*
* Home page of code is: http://smartmontools.sourceforge.net
*
- * Copyright (C) 2002-6 Bruce Allen <smartmontools-support@lists.sourceforge.net>
+ * Copyright (C) 2002-11 Bruce Allen <smartmontools-support@lists.sourceforge.net>
* Copyright (C) 2000 Michael Cornwell <cornwell@acm.org>
*
* Additional SCSI work:
- * Copyright (C) 2003-6 Douglas Gilbert <dougg@torque.net>
+ * Copyright (C) 2003-10 Douglas Gilbert <dgilbert@interlog.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
#include "config.h"
#include "int64.h"
-#include "extern.h"
#include "scsicmds.h"
+#include "atacmds.h" // smart_command_set
+#include "dev_interface.h"
#include "scsiprint.h"
#include "smartctl.h"
#include "utility.h"
-#include "scsiata.h"
#define GBUF_SIZE 65535
-const char* scsiprint_c_cvsid="$Id: scsiprint.cpp,v 1.118 2006/09/27 21:42:03 chrfranke Exp $"
-CONFIG_H_CVSID EXTERN_H_CVSID INT64_H_CVSID SCSICMDS_H_CVSID SCSIPRINT_H_CVSID SMARTCTL_H_CVSID UTILITY_H_CVSID;
+const char * scsiprint_c_cvsid = "$Id: scsiprint.cpp 3441 2011-10-12 17:22:15Z chrfranke $"
+ SCSIPRINT_H_CVSID;
-// control block which points to external global control variables
-extern smartmonctrl *con;
-
-// to hold onto exit code for atexit routine
-extern int exitstatus;
UINT8 gBuf[GBUF_SIZE];
#define LOG_RESP_LEN 252
-#define LOG_RESP_LONG_LEN 16384
+#define LOG_RESP_LONG_LEN ((62 * 256) + 252)
#define LOG_RESP_TAPE_ALERT_LEN 0x144
/* Log pages supported */
static int gNonMediumELPage = 0;
static int gLastNErrorLPage = 0;
static int gBackgroundResultsLPage = 0;
+static int gProtocolSpecificLPage = 0;
static int gTapeAlertsLPage = 0;
+static int gSSMediaLPage = 0;
+
+/* Vendor specific log pages */
static int gSeagateCacheLPage = 0;
static int gSeagateFactoryLPage = 0;
/* Remember last successful mode sense/select command */
static int modese_len = 0;
-// Compares failure type to policy in effect, and either exits or
-// simply returns to the calling routine.
-extern void failuretest(int type, int returnvalue);
-
-static void scsiGetSupportedLogPages(int device)
+static void scsiGetSupportedLogPages(scsi_device * device)
{
int i, err;
if ((err = scsiLogSense(device, SUPPORTED_LPAGES, 0, gBuf,
LOG_RESP_LEN, 0))) {
- if (con->reportscsiioctl > 0)
+ if (scsi_debugmode > 0)
pout("Log Sense for supported pages failed [%s]\n",
scsiErrString(err));
return;
case BACKGROUND_RESULTS_LPAGE:
gBackgroundResultsLPage = 1;
break;
+ case PROTOCOL_SPECIFIC_LPAGE:
+ gProtocolSpecificLPage = 1;
+ break;
case TAPE_ALERTS_LPAGE:
gTapeAlertsLPage = 1;
break;
+ case SS_MEDIA_LPAGE:
+ gSSMediaLPage = 1;
+ break;
case SEAGATE_CACHE_LPAGE:
gSeagateCacheLPage = 1;
break;
/* Returns 0 if ok, -1 if can't check IE, -2 if can check and bad
(or at least something to report). */
-static int scsiGetSmartData(int device, int attribs)
+static int scsiGetSmartData(scsi_device * device, bool attribs)
{
UINT8 asc;
UINT8 ascq;
const char * cp;
int err = 0;
- PRINT_ON(con);
+ print_on();
if (scsiCheckIE(device, gSmartLPage, gTempLPage, &asc, &ascq,
¤ttemp, &triptemp)) {
/* error message already announced */
- PRINT_OFF(con);
+ print_off();
return -1;
}
- PRINT_OFF(con);
+ print_off();
cp = scsiGetIEString(asc, ascq);
if (cp) {
err = -2;
- PRINT_ON(con);
+ print_on();
pout("SMART Health Status: %s [asc=%x, ascq=%x]\n", cp, asc, ascq);
- PRINT_OFF(con);
+ print_off();
} else if (gIecMPage)
pout("SMART Health Status: OK\n");
// Returns number of logged errors or zero if none or -1 if fetching
// TapeAlerts fails
-static char *severities = "CWI";
+static const char * const severities = "CWI";
-static int scsiGetTapeAlertsData(int device, int peripheral_type)
+static int scsiGetTapeAlertsData(scsi_device * device, int peripheral_type)
{
unsigned short pagelength;
unsigned short parametercode;
int i, err;
- char *s;
+ const char *s;
const char *ts;
int failures = 0;
- PRINT_ON(con);
+ print_on();
if ((err = scsiLogSense(device, TAPE_ALERTS_LPAGE, 0, gBuf,
LOG_RESP_TAPE_ALERT_LEN, LOG_RESP_TAPE_ALERT_LEN))) {
pout("scsiGetTapesAlertData Failed [%s]\n", scsiErrString(err));
- PRINT_OFF(con);
+ print_off();
return -1;
}
if (gBuf[0] != 0x2e) {
pout("TapeAlerts Log Sense Failed\n");
- PRINT_OFF(con);
+ print_off();
return -1;
}
pagelength = (unsigned short) gBuf[2] << 8 | gBuf[3];
}
}
}
- PRINT_OFF(con);
+ print_off();
if (! failures)
pout("TapeAlert: OK\n");
return failures;
}
-static void scsiGetStartStopData(int device)
+static void scsiGetStartStopData(scsi_device * device)
{
UINT32 u;
int err, len, k, extra, pc;
if ((err = scsiLogSense(device, STARTSTOP_CYCLE_COUNTER_LPAGE, 0, gBuf,
LOG_RESP_LEN, 0))) {
- PRINT_ON(con);
+ print_on();
pout("scsiGetStartStopData Failed [%s]\n", scsiErrString(err));
- PRINT_OFF(con);
+ print_off();
return;
}
if ((gBuf[0] & 0x3f) != STARTSTOP_CYCLE_COUNTER_LPAGE) {
- PRINT_ON(con);
+ print_on();
pout("StartStop Log Sense Failed, page mismatch\n");
- PRINT_OFF(con);
+ print_off();
return;
}
len = ((gBuf[2] << 8) | gBuf[3]);
ucp = gBuf + 4;
for (k = len; k > 0; k -= extra, ucp += extra) {
if (k < 3) {
- PRINT_ON(con);
+ print_on();
pout("StartStop Log Sense Failed: short\n");
- PRINT_OFF(con);
+ print_off();
return;
}
extra = ucp[3] + 4;
if (extra > 7) {
u = (ucp[4] << 24) | (ucp[5] << 16) | (ucp[6] << 8) | ucp[7];
if (0xffffffff != u)
- pout("Recommended maximum start stop count: %u times\n",
+ pout("Specified cycle count over device lifetime: %u\n",
u);
}
break;
if (extra > 7) {
u = (ucp[4] << 24) | (ucp[5] << 16) | (ucp[6] << 8) | ucp[7];
if (0xffffffff != u)
- pout("Current start stop count: %u times\n", u);
+ pout("Accumulated start-stop cycles: %u\n", u);
+ }
+ break;
+ case 5:
+ if (extra > 7) {
+ u = (ucp[4] << 24) | (ucp[5] << 16) | (ucp[6] << 8) | ucp[7];
+ if (0xffffffff != u)
+ pout("Specified load-unload count over device "
+ "lifetime: %u\n", u);
+ }
+ break;
+ case 6:
+ if (extra > 7) {
+ u = (ucp[4] << 24) | (ucp[5] << 16) | (ucp[6] << 8) | ucp[7];
+ if (0xffffffff != u)
+ pout("Accumulated load-unload cycles: %u\n", u);
}
break;
default:
}
}
-static void scsiPrintGrownDefectListLen(int device)
+static void scsiPrintGrownDefectListLen(scsi_device * device)
{
int err, dl_format, dl_len, div;
memset(gBuf, 0, 4);
if ((err = scsiReadDefect10(device, 0 /* req_plist */, 1 /* req_glist */,
4 /* bytes from index */, gBuf, 4))) {
- if (con->reportscsiioctl > 0) {
- PRINT_ON(con);
+ if (scsi_debugmode > 0) {
+ print_on();
pout("Read defect list (10) Failed: %s\n", scsiErrString(err));
- PRINT_OFF(con);
+ print_off();
}
return;
}
if (0x8 != (gBuf[1] & 0x18)) {
- PRINT_ON(con);
+ print_on();
pout("Read defect list: asked for grown list but didn't get it\n");
- PRINT_OFF(con);
+ print_off();
return;
}
div = 0;
div = 8;
break;
default:
- PRINT_ON(con);
+ print_on();
pout("defect list format %d unknown\n", dl_format);
- PRINT_OFF(con);
+ print_off();
break;
}
dl_len = (gBuf[2] << 8) + gBuf[3];
}
}
-static void scsiPrintSeagateCacheLPage(int device)
+static void scsiPrintSeagateCacheLPage(scsi_device * device)
{
int k, j, num, pl, pc, err, len;
unsigned char * ucp;
if ((err = scsiLogSense(device, SEAGATE_CACHE_LPAGE, 0, gBuf,
LOG_RESP_LEN, 0))) {
- PRINT_ON(con);
+ print_on();
pout("Seagate Cache Log Sense Failed: %s\n", scsiErrString(err));
- PRINT_OFF(con);
+ print_off();
return;
}
if ((gBuf[0] & 0x3f) != SEAGATE_CACHE_LPAGE) {
- PRINT_ON(con);
+ print_on();
pout("Seagate Cache Log Sense Failed, page mismatch\n");
- PRINT_OFF(con);
+ print_off();
return;
}
len = ((gBuf[2] << 8) | gBuf[3]) + 4;
case 0: case 1: case 2: case 3: case 4:
break;
default:
- if (con->reportscsiioctl > 0) {
- PRINT_ON(con);
+ if (scsi_debugmode > 0) {
+ print_on();
pout("Vendor (Seagate) cache lpage has unexpected parameter"
", skip\n");
- PRINT_OFF(con);
+ print_off();
}
return;
}
}
}
-static void scsiPrintSeagateFactoryLPage(int device)
+static void scsiPrintSeagateFactoryLPage(scsi_device * device)
{
int k, j, num, pl, pc, len, err, good, bad;
unsigned char * ucp;
if ((err = scsiLogSense(device, SEAGATE_FACTORY_LPAGE, 0, gBuf,
LOG_RESP_LEN, 0))) {
- PRINT_ON(con);
+ print_on();
pout("scsiPrintSeagateFactoryLPage Failed [%s]\n", scsiErrString(err));
- PRINT_OFF(con);
+ print_off();
return;
}
if ((gBuf[0] & 0x3f) != SEAGATE_FACTORY_LPAGE) {
- PRINT_ON(con);
+ print_on();
pout("Seagate/Hitachi Factory Log Sense Failed, page mismatch\n");
- PRINT_OFF(con);
+ print_off();
return;
}
len = ((gBuf[2] << 8) | gBuf[3]) + 4;
ucp += pl;
}
if ((good < 2) || (bad > 4)) { /* heuristic */
- if (con->reportscsiioctl > 0) {
- PRINT_ON(con);
+ if (scsi_debugmode > 0) {
+ print_on();
pout("\nVendor (Seagate/Hitachi) factory lpage has too many "
"unexpected parameters, skip\n");
- PRINT_OFF(con);
+ print_off();
}
return;
}
good = 1;
break;
default:
- if (con->reportscsiioctl > 0) {
- PRINT_ON(con);
+ if (scsi_debugmode > 0) {
+ print_on();
pout("Vendor (Seagate/Hitachi) factory lpage: "
"unknown parameter code [0x%x]\n", pc);
- PRINT_OFF(con);
+ print_off();
}
break;
}
ull |= xp[j];
}
if (0 == pc)
- pout(" = %.2f\n", uint64_to_double(ull) / 60.0 );
+ pout(" = %.2f\n", ull / 60.0 );
else
pout(" = %"PRIu64"\n", ull);
}
}
}
-static void scsiPrintErrorCounterLog(int device)
+static void scsiPrintErrorCounterLog(scsi_device * device)
{
struct scsiErrorCounter errCounterArr[3];
struct scsiErrorCounter * ecp;
struct scsiNonMediumError nme;
int found[3] = {0, 0, 0};
const char * pageNames[3] = {"read: ", "write: ", "verify: "};
- int k;
double processed_gb;
if (gReadECounterLPage && (0 == scsiLogSense(device,
VERIFY_ERROR_COUNTER_LPAGE, 0, gBuf, LOG_RESP_LEN, 0))) {
scsiDecodeErrCounterPage(gBuf, &errCounterArr[2]);
ecp = &errCounterArr[2];
- for (k = 0; k < 7; ++k) {
+ for (int k = 0; k < 7; ++k) {
if (ecp->gotPC[k] && ecp->counter[k]) {
found[2] = 1;
break;
"algorithm processed uncorrected\n");
pout(" fast | delayed rewrites corrected "
"invocations [10^9 bytes] errors\n");
- for (k = 0; k < 3; ++k) {
+ for (int k = 0; k < 3; ++k) {
if (! found[k])
continue;
ecp = &errCounterArr[k];
pout("%s%8"PRIu64" %8"PRIu64" %8"PRIu64" %8"PRIu64" %8"PRIu64,
pageNames[k], ecp->counter[0], ecp->counter[1],
ecp->counter[2], ecp->counter[3], ecp->counter[4]);
- processed_gb = uint64_to_double(ecp->counter[5]) / 1000000000.0;
+ processed_gb = ecp->counter[5] / 1000000000.0;
pout(" %12.3f %8"PRIu64"\n", processed_gb, ecp->counter[6]);
}
}
}
if (gLastNErrorLPage && (0 == scsiLogSense(device,
LAST_N_ERROR_LPAGE, 0, gBuf, LOG_RESP_LONG_LEN, 0))) {
- unsigned char * ucp;
- int num, k, pc, pl, truncated;
-
- num = (gBuf[2] << 8) + gBuf[3] + 4;
- truncated = (num > LOG_RESP_LONG_LEN) ? num : 0;
+ int num = (gBuf[2] << 8) + gBuf[3] + 4;
+ int truncated = (num > LOG_RESP_LONG_LEN) ? num : 0;
if (truncated)
num = LOG_RESP_LONG_LEN;
- ucp = gBuf + 4;
+ unsigned char * ucp = gBuf + 4;
num -= 4;
if (num < 4)
pout("\nNo error events logged\n");
else {
pout("\nLast n error events log page\n");
- for (k = num; k > 0; k -= pl, ucp += pl) {
+ for (int k = num, pl; k > 0; k -= pl, ucp += pl) {
if (k < 3) {
pout(" <<short Last n error events log page>>\n");
break;
}
pl = ucp[3] + 4;
- pc = (ucp[0] << 8) + ucp[1];
+ int pc = (ucp[0] << 8) + ucp[1];
if (pl > 4) {
if ((ucp[2] & 0x1) && (ucp[2] & 0x2)) {
pout(" Error event %d:\n", pc);
pout(" Error event %d:\n", pc);
pout(" %.*s\n", pl - 4, (const char *)(ucp + 4));
} else {
- if (con->reportscsiioctl > 0) {
+ if (scsi_debugmode > 0) {
pout(" Error event %d:\n", pc);
pout(" [data counter??]:\n");
dStrHex((const char *)ucp + 4, pl - 4, 1);
static const char * self_test_result[] = {
"Completed ",
- "Interrupted ('-X' switch)",
- "Interrupted (bus reset ?)",
+ "Aborted (by user command)",
+ "Aborted (device reset ?) ",
"Unknown error, incomplete",
"Completed, segment failed",
"Failed in first segment ",
// Returns 0 if ok else FAIL* bitmask. Note that if any of the most recent
// 20 self tests fail (result code 3 to 7 inclusive) then FAILLOG and/or
// FAILSMART is returned.
-static int scsiPrintSelfTest(int device)
+static int scsiPrintSelfTest(scsi_device * device)
{
int num, k, n, res, err, durationSec;
int noheader = 1;
if ((err = scsiLogSense(device, SELFTEST_RESULTS_LPAGE, 0, gBuf,
LOG_RESP_SELF_TEST_LEN, 0))) {
- PRINT_ON(con);
+ print_on();
pout("scsiPrintSelfTest Failed [%s]\n", scsiErrString(err));
- PRINT_OFF(con);
+ print_off();
return FAILSMART;
}
if ((gBuf[0] & 0x3f) != SELFTEST_RESULTS_LPAGE) {
- PRINT_ON(con);
+ print_on();
pout("Self-test Log Sense Failed, page mismatch\n");
- PRINT_OFF(con);
+ print_off();
return FAILSMART;
}
// compute page length
num = (gBuf[2] << 8) + gBuf[3];
// Log sense page length 0x190 bytes
if (num != 0x190) {
- PRINT_ON(con);
+ print_on();
pout("Self-test Log Sense length is 0x%x not 0x190 bytes\n",num);
- PRINT_OFF(con);
+ print_off();
return FAILSMART;
}
// loop through the twenty possible entries
pout("No self-tests have been logged\n");
else
pout("\n");
- if ((0 == scsiFetchExtendedSelfTestTime(device, &durationSec,
+ if ((0 == scsiFetchExtendedSelfTestTime(device, &durationSec,
modese_len)) && (durationSec > 0)) {
pout("Long (extended) Self Test duration: %d seconds "
"[%.1f minutes]\n", durationSec, durationSec / 60.0);
"halted due to medium formatted without P-List",
"halted - vendor specific cause",
"halted due to temperature out of range",
- "halted until BM interval timer expires", /* 8 */
+ "waiting until BMS interval timer expires", /* 8 */
};
static const char * reassign_status[] = {
- "No reassignment needed",
- "Require Reassign or Write command",
+ "Reserved [0x0]",
+ "Require Write or Reassign Blocks command",
"Successfully reassigned",
"Reserved [0x3]",
- "Failed",
+ "Reassignment by disk failed",
"Recovered via rewrite in-place",
"Reassigned by app, has valid data",
"Reassigned by app, has no valid data",
// Returns 0 if ok else FAIL* bitmask. Note can have a status entry
// and up to 2048 events (although would hope to have less). May set
// FAILLOG if serious errors detected (in the future).
-static int scsiPrintBackgroundResults(int device)
+static int scsiPrintBackgroundResults(scsi_device * device)
{
int num, j, m, err, pc, pl, truncated;
int noheader = 1;
if ((err = scsiLogSense(device, BACKGROUND_RESULTS_LPAGE, 0, gBuf,
LOG_RESP_LONG_LEN, 0))) {
- PRINT_ON(con);
+ print_on();
pout("scsiPrintBackgroundResults Failed [%s]\n", scsiErrString(err));
- PRINT_OFF(con);
+ print_off();
return FAILSMART;
}
if ((gBuf[0] & 0x3f) != BACKGROUND_RESULTS_LPAGE) {
- PRINT_ON(con);
+ print_on();
pout("Background scan results Log Sense Failed, page mismatch\n");
- PRINT_OFF(con);
+ print_off();
return FAILSMART;
}
// compute page length
num = (gBuf[2] << 8) + gBuf[3] + 4;
if (num < 20) {
- PRINT_ON(con);
+ print_on();
pout("Background scan results Log Sense length is %d, no scan "
"status\n", num);
- PRINT_OFF(con);
+ print_off();
return FAILSMART;
}
truncated = (num > LOG_RESP_LONG_LEN) ? num : 0;
(ucp[10] << 8) + ucp[11]);
pout("scan progress: %.2f%%\n",
(double)((ucp[12] << 8) + ucp[13]) * 100.0 / 65536.0);
+ pout(" Number of background medium scans performed: %d\n",
+ (ucp[14] << 8) + ucp[15]);
break;
default:
if (noheader) {
return retval;
}
+// See SCSI Block Commands - 3 (SBC-3) rev 27 (draft) section 6.3.6 .
+// Returns 0 if ok else FAIL* bitmask. Note can have a status entry
+// and up to 2048 events (although would hope to have less). May set
+// FAILLOG if serious errors detected (in the future).
+static int scsiPrintSSMedia(scsi_device * device)
+{
+ int num, err, pc, pl, truncated;
+ int retval = 0;
+ UINT8 * ucp;
+
+ if ((err = scsiLogSense(device, SS_MEDIA_LPAGE, 0, gBuf,
+ LOG_RESP_LONG_LEN, 0))) {
+ print_on();
+ pout("scsiPrintSSMedia Failed [%s]\n", scsiErrString(err));
+ print_off();
+ return FAILSMART;
+ }
+ if ((gBuf[0] & 0x3f) != SS_MEDIA_LPAGE) {
+ print_on();
+ pout("Solid state media Log Sense Failed, page mismatch\n");
+ print_off();
+ return FAILSMART;
+ }
+ // compute page length
+ num = (gBuf[2] << 8) + gBuf[3] + 4;
+ if (num < 12) {
+ print_on();
+ pout("Solid state media Log Sense length is %d, too short\n", num);
+ print_off();
+ return FAILSMART;
+ }
+ truncated = (num > LOG_RESP_LONG_LEN) ? num : 0;
+ if (truncated)
+ num = LOG_RESP_LONG_LEN;
+ ucp = gBuf + 4;
+ num -= 4;
+ while (num > 3) {
+ pc = (ucp[0] << 8) | ucp[1];
+ // pcb = ucp[2];
+ pl = ucp[3] + 4;
+ switch (pc) {
+ case 1:
+ if (pl < 8) {
+ print_on();
+ pout("Percentage used endurance indicator too short (pl=%d)\n", pl);
+ print_off();
+ return FAILSMART;
+ }
+ pout("SS Media used endurance indicator: %d%%\n", ucp[7]);
+ default: /* ignore other parameter codes */
+ break;
+ }
+ num -= pl;
+ ucp += pl;
+ }
+ return retval;
+}
+
+static void show_sas_phy_event_info(int peis, unsigned int val,
+ unsigned thresh_val)
+{
+ unsigned int u;
+
+ switch (peis) {
+ case 0:
+ pout(" No event\n");
+ break;
+ case 0x1:
+ pout(" Invalid word count: %u\n", val);
+ break;
+ case 0x2:
+ pout(" Running disparity error count: %u\n", val);
+ break;
+ case 0x3:
+ pout(" Loss of dword synchronization count: %u\n", val);
+ break;
+ case 0x4:
+ pout(" Phy reset problem count: %u\n", val);
+ break;
+ case 0x5:
+ pout(" Elasticity buffer overflow count: %u\n", val);
+ break;
+ case 0x6:
+ pout(" Received ERROR count: %u\n", val);
+ break;
+ case 0x20:
+ pout(" Received address frame error count: %u\n", val);
+ break;
+ case 0x21:
+ pout(" Transmitted abandon-class OPEN_REJECT count: %u\n", val);
+ break;
+ case 0x22:
+ pout(" Received abandon-class OPEN_REJECT count: %u\n", val);
+ break;
+ case 0x23:
+ pout(" Transmitted retry-class OPEN_REJECT count: %u\n", val);
+ break;
+ case 0x24:
+ pout(" Received retry-class OPEN_REJECT count: %u\n", val);
+ break;
+ case 0x25:
+ pout(" Received AIP (WATING ON PARTIAL) count: %u\n", val);
+ break;
+ case 0x26:
+ pout(" Received AIP (WAITING ON CONNECTION) count: %u\n", val);
+ break;
+ case 0x27:
+ pout(" Transmitted BREAK count: %u\n", val);
+ break;
+ case 0x28:
+ pout(" Received BREAK count: %u\n", val);
+ break;
+ case 0x29:
+ pout(" Break timeout count: %u\n", val);
+ break;
+ case 0x2a:
+ pout(" Connection count: %u\n", val);
+ break;
+ case 0x2b:
+ pout(" Peak transmitted pathway blocked count: %u\n",
+ val & 0xff);
+ pout(" Peak value detector threshold: %u\n",
+ thresh_val & 0xff);
+ break;
+ case 0x2c:
+ u = val & 0xffff;
+ if (u < 0x8000)
+ pout(" Peak transmitted arbitration wait time (us): "
+ "%u\n", u);
+ else
+ pout(" Peak transmitted arbitration wait time (ms): "
+ "%u\n", 33 + (u - 0x8000));
+ u = thresh_val & 0xffff;
+ if (u < 0x8000)
+ pout(" Peak value detector threshold (us): %u\n",
+ u);
+ else
+ pout(" Peak value detector threshold (ms): %u\n",
+ 33 + (u - 0x8000));
+ break;
+ case 0x2d:
+ pout(" Peak arbitration time (us): %u\n", val);
+ pout(" Peak value detector threshold: %u\n", thresh_val);
+ break;
+ case 0x2e:
+ pout(" Peak connection time (us): %u\n", val);
+ pout(" Peak value detector threshold: %u\n", thresh_val);
+ break;
+ case 0x40:
+ pout(" Transmitted SSP frame count: %u\n", val);
+ break;
+ case 0x41:
+ pout(" Received SSP frame count: %u\n", val);
+ break;
+ case 0x42:
+ pout(" Transmitted SSP frame error count: %u\n", val);
+ break;
+ case 0x43:
+ pout(" Received SSP frame error count: %u\n", val);
+ break;
+ case 0x44:
+ pout(" Transmitted CREDIT_BLOCKED count: %u\n", val);
+ break;
+ case 0x45:
+ pout(" Received CREDIT_BLOCKED count: %u\n", val);
+ break;
+ case 0x50:
+ pout(" Transmitted SATA frame count: %u\n", val);
+ break;
+ case 0x51:
+ pout(" Received SATA frame count: %u\n", val);
+ break;
+ case 0x52:
+ pout(" SATA flow control buffer overflow count: %u\n", val);
+ break;
+ case 0x60:
+ pout(" Transmitted SMP frame count: %u\n", val);
+ break;
+ case 0x61:
+ pout(" Received SMP frame count: %u\n", val);
+ break;
+ case 0x63:
+ pout(" Received SMP frame error count: %u\n", val);
+ break;
+ default:
+ break;
+ }
+}
+
+static void show_sas_port_param(unsigned char * ucp, int param_len)
+{
+ int j, m, n, nphys, t, sz, spld_len;
+ unsigned char * vcp;
+ uint64_t ull;
+ unsigned int ui;
+ char s[64];
+
+ sz = sizeof(s);
+ // pcb = ucp[2];
+ t = (ucp[0] << 8) | ucp[1];
+ pout("relative target port id = %d\n", t);
+ pout(" generation code = %d\n", ucp[6]);
+ nphys = ucp[7];
+ pout(" number of phys = %d\n", nphys);
+
+ for (j = 0, vcp = ucp + 8; j < (param_len - 8);
+ vcp += spld_len, j += spld_len) {
+ pout(" phy identifier = %d\n", vcp[1]);
+ spld_len = vcp[3];
+ if (spld_len < 44)
+ spld_len = 48; /* in SAS-1 and SAS-1.1 vcp[3]==0 */
+ else
+ spld_len += 4;
+ t = ((0x70 & vcp[4]) >> 4);
+ switch (t) {
+ case 0: snprintf(s, sz, "no device attached"); break;
+ case 1: snprintf(s, sz, "end device"); break;
+ case 2: snprintf(s, sz, "expander device"); break;
+ case 3: snprintf(s, sz, "expander device (fanout)"); break;
+ default: snprintf(s, sz, "reserved [%d]", t); break;
+ }
+ pout(" attached device type: %s\n", s);
+ t = 0xf & vcp[4];
+ switch (t) {
+ case 0: snprintf(s, sz, "unknown"); break;
+ case 1: snprintf(s, sz, "power on"); break;
+ case 2: snprintf(s, sz, "hard reset"); break;
+ case 3: snprintf(s, sz, "SMP phy control function"); break;
+ case 4: snprintf(s, sz, "loss of dword synchronization"); break;
+ case 5: snprintf(s, sz, "mux mix up"); break;
+ case 6: snprintf(s, sz, "I_T nexus loss timeout for STP/SATA");
+ break;
+ case 7: snprintf(s, sz, "break timeout timer expired"); break;
+ case 8: snprintf(s, sz, "phy test function stopped"); break;
+ case 9: snprintf(s, sz, "expander device reduced functionality");
+ break;
+ default: snprintf(s, sz, "reserved [0x%x]", t); break;
+ }
+ pout(" attached reason: %s\n", s);
+ t = (vcp[5] & 0xf0) >> 4;
+ switch (t) {
+ case 0: snprintf(s, sz, "unknown"); break;
+ case 1: snprintf(s, sz, "power on"); break;
+ case 2: snprintf(s, sz, "hard reset"); break;
+ case 3: snprintf(s, sz, "SMP phy control function"); break;
+ case 4: snprintf(s, sz, "loss of dword synchronization"); break;
+ case 5: snprintf(s, sz, "mux mix up"); break;
+ case 6: snprintf(s, sz, "I_T nexus loss timeout for STP/SATA");
+ break;
+ case 7: snprintf(s, sz, "break timeout timer expired"); break;
+ case 8: snprintf(s, sz, "phy test function stopped"); break;
+ case 9: snprintf(s, sz, "expander device reduced functionality");
+ break;
+ default: snprintf(s, sz, "reserved [0x%x]", t); break;
+ }
+ pout(" reason: %s\n", s);
+ t = (0xf & vcp[5]);
+ switch (t) {
+ case 0: snprintf(s, sz, "phy enabled; unknown");
+ break;
+ case 1: snprintf(s, sz, "phy disabled"); break;
+ case 2: snprintf(s, sz, "phy enabled; speed negotiation failed");
+ break;
+ case 3: snprintf(s, sz, "phy enabled; SATA spinup hold state");
+ break;
+ case 4: snprintf(s, sz, "phy enabled; port selector");
+ break;
+ case 5: snprintf(s, sz, "phy enabled; reset in progress");
+ break;
+ case 6: snprintf(s, sz, "phy enabled; unsupported phy attached");
+ break;
+ case 8: snprintf(s, sz, "phy enabled; 1.5 Gbps"); break;
+ case 9: snprintf(s, sz, "phy enabled; 3 Gbps"); break;
+ case 0xa: snprintf(s, sz, "phy enabled; 6 Gbps"); break;
+ default: snprintf(s, sz, "reserved [%d]", t); break;
+ }
+ pout(" negotiated logical link rate: %s\n", s);
+ pout(" attached initiator port: ssp=%d stp=%d smp=%d\n",
+ !! (vcp[6] & 8), !! (vcp[6] & 4), !! (vcp[6] & 2));
+ pout(" attached target port: ssp=%d stp=%d smp=%d\n",
+ !! (vcp[7] & 8), !! (vcp[7] & 4), !! (vcp[7] & 2));
+ for (n = 0, ull = vcp[8]; n < 8; ++n) {
+ ull <<= 8; ull |= vcp[8 + n];
+ }
+ pout(" SAS address = 0x%" PRIx64 "\n", ull);
+ for (n = 0, ull = vcp[16]; n < 8; ++n) {
+ ull <<= 8; ull |= vcp[16 + n];
+ }
+ pout(" attached SAS address = 0x%" PRIx64 "\n", ull);
+ pout(" attached phy identifier = %d\n", vcp[24]);
+ ui = (vcp[32] << 24) | (vcp[33] << 16) | (vcp[34] << 8) | vcp[35];
+ pout(" Invalid DWORD count = %u\n", ui);
+ ui = (vcp[36] << 24) | (vcp[37] << 16) | (vcp[38] << 8) | vcp[39];
+ pout(" Running disparity error count = %u\n", ui);
+ ui = (vcp[40] << 24) | (vcp[41] << 16) | (vcp[42] << 8) | vcp[43];
+ pout(" Loss of DWORD synchronization = %u\n", ui);
+ ui = (vcp[44] << 24) | (vcp[45] << 16) | (vcp[46] << 8) | vcp[47];
+ pout(" Phy reset problem = %u\n", ui);
+ if (spld_len > 51) {
+ int num_ped, peis;
+ unsigned char * xcp;
+ unsigned int pvdt;
+
+ num_ped = vcp[51];
+ if (num_ped > 0)
+ pout(" Phy event descriptors:\n");
+ xcp = vcp + 52;
+ for (m = 0; m < (num_ped * 12); m += 12, xcp += 12) {
+ peis = xcp[3];
+ ui = (xcp[4] << 24) | (xcp[5] << 16) | (xcp[6] << 8) |
+ xcp[7];
+ pvdt = (xcp[8] << 24) | (xcp[9] << 16) | (xcp[10] << 8) |
+ xcp[11];
+ show_sas_phy_event_info(peis, ui, pvdt);
+ }
+ }
+ }
+}
+
+// Returns 1 if okay, 0 if non SAS descriptors
+static int show_protocol_specific_page(unsigned char * resp, int len)
+{
+ int k, num, param_len;
+ unsigned char * ucp;
+
+ num = len - 4;
+ for (k = 0, ucp = resp + 4; k < num; ) {
+ param_len = ucp[3] + 4;
+ if (6 != (0xf & ucp[4]))
+ return 0; /* only decode SAS log page */
+ if (0 == k)
+ pout("Protocol Specific port log page for SAS SSP\n");
+ show_sas_port_param(ucp, param_len);
+ k += param_len;
+ ucp += param_len;
+ }
+ return 1;
+}
+
+
+// See Serial Attached SCSI (SAS-2) (e.g. revision 16) the Protocol Specific
+// log pageSerial Attached SCSI (SAS-2) (e.g. revision 16) the Protocol
+// Specific log page.
+// Returns 0 if ok else FAIL* bitmask. Note that if any of the most recent
+// 20 self tests fail (result code 3 to 7 inclusive) then FAILLOG and/or
+// FAILSMART is returned.
+static int scsiPrintSasPhy(scsi_device * device, int reset)
+{
+ int num, err;
+
+ if ((err = scsiLogSense(device, PROTOCOL_SPECIFIC_LPAGE, 0, gBuf,
+ LOG_RESP_LONG_LEN, 0))) {
+ print_on();
+ pout("scsiPrintSasPhy Log Sense Failed [%s]\n", scsiErrString(err));
+ print_off();
+ return FAILSMART;
+ }
+ if ((gBuf[0] & 0x3f) != PROTOCOL_SPECIFIC_LPAGE) {
+ print_on();
+ pout("Protocol specific Log Sense Failed, page mismatch\n");
+ print_off();
+ return FAILSMART;
+ }
+ // compute page length
+ num = (gBuf[2] << 8) + gBuf[3];
+ if (1 != show_protocol_specific_page(gBuf, num + 4)) {
+ print_on();
+ pout("Only support protocol specific log page on SAS devices\n");
+ print_off();
+ return FAILSMART;
+ }
+ if (reset) {
+ if ((err = scsiLogSelect(device, 1 /* pcr */, 0 /* sp */, 0 /* pc */,
+ PROTOCOL_SPECIFIC_LPAGE, 0, NULL, 0))) {
+ print_on();
+ pout("scsiPrintSasPhy Log Select (reset) Failed [%s]\n",
+ scsiErrString(err));
+ print_off();
+ return FAILSMART;
+ }
+ }
+ return 0;
+}
+
+
static const char * peripheral_dt_arr[] = {
"disk",
"tape",
};
/* Returns 0 on success, 1 on general error and 2 for early, clean exit */
-static int scsiGetDriveInfo(int device, UINT8 * peripheral_type, int all)
+static int scsiGetDriveInfo(scsi_device * device, UINT8 * peripheral_type, bool all)
{
- char manufacturer[9];
- char product[17];
- char revision[5];
char timedatetz[DATEANDEPOCHLEN];
struct scsi_iec_mode_page iec;
- int err, iec_err, len, req_len, avail_len, val;
+ int err, iec_err, len, req_len, avail_len;
int is_tape = 0;
int peri_dt = 0;
- int returnval=0;
+ int returnval = 0;
+ int transport = -1;
memset(gBuf, 0, 96);
req_len = 36;
if ((err = scsiStdInquiry(device, gBuf, req_len))) {
- PRINT_ON(con);
+ print_on();
pout("Standard Inquiry (36 bytes) failed [%s]\n", scsiErrString(err));
pout("Retrying with a 64 byte Standard Inquiry\n");
- PRINT_OFF(con);
+ print_off();
/* Marvell controllers fail on a 36 bytes StdInquiry, but 64 suffices */
req_len = 64;
if ((err = scsiStdInquiry(device, gBuf, req_len))) {
- PRINT_ON(con);
+ print_on();
pout("Standard Inquiry (64 bytes) failed [%s]\n",
scsiErrString(err));
- PRINT_OFF(con);
+ print_off();
return 1;
}
}
*peripheral_type = peri_dt;
if (len < 36) {
- PRINT_ON(con);
+ print_on();
pout("Short INQUIRY response, skip product id\n");
- PRINT_OFF(con);
+ print_off();
return 1;
}
- memset(manufacturer, 0, sizeof(manufacturer));
- strncpy(manufacturer, (char *)&gBuf[8], 8);
-
- memset(product, 0, sizeof(product));
- strncpy(product, (char *)&gBuf[16], 16);
-
- memset(revision, 0, sizeof(revision));
- strncpy(revision, (char *)&gBuf[32], 4);
- if (all && (0 != strncmp(manufacturer, "ATA", 3)))
- pout("Device: %s %s Version: %s\n", manufacturer, product, revision);
-
- if (0 == strncmp(manufacturer, "3ware", 5) || 0 == strncmp(manufacturer, "AMCC", 4) ) {
-#if defined(_WIN32) || defined(__CYGWIN__)
- pout("please try changing device to /dev/hdX,N\n");
-#else
- pout("please try adding '-d 3ware,N'\n");
- pout("you may also need to change device to /dev/twaN or /dev/tweN\n");
-#endif
- return 2;
- } else if ((len >= 42) &&
- (0 == strncmp((const char *)(gBuf + 36), "MVSATA", 6))) {
- pout("please try '-d marvell'\n");
+ if (all && (0 != strncmp((char *)&gBuf[8], "ATA", 3))) {
+ pout("Vendor: %.8s\n", (char *)&gBuf[8]);
+ pout("Product: %.16s\n", (char *)&gBuf[16]);
+ if (gBuf[32] >= ' ')
+ pout("Revision: %.4s\n", (char *)&gBuf[32]);
+ }
+
+ if (!*device->get_req_type()/*no type requested*/ &&
+ (0 == strncmp((char *)&gBuf[8], "ATA", 3))) {
+ pout("\nProbable ATA device behind a SAT layer\n"
+ "Try an additional '-d ata' or '-d sat' argument.\n");
return 2;
- } else if ((0 == con->controller_explicit) &&
- (0 == strncmp(manufacturer, "ATA ", 8)) &&
- has_sat_pass_through(device, 0)) {
- con->controller_type = CONTROLLER_SAT;
- if (con->reportscsiioctl > 0) {
- PRINT_ON(con);
- pout("Detected SAT interface, switch to device type 'sat'\n");
- PRINT_OFF(con);
- }
- return 2;
- } else if ((avail_len >= 96) && (0 == strncmp(manufacturer, "ATA", 3))) {
- /* <<<< This is Linux specific code to detect SATA disks using a
- SCSI-ATA command translation layer. This may be generalized
- later when the t10.org SAT project matures. >>>> */
- pout("Device: %s %s Version: %s\n", manufacturer, product, revision);
- req_len = 252;
- memset(gBuf, 0, req_len);
- if ((err = scsiInquiryVpd(device, 0x83, gBuf, req_len))) {
- PRINT_ON(con);
- pout("Inquiry for VPD page 0x83 [device id] failed [%s]\n",
- scsiErrString(err));
- PRINT_OFF(con);
- return 1;
- }
- avail_len = ((gBuf[2] << 8) + gBuf[3]) + 4;
- len = (avail_len < req_len) ? avail_len : req_len;
- if (isLinuxLibAta(gBuf, len)) {
- pout("\nIn Linux, SATA disks accessed via libata are "
- "only supported by smartmontools\n"
- "for kernel versions 2.6.15 and above.\n Try "
- "an additional '-d ata' or '-d sat' argument.\n");
- return 2;
- }
}
if (! all)
return 0;
+ unsigned int lb_size;
+ char cap_str[64];
+ char si_str[64];
+ char lb_str[16];
+ uint64_t capacity = scsiGetSize(device, &lb_size);
+
+ if (capacity) {
+ format_with_thousands_sep(cap_str, sizeof(cap_str), capacity);
+ format_capacity(si_str, sizeof(si_str), capacity);
+ pout("User Capacity: %s bytes [%s]\n", cap_str, si_str);
+ snprintf(lb_str, sizeof(lb_str) - 1, "%u", lb_size);
+ pout("Logical block size: %s bytes\n", lb_str);
+ }
+
/* Do this here to try and detect badly conforming devices (some USB
keys) that will lock up on a InquiryVpd or log sense or ... */
if ((iec_err = scsiFetchIECmpage(device, &iec, modese_len))) {
if (SIMPLE_ERR_BAD_RESP == iec_err) {
pout(">> Terminate command early due to bad response to IEC "
"mode page\n");
- PRINT_OFF(con);
+ print_off();
gIecMPage = 0;
return 1;
}
} else
modese_len = iec.modese_len;
- if (0 == (err = scsiInquiryVpd(device, 0x80, gBuf, 64))) {
- /* should use VPD page 0x83 and fall back to this page (0x80)
- * if 0x83 not supported. NAA requires a lot of decoding code */
- len = gBuf[3];
- gBuf[4 + len] = '\0';
- pout("Serial number: %s\n", &gBuf[4]);
- }
- else if (con->reportscsiioctl > 0) {
- PRINT_ON(con);
- if (SIMPLE_ERR_BAD_RESP == err)
- pout("Vital Product Data (VPD) bit ignored in INQUIRY\n");
- else
- pout("Vital Product Data (VPD) INQUIRY failed [%d]\n", err);
- PRINT_OFF(con);
+ if (! dont_print_serial_number) {
+ if (0 == (err = scsiInquiryVpd(device, 0x83, gBuf, 200))) {
+ char s[256];
+
+ len = gBuf[3];
+ scsi_decode_lu_dev_id(gBuf + 4, len, s, sizeof(s), &transport);
+ if (strlen(s) > 0)
+ pout("Logical Unit id: %s\n", s);
+ } else if (scsi_debugmode > 0) {
+ print_on();
+ if (SIMPLE_ERR_BAD_RESP == err)
+ pout("Vital Product Data (VPD) bit ignored in INQUIRY\n");
+ else
+ pout("Vital Product Data (VPD) INQUIRY failed [%d]\n", err);
+ print_off();
+ }
+ if (0 == (err = scsiInquiryVpd(device, 0x80, gBuf, 64))) {
+ len = gBuf[3];
+ gBuf[4 + len] = '\0';
+ pout("Serial number: %s\n", &gBuf[4]);
+ } else if (scsi_debugmode > 0) {
+ print_on();
+ if (SIMPLE_ERR_BAD_RESP == err)
+ pout("Vital Product Data (VPD) bit ignored in INQUIRY\n");
+ else
+ pout("Vital Product Data (VPD) INQUIRY failed [%d]\n", err);
+ print_off();
+ }
}
// print SCSI peripheral device type
if (peri_dt < (int)(sizeof(peripheral_dt_arr) /
sizeof(peripheral_dt_arr[0])))
- pout("Device type: %s\n", peripheral_dt_arr[peri_dt]);
+ pout("Device type: %s\n", peripheral_dt_arr[peri_dt]);
else
- pout("Device type: <%d>\n", peri_dt);
+ pout("Device type: <%d>\n", peri_dt);
// See if transport protocol is known
- val = scsiFetchTransportProtocol(device, modese_len);
- if ((val >= 0) && (val <= 0xf))
- pout("Transport protocol: %s\n", transport_proto_arr[val]);
+ if (transport < 0)
+ transport = scsiFetchTransportProtocol(device, modese_len);
+ if ((transport >= 0) && (transport <= 0xf))
+ pout("Transport protocol: %s\n", transport_proto_arr[transport]);
// print current time and date and timezone
dateandtimezone(timedatetz);
- pout("Local Time is: %s\n", timedatetz);
+ pout("Local Time is: %s\n", timedatetz);
if ((SCSI_PT_SEQUENTIAL_ACCESS == *peripheral_type) ||
(SCSI_PT_MEDIUM_CHANGER == *peripheral_type))
// See if unit accepts SCSI commmands from us
if ((err = scsiTestUnitReady(device))) {
if (SIMPLE_ERR_NOT_READY == err) {
- PRINT_ON(con);
+ print_on();
if (!is_tape)
pout("device is NOT READY (e.g. spun down, busy)\n");
else
pout("device is NOT READY (e.g. no tape)\n");
- PRINT_OFF(con);
+ print_off();
} else if (SIMPLE_ERR_NO_MEDIUM == err) {
- PRINT_ON(con);
+ print_on();
pout("NO MEDIUM present on device\n");
- PRINT_OFF(con);
+ print_off();
} else if (SIMPLE_ERR_BECOMING_READY == err) {
- PRINT_ON(con);
+ print_on();
pout("device becoming ready (wait)\n");
- PRINT_OFF(con);
+ print_off();
} else {
- PRINT_ON(con);
+ print_on();
pout("device Test Unit Ready [%s]\n", scsiErrString(err));
- PRINT_OFF(con);
+ print_off();
}
failuretest(MANDATORY_CMD, returnval|=FAILID);
}
if (iec_err) {
if (!is_tape) {
- PRINT_ON(con);
+ print_on();
pout("Device does not support SMART");
- if (con->reportscsiioctl > 0)
+ if (scsi_debugmode > 0)
pout(" [%s]\n", scsiErrString(iec_err));
else
pout("\n");
- PRINT_OFF(con);
+ print_off();
}
gIecMPage = 0;
return 0;
return 0;
}
-static int scsiSmartEnable(int device)
+static int scsiSmartEnable(scsi_device * device)
{
struct scsi_iec_mode_page iec;
int err;
if ((err = scsiFetchIECmpage(device, &iec, modese_len))) {
- PRINT_ON(con);
+ print_on();
pout("unable to fetch IEC (SMART) mode page [%s]\n",
scsiErrString(err));
- PRINT_OFF(con);
+ print_off();
return 1;
} else
modese_len = iec.modese_len;
if ((err = scsiSetExceptionControlAndWarning(device, 1, &iec))) {
- PRINT_ON(con);
+ print_on();
pout("unable to enable Exception control and warning [%s]\n",
scsiErrString(err));
- PRINT_OFF(con);
+ print_off();
return 1;
}
/* Need to refetch 'iec' since could be modified by previous call */
return 0;
}
-static int scsiSmartDisable(int device)
+static int scsiSmartDisable(scsi_device * device)
{
struct scsi_iec_mode_page iec;
int err;
if ((err = scsiFetchIECmpage(device, &iec, modese_len))) {
- PRINT_ON(con);
+ print_on();
pout("unable to fetch IEC (SMART) mode page [%s]\n",
scsiErrString(err));
- PRINT_OFF(con);
+ print_off();
return 1;
} else
modese_len = iec.modese_len;
if ((err = scsiSetExceptionControlAndWarning(device, 0, &iec))) {
- PRINT_ON(con);
+ print_on();
pout("unable to disable Exception control and warning [%s]\n",
scsiErrString(err));
- PRINT_OFF(con);
+ print_off();
return 1;
}
/* Need to refetch 'iec' since could be modified by previous call */
return 0;
}
-static void scsiPrintTemp(int device)
+static void scsiPrintTemp(scsi_device * device)
{
UINT8 temp = 0;
UINT8 trip = 0;
}
/* Main entry point used by smartctl command. Return 0 for success */
-int scsiPrintMain(int fd)
+int scsiPrintMain(scsi_device * device, const scsi_print_options & options)
{
int checkedSupportedLogPages = 0;
UINT8 peripheral_type = 0;
int returnval = 0;
int res, durationSec;
- res = scsiGetDriveInfo(fd, &peripheral_type, con->driveinfo);
+ bool any_output = options.drive_info;
+
+ res = scsiGetDriveInfo(device, &peripheral_type, options.drive_info);
if (res) {
if (2 == res)
return 0;
else
failuretest(MANDATORY_CMD, returnval |= FAILID);
+ any_output = true;
}
- if (con->smartenable) {
- if (scsiSmartEnable(fd))
+ if (options.smart_enable) {
+ if (scsiSmartEnable(device))
failuretest(MANDATORY_CMD, returnval |= FAILSMART);
+ any_output = true;
}
- if (con->smartdisable) {
- if (scsiSmartDisable(fd))
+ if (options.smart_disable) {
+ if (scsiSmartDisable(device))
failuretest(MANDATORY_CMD,returnval |= FAILSMART);
+ any_output = true;
}
- if (con->smartautosaveenable) {
- if (scsiSetControlGLTSD(fd, 0, modese_len)) {
+ if (options.smart_auto_save_enable) {
+ if (scsiSetControlGLTSD(device, 0, modese_len)) {
pout("Enable autosave (clear GLTSD bit) failed\n");
failuretest(OPTIONAL_CMD,returnval |= FAILSMART);
}
+ any_output = true;
}
- if (con->smartautosavedisable) {
- if (scsiSetControlGLTSD(fd, 1, modese_len)) {
+ if (options.smart_auto_save_disable) {
+ if (scsiSetControlGLTSD(device, 1, modese_len)) {
pout("Disable autosave (set GLTSD bit) failed\n");
failuretest(OPTIONAL_CMD,returnval |= FAILSMART);
}
+ any_output = true;
}
- if (con->checksmart) {
- scsiGetSupportedLogPages(fd);
+ if (options.smart_check_status) {
+ scsiGetSupportedLogPages(device);
checkedSupportedLogPages = 1;
if ((SCSI_PT_SEQUENTIAL_ACCESS == peripheral_type) ||
(SCSI_PT_MEDIUM_CHANGER == peripheral_type)) { /* tape device */
if (gTapeAlertsLPage) {
- if (con->driveinfo)
+ if (options.drive_info)
pout("TapeAlert Supported\n");
- if (-1 == scsiGetTapeAlertsData(fd, peripheral_type))
+ if (-1 == scsiGetTapeAlertsData(device, peripheral_type))
failuretest(OPTIONAL_CMD, returnval |= FAILSMART);
}
else
pout("TapeAlert Not Supported\n");
} else { /* disk, cd/dvd, enclosure, etc */
- if ((res = scsiGetSmartData(fd, con->smartvendorattrib))) {
+ if ((res = scsiGetSmartData(device, options.smart_vendor_attrib))) {
if (-2 == res)
returnval |= FAILSTATUS;
else
returnval |= FAILSMART;
}
}
+ any_output = true;
}
- if (con->smartvendorattrib) {
+ if (options.smart_ss_media_log) {
+ if (! checkedSupportedLogPages)
+ scsiGetSupportedLogPages(device);
+ res = 0;
+ if (gSSMediaLPage)
+ res = scsiPrintSSMedia(device);
+ if (0 != res)
+ failuretest(OPTIONAL_CMD, returnval|=res);
+ any_output = true;
+ }
+ if (options.smart_vendor_attrib) {
if (! checkedSupportedLogPages)
- scsiGetSupportedLogPages(fd);
+ scsiGetSupportedLogPages(device);
if (gTempLPage) {
- if (con->checksmart)
+ if (options.smart_check_status)
pout("\n");
- scsiPrintTemp(fd);
+ scsiPrintTemp(device);
}
if (gStartStopLPage)
- scsiGetStartStopData(fd);
+ scsiGetStartStopData(device);
if (SCSI_PT_DIRECT_ACCESS == peripheral_type) {
- scsiPrintGrownDefectListLen(fd);
+ scsiPrintGrownDefectListLen(device);
if (gSeagateCacheLPage)
- scsiPrintSeagateCacheLPage(fd);
+ scsiPrintSeagateCacheLPage(device);
if (gSeagateFactoryLPage)
- scsiPrintSeagateFactoryLPage(fd);
+ scsiPrintSeagateFactoryLPage(device);
}
+ any_output = true;
}
- if (con->smarterrorlog) {
+ if (options.smart_error_log) {
if (! checkedSupportedLogPages)
- scsiGetSupportedLogPages(fd);
- scsiPrintErrorCounterLog(fd);
- if (1 == scsiFetchControlGLTSD(fd, modese_len, 1))
+ scsiGetSupportedLogPages(device);
+ scsiPrintErrorCounterLog(device);
+ if (1 == scsiFetchControlGLTSD(device, modese_len, 1))
pout("\n[GLTSD (Global Logging Target Save Disable) set. "
"Enable Save with '-S on']\n");
+ any_output = true;
}
- if (con->smartselftestlog) {
+ if (options.smart_selftest_log) {
if (! checkedSupportedLogPages)
- scsiGetSupportedLogPages(fd);
+ scsiGetSupportedLogPages(device);
res = 0;
if (gSelfTestLPage)
- res = scsiPrintSelfTest(fd);
+ res = scsiPrintSelfTest(device);
else {
pout("Device does not support Self Test logging\n");
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
}
if (0 != res)
failuretest(OPTIONAL_CMD, returnval|=res);
+ any_output = true;
}
- if (con->smartbackgroundlog) {
+ if (options.smart_background_log) {
if (! checkedSupportedLogPages)
- scsiGetSupportedLogPages(fd);
+ scsiGetSupportedLogPages(device);
res = 0;
if (gBackgroundResultsLPage)
- res = scsiPrintBackgroundResults(fd);
+ res = scsiPrintBackgroundResults(device);
else {
pout("Device does not support Background scan results logging\n");
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
}
if (0 != res)
failuretest(OPTIONAL_CMD, returnval|=res);
+ any_output = true;
}
- if (con->smartexeoffimmediate) {
- if (scsiSmartDefaultSelfTest(fd))
+ if (options.smart_default_selftest) {
+ if (scsiSmartDefaultSelfTest(device))
return returnval | FAILSMART;
pout("Default Self Test Successful\n");
+ any_output = true;
}
- if (con->smartshortcapselftest) {
- if (scsiSmartShortCapSelfTest(fd))
+ if (options.smart_short_cap_selftest) {
+ if (scsiSmartShortCapSelfTest(device))
return returnval | FAILSMART;
pout("Short Foreground Self Test Successful\n");
+ any_output = true;
}
- if (con->smartshortselftest ) {
- if (scsiSmartShortSelfTest(fd))
+ if (options.smart_short_selftest) {
+ if (scsiSmartShortSelfTest(device))
return returnval | FAILSMART;
pout("Short Background Self Test has begun\n");
pout("Use smartctl -X to abort test\n");
+ any_output = true;
}
- if (con->smartextendselftest) {
- if (scsiSmartExtendSelfTest(fd))
+ if (options.smart_extend_selftest) {
+ if (scsiSmartExtendSelfTest(device))
return returnval | FAILSMART;
pout("Extended Background Self Test has begun\n");
- if ((0 == scsiFetchExtendedSelfTestTime(fd, &durationSec,
+ if ((0 == scsiFetchExtendedSelfTestTime(device, &durationSec,
modese_len)) && (durationSec > 0)) {
time_t t = time(NULL);
pout("Estimated completion time: %s\n", ctime(&t));
}
pout("Use smartctl -X to abort test\n");
+ any_output = true;
}
- if (con->smartextendcapselftest) {
- if (scsiSmartExtendCapSelfTest(fd))
+ if (options.smart_extend_cap_selftest) {
+ if (scsiSmartExtendCapSelfTest(device))
return returnval | FAILSMART;
pout("Extended Foreground Self Test Successful\n");
}
- if (con->smartselftestabort) {
- if (scsiSmartSelfTestAbort(fd))
+ if (options.smart_selftest_abort) {
+ if (scsiSmartSelfTestAbort(device))
return returnval | FAILSMART;
pout("Self Test returned without error\n");
+ any_output = true;
}
+ if (options.sasphy) {
+ if (scsiPrintSasPhy(device, options.sasphy_reset))
+ return returnval | FAILSMART;
+ any_output = true;
+ }
+
+ if (!any_output)
+ pout("SCSI device successfully opened\n\n"
+ "Use 'smartctl -a' (or '-x') to print SMART (and more) information\n\n");
+
return returnval;
}