, "ATA device returned a Device Fault");
case ATACMD_ERROR:
if (req->error & WDCE_ABRT)
errx(1, "ATA device returned Aborted Command");
else
errx(1, "ATA device returned error register %0x",
req->error);
default:
errx(1, "ATAIOCCOMMAND returned unknown result code %d",
req->retsts);
}
}
/*
* Print out strings associated with particular bitmasks
*/
void
print_bitinfo(const char *f, u_int bits, struct bitinfo *binfo)
{
for (; binfo->bitmask != NULL; binfo++)
if (bits & binfo->bitmask)
printf(f, binfo->string);
}
/*
* strtoval():
* returns value associated with given string,
* if no value found -1 is returned.
*/
int
strtoval(const char *str, struct valinfo *vinfo)
{
for (; vinfo->string != NULL; vinfo++)
if (strcmp(str, vinfo->string) == 0)
return (vinfo->value);
return (-1);
}
/*
* valtostr():
* returns string associated with given value,
* if no string found NULL is returned.
*/
const char *
valtostr(int val, struct valinfo *vinfo)
{
for (; vinfo->string != NULL; vinfo++)
if (val == vinfo->value)
return (vinfo->string);
return (NULL);
}
/*
* DEVICE COMMANDS
*/
/*
* device dump:
*
* extract issued ATA requests from the log buffer
*/
void
device_dump(int argc, char *argv[])
{
unsigned char buf[131072];
atagettrace_t agt;
int total;
int p = 0;
int type;
const char *types[] = { NULL, "status", "error", "ATAPI",
"ATAPI done", "ATA cmd", "ATA", "select slave",
"select master", "register read", "ATA LBA48" };
int num_types = sizeof(types) / sizeof(types[0]);
int info;
int entrysize;
int i;
int flags;
if (argc != 1)
goto usage;
memset(&agt, 0, sizeof(agt));
agt.buf_size = sizeof(buf);
agt.buf = buf;
if (ioctl(fd, ATAIOGETTRACE, &agt) == -1)
err(1, "ATAIOGETTRACE failed");
total = agt.bytes_copied;
/* Parse entries */
while (p < total) {
type = buf[p++];
if (p >= total)
return;
if (type <= 0 || type >= num_types)
return;
info = buf[p++];
if (p >= total)
return;
entrysize = (info & 0x1f);
printf ("ch %d", (info >> 5) & 0x7);
printf(": %s", types[type]);
switch (type) {
case WDCEVENT_STATUS:
if (entrysize != 1)
return;
printf(": 0x%x", buf[p]);
if (buf[p] & WDCS_BSY)
printf(" BSY");
if (buf[p] & WDCS_DRDY)
printf(" DRDY");
if (buf[p] & WDCS_DWF)
printf(" DWF");
if (buf[p] & WDCS_DSC)
printf(" DSC");
if (buf[p] & WDCS_DRQ)
printf(" DRQ");
if (buf[p] & WDCS_CORR)
printf(" CORR");
if (buf[p] & WDCS_IDX)
printf(" IDX");
if (buf[p] & WDCS_ERR)
printf(" ERR");
p++;
entrysize = 0;
break;
case WDCEVENT_ERROR:
if (entrysize != 1)
return;
printf(": 0x%x", buf[p]);
if (buf[p] & WDCE_BBK)
printf(" BBK/CRC");
if (buf[p] & WDCE_UNC)
printf(" UNC");
if (buf[p] & WDCE_MC)
printf(" MC");
if (buf[p] & WDCE_IDNF)
printf(" IDNF");
if (buf[p] & WDCE_MCR)
printf(" MCR");
if (buf[p] & WDCE_ABRT)
printf(" ABRT");
if (buf[p] & WDCE_TK0NF)
printf(" TK0NF");
if (buf[p] & WDCE_AMNF)
printf(" AMNF");
p++;
entrysize = 0;
break;
case WDCEVENT_ATAPI_CMD:
if (entrysize < 2 || p + 2 > total)
return;
flags = (buf[p] << 8) + buf[p + 1];
printf(": flags 0x%x", flags);
if (flags & 0x0100)
printf(" MEDIA");
if (flags & 0x0080)
printf(" SENSE");
if (flags & 0x0040)
printf(" DMA");
if (flags & 0x0020)
printf(" POLL");
if (flags & 0x0004)
printf(" TIMEOUT");
if (flags & 0x0002)
printf(" ATAPI");
p += 2;
entrysize -= 2;
break;
case WDCEVENT_ATAPI_DONE:
if (entrysize != 3 || p + 3 > total)
return;
flags = (buf[p] << 8) + buf[p + 1];
printf(": flags 0x%x", flags);
if (flags & 0x0100)
printf(" MEDIA");
if (flags & 0x0080)
printf(" SENSE");
if (flags & 0x0040)
printf(" DMA");
if (flags & 0x0020)
printf(" POLL");
if (flags & 0x0004)
printf(" TIMEOUT");
if (flags & 0x0002)
printf(" ATAPI");
printf(", error 0x%x", buf[p + 2]);
switch (buf[p + 2]) {
case 1:
printf(" (sense)");
break;
case 2:
printf(" (driver failure)");
break;
case 3:
printf(" (timeout)");
break;
case 4:
printf(" (busy)");
break;
case 5:
printf(" (ATAPI sense)");
break;
case 8:
printf(" (reset)");
break;
}
p += 3;
entrysize = 0;
break;
case WDCEVENT_ATA_LONG:
if (entrysize != 7 || p + 7 > total)
return;
printf(": ");
switch (buf[p + 6]) {
case WDCC_READDMA:
printf("READ DMA");
break;
case WDCC_WRITEDMA:
printf("WRITE DMA");
break;
default:
printf("CMD 0x%x", buf[p + 6]);
}
printf(" head %d, precomp %d, cyl_hi %d, "
"cyl_lo %d, sec %d, cnt %d",
buf[p], buf[p + 1], buf[p + 2], buf[p + 3],
buf[p + 4], buf[p + 5]);
p += 7;
entrysize = 0;
break;
case WDCEVENT_REG:
if (entrysize != 3 || p + 3 > total)
return;
switch (buf[p]) {
case 1:
printf(": error");
break;
case 2:
printf(": ireason");
break;
case 3:
printf(": lba_lo");
break;
case 4:
printf(": lba_mi");
break;
case 5:
printf(": lba_hi");
break;
case 6:
printf(": sdh");
break;
case 7:
printf(": status");
break;
case 8:
printf(": altstatus");
break;
default:
printf(": unknown register %d", buf[p]);
}
printf(": 0x%x", (buf[p + 1] << 8) + buf[p + 2]);
p += 3;
entrysize = 0;
break;
case WDCEVENT_ATA_EXT:
if (entrysize != 9 || p + 9 > total)
return;
printf(": ");
switch (buf[p + 8]) {
case WDCC_READDMA_EXT:
printf("READ DMA EXT");
break;
case WDCC_WRITEDMA_EXT:
printf("WRITE DMA EXT");
break;
default:
printf("CMD 0x%x", buf[p + 8]);
}
printf(" lba_hi1 %d, lba_hi2 %d, "
"lba_mi1 %d, lba_mi2 %d, lba_lo1 %d, lba_lo2 %d, "
"count1 %d, count2 %d",
buf[p], buf[p + 1], buf[p + 2], buf[p + 3],
buf[p + 4], buf[p + 5], buf[p + 6],
buf[p + 7]);
p += 9;
entrysize = 0;
break;
}
if (entrysize > 0)
printf(":");
for (i = 0; i < entrysize; i++) {
printf (" 0x%02x", buf[p]);
if (++p >= total)
break;
}
printf("\n");
}
return;
usage:
fprintf(stderr, "usage: %s <device> %s\n", __progname, argv[0]);
exit(1);
}
/*
* device_identify:
*
* Display the identity of the device
*/
void
device_identify(int argc, char *argv[])
{
struct ataparams *inqbuf;
struct atareq req;
char inbuf[DEV_BSIZE], *s;
u_int64_t capacity;
if (argc != 1)
goto usage;
memset(&inbuf, 0, sizeof(inbuf));
memset(&req, 0, sizeof(req));
inqbuf = (struct ataparams *) inbuf;
req.flags = ATACMD_READ;
req.command = WDCC_IDENTIFY;
req.databuf = (caddr_t) inbuf;
req.datalen = sizeof(inbuf);
req.timeout = 1000;
ata_command(&req);
if (BYTE_ORDER == BIG_ENDIAN) {
swap16_multi((u_int16_t *)inbuf, 10);
swap16_multi(((u_int16_t *)inbuf) + 20, 3);
swap16_multi(((u_int16_t *)inbuf) + 47, sizeof(inbuf) / 2 - 47);
}
if (!((inqbuf->atap_config & WDC_CFG_ATAPI_MASK) == WDC_CFG_ATAPI &&
((inqbuf->atap_model[0] == 'N' &&
inqbuf->atap_model[1] == 'E') ||
(inqbuf->atap_model[0] == 'F' &&
inqbuf->atap_model[1] == 'X')))) {
swap16_multi((u_int16_t *)(inqbuf->atap_model),
sizeof(inqbuf->atap_model) / 2);
swap16_multi((u_int16_t *)(inqbuf->atap_serial),
sizeof(inqbuf->atap_serial) / 2);
swap16_multi((u_int16_t *)(inqbuf->atap_revision),
sizeof(inqbuf->atap_revision) / 2);
}
/*
* Strip blanks off of the info strings.
*/
for (s = &inqbuf->atap_model[sizeof(inqbuf->atap_model) - 1];
s >= (char *)inqbuf->atap_model && *s == ' '; s--)
*s = '\0';
for (s = &inqbuf->atap_revision[sizeof(inqbuf->atap_revision) - 1];
s >= (char *)inqbuf->atap_revision && *s == ' '; s--)
*s = '\0';
for (s = &inqbuf->atap_serial[sizeof(inqbuf->atap_serial) - 1];
s >= (char *)inqbuf->atap_serial && *s == ' '; s--)
*s = '\0';
printf("Model: %.*s, Rev: %.*s, Serial #: %.*s\n",
(int) sizeof(inqbuf->atap_model), inqbuf->atap_model,
(int) sizeof(inqbuf->atap_revision), inqbuf->atap_revision,
(int) sizeof(inqbuf->atap_serial), inqbuf->atap_serial);
printf("Device type: %s, %s\n", inqbuf->atap_config & WDC_CFG_ATAPI ?
"ATAPI" : "ATA", inqbuf->atap_config & ATA_CFG_FIXED ? "fixed" :
"removable");
if (inqbuf->atap_cmd2_en & ATAPI_CMD2_48AD)
capacity = ((u_int64_t)inqbuf->atap_max_lba[3] << 48) |
((u_int64_t)inqbuf->atap_max_lba[2] << 32) |
((u_int64_t)inqbuf->atap_max_lba[1] << 16) |
(u_int64_t)inqbuf->atap_max_lba[0];
else
capacity = (inqbuf->atap_capacity[1] << 16) |
inqbuf->atap_capacity[0];
printf("Cylinders: %d, heads: %d, sec/track: %d, total "
"sectors: %llu\n", inqbuf->atap_cylinders,
inqbuf->atap_heads, inqbuf->atap_sectors, capacity);
if ((inqbuf->atap_cmd_set2 & ATA_CMD2_RWQ) &&
(inqbuf->atap_queuedepth & WDC_QUEUE_DEPTH_MASK))
printf("Device supports command queue depth of %d\n",
(inqbuf->atap_queuedepth & WDC_QUEUE_DEPTH_MASK) + 1);
printf("Device capabilities:\n");
print_bitinfo("\t%s\n", inqbuf->atap_capabilities1, ata_caps);
if (inqbuf->atap_ata_major != 0 && inqbuf->atap_ata_major != 0xffff) {
printf("Device supports the following standards:\n");
print_bitinfo("%s ", inqbuf->atap_ata_major, ata_vers);
printf("\n");
}
if ((inqbuf->atap_cmd_set1 & WDC_CMD1_SEC) &&
inqbuf->atap_mpasswd_rev != 0 &&
inqbuf->atap_mpasswd_rev != 0xffff)
printf("Master password revision code 0x%04x\n",
inqbuf->atap_mpasswd_rev);
if (inqbuf->atap_cmd_set1 != 0 && inqbuf->atap_cmd_set1 != 0xffff &&
inqbuf->atap_cmd_set2 != 0 && inqbuf->atap_cmd_set2 != 0xffff) {
printf("Device supports the following command sets:\n");
print_bitinfo("\t%s\n", inqbuf->atap_cmd_set1, ata_cmd_set1);
print_bitinfo("\t%s\n", inqbuf->atap_cmd_set2, ata_cmd_set2);
print_bitinfo("\t%s\n", inqbuf->atap_cmd_ext, ata_cmd_ext);
}
if (inqbuf->atap_cmd_def != 0 && inqbuf->atap_cmd_def != 0xffff) {
printf("Device has enabled the following command "
"sets/features:\n");
print_bitinfo("\t%s\n", inqbuf->atap_cmd1_en, ata_cmd_set1);
print_bitinfo("\t%s\n", inqbuf->atap_cmd2_en, ata_cmd_set2);
}
return;
usage:
fprintf(stderr, "usage: %s <device> %s\n", __progname, argv[0]);
exit(1);
}
/*
* device idle:
*
* issue the IDLE IMMEDIATE command to the drive
*/
void
device_idle(int argc, char *argv[])
{
struct atareq req;
if (argc != 1)
goto usage;
memset(&req, 0, sizeof(req));
if (strcmp(argv[0], "idle") == 0)
req.command = WDCC_IDLE_IMMED;
else if (strcmp(argv[0], "standby") == 0)
req.command = WDCC_STANDBY_IMMED;
else
req.command = WDCC_SLEEP;
req.timeout = 1000;
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s\n", __progname, argv[0]);
exit(1);
}
/*
* SECURITY SET PASSWORD command
*/
void
device_sec_setpass(int argc, char *argv[])
{
struct atareq req;
struct sec_password pwd;
char *pass, inbuf[DEV_BSIZE];
struct ataparams *inqbuf = (struct ataparams *)inbuf;
if (argc < 2)
goto usage;
memset(&pwd, 0, sizeof(pwd));
if (strcmp(argv[1], "user") == 0 && argc == 3)
pwd.ctrl |= SEC_PASSWORD_USER;
else if (strcmp(argv[1], "master") == 0 && argc == 2)
pwd.ctrl |= SEC_PASSWORD_MASTER;
else
goto usage;
if (argc == 3) {
if (strcmp(argv[2], "high") == 0)
pwd.ctrl |= SEC_LEVEL_HIGH;
else if (strcmp(argv[2], "maximum") == 0)
pwd.ctrl |= SEC_LEVEL_MAX;
else
goto usage;
}
/*
* Issue IDENTIFY command to obtain master password
* revision code and decrement its value.
* The valid revision codes are 0x0001 through 0xfffe.
* If the device returns 0x0000 or 0xffff as a revision
* code then the master password revision code is not
* supported so don't touch it.
*/
memset(&inbuf, 0, sizeof(inbuf));
memset(&req, 0, sizeof(req));
req.command = WDCC_IDENTIFY;
req.timeout = 1000;
req.flags = ATACMD_READ;
req.databuf = (caddr_t)inbuf;
req.datalen = sizeof(inbuf);
ata_command(&req);
pwd.revision = inqbuf->atap_mpasswd_rev;
if (pwd.revision != 0 && pwd.revision != 0xffff && --pwd.revision == 0)
pwd.revision = 0xfffe;
pass = sec_getpass(pwd.ctrl & SEC_PASSWORD_MASTER, 1);
memcpy(pwd.password, pass, strlen(pass));
memset(&req, 0, sizeof(req));
req.command = ATA_SEC_SET_PASSWORD;
req.timeout = 1000;
req.flags = ATACMD_WRITE;
req.databuf = (caddr_t)&pwd;
req.datalen = sizeof(pwd);
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s user high | maximum\n",
__progname, argv[0]);
fprintf(stderr, "usage: %s <device> %s master\n", __progname, argv[0]);
exit(1);
}
/*
* SECURITY UNLOCK command
*/
void
device_sec_unlock(int argc, char *argv[])
{
struct atareq req;
struct sec_password pwd;
char *pass;
if (argc != 2)
goto usage;
memset(&pwd, 0, sizeof(pwd));
if (strcmp(argv[1], "user") == 0)
pwd.ctrl |= SEC_PASSWORD_USER;
else if (strcmp(argv[1], "master") == 0)
pwd.ctrl |= SEC_PASSWORD_MASTER;
else
goto usage;
pass = sec_getpass(pwd.ctrl & SEC_PASSWORD_MASTER, 0);
memcpy(pwd.password, pass, strlen(pass));
memset(&req, 0, sizeof(req));
req.command = ATA_SEC_UNLOCK;
req.timeout = 1000;
req.flags = ATACMD_WRITE;
req.databuf = (caddr_t)&pwd;
req.datalen = sizeof(pwd);
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s user | master\n", __progname,
argv[0]);
exit(1);
}
/*
* SECURITY ERASE UNIT command
*/
void
device_sec_erase(int argc, char *argv[])
{
struct atareq req;
struct sec_password pwd;
char *pass;
if (argc < 2)
goto usage;
memset(&pwd, 0, sizeof(pwd));
if (strcmp(argv[1], "user") == 0)
pwd.ctrl |= SEC_PASSWORD_USER;
else if (strcmp(argv[1], "master") == 0)
pwd.ctrl |= SEC_PASSWORD_MASTER;
else
goto usage;
if (argc == 2)
pwd.ctrl |= SEC_ERASE_NORMAL;
else if (argc == 3 && strcmp(argv[2], "enhanced") == 0)
pwd.ctrl |= SEC_ERASE_ENHANCED;
else
goto usage;
pass = sec_getpass(pwd.ctrl & SEC_PASSWORD_MASTER, 0);
memcpy(pwd.password, pass, strlen(pass));
/* Issue SECURITY ERASE PREPARE command before */
memset(&req, 0, sizeof(req));
req.command = ATA_SEC_ERASE_PREPARE;
req.timeout = 1000;
ata_command(&req);
memset(&req, 0, sizeof(req));
req.command = ATA_SEC_ERASE_UNIT;
req.timeout = 1000;
req.flags = ATACMD_WRITE;
req.databuf = (caddr_t)&pwd;
req.datalen = sizeof(pwd);
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s user | master [enhanced]\n",
__progname, argv[0]);
exit(1);
}
/*
* SECURITY FREEZE LOCK command
*/
void
device_sec_freeze(int argc, char *argv[])
{
struct atareq req;
if (argc != 1)
goto usage;
memset(&req, 0, sizeof(req));
req.command = ATA_SEC_FREEZE_LOCK;
req.timeout = 1000;
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s\n", __progname, argv[0]);
exit(1);
}
/*
* SECURITY DISABLE PASSWORD command
*/
void
device_sec_disablepass(int argc, char *argv[])
{
struct atareq req;
struct sec_password pwd;
char *pass;
if (argc != 2)
goto usage;
memset(&pwd, 0, sizeof(pwd));
if (strcmp(argv[1], "user") == 0)
pwd.ctrl |= SEC_PASSWORD_USER;
else if (strcmp(argv[1], "master") == 0)
pwd.ctrl |= SEC_PASSWORD_MASTER;
else
goto usage;
pass = sec_getpass(pwd.ctrl & SEC_PASSWORD_MASTER, 0);
memcpy(pwd.password, pass, strlen(pass));
memset(&req, 0, sizeof(req));
req.command = ATA_SEC_DISABLE_PASSWORD;
req.timeout = 1000;
req.flags = ATACMD_WRITE;
req.databuf = (caddr_t)&pwd;
req.datalen = sizeof(pwd);
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s user | master\n", __progname,
argv[0]);
exit(1);
}
char *
sec_getpass(int ident, int confirm)
{
char *pass, buf[33];
if ((pass = getpass(ident ? "Master password:" :
"User password:")) == NULL)
err(1, "getpass()");
if (strlen(pass) > 32)
errx(1, "password too long");
if (confirm) {
strlcpy(buf, pass, sizeof(buf));
if ((pass = getpass(ident ? "Retype master password:" :
"Retype user password:")) == NULL)
err(1, "getpass()");
if (strcmp(pass, buf) != 0)
errx(1, "password mismatch");
}
return (pass);
}
/*
* SMART ENABLE OPERATIONS command
*/
void
device_smart_enable(int argc, char *argv[])
{
struct atareq req;
if (argc != 1)
goto usage;
memset(&req, 0, sizeof(req));
req.command = ATAPI_SMART;
req.cylinder = 0xc24f;
req.timeout = 1000;
req.features = ATA_SMART_EN;
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s\n", __progname, argv[0]);
exit(1);
}
/*
* SMART DISABLE OPERATIONS command
*/
void
device_smart_disable(int argc, char *argv[])
{
struct atareq req;
if (argc != 1)
goto usage;
memset(&req, 0, sizeof(req));
req.command = ATAPI_SMART;
req.cylinder = 0xc24f;
req.timeout = 1000;
req.features = ATA_SMART_DS;
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s\n", __progname, argv[0]);
exit(1);
}
/*
* SMART STATUS command
*/
void
device_smart_status(int argc, char *argv[])
{
struct atareq req;
if (argc != 1)
goto usage;
memset(&req, 0, sizeof(req));
req.command = ATAPI_SMART;
req.cylinder = 0xc24f;
req.timeout = 1000;
req.features = ATA_SMART_STATUS;
ata_command(&req);
if (req.cylinder == 0xc24f)
printf("No SMART threshold exceeded\n");
else if (req.cylinder == 0x2cf4) {
errx(2, "SMART threshold exceeded!");
} else {
errx(1, "Unknown response %02x!", req.cylinder);
}
return;
usage:
fprintf(stderr, "usage: %s <device> %s\n", __progname, argv[0]);
exit(1);
}
/*
* SMART ENABLE/DISABLE ATTRIBUTE AUTOSAVE command
*/
void
device_smart_autosave(int argc, char *argv[])
{
struct atareq req;
int val;
if (argc != 2)
goto usage;
memset(&req, 0, sizeof(req));
req.command = ATAPI_SMART;
req.cylinder = 0xc24f;
req.timeout = 1000;
req.features = ATA_SMART_AUTOSAVE;
if ((val = strtoval(argv[1], smart_autosave)) == -1)
goto usage;
req.sec_num = val;
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s enable | disable\n", __progname,
argv[0]);
exit(1);
}
/*
* SMART EXECUTE OFF-LINE IMMEDIATE command
*/
void
device_smart_offline(int argc, char *argv[])
{
struct atareq req;
int val;
if (argc != 2)
goto usage;
memset(&req, 0, sizeof(req));
req.command = ATAPI_SMART;
req.cylinder = 0xc24f;
req.timeout = 1000;
req.features = ATA_SMART_OFFLINE;
if ((val = strtoval(argv[1], smart_offline)) == -1)
goto usage;
req.sec_num = val;
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s <subcommand>\n", __progname,
argv[0]);
exit(1);
}
/*
* SMART READ DATA command
*/
void
device_smart_read(int argc, char *argv[])
{
struct atareq req;
struct smart_read data;
if (argc != 1)
goto usage;
memset(&req, 0, sizeof(req));
memset(&data, 0, sizeof(data));
req.command = ATAPI_SMART;
req.cylinder = 0xc24f;
req.timeout = 1000;
req.features = ATA_SMART_READ;
req.flags = ATACMD_READ;
req.databuf = (caddr_t)&data;
req.datalen = sizeof(data);
ata_command(&req);
if (smart_cksum((u_int8_t *)&data, sizeof(data)) != 0)
errx(1, "Checksum mismatch");
printf("Off-line data collection:\n");
printf(" status: %s\n",
valtostr(data.offstat & 0x7f, smart_offstat));
printf(" activity completion time: %d seconds\n",
letoh16(data.time));
printf(" capabilities:\n");
print_bitinfo("\t%s\n", data.offcap, smart_offcap);
printf("Self-test execution:\n");
printf(" status: %s\n", valtostr(SMART_SELFSTAT_STAT(data.selfstat),
smart_selfstat));
if (SMART_SELFSTAT_STAT(data.selfstat) == SMART_SELFSTAT_PROGRESS)
printf("remains %d%% of total time\n",
SMART_SELFSTAT_PCNT(data.selfstat));
printf(" recommended polling time:\n");
printf("\tshort routine: %d minutes\n", data.shtime);
printf("\textended routine: %d minutes\n", data.extime);
printf("SMART capabilities:\n");
print_bitinfo(" %s\n", letoh16(data.smartcap), smart_smartcap);
printf("Error logging: ");
if (data.errcap & SMART_ERRCAP_ERRLOG)
printf("supported\n");
else
printf("not supported\n");
return;
usage:
fprintf(stderr, "usage: %s <device> %s\n", __progname, argv[0]);
exit(1);
}
/*
* SMART READ LOG command
*/
void
device_smart_readlog(int argc, char *argv[])
{
struct atareq req;
int val;
u_int8_t inbuf[DEV_BSIZE];
if (argc != 2)
goto usage;
memset(&req, 0, sizeof(req));
memset(&inbuf, 0, sizeof(inbuf));
req.command = ATAPI_SMART;
req.cylinder = 0xc24f;
req.timeout = 1000;
req.features = ATA_SMART_READLOG;
req.flags = ATACMD_READ;
req.sec_count = 1;
req.databuf = (caddr_t)inbuf;
req.datalen = sizeof(inbuf);
if ((val = strtoval(argv[1], smart_readlog)) == -1)
goto usage;
req.sec_num = val;
ata_command(&req);
if (strcmp(argv[1], "directory") == 0) {
struct smart_log_dir *data = (struct smart_log_dir *)inbuf;
int i;
if (data->version != SMART_LOG_MSECT) {
printf("Device doesn't support multi-sector logs\n");
return;
}
for (i = 0; i < 255; i++)
printf("Log address %d: %d sectors\n", i + 1,
data->entry[i].sec_num);
} else if (strcmp(argv[1], "summary") == 0) {
struct smart_log_sum *data = (struct smart_log_sum *)inbuf;
int i, n, nerr;
if (smart_cksum(inbuf, sizeof(inbuf)) != 0)
errx(1, "Checksum mismatch");
if (data->index == 0) {
printf("No log entries\n");
return;
}
nerr = letoh16(data->err_cnt);
printf("Error count: %d\n\n", nerr);
/*
* Five error log data structures form a circular
* buffer. data->index points to the most recent
* record and err_cnt contains total error number.
* We pass from the most recent record to the
* latest one.
*/
i = data->index - 1;
n = 0;
do {
printf("Error %d:\n", n + 1);
smart_print_errdata(&data->errdata[i--]);
if (i == -1)
i = 4;
} while (++n < (nerr > 5 ? 5 : nerr));
} else if (strcmp(argv[1], "comp") == 0) {
struct smart_log_comp *data = (struct smart_log_comp *)inbuf;
u_int8_t *newbuf;
int i, n, nerr, nsect;
if (smart_cksum(inbuf, sizeof(inbuf)) != 0)
errx(1, "Checksum mismatch");
if (data->index == 0) {
printf("No log entries\n");
return;
}
i = data->index - 1;
nerr = letoh16(data->err_cnt);
printf("Error count: %d\n", nerr);
/*
* From the first sector we obtain total error number
* and calculate necessary number of sectors to read.
* All read error data structures form a circular
* buffer and we pass from the most recent record to
* the latest one.
*/
nsect = nerr / 5 + (nerr % 5 != 0 ? 1 : 0);
if ((newbuf = (u_int8_t *)malloc(nsect * DEV_BSIZE)) == NULL)
err(1, "malloc()");
memset(&req, 0, sizeof(req));
req.flags = ATACMD_READ;
req.command = ATAPI_SMART;
req.features = ATA_SMART_READLOG;
req.sec_count = nsect;
req.sec_num = SMART_READLOG_COMP;
req.cylinder = 0xc24f;
req.databuf = (caddr_t)newbuf;
req.datalen = nsect * DEV_BSIZE;
req.timeout = 1000;
ata_command(&req);
n = 0;
data = (struct smart_log_comp *)
(newbuf + (nsect - 1) * DEV_BSIZE);
do {
printf("Error %d:\n", n + 1);
smart_print_errdata(&data->errdata[i-- % 5]);
if (i == -1)
i = 254;
if (i % 5 == 4)
data = (struct smart_log_comp *)
(newbuf + (i / 5) * DEV_BSIZE);
} while (++n < nerr);
} else if (strcmp(argv[1], "selftest") == 0) {
struct smart_log_self *data = (struct smart_log_self *)inbuf;
int i, n;
if (smart_cksum(inbuf, sizeof(inbuf)) != 0)
errx(1, "Checksum mismatch");
if (data->index == 0) {
printf("No log entries\n");
return;
}
/* circular buffer of 21 entries */
i = data->index - 1;
n = 0;
do {
/* don't print empty entries */
if ((data->desc[i].time1 | data->desc[i].time2) == 0)
break;
printf("Test %d\n", n + 1);
printf(" LBA Low: 0x%x\n", data->desc[i].reg_lbalo);
printf(" status: %s\n",
valtostr(SMART_SELFSTAT_STAT(
data->desc[i].selfstat),
smart_selfstat));
printf(" timestamp: %d\n",
MAKEWORD(data->desc[i].time1,
data->desc[i].time2));
printf(" failure checkpoint byte: 0x%x\n",
data->desc[i].chkpnt);
printf(" failing LBA: 0x%x\n",
MAKEDWORD(data->desc[i].lbafail1,
data->desc[i].lbafail2,
data->desc[i].lbafail3,
data->desc[i].lbafail4));
if (--i == -1)
i = 20;
} while (++n < 21);
}
return;
usage:
fprintf(stderr, "usage: %s <device> %s <log>\n", __progname, argv[0]);
exit(1);
}
#define SMART_PRINTREG(str, reg) \
printf(str "0x%02x\t0x%02x\t0x%02x\t0x%02x\t0x%02x\n", \
data->cmd[0].reg, \
data->cmd[1].reg, \
data->cmd[2].reg, \
data->cmd[3].reg, \
data->cmd[4].reg)
void
smart_print_errdata(struct smart_log_errdata *data)
{
printf(" error register: 0x%x\n", data->err.reg_err);
printf(" sector count register: 0x%x\n", data->err.reg_seccnt);
printf(" LBA Low register: 0x%x\n", data->err.reg_lbalo);
printf(" LBA Mid register: 0x%x\n", data->err.reg_lbamid);
printf(" LBA High register: 0x%x\n", data->err.reg_lbahi);
printf(" device register: 0x%x\n", data->err.reg_dev);
printf(" status register: 0x%x\n", data->err.reg_stat);
printf(" state: %s\n", valtostr(data->err.state, smart_logstat));
printf(" timestamp: %d\n", MAKEWORD(data->err.time1,
data->err.time2));
printf(" history:\n");
SMART_PRINTREG("\tcontrol register:\t", reg_ctl);
SMART_PRINTREG("\tfeatures register:\t", reg_feat);
SMART_PRINTREG("\tsector count register:\t", reg_seccnt);
SMART_PRINTREG("\tLBA Low register:\t", reg_lbalo);
SMART_PRINTREG("\tLBA Mid register:\t", reg_lbamid);
SMART_PRINTREG("\tLBA High register:\t", reg_lbahi);
SMART_PRINTREG("\tdevice register:\t", reg_dev);
SMART_PRINTREG("\tcommand register:\t", reg_cmd);
printf("\ttimestamp:\t\t"
"%d\t%d\t%d\t%d\t%d\n",
MAKEDWORD(data->cmd[0].time1, data->cmd[0].time2,
data->cmd[0].time3, data->cmd[0].time4),
MAKEDWORD(data->cmd[1].time1, data->cmd[1].time2,
data->cmd[1].time3, data->cmd[1].time4),
MAKEDWORD(data->cmd[2].time1, data->cmd[2].time2,
data->cmd[2].time3, data->cmd[2].time4),
MAKEDWORD(data->cmd[3].time1, data->cmd[3].time2,
data->cmd[3].time3, data->cmd[3].time4),
MAKEDWORD(data->cmd[4].time1, data->cmd[4].time2,
data->cmd[4].time3, data->cmd[4].time4));
}
int
smart_cksum(u_int8_t *data, int len)
{
u_int8_t sum = 0;
int i;
for (i = 0; i < len; i++)
sum += data[i];
return (sum);
}
/*
* Read device attributes
*/
void
device_attr(int argc, char *argv[])
{
struct atareq req;
struct smart_read attr_val;
struct smart_threshold attr_thr;
struct attribute *attr;
struct threshold *thr;
const char *attr_name;
static const char hex[]="0123456789abcdef";
char raw[13], *format;
int i, k, threshold_exceeded = 0;
if (argc != 1)
goto usage;
memset(&req, 0, sizeof(req));
memset(&attr_val, 0, sizeof(attr_val)); /* XXX */
memset(&attr_thr, 0, sizeof(attr_thr)); /* XXX */
req.command = ATAPI_SMART;
req.cylinder = 0xc24f; /* LBA High = C2h, LBA Mid = 4Fh */
req.timeout = 1000;
req.features = ATA_SMART_READ;
req.flags = ATACMD_READ;
req.databuf = (caddr_t)&attr_val;
req.datalen = sizeof(attr_val);
ata_command(&req);
req.features = ATA_SMART_THRESHOLD;
req.flags = ATACMD_READ;
req.databuf = (caddr_t)&attr_thr;
req.datalen = sizeof(attr_thr);
ata_command(&req);
if (attr_val.revision != attr_thr.revision) {
/*
* Non standard vendor implementation.
* Return, since we don't know how to use this.
*/
return;
}
attr = attr_val.attribute;
thr = attr_thr.threshold;
printf("Attributes table revision: %d\n", attr_val.revision);
printf("ID\tAttribute name\t\t\tThreshold\tValue\tRaw\n");
for (i = 0; i < 30; i++) {
if (thr[i].id != 0 && thr[i].id == attr[i].id) {
attr_name = valtostr(thr[i].id, ibm_attr_names);
if (attr_name == NULL)
attr_name = "Unknown";
for (k = 0; k < 6; k++) {
u_int8_t b;
b = attr[i].raw[6 - k];
raw[k + k] = hex[b >> 4];
raw[k + k + 1] = hex[b & 0x0f];
}
raw[k + k] = '\0';
if (thr[i].value >= attr[i].value) {
++threshold_exceeded;
format = "%3d *%-32.32s %3d\t\t%3d\t0x%s\n";
} else {
format = "%3d\t%-32.32s %3d\t\t%3d\t0x%s\n";
}
printf(format, thr[i].id, attr_name,
thr[i].value, attr[i].value, raw);
}
}
if (threshold_exceeded)
fprintf(stderr, "One or more threshold values exceeded!\n");
return;
usage:
fprintf(stderr, "usage: %s <device> %s\n", __progname, argv[0]);
exit(1);
}
/*
* Set the automatic acoustic management on the disk.
*/
void
device_acoustic(int argc, char *argv[])
{
unsigned long acoustic;
struct atareq req;
char *end;
if (argc != 2)
goto usage;
acoustic = strtoul(argv[1], &end, 0);
if (*end != '\0' || acoustic > 126)
errx(1, "Invalid acoustic management value: \"%s\" "
"(valid values range from 0 to 126)", argv[1]);
memset(&req, 0, sizeof(req));
req.sec_count = acoustic + 0x80;
req.command = SET_FEATURES ;
req.features = WDSF_AAM_EN ;
req.timeout = 1000;
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s <acoustic-management-value>\n",
__progname, argv[0]);
exit(1);
}
/*
* Set the advanced power managmement on the disk. Power management
* levels are translated from user-range 0-253 to ATAPI levels 1-0xFD
* to keep a uniform interface to the user.
*/
void
device_apm(int argc, char *argv[])
{
unsigned long power;
struct atareq req;
char *end;
if (argc != 2)
goto usage;
power = strtoul(argv[1], &end, 0);
if (*end != '\0' || power > 253)
errx(1, "Invalid advanced power management value: "
"\"%s\" (valid values range from 0 to 253)", argv[1]);
memset(&req, 0, sizeof(req));
req.sec_count = power + 0x01;
req.command = SET_FEATURES ;
req.features = WDSF_APM_EN ;
req.timeout = 1000;
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s <power-management-level>\n",
__progname, argv[0]);
exit(1);
}
/*
* En/disable features (the automatic acoustic managmement, Advanced Power
* Management) on the disk.
*/
void
device_feature(int argc, char *argv[])
{
struct atareq req;
if (argc != 1)
goto usage;
memset(&req, 0, sizeof(req));
req.command = SET_FEATURES ;
if (strcmp(argv[0], "acousticdisable") == 0)
req.features = WDSF_AAM_DS;
else if (strcmp(argv[0], "readaheadenable") == 0)
req.features = WDSF_READAHEAD_EN;
else if (strcmp(argv[0], "readaheaddisable") == 0)
req.features = WDSF_READAHEAD_DS;
else if (strcmp(argv[0], "writecacheenable") == 0)
req.features = WDSF_EN_WR_CACHE;
else if (strcmp(argv[0], "writecachedisable") == 0)
req.features = WDSF_WRITE_CACHE_DS;
else if (strcmp(argv[0], "apmdisable") == 0)
req.features = WDSF_APM_DS;
else if (strcmp(argv[0], "podenable") == 0)
req.features = WDSF_POD_EN;
else if (strcmp(argv[0], "poddisable") == 0)
req.features = WDSF_POD_DS;
else if (strcmp(argv[0], "puisenable") == 0)
req.features = WDSF_PUIS_EN;
else if (strcmp(argv[0], "puisdisable") == 0)
req.features = WDSF_PUIS_DS;
else if (strcmp(argv[0], "puisspinup") == 0)
req.features = WDSF_PUIS_SPINUP;
else
goto usage;
req.timeout = 1000;
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s\n", __progname, argv[0]);
exit(1);
}
/*
* Set the idle timer on the disk. Set it for either idle mode or
* standby mode, depending on how we were invoked.
*/
void
device_setidle(int argc, char *argv[])
{
unsigned long idle;
struct atareq req;
char *end;
if (argc != 2)
goto usage;
idle = strtoul(argv[1], &end, 0);
if (*end != '\0' || idle > 19800)
errx(1, "Invalid idle time: \"%s\" "
"(valid values range from 1 to 19800)", argv[1]);
if (idle != 0 && idle < 5)
errx(1, "Idle timer must be at least 5 seconds");
memset(&req, 0, sizeof(req));
if (idle <= 240 * 5)
req.sec_count = idle / 5;
else
req.sec_count = idle / (30 * 60) + 240;
if (strcmp(argv[0], "setstandby") == 0)
req.command = WDCC_STANDBY;
else if (strcmp(argv[0], "setidle") == 0)
req.command = WDCC_IDLE;
else
goto usage;
req.timeout = 1000;
ata_command(&req);
return;
usage:
fprintf(stderr, "usage: %s <device> %s <idle-time>\n", __progname,
argv[0]);
exit(1);
}
/*
* Query the device for the current power mode
*/
void
device_checkpower(int argc, char *argv[])
{
struct atareq req;
if (argc != 1)
goto usage;
memset(&req, 0, sizeof(req));
req.command = WDCC_CHECK_PWR;
req.timeout = 1000;
req.flags = ATACMD_READREG;
ata_command(&req);
printf("Current power status: ");
switch (req.sec_count) {
case 0x00:
printf("Standby mode\n");
break;
case 0x80:
printf("Idle mode\n");
break;
case 0xff:
printf("Active mode\n");
break;
default:
printf("Unknown power code (%02x)\n", req.sec_count);
}
return;
usage:
fprintf(stderr, "usage: %s <device> %s\n", __progname, argv[0]);
exit(1);
}
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