*
* Home page of code is: http://smartmontools.sourceforge.net
*
- * Copyright (C) 2002-9 Bruce Allen <smartmontools-support@lists.sourceforge.net>
- * Copyright (C) 2008-9 Christian Franke <smartmontools-support@lists.sourceforge.net>
+ * Copyright (C) 2002-11 Bruce Allen
+ * Copyright (C) 2008-15 Christian Franke
* Copyright (C) 1999-2000 Michael Cornwell <cornwell@acm.org>
*
* This program is free software; you can redistribute it and/or modify
* any later version.
*
* You should have received a copy of the GNU General Public License
- * (for example COPYING); if not, write to the Free
- * Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
+ * (for example COPYING); If not, see <http://www.gnu.org/licenses/>.
*
* This code was originally developed as a Senior Thesis by Michael Cornwell
* at the Concurrent Systems Laboratory (now part of the Storage Systems
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
-#ifdef HAVE_LOCALE_H
-#include <locale.h>
-#endif // #ifdef HAVE_LOCALE_H
#include "int64.h"
#include "atacmdnames.h"
#include "atacmds.h"
+#include "ataidentify.h"
#include "dev_interface.h"
#include "ataprint.h"
#include "smartctl.h"
-#include "extern.h"
#include "utility.h"
#include "knowndrives.h"
-const char * ataprint_cpp_cvsid = "$Id: ataprint.cpp 2983 2009-11-14 21:41:41Z chrfranke $"
+const char * ataprint_cpp_cvsid = "$Id: ataprint.cpp 4104 2015-06-03 18:50:39Z chrfranke $"
ATAPRINT_H_CVSID;
-// for passing global control variables
-extern smartmonctrl *con;
static const char * infofound(const char *output) {
return (*output ? output : "[No Information Found]");
}
+// Return true if '-T permissive' is specified,
+// used to ignore missing capabilities
+static bool is_permissive()
+{
+ if (!failuretest_permissive)
+ return false;
+ failuretest_permissive--;
+ return true;
+}
/* For the given Command Register (CR) and Features Register (FR), attempts
* to construct a string that describes the contents of the Status
- * Register (ST) and Error Register (ER). The caller passes the string
- * buffer and the return value is a pointer to this string. If the
- * meanings of the flags of the error register are not known for the given
- * command then it returns NULL.
+ * Register (ST) and Error Register (ER). If the meanings of the flags of
+ * the error register are not known for the given command then it returns an
+ * empty string.
*
* The meanings of the flags of the error register for all commands are
* described in the ATA spec and could all be supported here in theory.
* should probably be redesigned.
*/
-static const char * construct_st_er_desc(
- char * s,
+static std::string format_st_er_desc(
unsigned char CR, unsigned char FR,
unsigned char ST, unsigned char ER,
unsigned short SC,
for (i = 0; i < 8; i++)
error_flag[i] = NULL;
+ std::string str;
+
switch (CR) {
case 0x10: // RECALIBRATE
error_flag[2] = abrt;
print_lba=1;
print_sector=SC;
break;
- case 0x25: /* READ DMA EXT */
+ case 0x25: // READ DMA EXT
case 0x26: // READ DMA QUEUED EXT
case 0xC7: // READ DMA QUEUED
- case 0xC8: /* READ DMA */
- case 0xC9:
+ case 0xC8: // READ DMA (with retries)
+ case 0xC9: // READ DMA (without retries, obsolete since ATA-5)
+ case 0x60: // READ FPDMA QUEUED (NCQ)
error_flag[7] = icrc;
error_flag[6] = unc;
error_flag[5] = mc;
error_flag[2] = abrt;
break;
default:
- return NULL;
+ return str; // ""
break;
}
break;
error_flag[2] = abrt;
break;
default:
- return NULL;
+ return str; // ""
break;
}
break;
- case 0xCA: /* WRITE DMA */
- case 0xCB:
+ case 0xCA: // WRITE DMA (with retries)
+ case 0xCB: // WRITE DMA (without retries, obsolete since ATA-5)
case 0x35: // WRITE DMA EXT
case 0x3D: // WRITE DMA FUA EXT
case 0xCC: // WRITE DMA QUEUED
case 0x36: // WRITE DMA QUEUED EXT
case 0x3E: // WRITE DMA QUEUED FUA EXT
+ case 0x61: // WRITE FPDMA QUEUED (NCQ)
error_flag[7] = icrc;
error_flag[6] = wp;
error_flag[5] = mc;
error_flag[2] = abrt;
break;
default:
- return NULL;
+ return str; // ""
}
- s[0] = '\0';
-
/* We ignore any status flags other than Device Fault and Error */
if (uses_device_fault && (ST & (1 << 5))) {
- strcat(s, "Device Fault");
+ str = "Device Fault";
if (ST & 1) // Error flag
- strcat(s, "; ");
+ str += "; ";
}
if (ST & 1) { // Error flag
int count = 0;
- strcat(s, "Error: ");
+ str += "Error: ";
for (i = 7; i >= 0; i--)
if ((ER & (1 << i)) && (error_flag[i])) {
if (count++ > 0)
- strcat(s, ", ");
- strcat(s, error_flag[i]);
+ str += ", ";
+ str += error_flag[i];
}
}
// If the error was a READ or WRITE error, print the Logical Block
// Address (LBA) at which the read or write failed.
if (print_lba) {
- char tmp[128];
// print number of sectors, if known, and append to print string
- if (print_sector) {
- snprintf(tmp, 128, " %d sectors", print_sector);
- strcat(s, tmp);
- }
+ if (print_sector)
+ str += strprintf(" %d sectors", print_sector);
if (lba28_regs) {
unsigned lba;
lba <<= 8;
// bits 0-7: SN
lba |= lba28_regs->sector_number;
- snprintf(tmp, 128, " at LBA = 0x%08x = %u", lba, lba);
- strcat(s, tmp);
+ str += strprintf(" at LBA = 0x%08x = %u", lba, lba);
}
else if (lba48_regs) {
// This assumes that upper LBA registers are 0 for 28-bit commands
lba48 |= lba48_regs->lba_mid_register;
lba48 <<= 8;
lba48 |= lba48_regs->lba_low_register;
- snprintf(tmp, 128, " at LBA = 0x%08"PRIx64" = %"PRIu64, lba48, lba48);
- strcat(s, tmp);
+ str += strprintf(" at LBA = 0x%08" PRIx64 " = %" PRIu64, lba48, lba48);
}
}
- return s;
+ return str;
}
-static inline const char * construct_st_er_desc(char * s,
+static inline std::string format_st_er_desc(
const ata_smart_errorlog_struct * data)
{
- return construct_st_er_desc(s,
+ return format_st_er_desc(
data->commands[4].commandreg,
data->commands[4].featuresreg,
data->error_struct.status,
&data->error_struct, (const ata_smart_exterrlog_error *)0);
}
-static inline const char * construct_st_er_desc(char * s,
+static inline std::string format_st_er_desc(
const ata_smart_exterrlog_error_log * data)
{
- return construct_st_er_desc(s,
+ return format_st_er_desc(
data->commands[4].command_register,
data->commands[4].features_register,
data->error.status_register,
}
-// This returns the capacity of a disk drive and also prints this into
-// a string, using comma separators to make it easier to read. If the
-// drive doesn't support LBA addressing or has no user writable
-// sectors (eg, CDROM or DVD) then routine returns zero.
-static uint64_t determine_capacity(const ata_identify_device * drive, char * pstring)
+static const char * get_form_factor(unsigned short word168)
{
- // get correct character to use as thousands separator
- const char *separator = ",";
-#ifdef HAVE_LOCALE_H
- struct lconv *currentlocale=NULL;
- setlocale (LC_ALL, "");
- currentlocale=localeconv();
- if (*(currentlocale->thousands_sep))
- separator=(char *)currentlocale->thousands_sep;
-#endif // #ifdef HAVE_LOCALE_H
-
- // get #sectors and turn into bytes
- uint64_t capacity = get_num_sectors(drive) * 512;
- uint64_t retval = capacity;
-
- // print with locale-specific separators (default is comma)
- int started=0, k=1000000000;
- uint64_t power_of_ten = k;
- power_of_ten *= k;
-
- for (k=0; k<7; k++) {
- uint64_t threedigits = capacity/power_of_ten;
- capacity -= threedigits*power_of_ten;
- if (started)
- // we have already printed some digits
- pstring += sprintf(pstring, "%s%03"PRIu64, separator, threedigits);
- else if (threedigits || k==6) {
- // these are the first digits that we are printing
- pstring += sprintf(pstring, "%"PRIu64, threedigits);
- started = 1;
- }
- if (k!=6)
- power_of_ten /= 1000;
+ // Table A.32 of T13/2161-D (ACS-3) Revision 4p, September 19, 2013
+ // Table 236 of T13/BSR INCITS 529 (ACS-4) Revision 04, August 25, 2014
+ switch (word168) {
+ case 0x1: return "5.25 inches";
+ case 0x2: return "3.5 inches";
+ case 0x3: return "2.5 inches";
+ case 0x4: return "1.8 inches";
+ case 0x5: return "< 1.8 inches";
+ case 0x6: return "mSATA"; // ACS-4
+ case 0x7: return "M.2"; // ACS-4
+ case 0x8: return "MicroSSD"; // ACS-4
+ case 0x9: return "CFast"; // ACS-4
+ default : return 0;
}
-
- return retval;
}
-static bool PrintDriveInfo(const ata_identify_device * drive, bool fix_swapped_id)
+static int find_msb(unsigned short word)
{
- // format drive information (with byte swapping as needed)
- char model[64], serial[64], firm[64];
- format_ata_string(model, drive->model, 40, fix_swapped_id);
- format_ata_string(serial, drive->serial_no, 20, fix_swapped_id);
- format_ata_string(firm, drive->fw_rev, 8, fix_swapped_id);
+ for (int bit = 15; bit >= 0; bit--)
+ if (word & (1 << bit))
+ return bit;
+ return -1;
+}
+
+static const char * get_ata_major_version(const ata_identify_device * drive)
+{
+ switch (find_msb(drive->major_rev_num)) {
+ case 10: return "ACS-3";
+ case 9: return "ACS-2";
+ case 8: return "ATA8-ACS";
+ case 7: return "ATA/ATAPI-7";
+ case 6: return "ATA/ATAPI-6";
+ case 5: return "ATA/ATAPI-5";
+ case 4: return "ATA/ATAPI-4";
+ case 3: return "ATA-3";
+ case 2: return "ATA-2";
+ case 1: return "ATA-1";
+ default: return 0;
+ }
+}
+
+static const char * get_ata_minor_version(const ata_identify_device * drive)
+{
+ // Table 10 of X3T13/2008D (ATA-3) Revision 7b, January 27, 1997
+ // Table 28 of T13/1410D (ATA/ATAPI-6) Revision 3b, February 26, 2002
+ // Table 31 of T13/1699-D (ATA8-ACS) Revision 6a, September 6, 2008
+ // Table 46 of T13/BSR INCITS 529 (ACS-4) Revision 08, April 28, 2015
+ switch (drive->minor_rev_num) {
+ case 0x0001: return "ATA-1 X3T9.2/781D prior to revision 4";
+ case 0x0002: return "ATA-1 published, ANSI X3.221-1994";
+ case 0x0003: return "ATA-1 X3T9.2/781D revision 4";
+ case 0x0004: return "ATA-2 published, ANSI X3.279-1996";
+ case 0x0005: return "ATA-2 X3T10/948D prior to revision 2k";
+ case 0x0006: return "ATA-3 X3T10/2008D revision 1";
+ case 0x0007: return "ATA-2 X3T10/948D revision 2k";
+ case 0x0008: return "ATA-3 X3T10/2008D revision 0";
+ case 0x0009: return "ATA-2 X3T10/948D revision 3";
+ case 0x000a: return "ATA-3 published, ANSI X3.298-1997";
+ case 0x000b: return "ATA-3 X3T10/2008D revision 6"; // 1st ATA-3 revision with SMART
+ case 0x000c: return "ATA-3 X3T13/2008D revision 7 and 7a";
+ case 0x000d: return "ATA/ATAPI-4 X3T13/1153D revision 6";
+ case 0x000e: return "ATA/ATAPI-4 T13/1153D revision 13";
+ case 0x000f: return "ATA/ATAPI-4 X3T13/1153D revision 7";
+ case 0x0010: return "ATA/ATAPI-4 T13/1153D revision 18";
+ case 0x0011: return "ATA/ATAPI-4 T13/1153D revision 15";
+ case 0x0012: return "ATA/ATAPI-4 published, ANSI NCITS 317-1998";
+ case 0x0013: return "ATA/ATAPI-5 T13/1321D revision 3";
+ case 0x0014: return "ATA/ATAPI-4 T13/1153D revision 14";
+ case 0x0015: return "ATA/ATAPI-5 T13/1321D revision 1";
+ case 0x0016: return "ATA/ATAPI-5 published, ANSI NCITS 340-2000";
+ case 0x0017: return "ATA/ATAPI-4 T13/1153D revision 17";
+ case 0x0018: return "ATA/ATAPI-6 T13/1410D revision 0";
+ case 0x0019: return "ATA/ATAPI-6 T13/1410D revision 3a";
+ case 0x001a: return "ATA/ATAPI-7 T13/1532D revision 1";
+ case 0x001b: return "ATA/ATAPI-6 T13/1410D revision 2";
+ case 0x001c: return "ATA/ATAPI-6 T13/1410D revision 1";
+ case 0x001d: return "ATA/ATAPI-7 published, ANSI INCITS 397-2005";
+ case 0x001e: return "ATA/ATAPI-7 T13/1532D revision 0";
+ case 0x001f: return "ACS-3 T13/2161-D revision 3b";
+
+ case 0x0021: return "ATA/ATAPI-7 T13/1532D revision 4a";
+ case 0x0022: return "ATA/ATAPI-6 published, ANSI INCITS 361-2002";
+
+ case 0x0027: return "ATA8-ACS T13/1699-D revision 3c";
+ case 0x0028: return "ATA8-ACS T13/1699-D revision 6";
+ case 0x0029: return "ATA8-ACS T13/1699-D revision 4";
+
+ case 0x0031: return "ACS-2 T13/2015-D revision 2";
+
+ case 0x0033: return "ATA8-ACS T13/1699-D revision 3e";
+
+ case 0x0039: return "ATA8-ACS T13/1699-D revision 4c";
+
+ case 0x0042: return "ATA8-ACS T13/1699-D revision 3f";
+
+ case 0x0052: return "ATA8-ACS T13/1699-D revision 3b";
+
+ case 0x005e: return "ACS-4 T13/BSR INCITS 529 revision 5";
+
+ case 0x006d: return "ACS-3 T13/2161-D revision 5";
+
+ case 0x0082: return "ACS-2 published, ANSI INCITS 482-2012";
+
+ case 0x0107: return "ATA8-ACS T13/1699-D revision 2d";
+
+ case 0x010a: return "ACS-3 published, ANSI INCITS 522-2014";
+
+ case 0x0110: return "ACS-2 T13/2015-D revision 3";
+
+ case 0x011b: return "ACS-3 T13/2161-D revision 4";
+
+ default: return 0;
+ }
+}
+
+static const char * get_pata_version(unsigned short word222, char (& buf)[32])
+{
+ switch (word222 & 0x0fff) {
+ default: snprintf(buf, sizeof(buf),
+ "Unknown (0x%03x)", word222 & 0x0fff); return buf;
+ case 0x001:
+ case 0x003: return "ATA8-APT";
+ case 0x002: return "ATA/ATAPI-7";
+ }
+}
+
+static const char * get_sata_version(unsigned short word222, char (& buf)[32])
+{
+ switch (find_msb(word222 & 0x0fff)) {
+ default: snprintf(buf, sizeof(buf),
+ "SATA >3.2 (0x%03x)", word222 & 0x0fff); return buf;
+ case 7: return "SATA 3.2";
+ case 6: return "SATA 3.1";
+ case 5: return "SATA 3.0";
+ case 4: return "SATA 2.6";
+ case 3: return "SATA 2.5";
+ case 2: return "SATA II Ext";
+ case 1: return "SATA 1.0a";
+ case 0: return "ATA8-AST";
+ case -1: return "Unknown";
+ }
+}
+
+static const char * get_sata_speed(int level)
+{
+ if (level <= 0)
+ return 0;
+ switch (level) {
+ default: return ">6.0 Gb/s (7)";
+ case 6: return ">6.0 Gb/s (6)";
+ case 5: return ">6.0 Gb/s (5)";
+ case 4: return ">6.0 Gb/s (4)";
+ case 3: return "6.0 Gb/s";
+ case 2: return "3.0 Gb/s";
+ case 1: return "1.5 Gb/s";
+ }
+}
+
+static const char * get_sata_maxspeed(const ata_identify_device * drive)
+{
+ unsigned short word076 = drive->words047_079[76-47];
+ if (word076 & 0x0001)
+ return 0;
+ return get_sata_speed(find_msb(word076 & 0x00fe));
+}
- // print out model, serial # and firmware versions (byte-swap ASCI strings)
- const drive_settings * dbentry = lookup_drive(model, firm);
+static const char * get_sata_curspeed(const ata_identify_device * drive)
+{
+ unsigned short word077 = drive->words047_079[77-47];
+ if (word077 & 0x0001)
+ return 0;
+ return get_sata_speed((word077 >> 1) & 0x7);
+}
+
+
+static void print_drive_info(const ata_identify_device * drive,
+ const ata_size_info & sizes, int rpm,
+ const drive_settings * dbentry)
+{
+ // format drive information (with byte swapping as needed)
+ char model[40+1], serial[20+1], firmware[8+1];
+ ata_format_id_string(model, drive->model, sizeof(model)-1);
+ ata_format_id_string(serial, drive->serial_no, sizeof(serial)-1);
+ ata_format_id_string(firmware, drive->fw_rev, sizeof(firmware)-1);
// Print model family if known
if (dbentry && *dbentry->modelfamily)
pout("Model Family: %s\n", dbentry->modelfamily);
pout("Device Model: %s\n", infofound(model));
- if (!con->dont_print_serial)
+
+ if (!dont_print_serial_number) {
pout("Serial Number: %s\n", infofound(serial));
- pout("Firmware Version: %s\n", infofound(firm));
- char capacity[64];
- if (determine_capacity(drive, capacity))
- pout("User Capacity: %s bytes\n", capacity);
-
+ unsigned oui = 0; uint64_t unique_id = 0;
+ int naa = ata_get_wwn(drive, oui, unique_id);
+ if (naa >= 0)
+ pout("LU WWN Device Id: %x %06x %09" PRIx64 "\n", naa, oui, unique_id);
+ }
+
+ // Additional Product Identifier (OEM Id) string in words 170-173
+ // (e08130r1, added in ACS-2 Revision 1, December 17, 2008)
+ if (0x2020 <= drive->words088_255[170-88] && drive->words088_255[170-88] <= 0x7e7e) {
+ char add[8+1];
+ ata_format_id_string(add, (const unsigned char *)(drive->words088_255+170-88), sizeof(add)-1);
+ if (add[0])
+ pout("Add. Product Id: %s\n", add);
+ }
+
+ pout("Firmware Version: %s\n", infofound(firmware));
+
+ if (sizes.capacity) {
+ // Print capacity
+ char num[64], cap[32];
+ pout("User Capacity: %s bytes [%s]\n",
+ format_with_thousands_sep(num, sizeof(num), sizes.capacity),
+ format_capacity(cap, sizeof(cap), sizes.capacity));
+
+ // Print sector sizes.
+ if (sizes.phy_sector_size == sizes.log_sector_size)
+ pout("Sector Size: %u bytes logical/physical\n", sizes.log_sector_size);
+ else {
+ pout("Sector Sizes: %u bytes logical, %u bytes physical",
+ sizes.log_sector_size, sizes.phy_sector_size);
+ if (sizes.log_sector_offset)
+ pout(" (offset %u bytes)", sizes.log_sector_offset);
+ pout("\n");
+ }
+ }
+
+ // Print nominal media rotation rate if reported
+ if (rpm) {
+ if (rpm == 1)
+ pout("Rotation Rate: Solid State Device\n");
+ else if (rpm > 1)
+ pout("Rotation Rate: %d rpm\n", rpm);
+ else
+ pout("Rotation Rate: Unknown (0x%04x)\n", -rpm);
+ }
+
+ // Print form factor if reported
+ unsigned short word168 = drive->words088_255[168-88];
+ if (word168) {
+ const char * form_factor = get_form_factor(word168);
+ if (form_factor)
+ pout("Form Factor: %s\n", form_factor);
+ else
+ pout("Form Factor: Unknown (0x%04x)\n", word168);
+ }
+
// See if drive is recognized
pout("Device is: %s\n", !dbentry ?
"Not in smartctl database [for details use: -P showall]":
"In smartctl database [for details use: -P show]");
- // now get ATA version info
- const char *description; unsigned short minorrev;
- int version = ataVersionInfo(&description, drive, &minorrev);
+ // Print ATA version
+ std::string ataver;
+ if ( (drive->major_rev_num != 0x0000 && drive->major_rev_num != 0xffff)
+ || (drive->minor_rev_num != 0x0000 && drive->minor_rev_num != 0xffff)) {
+ const char * majorver = get_ata_major_version(drive);
+ const char * minorver = get_ata_minor_version(drive);
- // unrecognized minor revision code
- char unknown[64];
- if (!description){
- if (!minorrev)
- sprintf(unknown, "Exact ATA specification draft version not indicated");
- else
- sprintf(unknown,"Not recognized. Minor revision code: 0x%02hx", minorrev);
- description=unknown;
+ if (majorver && minorver && str_starts_with(minorver, majorver)) {
+ // Major and minor strings match, print minor string only
+ ataver = minorver;
+ }
+ else {
+ if (majorver)
+ ataver = majorver;
+ else
+ ataver = strprintf("Unknown(0x%04x)", drive->major_rev_num);
+
+ if (minorver)
+ ataver += strprintf(", %s", minorver);
+ else if (drive->minor_rev_num != 0x0000 && drive->minor_rev_num != 0xffff)
+ ataver += strprintf(" (unknown minor revision code: 0x%04x)", drive->minor_rev_num);
+ else
+ ataver += " (minor revision not indicated)";
+ }
}
-
-
- // SMART Support was first added into the ATA/ATAPI-3 Standard with
- // Revision 3 of the document, July 25, 1995. Look at the "Document
- // Status" revision commands at the beginning of
- // http://www.t13.org/project/d2008r6.pdf to see this. So it's not
- // enough to check if we are ATA-3. Version=-3 indicates ATA-3
- // BEFORE Revision 3.
- pout("ATA Version is: %d\n",(int)abs(version));
- pout("ATA Standard is: %s\n",description);
-
+ pout("ATA Version is: %s\n", infofound(ataver.c_str()));
+
+ // Print Transport specific version
+ char buf[32] = "";
+ unsigned short word222 = drive->words088_255[222-88];
+ if (word222 != 0x0000 && word222 != 0xffff) switch (word222 >> 12) {
+ case 0x0: // PATA
+ pout("Transport Type: Parallel, %s\n", get_pata_version(word222, buf));
+ break;
+ case 0x1: // SATA
+ {
+ const char * sataver = get_sata_version(word222, buf);
+ const char * maxspeed = get_sata_maxspeed(drive);
+ const char * curspeed = get_sata_curspeed(drive);
+ pout("SATA Version is: %s%s%s%s%s%s\n", sataver,
+ (maxspeed ? ", " : ""), (maxspeed ? maxspeed : ""),
+ (curspeed ? " (current: " : ""), (curspeed ? curspeed : ""),
+ (curspeed ? ")" : ""));
+ }
+ break;
+ case 0xe: // PCIe (ACS-4)
+ pout("Transport Type: PCIe (0x%03x)\n", word222 & 0x0fff);
+ break;
+ default:
+ pout("Transport Type: Unknown (0x%04x)\n", word222);
+ break;
+ }
+
// print current time and date and timezone
char timedatetz[DATEANDEPOCHLEN]; dateandtimezone(timedatetz);
pout("Local Time is: %s\n", timedatetz);
// Print warning message, if there is one
if (dbentry && *dbentry->warningmsg)
pout("\n==> WARNING: %s\n\n", dbentry->warningmsg);
-
- if (version>=3)
- return !!dbentry;
-
- pout("SMART is only available in ATA Version 3 Revision 3 or greater.\n");
- pout("We will try to proceed in spite of this.\n");
- return !!dbentry;
}
static const char *OfflineDataCollectionStatus(unsigned char status_byte)
}
static void PrintSmartSelfExecStatus(const ata_smart_values * data,
- unsigned char fix_firmwarebug)
+ firmwarebug_defs firmwarebugs)
{
pout("Self-test execution status: ");
pout("damage.\n");
break;
case 15:
- if (fix_firmwarebug == FIX_SAMSUNG3 && data->self_test_exec_status == 0xf0) {
+ if (firmwarebugs.is_set(BUG_SAMSUNG3) && data->self_test_exec_status == 0xf0) {
pout("(%4d)\tThe previous self-test routine completed\n\t\t\t\t\t",
(int)data->self_test_exec_status);
pout("with unknown result or self-test in\n\t\t\t\t\t");
static void PrintSmartTotalTimeCompleteOffline (const ata_smart_values * data)
{
pout("Total time to complete Offline \n");
- pout("data collection: \t\t (%4d) seconds.\n",
+ pout("data collection: \t\t(%5d) seconds.\n",
(int)data->total_time_to_complete_off_line);
}
pout("Extended self-test routine\n");
if (isSupportSelfTest(data))
pout("recommended polling time: \t (%4d) minutes.\n",
- (int)data->extend_test_completion_time);
+ TestTime(data, EXTEND_SELF_TEST));
else
pout("recommended polling time: \t Not Supported.\n");
}
for (int i = 0; i < NUMBER_ATA_SMART_ATTRIBUTES; i++) {
const ata_smart_attribute & attr = data->vendor_attributes[i];
- ata_attr_state state = ata_get_attr_state(attr,
- thresholds->thres_entries[i], defs);
+ ata_attr_state state = ata_get_attr_state(attr, i, thresholds->thres_entries, defs);
if (!onlyfailed) {
if (state >= ATTRSTATE_FAILED_PAST)
// onlyfailed=2: ones that are failed, or have failed with or without prefailure bit set
static void PrintSmartAttribWithThres(const ata_smart_values * data,
const ata_smart_thresholds_pvt * thresholds,
- const ata_vendor_attr_defs & defs,
- int onlyfailed)
+ const ata_vendor_attr_defs & defs, int rpm,
+ int onlyfailed, unsigned char format)
{
+ bool brief = !!(format & ata_print_options::FMT_BRIEF);
+ bool hexid = !!(format & ata_print_options::FMT_HEX_ID);
+ bool hexval = !!(format & ata_print_options::FMT_HEX_VAL);
bool needheader = true;
// step through all vendor attributes
for (int i = 0; i < NUMBER_ATA_SMART_ATTRIBUTES; i++) {
const ata_smart_attribute & attr = data->vendor_attributes[i];
- const ata_smart_threshold_entry & thre = thresholds->thres_entries[i];
// Check attribute and threshold
- ata_attr_state state = ata_get_attr_state(attr, thre, defs);
+ unsigned char threshold = 0;
+ ata_attr_state state = ata_get_attr_state(attr, i, thresholds->thres_entries, defs, &threshold);
if (state == ATTRSTATE_NON_EXISTING)
continue;
pout("SMART Attributes Data Structure revision number: %d\n",(int)data->revnumber);
pout("Vendor Specific SMART Attributes with Thresholds:\n");
}
- pout("ID# ATTRIBUTE_NAME FLAG VALUE WORST THRESH TYPE UPDATED WHEN_FAILED RAW_VALUE\n");
+ if (!brief)
+ pout("ID#%s ATTRIBUTE_NAME FLAG VALUE WORST THRESH TYPE UPDATED WHEN_FAILED RAW_VALUE\n",
+ (!hexid ? "" : " "));
+ else
+ pout("ID#%s ATTRIBUTE_NAME FLAGS VALUE WORST THRESH FAIL RAW_VALUE\n",
+ (!hexid ? "" : " "));
needheader = false;
}
// Format value, worst, threshold
- std::string valstr, threstr;
+ std::string valstr, worstr, threstr;
if (state > ATTRSTATE_NO_NORMVAL)
- valstr = strprintf("%.3d %.3d", attr.current, attr.worst);
+ valstr = (!hexval ? strprintf("%.3d", attr.current)
+ : strprintf("0x%02x", attr.current));
+ else
+ valstr = (!hexval ? "---" : "----");
+ if (!(defs[attr.id].flags & ATTRFLAG_NO_WORSTVAL))
+ worstr = (!hexval ? strprintf("%.3d", attr.worst)
+ : strprintf("0x%02x", attr.worst));
else
- valstr = "--- ---";
+ worstr = (!hexval ? "---" : "----");
if (state > ATTRSTATE_NO_THRESHOLD)
- threstr = strprintf("%.3d", thre.threshold);
+ threstr = (!hexval ? strprintf("%.3d", threshold)
+ : strprintf("0x%02x", threshold));
else
- threstr = "---";
+ threstr = (!hexval ? "---" : "----");
// Print line for each valid attribute
- std::string attrname = ata_get_smart_attr_name(attr.id, defs);
- pout("%3d %-24s0x%04x %-9s %-3s %-10s%-9s%-12s%s\n",
- attr.id, attrname.c_str(), attr.flags,
- valstr.c_str(), threstr.c_str(),
- (ATTRIBUTE_FLAGS_PREFAILURE(attr.flags)? "Pre-fail" : "Old_age"),
- (ATTRIBUTE_FLAGS_ONLINE(attr.flags)? "Always" : "Offline"),
- (state == ATTRSTATE_FAILED_NOW ? "FAILING_NOW" :
- state == ATTRSTATE_FAILED_PAST ? "In_the_past" :
- " -" ),
- ata_format_attr_raw_value(attr, defs).c_str());
-
- // Print a warning if there is inconsistency here
- if (state == ATTRSTATE_BAD_THRESHOLD) {
- pout("%3d %-24s<== Data Page | WARNING: PREVIOUS ATTRIBUTE HAS TWO\n",
- attr.id, attrname.c_str());
- pout("%3d %-24s<== Threshold Page | INCONSISTENT IDENTITIES IN THE DATA\n",
- thre.id, ata_get_smart_attr_name(thre.id, defs).c_str());
- }
- }
- if (!needheader) pout("\n");
+ std::string idstr = (!hexid ? strprintf("%3d", attr.id)
+ : strprintf("0x%02x", attr.id));
+ std::string attrname = ata_get_smart_attr_name(attr.id, defs, rpm);
+ std::string rawstr = ata_format_attr_raw_value(attr, defs);
+
+ if (!brief)
+ pout("%s %-24s0x%04x %-4s %-4s %-4s %-10s%-9s%-12s%s\n",
+ idstr.c_str(), attrname.c_str(), attr.flags,
+ valstr.c_str(), worstr.c_str(), threstr.c_str(),
+ (ATTRIBUTE_FLAGS_PREFAILURE(attr.flags) ? "Pre-fail" : "Old_age"),
+ (ATTRIBUTE_FLAGS_ONLINE(attr.flags) ? "Always" : "Offline"),
+ (state == ATTRSTATE_FAILED_NOW ? "FAILING_NOW" :
+ state == ATTRSTATE_FAILED_PAST ? "In_the_past"
+ : " -" ) ,
+ rawstr.c_str());
+ else
+ pout("%s %-24s%c%c%c%c%c%c%c %-4s %-4s %-4s %-5s%s\n",
+ idstr.c_str(), attrname.c_str(),
+ (ATTRIBUTE_FLAGS_PREFAILURE(attr.flags) ? 'P' : '-'),
+ (ATTRIBUTE_FLAGS_ONLINE(attr.flags) ? 'O' : '-'),
+ (ATTRIBUTE_FLAGS_PERFORMANCE(attr.flags) ? 'S' : '-'),
+ (ATTRIBUTE_FLAGS_ERRORRATE(attr.flags) ? 'R' : '-'),
+ (ATTRIBUTE_FLAGS_EVENTCOUNT(attr.flags) ? 'C' : '-'),
+ (ATTRIBUTE_FLAGS_SELFPRESERVING(attr.flags) ? 'K' : '-'),
+ (ATTRIBUTE_FLAGS_OTHER(attr.flags) ? '+' : ' '),
+ valstr.c_str(), worstr.c_str(), threstr.c_str(),
+ (state == ATTRSTATE_FAILED_NOW ? "NOW" :
+ state == ATTRSTATE_FAILED_PAST ? "Past"
+ : "-" ),
+ rawstr.c_str());
+
+ }
+
+ if (!needheader) {
+ if (!onlyfailed && brief) {
+ int n = (!hexid ? 28 : 29);
+ pout("%*s||||||_ K auto-keep\n"
+ "%*s|||||__ C event count\n"
+ "%*s||||___ R error rate\n"
+ "%*s|||____ S speed/performance\n"
+ "%*s||_____ O updated online\n"
+ "%*s|______ P prefailure warning\n",
+ n, "", n, "", n, "", n, "", n, "", n, "");
+ }
+ pout("\n");
+ }
}
// Print SMART related SCT capabilities
if (!(sctcaps & 0x01))
return;
pout("SCT capabilities: \t (0x%04x)\tSCT Status supported.\n", sctcaps);
+ if (sctcaps & 0x08)
+ pout("\t\t\t\t\tSCT Error Recovery Control supported.\n");
if (sctcaps & 0x10)
pout("\t\t\t\t\tSCT Feature Control supported.\n");
if (sctcaps & 0x20)
static void PrintGeneralSmartValues(const ata_smart_values *data, const ata_identify_device *drive,
- unsigned char fix_firmwarebug)
+ firmwarebug_defs firmwarebugs)
{
pout("General SMART Values:\n");
PrintSmartOfflineStatus(data);
if (isSupportSelfTest(data)){
- PrintSmartSelfExecStatus(data, fix_firmwarebug);
+ PrintSmartSelfExecStatus(data, firmwarebugs);
}
PrintSmartTotalTimeCompleteOffline(data);
}
// Get name of log.
-// Table A.2 of T13/1699-D Revision 6
static const char * GetLogName(unsigned logaddr)
{
+ // Table 205 of T13/BSR INCITS 529 (ACS-4) Revision 08, April 28, 2015
+ // Table 112 of Serial ATA Revision 3.2, August 7, 2013
switch (logaddr) {
case 0x00: return "Log Directory";
case 0x01: return "Summary SMART error log";
case 0x02: return "Comprehensive SMART error log";
case 0x03: return "Ext. Comprehensive SMART error log";
- case 0x04: return "Device Statistics";
+ case 0x04: return "Device Statistics log";
+ case 0x05: return "Reserved for CFA"; // ACS-2
case 0x06: return "SMART self-test log";
case 0x07: return "Extended self-test log";
+ case 0x08: return "Power Conditions log"; // ACS-2
case 0x09: return "Selective self-test log";
- case 0x10: return "NCQ Command Error";
- case 0x11: return "SATA Phy Event Counters";
- case 0x20: return "Streaming performance log"; // Obsolete
+ case 0x0a: return "Device Statistics Notification"; // ACS-3
+ case 0x0b: return "Reserved for CFA"; // ACS-3
+ case 0x0c: return "Pending Defects log"; // ACS-4
+ case 0x0d: return "LPS Mis-alignment log"; // ACS-2
+
+ case 0x0f: return "Sense Data for Successful NCQ Cmds log"; // ACS-4
+ case 0x10: return "SATA NCQ Queued Error log";
+ case 0x11: return "SATA Phy Event Counters log";
+ //case 0x12: return "SATA NCQ Queue Management log"; // SATA 3.0/3.1
+ case 0x12: return "SATA NCQ NON-DATA log"; // SATA 3.2
+ case 0x13: return "SATA NCQ Send and Receive log"; // SATA 3.1
+ case 0x14: return "SATA Hybrid Information log"; // SATA 3.2
+ case 0x15: return "SATA Rebuild Assist log"; // SATA 3.2
+ case 0x16:
+ case 0x17: return "Reserved for Serial ATA";
+
+ case 0x19: return "LBA Status log"; // ACS-3
+
+ case 0x20: return "Streaming performance log [OBS-8]";
case 0x21: return "Write stream error log";
case 0x22: return "Read stream error log";
- case 0x23: return "Delayed sector log"; // Obsolete
+ case 0x23: return "Delayed sector log [OBS-8]";
+ case 0x24: return "Current Device Internal Status Data log"; // ACS-3
+ case 0x25: return "Saved Device Internal Status Data log"; // ACS-3
+
+ case 0x30: return "IDENTIFY DEVICE data log"; // ACS-3
+
case 0xe0: return "SCT Command/Status";
case 0xe1: return "SCT Data Transfer";
default:
return "Device vendor specific log";
if (0x80 <= logaddr && logaddr <= 0x9f)
return "Host vendor specific log";
- if (0x12 <= logaddr && logaddr <= 0x17)
- return "Reserved for Serial ATA";
return "Reserved";
}
/*NOTREACHED*/
}
+// Get log access permissions
+static const char * get_log_rw(unsigned logaddr)
+{
+ if ( ( logaddr <= 0x08)
+ || (0x0c <= logaddr && logaddr <= 0x0d)
+ || (0x0f <= logaddr && logaddr <= 0x14)
+ || (0x19 == logaddr)
+ || (0x20 <= logaddr && logaddr <= 0x25)
+ || (0x30 == logaddr))
+ return "R/O";
+
+ if ( (0x09 <= logaddr && logaddr <= 0x0a)
+ || (0x15 == logaddr)
+ || (0x80 <= logaddr && logaddr <= 0x9f)
+ || (0xe0 <= logaddr && logaddr <= 0xe1))
+ return "R/W";
+
+ if (0xa0 <= logaddr && logaddr <= 0xdf)
+ return "VS"; // Vendor specific
+
+ return "-"; // Unknown/Reserved
+}
+
+// Init a fake log directory, assume that standard logs are supported
+const ata_smart_log_directory * fake_logdir(ata_smart_log_directory * logdir,
+ const ata_print_options & options)
+{
+ memset(logdir, 0, sizeof(*logdir));
+ logdir->logversion = 255;
+ logdir->entry[0x01-1].numsectors = 1;
+ logdir->entry[0x03-1].numsectors = (options.smart_ext_error_log + (4-1)) / 4;
+ logdir->entry[0x04-1].numsectors = 8;
+ logdir->entry[0x06-1].numsectors = 1;
+ logdir->entry[0x07-1].numsectors = (options.smart_ext_selftest_log + (19-1)) / 19;
+ logdir->entry[0x09-1].numsectors = 1;
+ logdir->entry[0x11-1].numsectors = 1;
+ return logdir;
+}
+
// Print SMART and/or GP Log Directory
static void PrintLogDirectories(const ata_smart_log_directory * gplogdir,
const ata_smart_log_directory * smartlogdir)
(gplogdir ? " " : ""), smartlogdir->logversion,
(smartlogdir->logversion==1 ? " [multi-sector log support]" : ""));
+ pout("Address Access R/W Size Description\n");
+
for (unsigned i = 0; i <= 0xff; i++) {
// Get number of sectors
unsigned smart_numsect = GetNumLogSectors(smartlogdir, i, false);
if (!(smart_numsect || gp_numsect))
continue; // Log does not exist
+ const char * acc; unsigned size;
+ if (smart_numsect == gp_numsect) {
+ acc = "GPL,SL"; size = gp_numsect;
+ }
+ else if (!smart_numsect) {
+ acc = "GPL"; size = gp_numsect;
+ }
+ else if (!gp_numsect) {
+ acc = " SL"; size = smart_numsect;
+ }
+ else {
+ acc = 0; size = 0;
+ }
+
+ unsigned i2 = i;
+ if (acc && ((0x80 <= i && i < 0x9f) || (0xa0 <= i && i < 0xdf))) {
+ // Find range of Host/Device vendor specific logs with same size
+ unsigned imax = (i < 0x9f ? 0x9f : 0xdf);
+ for (unsigned j = i+1; j <= imax; j++) {
+ unsigned sn = GetNumLogSectors(smartlogdir, j, false);
+ unsigned gn = GetNumLogSectors(gplogdir , j, true );
+
+ if (!(sn == smart_numsect && gn == gp_numsect))
+ break;
+ i2 = j;
+ }
+ }
+
const char * name = GetLogName(i);
+ const char * rw = get_log_rw(i);
- // Print name and length of log.
- // If both SMART and GP exist, print separate entries if length differ.
- if (smart_numsect == gp_numsect)
- pout( "GP/S Log at address 0x%02x has %4d sectors [%s]\n", i, smart_numsect, name);
+ if (i2 > i) {
+ pout("0x%02x-0x%02x %-6s %-3s %5u %s\n", i, i2, acc, rw, size, name);
+ i = i2;
+ }
+ else if (acc)
+ pout( "0x%02x %-6s %-3s %5u %s\n", i, acc, rw, size, name);
else {
- if (gp_numsect)
- pout("GP %sLog at address 0x%02x has %4d sectors [%s]\n", (smartlogdir?" ":""),
- i, gp_numsect, name);
- if (smart_numsect)
- pout("SMART Log at address 0x%02x has %4d sectors [%s]\n", i, smart_numsect, name);
+ // GPL and SL support different sizes
+ pout( "0x%02x %-6s %-3s %5u %s\n", i, "GPL", rw, gp_numsect, name);
+ pout( "0x%02x %-6s %-3s %5u %s\n", i, "SL", rw, smart_numsect, name);
}
}
pout("\n");
for (unsigned i = 0; i < num_pages * 512; i += 16) {
const unsigned char * p = data+i;
pout("%07x: %02x %02x %02x %02x %02x %02x %02x %02x "
- "%02x %02x %02x %02x %02x %02x %02x %02x\n",
+ "%02x %02x %02x %02x %02x %02x %02x %02x ",
(page * 512) + i,
p[ 0], p[ 1], p[ 2], p[ 3], p[ 4], p[ 5], p[ 6], p[ 7],
p[ 8], p[ 9], p[10], p[11], p[12], p[13], p[14], p[15]);
+#define P(n) (' ' <= p[n] && p[n] <= '~' ? (int)p[n] : '.')
+ pout("|%c%c%c%c%c%c%c%c"
+ "%c%c%c%c%c%c%c%c|\n",
+ P( 0), P( 1), P( 2), P( 3), P( 4), P( 5), P( 6), P( 7),
+ P( 8), P( 9), P(10), P(11), P(12), P(13), P(14), P(15));
+#undef P
if ((i & 0x1ff) == 0x1f0)
pout("\n");
}
}
+///////////////////////////////////////////////////////////////////////
+// Device statistics (Log 0x04)
+
+// Section A.5 of T13/2161-D (ACS-3) Revision 5, October 28, 2013
+// Section 9.5 of T13/BSR INCITS 529 (ACS-4) Revision 08, April 28, 2015
+
+struct devstat_entry_info
+{
+ short size; // #bytes of value, -1 for signed char
+ const char * name;
+};
+
+const devstat_entry_info devstat_info_0x00[] = {
+ { 2, "List of supported log pages" },
+ { 0, 0 }
+};
+
+const devstat_entry_info devstat_info_0x01[] = {
+ { 2, "General Statistics" },
+ { 4, "Lifetime Power-On Resets" },
+ { 4, "Power-on Hours" },
+ { 6, "Logical Sectors Written" },
+ { 6, "Number of Write Commands" },
+ { 6, "Logical Sectors Read" },
+ { 6, "Number of Read Commands" },
+ { 6, "Date and Time TimeStamp" }, // ACS-3
+ { 4, "Pending Error Count" }, // ACS-4
+ { 2, "Workload Utilization" }, // ACS-4
+ { 6, "Utilization Usage Rate" }, // ACS-4 (TODO: field provides 3 values)
+ { 0, 0 }
+};
+
+const devstat_entry_info devstat_info_0x02[] = {
+ { 2, "Free-Fall Statistics" },
+ { 4, "Number of Free-Fall Events Detected" },
+ { 4, "Overlimit Shock Events" },
+ { 0, 0 }
+};
+
+const devstat_entry_info devstat_info_0x03[] = {
+ { 2, "Rotating Media Statistics" },
+ { 4, "Spindle Motor Power-on Hours" },
+ { 4, "Head Flying Hours" },
+ { 4, "Head Load Events" },
+ { 4, "Number of Reallocated Logical Sectors" },
+ { 4, "Read Recovery Attempts" },
+ { 4, "Number of Mechanical Start Failures" },
+ { 4, "Number of Realloc. Candidate Logical Sectors" }, // ACS-3
+ { 4, "Number of High Priority Unload Events" }, // ACS-3
+ { 0, 0 }
+};
+
+const devstat_entry_info devstat_info_0x04[] = {
+ { 2, "General Errors Statistics" },
+ { 4, "Number of Reported Uncorrectable Errors" },
+//{ 4, "Number of Resets Between Command Acceptance and Command Completion" },
+ { 4, "Resets Between Cmd Acceptance and Completion" },
+ { 0, 0 }
+};
+
+const devstat_entry_info devstat_info_0x05[] = {
+ { 2, "Temperature Statistics" },
+ { -1, "Current Temperature" },
+ { -1, "Average Short Term Temperature" },
+ { -1, "Average Long Term Temperature" },
+ { -1, "Highest Temperature" },
+ { -1, "Lowest Temperature" },
+ { -1, "Highest Average Short Term Temperature" },
+ { -1, "Lowest Average Short Term Temperature" },
+ { -1, "Highest Average Long Term Temperature" },
+ { -1, "Lowest Average Long Term Temperature" },
+ { 4, "Time in Over-Temperature" },
+ { -1, "Specified Maximum Operating Temperature" },
+ { 4, "Time in Under-Temperature" },
+ { -1, "Specified Minimum Operating Temperature" },
+ { 0, 0 }
+};
+
+const devstat_entry_info devstat_info_0x06[] = {
+ { 2, "Transport Statistics" },
+ { 4, "Number of Hardware Resets" },
+ { 4, "Number of ASR Events" },
+ { 4, "Number of Interface CRC Errors" },
+ { 0, 0 }
+};
+
+const devstat_entry_info devstat_info_0x07[] = {
+ { 2, "Solid State Device Statistics" },
+ { 1, "Percentage Used Endurance Indicator" },
+ { 0, 0 }
+};
+
+const devstat_entry_info * devstat_infos[] = {
+ devstat_info_0x00,
+ devstat_info_0x01,
+ devstat_info_0x02,
+ devstat_info_0x03,
+ devstat_info_0x04,
+ devstat_info_0x05,
+ devstat_info_0x06,
+ devstat_info_0x07
+};
+
+const int num_devstat_infos = sizeof(devstat_infos)/sizeof(devstat_infos[0]);
+
+static const char * get_device_statistics_page_name(int page)
+{
+ if (page < num_devstat_infos)
+ return devstat_infos[page][0].name;
+ if (page == 0xff)
+ return "Vendor Specific Statistics"; // ACS-4
+ return "Unknown Statistics";
+}
+
+static void print_device_statistics_page(const unsigned char * data, int page)
+{
+ const devstat_entry_info * info = (page < num_devstat_infos ? devstat_infos[page] : 0);
+ const char * name = get_device_statistics_page_name(page);
+
+ // Check page number in header
+ static const char line[] = " ===== = = === == ";
+ if (!data[2]) {
+ pout("0x%02x%s%s (empty) ==\n", page, line, name);
+ return;
+ }
+ if (data[2] != page) {
+ pout("0x%02x%s%s (invalid page 0x%02x in header) ==\n", page, line, name, data[2]);
+ return;
+ }
+
+ pout("0x%02x%s%s (rev %d) ==\n", page, line, name, data[0] | (data[1] << 8));
+
+ // Print entries
+ for (int i = 1, offset = 8; offset < 512-7; i++, offset+=8) {
+ // Check for last known entry
+ if (info && !info[i].size)
+ info = 0;
+
+ // Skip unsupported entries
+ unsigned char flags = data[offset+7];
+ if (!(flags & 0x80))
+ continue;
+
+ // Stop if unknown entries contain garbage data due to buggy firmware
+ if (!info && (data[offset+5] || data[offset+6])) {
+ pout("0x%02x 0x%03x - - [Trailing garbage ignored]\n", page, offset);
+ break;
+ }
+
+ // Get value size, default to max if unknown
+ int size = (info ? info[i].size : 7);
+
+ // Format value
+ char valstr[32];
+ if (flags & 0x40) { // valid flag
+ // Get value
+ int64_t val;
+ if (size < 0) {
+ val = (signed char)data[offset];
+ }
+ else {
+ val = 0;
+ for (int j = 0; j < size; j++)
+ val |= (int64_t)data[offset+j] << (j*8);
+ }
+ snprintf(valstr, sizeof(valstr), "%" PRId64, val);
+ }
+ else {
+ // Value not known (yet)
+ valstr[0] = '-'; valstr[1] = 0;
+ }
+
+ pout("0x%02x 0x%03x %d %15s %c%c%c%c %s\n",
+ page, offset,
+ abs(size),
+ valstr,
+ (flags & 0x20 ? 'N' : '-'), // normalized statistics
+ (flags & 0x10 ? 'D' : '-'), // supports DSN (ACS-3)
+ (flags & 0x08 ? 'C' : '-'), // monitored condition met (ACS-3)
+ (flags & 0x07 ? '+' : ' '), // reserved flags
+ (info ? info[i].name :
+ page == 0xff ? "Vendor Specific" // ACS-4
+ : "Unknown" ));
+ }
+}
+
+static bool print_device_statistics(ata_device * device, unsigned nsectors,
+ const std::vector<int> & single_pages, bool all_pages, bool ssd_page,
+ bool use_gplog)
+{
+ // Read list of supported pages from page 0
+ unsigned char page_0[512] = {0, };
+ int rc;
+
+ if (use_gplog)
+ rc = ataReadLogExt(device, 0x04, 0, 0, page_0, 1);
+ else
+ rc = ataReadSmartLog(device, 0x04, page_0, 1);
+ if (!rc) {
+ pout("Read Device Statistics page 0x00 failed\n\n");
+ return false;
+ }
+
+ unsigned char nentries = page_0[8];
+ if (!(page_0[2] == 0 && nentries > 0)) {
+ pout("Device Statistics page 0x00 is invalid (page=0x%02x, nentries=%d)\n\n", page_0[2], nentries);
+ return false;
+ }
+
+ // Prepare list of pages to print
+ std::vector<int> pages;
+ unsigned i;
+ if (all_pages) {
+ // Add all supported pages
+ for (i = 0; i < nentries; i++) {
+ int page = page_0[8+1+i];
+ if (page)
+ pages.push_back(page);
+ }
+ ssd_page = false;
+ }
+ // Add manually specified pages
+ bool print_page_0 = false;
+ for (i = 0; i < single_pages.size() || ssd_page; i++) {
+ int page = (i < single_pages.size() ? single_pages[i] : 0x07);
+ if (!page)
+ print_page_0 = true;
+ else if (page >= (int)nsectors)
+ pout("Device Statistics Log has only 0x%02x pages\n", nsectors);
+ else
+ pages.push_back(page);
+ if (page == 0x07)
+ ssd_page = false;
+ }
+
+ // Print list of supported pages if requested
+ if (print_page_0) {
+ pout("Device Statistics (%s Log 0x04) supported pages\n",
+ use_gplog ? "GP" : "SMART");
+ pout("Page Description\n");
+ for (i = 0; i < nentries; i++) {
+ int page = page_0[8+1+i];
+ pout("0x%02x %s\n", page, get_device_statistics_page_name(page));
+ }
+ pout("\n");
+ }
+
+ // Read & print pages
+ if (!pages.empty()) {
+ pout("Device Statistics (%s Log 0x04)\n",
+ use_gplog ? "GP" : "SMART");
+ pout("Page Offset Size Value Flags Description\n");
+ int max_page = 0;
+
+ if (!use_gplog)
+ for (i = 0; i < pages.size(); i++) {
+ int page = pages[i];
+ if (max_page < page && page < 0xff)
+ max_page = page;
+ }
+
+ raw_buffer pages_buf((max_page+1) * 512);
+
+ if (!use_gplog && !ataReadSmartLog(device, 0x04, pages_buf.data(), max_page+1)) {
+ pout("Read Device Statistics pages 0x00-0x%02x failed\n\n", max_page);
+ return false;
+ }
+
+ for (i = 0; i < pages.size(); i++) {
+ int page = pages[i];
+ if (use_gplog) {
+ if (!ataReadLogExt(device, 0x04, 0, page, pages_buf.data(), 1)) {
+ pout("Read Device Statistics page 0x%02x failed\n\n", page);
+ return false;
+ }
+ }
+ else if (page > max_page)
+ continue;
+
+ int offset = (use_gplog ? 0 : page * 512);
+ print_device_statistics_page(pages_buf.data() + offset, page);
+ }
+
+ pout("%32s|||_ C monitored condition met\n", "");
+ pout("%32s||__ D supports DSN\n", "");
+ pout("%32s|___ N normalized value\n\n", "");
+ }
+
+ return true;
+}
+
+
+///////////////////////////////////////////////////////////////////////
+
// Print log 0x11
static void PrintSataPhyEventCounters(const unsigned char * data, bool reset)
{
}
// Counters stop at max value, add '+' in this case
- pout("0x%04x %u %12"PRIu64"%c %s\n", id, size, val,
+ pout("0x%04x %u %12" PRIu64 "%c %s\n", id, size, val,
(val == max_val ? '+' : ' '), name);
}
if (reset)
pout("\n");
}
+// Format milliseconds from error log entry as "DAYS+H:M:S.MSEC"
+static std::string format_milliseconds(unsigned msec)
+{
+ unsigned days = msec / 86400000U;
+ msec -= days * 86400000U;
+ unsigned hours = msec / 3600000U;
+ msec -= hours * 3600000U;
+ unsigned min = msec / 60000U;
+ msec -= min * 60000U;
+ unsigned sec = msec / 1000U;
+ msec -= sec * 1000U;
+
+ std::string str;
+ if (days)
+ str = strprintf("%2ud+", days);
+ str += strprintf("%02u:%02u:%02u.%03u", hours, min, sec, msec);
+ return str;
+}
+
// Get description for 'state' value from SMART Error Logs
static const char * get_error_log_state_desc(unsigned state)
{
// returns number of errors
static int PrintSmartErrorlog(const ata_smart_errorlog *data,
- unsigned char fix_firmwarebug)
+ firmwarebug_defs firmwarebugs)
{
pout("SMART Error Log Version: %d\n", (int)data->revnumber);
pout("No Errors Logged\n\n");
return 0;
}
- PRINT_ON(con);
+ print_on();
// If log pointer out of range, return
if (data->error_log_pointer>5){
pout("Invalid Error Log index = 0x%02x (T13/1321D rev 1c "
}
// Some internal consistency checking of the data structures
- if ((data->ata_error_count-data->error_log_pointer)%5 && fix_firmwarebug != FIX_SAMSUNG2) {
+ if ((data->ata_error_count-data->error_log_pointer) % 5 && !firmwarebugs.is_set(BUG_SAMSUNG2)) {
pout("Warning: ATA error count %d inconsistent with error log pointer %d\n\n",
data->ata_error_count,data->error_log_pointer);
}
else
pout( "ATA Error Count: %d (device log contains only the most recent five errors)\n",
(int)data->ata_error_count);
- PRINT_OFF(con);
+ print_off();
pout("\tCR = Command Register [HEX]\n"
"\tFR = Features Register [HEX]\n"
"\tSC = Sector Count Register [HEX]\n"
const ata_smart_errorlog_error_struct * summary = &(elog->error_struct);
// Spec says: unused error log structures shall be zero filled
- if (nonempty((unsigned char*)elog,sizeof(*elog))){
+ if (nonempty(elog, sizeof(*elog))){
// Table 57 of T13/1532D Volume 1 Revision 3
const char *msgstate = get_error_log_state_desc(summary->state);
int days = (int)summary->timestamp/24;
// See table 42 of ATA5 spec
- PRINT_ON(con);
+ print_on();
pout("Error %d occurred at disk power-on lifetime: %d hours (%d days + %d hours)\n",
(int)(data->ata_error_count+k-4), (int)summary->timestamp, days, (int)(summary->timestamp-24*days));
- PRINT_OFF(con);
+ print_off();
pout(" When the command that caused the error occurred, the device was %s.\n\n",msgstate);
pout(" After command completion occurred, registers were:\n"
" ER ST SC SN CL CH DH\n"
(int)summary->drive_head);
// Add a description of the contents of the status and error registers
// if possible
- char descbuf[256];
- const char * st_er_desc = construct_st_er_desc(descbuf, elog);
- if (st_er_desc)
- pout(" %s", st_er_desc);
+ std::string st_er_desc = format_st_er_desc(elog);
+ if (!st_er_desc.empty())
+ pout(" %s", st_er_desc.c_str());
pout("\n\n");
pout(" Commands leading to the command that caused the error were:\n"
" CR FR SC SN CL CH DH DC Powered_Up_Time Command/Feature_Name\n"
const ata_smart_errorlog_command_struct * thiscommand = elog->commands+j;
// Spec says: unused data command structures shall be zero filled
- if (nonempty((unsigned char*)thiscommand,sizeof(*thiscommand))) {
- char timestring[32];
-
- // Convert integer milliseconds to a text-format string
- MsecToText(thiscommand->timestamp, timestring);
-
+ if (nonempty(thiscommand, sizeof(*thiscommand))) {
pout(" %02x %02x %02x %02x %02x %02x %02x %02x %16s %s\n",
(int)thiscommand->commandreg,
(int)thiscommand->featuresreg,
(int)thiscommand->cylinder_high,
(int)thiscommand->drive_head,
(int)thiscommand->devicecontrolreg,
- timestring,
+ format_milliseconds(thiscommand->timestamp).c_str(),
look_up_ata_command(thiscommand->commandreg, thiscommand->featuresreg));
}
}
pout("\n");
}
}
- PRINT_ON(con);
- if (con->printing_switchable)
+ print_on();
+ if (printing_is_switchable)
pout("\n");
- PRINT_OFF(con);
+ print_off();
return data->ata_error_count;
}
// Print SMART Extended Comprehensive Error Log (GP Log 0x03)
-static int PrintSmartExtErrorLog(const ata_smart_exterrlog * log,
+static int PrintSmartExtErrorLog(ata_device * device,
+ const firmwarebug_defs & firmwarebugs,
+ const ata_smart_exterrlog * log,
unsigned nsectors, unsigned max_errors)
{
pout("SMART Extended Comprehensive Error Log Version: %u (%u sectors)\n",
pout("No Errors Logged\n\n");
return 0;
}
- PRINT_ON(con);
+ print_on();
// Check index
unsigned nentries = nsectors * 4;
if (max_errors < errcnt)
errcnt = max_errors;
- PRINT_OFF(con);
+ print_off();
pout("\tCR = Command Register\n"
"\tFEATR = Features Register\n"
"\tCOUNT = Count (was: Sector Count) Register\n"
"DDd+hh:mm:SS.sss where DD=days, hh=hours, mm=minutes,\n"
"SS=sec, and sss=millisec. It \"wraps\" after 49.710 days.\n\n");
+ // Recently read log page
+ ata_smart_exterrlog log_buf;
+ unsigned log_buf_page = ~0;
+
// Iterate through circular buffer in reverse direction
for (unsigned i = 0, errnum = log->device_error_count;
i < errcnt; i++, errnum--, erridx = (erridx > 0 ? erridx - 1 : nentries - 1)) {
- const ata_smart_exterrlog_error_log & entry = log[erridx / 4].error_logs[erridx % 4];
+ // Read log page if needed
+ const ata_smart_exterrlog * log_p;
+ unsigned page = erridx / 4;
+ if (page == 0)
+ log_p = log;
+ else {
+ if (page != log_buf_page) {
+ memset(&log_buf, 0, sizeof(log_buf));
+ if (!ataReadExtErrorLog(device, &log_buf, page, 1, firmwarebugs))
+ break;
+ log_buf_page = page;
+ }
+ log_p = &log_buf;
+ }
+
+ const ata_smart_exterrlog_error_log & entry = log_p->error_logs[erridx % 4];
// Skip unused entries
if (!nonempty(&entry, sizeof(entry))) {
}
// Print error information
- PRINT_ON(con);
+ print_on();
const ata_smart_exterrlog_error & err = entry.error;
pout("Error %u [%u] occurred at disk power-on lifetime: %u hours (%u days + %u hours)\n",
errnum, erridx, err.timestamp, err.timestamp / 24, err.timestamp % 24);
- PRINT_OFF(con);
+ print_off();
pout(" When the command that caused the error occurred, the device was %s.\n\n",
get_error_log_state_desc(err.state));
// Add a description of the contents of the status and error registers
// if possible
- char descbuf[256];
- const char * st_er_desc = construct_st_er_desc(descbuf, &entry);
- if (st_er_desc)
- pout(" %s", st_er_desc);
+ std::string st_er_desc = format_st_er_desc(&entry);
+ if (!st_er_desc.empty())
+ pout(" %s", st_er_desc.c_str());
pout("\n\n");
// Print command history
continue;
// Print registers, timestamp and ATA command name
- char timestring[32];
- MsecToText(cmd.timestamp, timestring);
-
pout(" %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %16s %s\n",
cmd.command_register,
cmd.features_register_hi,
cmd.lba_low_register,
cmd.device_register,
cmd.device_control_register,
- timestring,
+ format_milliseconds(cmd.timestamp).c_str(),
look_up_ata_command(cmd.command_register, cmd.features_register));
}
pout("\n");
}
- PRINT_ON(con);
- if (con->printing_switchable)
+ print_on();
+ if (printing_is_switchable)
pout("\n");
- PRINT_OFF(con);
+ print_off();
return log->device_error_count;
}
// Print SMART Extended Self-test Log (GP Log 0x07)
-static void PrintSmartExtSelfTestLog(const ata_smart_extselftestlog * log,
- unsigned nsectors, unsigned max_entries)
+static int PrintSmartExtSelfTestLog(const ata_smart_extselftestlog * log,
+ unsigned nsectors, unsigned max_entries)
{
pout("SMART Extended Self-test Log Version: %u (%u sectors)\n",
log->version, nsectors);
if (!log->log_desc_index){
pout("No self-tests have been logged. [To run self-tests, use: smartctl -t]\n\n");
- return;
+ return 0;
}
// Check index
unsigned logidx = log->log_desc_index;
if (logidx > nentries) {
pout("Invalid Self-test Log index = 0x%04x (reserved = 0x%02x)\n", logidx, log->reserved1);
- return;
+ return 0;
}
// Index base is not clearly specified by ATA8-ACS (T13/1699-D Revision 6a),
logidx--;
bool print_header = true;
+ int errcnt = 0, igncnt = 0;
+ int ext_ok_testnum = -1;
// Iterate through circular buffer in reverse direction
for (unsigned i = 0, testnum = 1;
| ((uint64_t)b[5] << 40);
// Print entry
- ataPrintSmartSelfTestEntry(testnum++, entry.self_test_type,
+ int state = ataPrintSmartSelfTestEntry(testnum, entry.self_test_type,
entry.self_test_status, entry.timestamp, lba48,
false /*!print_error_only*/, print_header);
+
+ if (state < 0) {
+ // Self-test showed an error
+ if (ext_ok_testnum < 0)
+ errcnt++;
+ else
+ // Newer successful extended self-test exits
+ igncnt++;
+ }
+ else if (state > 0 && ext_ok_testnum < 0) {
+ // Latest successful extended self-test
+ ext_ok_testnum = testnum;
+ }
+ testnum++;
}
+
+ if (igncnt)
+ pout("%d of %d failed self-tests are outdated by newer successful extended offline self-test #%2d\n",
+ igncnt, igncnt+errcnt, ext_ok_testnum);
+
pout("\n");
+ return errcnt;
}
static void ataPrintSelectiveSelfTestLog(const ata_selective_self_test_log * log, const ata_smart_values * sv)
// we need at least 7 characters wide fields to accomodate the
// labels
- if ((field1=snprintf(tmp,64, "%"PRIu64, maxl))<7)
+ if ((field1=snprintf(tmp,64, "%" PRIu64, maxl))<7)
field1=7;
- if ((field2=snprintf(tmp,64, "%"PRIu64, maxr))<7)
+ if ((field2=snprintf(tmp,64, "%" PRIu64, maxr))<7)
field2=7;
// now print the five test spans
if ((i+1)==(int)log->currentspan)
// this span is currently under test
- pout(" %d %*"PRIu64" %*"PRIu64" %s [%01d0%% left] (%"PRIu64"-%"PRIu64")\n",
+ pout(" %d %*" PRIu64 " %*" PRIu64 " %s [%01d0%% left] (%" PRIu64 "-%" PRIu64 ")\n",
i+1, field1, start, field2, end, msg,
(int)(sv->self_test_exec_status & 0xf), current, currentend);
else
// this span is not currently under test
- pout(" %d %*"PRIu64" %*"PRIu64" Not_testing\n",
+ pout(" %d %*" PRIu64 " %*" PRIu64 " Not_testing\n",
i+1, field1, start, field2, end);
}
// if we are currently read-scanning, print LBAs and the status of
// the read scan
if (log->currentspan>5)
- pout("%5d %*"PRIu64" %*"PRIu64" Read_scanning %s\n",
+ pout("%5d %*" PRIu64 " %*" PRIu64 " Read_scanning %s\n",
(int)log->currentspan, field1, current, field2, currentend,
OfflineDataCollectionStatus(sv->offline_data_collection_status));
}
// Format SCT Temperature value
-static const char * sct_ptemp(signed char x, char * buf)
+static const char * sct_ptemp(signed char x, char (& buf)[20])
{
if (x == -128 /*0x80 = unknown*/)
- strcpy(buf, " ?");
- else
- sprintf(buf, "%2d", x);
+ return " ?";
+ snprintf(buf, sizeof(buf), "%2d", x);
return buf;
}
-static const char * sct_pbar(int x, char * buf)
+static const char * sct_pbar(int x, char (& buf)[64])
{
if (x <= 19)
x = 0;
pout("Device State: %s (%u)\n",
sct_device_state_msg(sts->device_state), sts->device_state);
char buf1[20], buf2[20];
- if ( !sts->min_temp && !sts->life_min_temp && !sts->byte205
- && !sts->under_limit_count && !sts->over_limit_count ) {
+ if ( !sts->min_temp && !sts->life_min_temp
+ && !sts->under_limit_count && !sts->over_limit_count) {
// "Reserved" fields not set, assume "old" format version 2
- // Table 11 of T13/1701DT Revision 5
- // Table 54 of T13/1699-D Revision 3e
+ // Table 11 of T13/1701DT-N (SMART Command Transport) Revision 5, February 2005
+ // Table 54 of T13/1699-D (ATA8-ACS) Revision 3e, July 2006
pout("Current Temperature: %s Celsius\n",
sct_ptemp(sts->hda_temp, buf1));
pout("Power Cycle Max Temperature: %s Celsius\n",
}
else {
// Assume "new" format version 2 or version 3
- // T13/e06152r0-3 (Additional SCT Temperature Statistics)
- // Table 60 of T13/1699-D Revision 3f
+ // T13/e06152r0-3 (Additional SCT Temperature Statistics), August - October 2006
+ // Table 60 of T13/1699-D (ATA8-ACS) Revision 3f, December 2006 (format version 2)
+ // Table 80 of T13/1699-D (ATA8-ACS) Revision 6a, September 2008 (format version 3)
+ // Table 182 of T13/BSR INCITS 529 (ACS-4) Revision 02a, May 22, 2014 (smart_status field)
pout("Current Temperature: %s Celsius\n",
sct_ptemp(sts->hda_temp, buf1));
pout("Power Cycle Min/Max Temperature: %s/%s Celsius\n",
sct_ptemp(sts->min_temp, buf1), sct_ptemp(sts->max_temp, buf2));
pout("Lifetime Min/Max Temperature: %s/%s Celsius\n",
sct_ptemp(sts->life_min_temp, buf1), sct_ptemp(sts->life_max_temp, buf2));
- if (sts->byte205) // e06152r0-2, removed in e06152r3
- pout("Lifetime Average Temperature: %s Celsius\n",
- sct_ptemp((signed char)sts->byte205, buf1));
+ signed char avg = sts->byte205; // Average Temperature from e06152r0-2, removed in e06152r3
+ if (0 < avg && sts->life_min_temp <= avg && avg <= sts->life_max_temp)
+ pout("Lifetime Average Temperature: %2d Celsius\n", avg);
pout("Under/Over Temperature Limit Count: %2u/%u\n",
sts->under_limit_count, sts->over_limit_count);
+
+ if (sts->smart_status) // ACS-4
+ pout("SMART Status: 0x%04x (%s)\n", sts->smart_status,
+ (sts->smart_status == 0x2cf4 ? "FAILED" :
+ sts->smart_status == 0xc24f ? "PASSED" : "Reserved"));
+
+ if (nonempty(sts->vendor_specific, sizeof(sts->vendor_specific))) {
+ pout("Vendor specific:\n");
+ for (unsigned i = 0; i < sizeof(sts->vendor_specific); i++)
+ pout("%02x%c", sts->vendor_specific[i], ((i & 0xf) != 0xf ? ' ' : '\n'));
+ }
}
return 0;
}
// Print SCT Temperature History Table
static int ataPrintSCTTempHist(const ata_sct_temperature_history_table * tmh)
{
- char buf1[20], buf2[80];
- pout("SCT Temperature History Version: %u\n", tmh->format_version);
+ char buf1[20], buf2[20], buf3[64];
+ pout("SCT Temperature History Version: %u%s\n", tmh->format_version,
+ (tmh->format_version != 2 ? " (Unknown, should be 2)" : ""));
pout("Temperature Sampling Period: %u minute%s\n",
tmh->sampling_period, (tmh->sampling_period==1?"":"s"));
pout("Temperature Logging Interval: %u minute%s\n",
pout("Min/Max Temperature Limit: %s/%s Celsius\n",
sct_ptemp(tmh->under_limit, buf1), sct_ptemp(tmh->over_limit, buf2));
pout("Temperature History Size (Index): %u (%u)\n", tmh->cb_size, tmh->cb_index);
+
if (!(0 < tmh->cb_size && tmh->cb_size <= sizeof(tmh->cb) && tmh->cb_index < tmh->cb_size)) {
- pout("Error invalid Temperature History Size or Index\n");
+ if (!tmh->cb_size)
+ pout("Temperature History is empty\n");
+ else
+ pout("Invalid Temperature History Size or Index\n");
return 0;
}
// TODO: Don't print times < boot time
strftime(date, sizeof(date), "%Y-%m-%d %H:%M", localtime(&t));
pout(" %3u %s %s %s\n", i, date,
- sct_ptemp(tmh->cb[i], buf1), sct_pbar(tmh->cb[i], buf2));
+ sct_ptemp(tmh->cb[i], buf1), sct_pbar(tmh->cb[i], buf3));
}
else if (n == n1+1) {
pout(" ... ..(%3u skipped). .. %s\n",
- n2-n1-2, sct_pbar(tmh->cb[i], buf2));
+ n2-n1-2, sct_pbar(tmh->cb[i], buf3));
}
t += interval * 60; i = (i+1) % tmh->cb_size; n++;
}
return 0;
}
+// Print SCT Error Recovery Control timers
+static void ataPrintSCTErrorRecoveryControl(bool set, unsigned short read_timer, unsigned short write_timer)
+{
+ pout("SCT Error Recovery Control%s:\n", (set ? " set to" : ""));
+ if (!read_timer)
+ pout(" Read: Disabled\n");
+ else
+ pout(" Read: %6d (%0.1f seconds)\n", read_timer, read_timer/10.0);
+ if (!write_timer)
+ pout(" Write: Disabled\n");
+ else
+ pout(" Write: %6d (%0.1f seconds)\n", write_timer, write_timer/10.0);
+}
-// Compares failure type to policy in effect, and either exits or
-// simply returns to the calling routine.
-void failuretest(int type, int returnvalue){
+static void print_aam_level(const char * msg, int level, int recommended = -1)
+{
+ // Table 56 of T13/1699-D (ATA8-ACS) Revision 6a, September 6, 2008
+ // Obsolete since T13/2015-D (ACS-2) Revision 4a, December 9, 2010
+ const char * s;
+ if (level == 0)
+ s = "vendor specific";
+ else if (level < 128)
+ s = "unknown/retired";
+ else if (level == 128)
+ s = "quiet";
+ else if (level < 254)
+ s = "intermediate";
+ else if (level == 254)
+ s = "maximum performance";
+ else
+ s = "reserved";
- // If this is an error in an "optional" SMART command
- if (type==OPTIONAL_CMD){
- if (con->conservative){
- pout("An optional SMART command failed: exiting. Remove '-T conservative' option to continue.\n");
- EXIT(returnvalue);
+ if (recommended >= 0)
+ pout("%s%d (%s), recommended: %d\n", msg, level, s, recommended);
+ else
+ pout("%s%d (%s)\n", msg, level, s);
+}
+
+static void print_apm_level(const char * msg, int level)
+{
+ // Table 120 of T13/2015-D (ACS-2) Revision 7, June 22, 2011
+ const char * s;
+ if (!(1 <= level && level <= 254))
+ s = "reserved";
+ else if (level == 1)
+ s = "minimum power consumption with standby";
+ else if (level < 128)
+ s = "intermediate level with standby";
+ else if (level == 128)
+ s = "minimum power consumption without standby";
+ else if (level < 254)
+ s = "intermediate level without standby";
+ else
+ s = "maximum performance";
+
+ pout("%s%d (%s)\n", msg, level, s);
+}
+
+static void print_ata_security_status(const char * msg, unsigned short state)
+{
+ const char * s1, * s2 = "", * s3 = "", * s4 = "";
+
+ // Table 6 of T13/2015-D (ACS-2) Revision 7, June 22, 2011
+ if (!(state & 0x0001))
+ s1 = "Unavailable";
+ else if (!(state & 0x0002)) {
+ s1 = "Disabled, ";
+ if (!(state & 0x0008))
+ s2 = "NOT FROZEN [SEC1]";
+ else
+ s2 = "frozen [SEC2]";
}
- return;
- }
+ else {
+ s1 = "ENABLED, PW level ";
+ if (!(state & 0x0020))
+ s2 = "HIGH";
+ else
+ s2 = "MAX";
- // If this is an error in a "mandatory" SMART command
- if (type==MANDATORY_CMD){
- if (con->permissive--)
- return;
- pout("A mandatory SMART command failed: exiting. To continue, add one or more '-T permissive' options.\n");
- EXIT(returnvalue);
- }
+ if (!(state & 0x0004)) {
+ s3 = ", not locked, ";
+ if (!(state & 0x0008))
+ s4 = "not frozen [SEC5]";
+ else
+ s4 = "frozen [SEC6]";
+ }
+ else {
+ s3 = ", **LOCKED** [SEC4]";
+ if (state & 0x0010)
+ s4 = ", PW ATTEMPTS EXCEEDED";
+ }
+ }
+
+ pout("%s%s%s%s%s\n", msg, s1, s2, s3, s4);
+}
+
+static void print_standby_timer(const char * msg, int timer, const ata_identify_device & drive)
+{
+ const char * s1 = 0;
+ int hours = 0, minutes = 0 , seconds = 0;
+
+ // Table 63 of T13/2015-D (ACS-2) Revision 7, June 22, 2011
+ if (timer == 0)
+ s1 = "disabled";
+ else if (timer <= 240)
+ seconds = timer * 5, minutes = seconds / 60, seconds %= 60;
+ else if (timer <= 251)
+ minutes = (timer - 240) * 30, hours = minutes / 60, minutes %= 60;
+ else if (timer == 252)
+ minutes = 21;
+ else if (timer == 253)
+ s1 = "between 8 hours and 12 hours";
+ else if (timer == 255)
+ minutes = 21, seconds = 15;
+ else
+ s1 = "reserved";
- pout("Smartctl internal error in failuretest(type=%d). Please contact developers at " PACKAGE_HOMEPAGE "\n",type);
- EXIT(returnvalue|FAILCMD);
+ const char * s2 = "", * s3 = "";
+ if (!(drive.words047_079[49-47] & 0x2000))
+ s2 = " or vendor-specific";
+ if (timer > 0 && (drive.words047_079[50-47] & 0xc001) == 0x4001)
+ s3 = ", a vendor-specific minimum applies";
+
+ if (s1)
+ pout("%s%d (%s%s%s)\n", msg, timer, s1, s2, s3);
+ else
+ pout("%s%d (%02d:%02d:%02d%s%s)\n", msg, timer, hours, minutes, seconds, s2, s3);
}
-// Initialize to zero just in case some SMART routines don't work
-static ata_identify_device drive;
-static ata_smart_values smartval;
-static ata_smart_thresholds_pvt smartthres;
-static ata_smart_errorlog smarterror;
-static ata_smart_selftestlog smartselftest;
int ataPrintMain (ata_device * device, const ata_print_options & options)
{
- int timewait,code;
- int returnval=0, retid=0, supported=0, needupdate=0;
- const char * powername = 0; char powerchg = 0;
-
// If requested, check power mode first
+ const char * powername = 0;
+ bool powerchg = false;
if (options.powermode) {
unsigned char powerlimit = 0xff;
int powermode = ataCheckPowerMode(device);
switch (powermode) {
case -1:
- if (errno == ENOSYS) {
- pout("CHECK POWER STATUS not implemented, ignoring -n Option\n"); break;
+ if (device->is_syscall_unsup()) {
+ pout("CHECK POWER MODE not implemented, ignoring -n option\n"); break;
}
powername = "SLEEP"; powerlimit = 2;
break;
case 0xff:
powername = "ACTIVE or IDLE"; break;
default:
- pout("CHECK POWER STATUS returned %d, not ATA compliant, ignoring -n Option\n", powermode);
+ pout("CHECK POWER MODE returned unknown value 0x%02x, ignoring -n option\n", powermode);
break;
}
if (powername) {
}
}
+ // SMART values needed ?
+ bool need_smart_val = (
+ options.smart_check_status
+ || options.smart_general_values
+ || options.smart_vendor_attrib
+ || options.smart_error_log
+ || options.smart_selftest_log
+ || options.smart_selective_selftest_log
+ || options.smart_ext_error_log
+ || options.smart_ext_selftest_log
+ || options.smart_auto_offl_enable
+ || options.smart_auto_offl_disable
+ || options.smart_selftest_type != -1
+ );
+
+ // SMART must be enabled ?
+ bool need_smart_enabled = (
+ need_smart_val
+ || options.smart_auto_save_enable
+ || options.smart_auto_save_disable
+ );
+
+ // SMART feature set needed ?
+ bool need_smart_support = (
+ need_smart_enabled
+ || options.smart_enable
+ || options.smart_disable
+ );
+
+ // SMART and GP log directories needed ?
+ bool need_smart_logdir = (
+ options.smart_logdir
+ || options.devstat_all_pages // devstat fallback to smartlog if needed
+ || options.devstat_ssd_page
+ || !options.devstat_pages.empty()
+ );
+
+ bool need_gp_logdir = (
+ options.gp_logdir
+ || options.smart_ext_error_log
+ || options.smart_ext_selftest_log
+ || options.devstat_all_pages
+ || options.devstat_ssd_page
+ || !options.devstat_pages.empty()
+ );
+
+ unsigned i;
+ for (i = 0; i < options.log_requests.size(); i++) {
+ if (options.log_requests[i].gpl)
+ need_gp_logdir = true;
+ else
+ need_smart_logdir = true;
+ }
+
+ // SCT commands needed ?
+ bool need_sct_support = (
+ options.sct_temp_sts
+ || options.sct_temp_hist
+ || options.sct_temp_int
+ || options.sct_erc_get
+ || options.sct_erc_set
+ || options.sct_wcache_reorder_get
+ || options.sct_wcache_reorder_set
+ );
+
+ // Exit if no further options specified
+ if (!( options.drive_info || options.show_presets
+ || need_smart_support || need_smart_logdir
+ || need_gp_logdir || need_sct_support
+ || options.sataphy
+ || options.identify_word_level >= 0
+ || options.get_set_used )) {
+ if (powername)
+ pout("Device is in %s mode\n", powername);
+ else
+ pout("ATA device successfully opened\n\n"
+ "Use 'smartctl -a' (or '-x') to print SMART (and more) information\n\n");
+ return 0;
+ }
+
// Start by getting Drive ID information. We need this, to know if SMART is supported.
- if ((retid=ataReadHDIdentity(device,&drive))<0){
- pout("Smartctl: Device Read Identity Failed (not an ATA/ATAPI device)\n\n");
+ int returnval = 0;
+ ata_identify_device drive; memset(&drive, 0, sizeof(drive));
+ unsigned char raw_drive[sizeof(drive)]; memset(&raw_drive, 0, sizeof(raw_drive));
+
+ device->clear_err();
+ int retid = ata_read_identity(device, &drive, options.fix_swapped_id, raw_drive);
+ if (retid < 0) {
+ pout("Read Device Identity failed: %s\n\n",
+ (device->get_errno() ? device->get_errmsg() : "Unknown error"));
+ failuretest(MANDATORY_CMD, returnval|=FAILID);
+ }
+ else if (!nonempty(&drive, sizeof(drive))) {
+ pout("Read Device Identity failed: empty IDENTIFY data\n\n");
failuretest(MANDATORY_CMD, returnval|=FAILID);
}
// If requested, show which presets would be used for this drive and exit.
if (options.show_presets) {
- show_presets(&drive, options.fix_swapped_id);
- EXIT(0);
+ show_presets(&drive);
+ return 0;
}
// Use preset vendor attribute options unless user has requested otherwise.
ata_vendor_attr_defs attribute_defs = options.attribute_defs;
- unsigned char fix_firmwarebug = options.fix_firmwarebug;
+ firmwarebug_defs firmwarebugs = options.firmwarebugs;
+ const drive_settings * dbentry = 0;
if (!options.ignore_presets)
- apply_presets(&drive, attribute_defs, fix_firmwarebug, options.fix_swapped_id);
+ dbentry = lookup_drive_apply_presets(&drive, attribute_defs,
+ firmwarebugs);
+
+ // Get capacity, sector sizes and rotation rate
+ ata_size_info sizes;
+ ata_get_size_info(&drive, sizes);
+ int rpm = ata_get_rotation_rate(&drive);
+
+ // Print ATA IDENTIFY info if requested
+ if (options.identify_word_level >= 0) {
+ pout("=== ATA IDENTIFY DATA ===\n");
+ // Pass raw data without endianness adjustments
+ ata_print_identify_data(raw_drive, (options.identify_word_level > 0), options.identify_bit_level);
+ }
// Print most drive identity information if requested
- bool known = false;
if (options.drive_info) {
pout("=== START OF INFORMATION SECTION ===\n");
- known = PrintDriveInfo(&drive, options.fix_swapped_id);
+ print_drive_info(&drive, sizes, rpm, dbentry);
}
- // Was this a packet device?
- if (retid>0){
- pout("SMART support is: Unavailable - Packet Interface Devices [this device: %s] don't support ATA SMART\n", packetdevicetype(retid-1));
- failuretest(MANDATORY_CMD, returnval|=FAILSMART);
- }
-
- // if drive does not supports SMART it's time to exit
- supported=ataSmartSupport(&drive);
- if (supported != 1){
- if (supported==0) {
- pout("SMART support is: Unavailable - device lacks SMART capability.\n");
- failuretest(MANDATORY_CMD, returnval|=FAILSMART);
- pout(" Checking to be sure by trying SMART ENABLE command.\n");
- }
- else {
- pout("SMART support is: Ambiguous - ATA IDENTIFY DEVICE words 82-83 don't show if SMART supported.\n");
- if (!known) failuretest(MANDATORY_CMD, returnval|=FAILSMART);
- pout(" Checking for SMART support by trying SMART ENABLE command.\n");
- }
+ // Check and print SMART support and state
+ int smart_supported = -1, smart_enabled = -1;
+ if (need_smart_support || options.drive_info) {
- if (ataEnableSmart(device)){
- pout(" SMART ENABLE failed - this establishes that this device lacks SMART functionality.\n");
- failuretest(MANDATORY_CMD, returnval|=FAILSMART);
- supported=0;
- }
- else {
- pout(" SMART ENABLE appeared to work! Continuing.\n");
- supported=1;
- }
- if (!options.drive_info)
- pout("\n");
- }
-
- // Now print remaining drive info: is SMART enabled?
- if (options.drive_info) {
- int ison=ataIsSmartEnabled(&drive),isenabled=ison;
-
- if (ison==-1) {
- pout("SMART support is: Ambiguous - ATA IDENTIFY DEVICE words 85-87 don't show if SMART is enabled.\n");
- failuretest(MANDATORY_CMD, returnval|=FAILSMART);
- // check SMART support by trying a command
- pout(" Checking to be sure by trying SMART RETURN STATUS command.\n");
- isenabled=ataDoesSmartWork(device);
+ // Packet device ?
+ if (retid > 0) {
+ pout("SMART support is: Unavailable - Packet Interface Devices [this device: %s] don't support ATA SMART\n",
+ packetdevicetype(retid-1));
}
else {
- pout("SMART support is: Available - device has SMART capability.\n");
- if (device->ata_identify_is_cached()) {
- pout(" %sabled status cached by OS, trying SMART RETURN STATUS cmd.\n",
- (isenabled?"En":"Dis"));
- isenabled=ataDoesSmartWork(device);
+ // Disk device: SMART supported and enabled ?
+ smart_supported = ataSmartSupport(&drive);
+ smart_enabled = ataIsSmartEnabled(&drive);
+
+ if (smart_supported < 0)
+ pout("SMART support is: Ambiguous - ATA IDENTIFY DEVICE words 82-83 don't show if SMART supported.\n");
+ if (smart_supported && smart_enabled < 0) {
+ pout("SMART support is: Ambiguous - ATA IDENTIFY DEVICE words 85-87 don't show if SMART is enabled.\n");
+ if (need_smart_support) {
+ failuretest(MANDATORY_CMD, returnval|=FAILSMART);
+ // check SMART support by trying a command
+ pout(" Checking to be sure by trying SMART RETURN STATUS command.\n");
+ if (ataDoesSmartWork(device))
+ smart_supported = smart_enabled = 1;
+ }
+ }
+ else if (smart_supported < 0 && (smart_enabled > 0 || dbentry))
+ // Assume supported if enabled or in drive database
+ smart_supported = 1;
+
+ if (smart_supported < 0)
+ pout("SMART support is: Unknown - Try option -s with argument 'on' to enable it.");
+ else if (!smart_supported)
+ pout("SMART support is: Unavailable - device lacks SMART capability.\n");
+ else {
+ if (options.drive_info)
+ pout("SMART support is: Available - device has SMART capability.\n");
+ if (smart_enabled >= 0) {
+ if (device->ata_identify_is_cached()) {
+ if (options.drive_info)
+ pout(" %sabled status cached by OS, trying SMART RETURN STATUS cmd.\n",
+ (smart_enabled?"En":"Dis"));
+ smart_enabled = ataDoesSmartWork(device);
+ }
+ if (options.drive_info)
+ pout("SMART support is: %s\n",
+ (smart_enabled ? "Enabled" : "Disabled"));
+ }
}
}
+ }
- if (isenabled)
- pout("SMART support is: Enabled\n");
- else {
- if (ison==-1)
- pout("SMART support is: Unavailable\n");
+ // Print AAM status
+ if (options.get_aam) {
+ if ((drive.command_set_2 & 0xc200) != 0x4200) // word083
+ pout("AAM feature is: Unavailable\n");
+ else if (!(drive.word086 & 0x0200))
+ pout("AAM feature is: Disabled\n");
+ else
+ print_aam_level("AAM level is: ", drive.words088_255[94-88] & 0xff,
+ drive.words088_255[94-88] >> 8);
+ }
+
+ // Print APM status
+ if (options.get_apm) {
+ if ((drive.command_set_2 & 0xc008) != 0x4008) // word083
+ pout("APM feature is: Unavailable\n");
+ else if (!(drive.word086 & 0x0008))
+ pout("APM feature is: Disabled\n");
+ else
+ print_apm_level("APM level is: ", drive.words088_255[91-88] & 0xff);
+ }
+
+ // Print read look-ahead status
+ if (options.get_lookahead) {
+ pout("Rd look-ahead is: %s\n",
+ ( (drive.command_set_2 & 0xc000) != 0x4000 // word083
+ || !(drive.command_set_1 & 0x0040)) ? "Unavailable" : // word082
+ !(drive.cfs_enable_1 & 0x0040) ? "Disabled" : "Enabled"); // word085
+ }
+
+ // Print write cache status
+ if (options.get_wcache) {
+ pout("Write cache is: %s\n",
+ ( (drive.command_set_2 & 0xc000) != 0x4000 // word083
+ || !(drive.command_set_1 & 0x0020)) ? "Unavailable" : // word082
+ !(drive.cfs_enable_1 & 0x0020) ? "Disabled" : "Enabled"); // word085
+ }
+
+ // Print ATA security status
+ if (options.get_security)
+ print_ata_security_status("ATA Security is: ", drive.words088_255[128-88]);
+
+ // Print write cache reordering status
+ if (options.sct_wcache_reorder_get) {
+ if (isSCTFeatureControlCapable(&drive)) {
+ int wcache_reorder = ataGetSetSCTWriteCacheReordering(device,
+ false /*enable*/, false /*persistent*/, false /*set*/);
+
+ if (-1 <= wcache_reorder && wcache_reorder <= 2)
+ pout("Wt Cache Reorder: %s\n",
+ (wcache_reorder == -1 ? "Unknown (SCT Feature Control command failed)" :
+ wcache_reorder == 0 ? "Unknown" : // not defined in standard but returned on some drives if not set
+ wcache_reorder == 1 ? "Enabled" : "Disabled"));
else
- pout("SMART support is: Disabled\n");
+ pout("Wt Cache Reorder: Unknown (0x%02x)\n", wcache_reorder);
}
+ else
+ pout("Wt Cache Reorder: Unavailable\n");
+ }
+
+ // Print remaining drive info
+ if (options.drive_info) {
// Print the (now possibly changed) power mode if available
if (powername)
pout("Power mode %s %s\n", (powerchg?"was:":"is: "), powername);
pout("\n");
}
-
+
+ // Exit if SMART is not supported but must be available to proceed
+ if (smart_supported <= 0 && need_smart_support)
+ failuretest(MANDATORY_CMD, returnval|=FAILSMART);
+
// START OF THE ENABLE/DISABLE SECTION OF THE CODE
if ( options.smart_disable || options.smart_enable
|| options.smart_auto_save_disable || options.smart_auto_save_enable
- || options.smart_auto_offl_disable || options.smart_auto_offl_enable)
+ || options.smart_auto_offl_disable || options.smart_auto_offl_enable
+ || options.set_aam || options.set_apm || options.set_lookahead
+ || options.set_wcache || options.set_security_freeze || options.set_standby
+ || options.sct_wcache_reorder_set)
pout("=== START OF ENABLE/DISABLE COMMANDS SECTION ===\n");
+ // Enable/Disable AAM
+ if (options.set_aam) {
+ if (options.set_aam > 0) {
+ if (!ata_set_features(device, ATA_ENABLE_AAM, options.set_aam-1)) {
+ pout("AAM enable failed: %s\n", device->get_errmsg());
+ returnval |= FAILSMART;
+ }
+ else
+ print_aam_level("AAM set to level ", options.set_aam-1);
+ }
+ else {
+ if (!ata_set_features(device, ATA_DISABLE_AAM)) {
+ pout("AAM disable failed: %s\n", device->get_errmsg());
+ returnval |= FAILSMART;
+ }
+ else
+ pout("AAM disabled\n");
+ }
+ }
+
+ // Enable/Disable APM
+ if (options.set_apm) {
+ if (options.set_apm > 0) {
+ if (!ata_set_features(device, ATA_ENABLE_APM, options.set_apm-1)) {
+ pout("APM enable failed: %s\n", device->get_errmsg());
+ returnval |= FAILSMART;
+ }
+ else
+ print_apm_level("APM set to level ", options.set_apm-1);
+ }
+ else {
+ if (!ata_set_features(device, ATA_DISABLE_APM)) {
+ pout("APM disable failed: %s\n", device->get_errmsg());
+ returnval |= FAILSMART;
+ }
+ else
+ pout("APM disabled\n");
+ }
+ }
+
+ // Enable/Disable read look-ahead
+ if (options.set_lookahead) {
+ bool enable = (options.set_lookahead > 0);
+ if (!ata_set_features(device, (enable ? ATA_ENABLE_READ_LOOK_AHEAD : ATA_DISABLE_READ_LOOK_AHEAD))) {
+ pout("Read look-ahead %sable failed: %s\n", (enable ? "en" : "dis"), device->get_errmsg());
+ returnval |= FAILSMART;
+ }
+ else
+ pout("Read look-ahead %sabled\n", (enable ? "en" : "dis"));
+ }
+
+ // Enable/Disable write cache
+ if (options.set_wcache) {
+ bool enable = (options.set_wcache > 0);
+ if (!ata_set_features(device, (enable ? ATA_ENABLE_WRITE_CACHE : ATA_DISABLE_WRITE_CACHE))) {
+ pout("Write cache %sable failed: %s\n", (enable ? "en" : "dis"), device->get_errmsg());
+ returnval |= FAILSMART;
+ }
+ else
+ pout("Write cache %sabled\n", (enable ? "en" : "dis"));
+ }
+
+ // Enable/Disable write cache reordering
+ if (options.sct_wcache_reorder_set) {
+ bool enable = (options.sct_wcache_reorder_set > 0);
+ if (!isSCTFeatureControlCapable(&drive))
+ pout("Write cache reordering %sable failed: SCT Feature Control command not supported\n",
+ (enable ? "en" : "dis"));
+ else if (ataGetSetSCTWriteCacheReordering(device,
+ enable, false /*persistent*/, true /*set*/) < 0) {
+ pout("Write cache reordering %sable failed: %s\n", (enable ? "en" : "dis"), device->get_errmsg());
+ returnval |= FAILSMART;
+ }
+ else
+ pout("Write cache reordering %sabled\n", (enable ? "en" : "dis"));
+ }
+
+ // Freeze ATA security
+ if (options.set_security_freeze) {
+ if (!ata_nodata_command(device, ATA_SECURITY_FREEZE_LOCK)) {
+ pout("ATA SECURITY FREEZE LOCK failed: %s\n", device->get_errmsg());
+ returnval |= FAILSMART;
+ }
+ else
+ pout("ATA Security set to frozen mode\n");
+ }
+
+ // Set standby timer
+ if (options.set_standby) {
+ if (!ata_nodata_command(device, ATA_IDLE, options.set_standby-1)) {
+ pout("ATA IDLE command failed: %s\n", device->get_errmsg());
+ returnval |= FAILSMART;
+ }
+ else
+ print_standby_timer("Standby timer set to ", options.set_standby-1, drive);
+ }
+
// Enable/Disable SMART commands
if (options.smart_enable) {
if (ataEnableSmart(device)) {
- pout("Smartctl: SMART Enable Failed.\n\n");
+ pout("SMART Enable failed: %s\n\n", device->get_errmsg());
failuretest(MANDATORY_CMD, returnval|=FAILSMART);
}
- else
+ else {
pout("SMART Enabled.\n");
+ smart_enabled = 1;
+ }
}
-
- // From here on, every command requires that SMART be enabled...
- if (!ataDoesSmartWork(device)) {
- pout("SMART Disabled. Use option -s with argument 'on' to enable it.\n");
- return returnval;
- }
-
+
// Turn off SMART on device
if (options.smart_disable) {
if (ataDisableSmart(device)) {
- pout( "Smartctl: SMART Disable Failed.\n\n");
+ pout("SMART Disable failed: %s\n\n", device->get_errmsg());
failuretest(MANDATORY_CMD,returnval|=FAILSMART);
}
+ }
+
+ // Exit if SMART is disabled but must be enabled to proceed
+ if (options.smart_disable || (smart_enabled <= 0 && need_smart_enabled && !is_permissive())) {
pout("SMART Disabled. Use option -s with argument 'on' to enable it.\n");
- return returnval;
+ if (!options.smart_disable)
+ pout("(override with '-T permissive' option)\n");
+ return returnval;
}
-
- // Let's ALWAYS issue this command to get the SMART status
- code=ataSmartStatus2(device);
- if (code==-1)
- failuretest(MANDATORY_CMD, returnval|=FAILSMART);
// Enable/Disable Auto-save attributes
if (options.smart_auto_save_enable) {
if (ataEnableAutoSave(device)){
- pout( "Smartctl: SMART Enable Attribute Autosave Failed.\n\n");
+ pout("SMART Enable Attribute Autosave failed: %s\n\n", device->get_errmsg());
failuretest(MANDATORY_CMD, returnval|=FAILSMART);
}
else
if (options.smart_auto_save_disable) {
if (ataDisableAutoSave(device)){
- pout( "Smartctl: SMART Disable Attribute Autosave Failed.\n\n");
+ pout("SMART Disable Attribute Autosave failed: %s\n\n", device->get_errmsg());
failuretest(MANDATORY_CMD, returnval|=FAILSMART);
}
else
pout("SMART Attribute Autosave Disabled.\n");
}
-
- // for everything else read values and thresholds are needed
- if (ataReadSmartValues(device, &smartval)){
- pout("Smartctl: SMART Read Values failed.\n\n");
- failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
- }
- if (ataReadSmartThresholds(device, &smartthres)){
- pout("Smartctl: SMART Read Thresholds failed.\n\n");
- failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+
+ // Read SMART values and thresholds if necessary
+ ata_smart_values smartval; memset(&smartval, 0, sizeof(smartval));
+ ata_smart_thresholds_pvt smartthres; memset(&smartthres, 0, sizeof(smartthres));
+ bool smart_val_ok = false, smart_thres_ok = false;
+
+ if (need_smart_val) {
+ if (ataReadSmartValues(device, &smartval)) {
+ pout("Read SMART Data failed: %s\n\n", device->get_errmsg());
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ }
+ else {
+ smart_val_ok = true;
+
+ if (options.smart_check_status || options.smart_vendor_attrib) {
+ if (ataReadSmartThresholds(device, &smartthres)){
+ pout("Read SMART Thresholds failed: %s\n\n", device->get_errmsg());
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ }
+ else
+ smart_thres_ok = true;
+ }
+ }
}
// Enable/Disable Off-line testing
+ bool needupdate = false;
if (options.smart_auto_offl_enable) {
if (!isSupportAutomaticTimer(&smartval)){
- pout("Warning: device does not support SMART Automatic Timers.\n\n");
+ pout("SMART Automatic Timers not supported\n\n");
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
}
- needupdate=1;
+ needupdate = smart_val_ok;
if (ataEnableAutoOffline(device)){
- pout( "Smartctl: SMART Enable Automatic Offline Failed.\n\n");
+ pout("SMART Enable Automatic Offline failed: %s\n\n", device->get_errmsg());
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
}
else
if (options.smart_auto_offl_disable) {
if (!isSupportAutomaticTimer(&smartval)){
- pout("Warning: device does not support SMART Automatic Timers.\n\n");
+ pout("SMART Automatic Timers not supported\n\n");
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
}
- needupdate=1;
+ needupdate = smart_val_ok;
if (ataDisableAutoOffline(device)){
- pout("Smartctl: SMART Disable Automatic Offline Failed.\n\n");
+ pout("SMART Disable Automatic Offline failed: %s\n\n", device->get_errmsg());
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
}
else
}
if (needupdate && ataReadSmartValues(device, &smartval)){
- pout("Smartctl: SMART Read Values failed.\n\n");
+ pout("Read SMART Data failed: %s\n\n", device->get_errmsg());
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ smart_val_ok = false;
}
// all this for a newline!
if ( options.smart_disable || options.smart_enable
|| options.smart_auto_save_disable || options.smart_auto_save_enable
- || options.smart_auto_offl_disable || options.smart_auto_offl_enable)
+ || options.smart_auto_offl_disable || options.smart_auto_offl_enable
+ || options.set_aam || options.set_apm || options.set_lookahead
+ || options.set_wcache || options.set_security_freeze || options.set_standby
+ || options.sct_wcache_reorder_set)
pout("\n");
// START OF READ-ONLY OPTIONS APART FROM -V and -i
|| options.sct_temp_sts || options.sct_temp_hist )
pout("=== START OF READ SMART DATA SECTION ===\n");
- // Check SMART status (use previously returned value)
+ // Check SMART status
if (options.smart_check_status) {
- switch (code) {
+
+ switch (ataSmartStatus2(device)) {
case 0:
// The case where the disk health is OK
pout("SMART overall-health self-assessment test result: PASSED\n");
- if (find_failed_attr(&smartval, &smartthres, options.attribute_defs, 0)){
+ if (smart_thres_ok && find_failed_attr(&smartval, &smartthres, attribute_defs, 0)) {
if (options.smart_vendor_attrib)
pout("See vendor-specific Attribute list for marginal Attributes.\n\n");
else {
- PRINT_ON(con);
+ print_on();
pout("Please note the following marginal Attributes:\n");
- PrintSmartAttribWithThres(&smartval, &smartthres, attribute_defs, 2);
+ PrintSmartAttribWithThres(&smartval, &smartthres, attribute_defs, rpm, 2, options.output_format);
}
returnval|=FAILAGE;
}
case 1:
// The case where the disk health is NOT OK
- PRINT_ON(con);
+ print_on();
pout("SMART overall-health self-assessment test result: FAILED!\n"
"Drive failure expected in less than 24 hours. SAVE ALL DATA.\n");
- PRINT_OFF(con);
- if (find_failed_attr(&smartval, &smartthres, options.attribute_defs, 1)){
+ print_off();
+ if (smart_thres_ok && find_failed_attr(&smartval, &smartthres, attribute_defs, 1)) {
returnval|=FAILATTR;
if (options.smart_vendor_attrib)
pout("See vendor-specific Attribute list for failed Attributes.\n\n");
else {
- PRINT_ON(con);
+ print_on();
pout("Failed Attributes:\n");
- PrintSmartAttribWithThres(&smartval, &smartthres, attribute_defs, 1);
+ PrintSmartAttribWithThres(&smartval, &smartthres, attribute_defs, rpm, 1, options.output_format);
}
}
else
pout("No failed Attributes found.\n\n");
returnval|=FAILSTATUS;
- PRINT_OFF(con);
+ print_off();
break;
case -1:
default:
- // The case where something went wrong with HDIO_DRIVE_TASK ioctl()
- if (find_failed_attr(&smartval, &smartthres, options.attribute_defs, 1)){
- PRINT_ON(con);
+ // Something went wrong with the SMART STATUS command.
+ // The ATA SMART RETURN STATUS command provides the result in the ATA output
+ // registers. Buggy ATA/SATA drivers and SAT Layers often do not properly
+ // return the registers values.
+ pout("SMART Status %s: %s\n",
+ (device->is_syscall_unsup() ? "not supported" : "command failed"),
+ device->get_errmsg());
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+
+ if (!(smart_val_ok && smart_thres_ok)) {
+ print_on();
+ pout("SMART overall-health self-assessment test result: UNKNOWN!\n"
+ "SMART Status, Attributes and Thresholds cannot be read.\n\n");
+ }
+ else if (find_failed_attr(&smartval, &smartthres, attribute_defs, 1)) {
+ print_on();
pout("SMART overall-health self-assessment test result: FAILED!\n"
"Drive failure expected in less than 24 hours. SAVE ALL DATA.\n");
- PRINT_OFF(con);
+ pout("Warning: This result is based on an Attribute check.\n");
+ print_off();
returnval|=FAILATTR;
returnval|=FAILSTATUS;
if (options.smart_vendor_attrib)
pout("See vendor-specific Attribute list for failed Attributes.\n\n");
else {
- PRINT_ON(con);
+ print_on();
pout("Failed Attributes:\n");
- PrintSmartAttribWithThres(&smartval, &smartthres, attribute_defs, 1);
+ PrintSmartAttribWithThres(&smartval, &smartthres, attribute_defs, rpm, 1, options.output_format);
}
}
else {
pout("SMART overall-health self-assessment test result: PASSED\n");
- if (find_failed_attr(&smartval, &smartthres, options.attribute_defs, 0)){
+ pout("Warning: This result is based on an Attribute check.\n");
+ if (find_failed_attr(&smartval, &smartthres, attribute_defs, 0)) {
if (options.smart_vendor_attrib)
pout("See vendor-specific Attribute list for marginal Attributes.\n\n");
else {
- PRINT_ON(con);
+ print_on();
pout("Please note the following marginal Attributes:\n");
- PrintSmartAttribWithThres(&smartval, &smartthres, attribute_defs, 2);
+ PrintSmartAttribWithThres(&smartval, &smartthres, attribute_defs, rpm, 2, options.output_format);
}
returnval|=FAILAGE;
}
else
pout("\n");
}
- PRINT_OFF(con);
+ print_off();
break;
} // end of switch statement
- PRINT_OFF(con);
+ print_off();
} // end of checking SMART Status
// Print general SMART values
- if (options.smart_general_values)
- PrintGeneralSmartValues(&smartval, &drive, fix_firmwarebug);
+ if (smart_val_ok && options.smart_general_values)
+ PrintGeneralSmartValues(&smartval, &drive, firmwarebugs);
// Print vendor-specific attributes
- if (options.smart_vendor_attrib) {
- PRINT_ON(con);
- PrintSmartAttribWithThres(&smartval, &smartthres, attribute_defs,
- (con->printing_switchable ? 2 : 0));
- PRINT_OFF(con);
+ if (smart_val_ok && options.smart_vendor_attrib) {
+ print_on();
+ PrintSmartAttribWithThres(&smartval, &smartthres, attribute_defs, rpm,
+ (printing_is_switchable ? 2 : 0), options.output_format);
+ print_off();
}
- // Print SMART and/or GP log Directory and/or logs
- // Get #pages for extended SMART logs
+ // If GP Log is supported use smart log directory for
+ // error and selftest log support check.
+ bool gp_log_supported = !!isGeneralPurposeLoggingCapable(&drive);
+ if ( gp_log_supported
+ && ( options.smart_error_log || options.smart_selftest_log
+ || options.retry_error_log || options.retry_selftest_log))
+ need_smart_logdir = true;
+
ata_smart_log_directory smartlogdir_buf, gplogdir_buf;
const ata_smart_log_directory * smartlogdir = 0, * gplogdir = 0;
- if ( options.gp_logdir
- || options.smart_logdir
- || options.smart_ext_error_log
- || options.smart_ext_selftest_log
- || options.sataphy
- || !options.log_requests.empty() ) {
- PRINT_ON(con);
- if (isGeneralPurposeLoggingCapable(&drive))
- pout("General Purpose Logging (GPL) feature set supported\n");
-
- // Detect directories needed
- bool need_smart_logdir = options.smart_logdir;
- bool need_gp_logdir = ( options.gp_logdir
- || options.smart_ext_error_log
- || options.smart_ext_selftest_log
- || options.sataphy );
- unsigned i;
- for (i = 0; i < options.log_requests.size(); i++) {
- if (options.log_requests[i].gpl)
- need_gp_logdir = true;
- else
- need_smart_logdir = true;
+ // Read SMART Log directory
+ if (need_smart_logdir) {
+ if (firmwarebugs.is_set(BUG_NOLOGDIR))
+ smartlogdir = fake_logdir(&smartlogdir_buf, options);
+ else if (ataReadLogDirectory(device, &smartlogdir_buf, false)) {
+ pout("Read SMART Log Directory failed: %s\n\n", device->get_errmsg());
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
}
+ else
+ smartlogdir = &smartlogdir_buf;
+ }
- // Read SMART Log directory
- if (need_smart_logdir) {
- if (ataReadLogDirectory(device, &smartlogdir_buf, false)){
- PRINT_OFF(con);
- pout("Read SMART Log Directory failed.\n\n");
- failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
- }
- else
- smartlogdir = &smartlogdir_buf;
+ // Read GP Log directory
+ if (need_gp_logdir) {
+ if (firmwarebugs.is_set(BUG_NOLOGDIR))
+ gplogdir = fake_logdir(&gplogdir_buf, options);
+ else if (!gp_log_supported && !is_permissive()) {
+ if (options.gp_logdir)
+ pout("General Purpose Log Directory not supported\n\n");
}
- PRINT_ON(con);
-
- // Read GP Log directory
- if (need_gp_logdir) {
- if (ataReadLogDirectory(device, &gplogdir_buf, true)){
- PRINT_OFF(con);
- pout("Read GP Log Directory failed.\n\n");
- failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
- }
- else
- gplogdir = &gplogdir_buf;
+ else if (ataReadLogDirectory(device, &gplogdir_buf, true)) {
+ pout("Read GP Log Directory failed\n\n");
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
}
- PRINT_ON(con);
+ else
+ gplogdir = &gplogdir_buf;
+ }
- // Print log directories
- if ((options.gp_logdir && gplogdir) || (options.smart_logdir && smartlogdir))
+ // Print log directories
+ if ((options.gp_logdir && gplogdir) || (options.smart_logdir && smartlogdir)) {
+ if (firmwarebugs.is_set(BUG_NOLOGDIR))
+ pout("Log Directories not read due to '-F nologdir' option\n\n");
+ else
PrintLogDirectories(gplogdir, smartlogdir);
- PRINT_OFF(con);
+ }
- // Print log pages
- for (i = 0; i < options.log_requests.size(); i++) {
- const ata_log_request & req = options.log_requests[i];
+ // Print log pages
+ for (i = 0; i < options.log_requests.size(); i++) {
+ const ata_log_request & req = options.log_requests[i];
- const char * type;
- unsigned max_nsectors;
- if (req.gpl) {
- type = "General Purpose";
- max_nsectors = GetNumLogSectors(gplogdir, req.logaddr, true);
- }
- else {
- type = "SMART";
- max_nsectors = GetNumLogSectors(smartlogdir, req.logaddr, false);
- }
+ const char * type;
+ unsigned max_nsectors;
+ if (req.gpl) {
+ type = "General Purpose";
+ max_nsectors = GetNumLogSectors(gplogdir, req.logaddr, true);
+ }
+ else {
+ type = "SMART";
+ max_nsectors = GetNumLogSectors(smartlogdir, req.logaddr, false);
+ }
- if (!max_nsectors) {
- if (!con->permissive) {
- pout("%s Log 0x%02x does not exist (override with '-T permissive' option)\n", type, req.logaddr);
- continue;
- }
- con->permissive--;
- max_nsectors = req.page+1;
- }
- if (max_nsectors <= req.page) {
- pout("%s Log 0x%02x has only %u sectors, output skipped\n", type, req.logaddr, max_nsectors);
+ if (!max_nsectors) {
+ if (!is_permissive()) {
+ pout("%s Log 0x%02x does not exist (override with '-T permissive' option)\n", type, req.logaddr);
continue;
}
+ max_nsectors = req.page+1;
+ }
+ if (max_nsectors <= req.page) {
+ pout("%s Log 0x%02x has only %u sectors, output skipped\n", type, req.logaddr, max_nsectors);
+ continue;
+ }
- unsigned ns = req.nsectors;
- if (ns > max_nsectors - req.page) {
- if (req.nsectors != ~0U) // "FIRST-max"
- pout("%s Log 0x%02x has only %u sectors, output truncated\n", type, req.logaddr, max_nsectors);
- ns = max_nsectors - req.page;
- }
+ unsigned ns = req.nsectors;
+ if (ns > max_nsectors - req.page) {
+ if (req.nsectors != ~0U) // "FIRST-max"
+ pout("%s Log 0x%02x has only %u sectors, output truncated\n", type, req.logaddr, max_nsectors);
+ ns = max_nsectors - req.page;
+ }
- // SMART log don't support sector offset, start with first sector
- unsigned offs = (req.gpl ? 0 : req.page);
+ // SMART log don't support sector offset, start with first sector
+ unsigned offs = (req.gpl ? 0 : req.page);
- raw_buffer log_buf((offs + ns) * 512);
- bool ok;
- if (req.gpl)
- ok = ataReadLogExt(device, req.logaddr, 0x00, req.page, log_buf.data(), ns);
- else
- ok = ataReadSmartLog(device, req.logaddr, log_buf.data(), offs + ns);
- if (!ok)
- failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
- else
- PrintLogPages(type, log_buf.data() + offs*512, req.logaddr, req.page, ns, max_nsectors);
- }
+ raw_buffer log_buf((offs + ns) * 512);
+ bool ok;
+ if (req.gpl)
+ ok = ataReadLogExt(device, req.logaddr, 0x00, req.page, log_buf.data(), ns);
+ else
+ ok = ataReadSmartLog(device, req.logaddr, log_buf.data(), offs + ns);
+ if (!ok)
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ else
+ PrintLogPages(type, log_buf.data() + offs*512, req.logaddr, req.page, ns, max_nsectors);
}
// Print SMART Extendend Comprehensive Error Log
bool ok = false;
unsigned nsectors = GetNumLogSectors(gplogdir, 0x03, true);
if (!nsectors)
- pout("SMART Extended Comprehensive Error Log (GP Log 0x03) not supported\n");
- else if (nsectors >= 256)
- pout("SMART Extended Comprehensive Error Log size %u not supported\n", nsectors);
+ pout("SMART Extended Comprehensive Error Log (GP Log 0x03) not supported\n\n");
else {
- raw_buffer log_03_buf(nsectors * 512);
- ata_smart_exterrlog * log_03 = (ata_smart_exterrlog *)log_03_buf.data();
- if (!ataReadExtErrorLog(device, log_03, nsectors))
+ // Read only first sector to get error count and index
+ // Print function will read more sectors as needed
+ ata_smart_exterrlog log_03; memset(&log_03, 0, sizeof(log_03));
+ if (!ataReadExtErrorLog(device, &log_03, 0, 1, firmwarebugs)) {
+ pout("Read SMART Extended Comprehensive Error Log failed\n\n");
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ }
else {
- PrintSmartExtErrorLog(log_03, nsectors, options.smart_ext_error_log);
+ if (PrintSmartExtErrorLog(device, firmwarebugs, &log_03, nsectors, options.smart_ext_error_log))
+ returnval |= FAILERR;
ok = true;
}
}
// Print SMART error log
if (do_smart_error_log) {
- if (!isSmartErrorLogCapable(&smartval, &drive)){
- pout("Warning: device does not support Error Logging\n");
- failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
- }
- if (ataReadErrorLog(device, &smarterror, fix_firmwarebug)){
- pout("Smartctl: SMART Error Log Read Failed\n");
- failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ if (!( GetNumLogSectors(smartlogdir, 0x01, false)
+ || ( !(smartlogdir && gp_log_supported)
+ && isSmartErrorLogCapable(&smartval, &drive))
+ || is_permissive() )) {
+ pout("SMART Error Log not supported\n\n");
}
else {
- // quiet mode is turned on inside ataPrintSmartErrorLog()
- if (PrintSmartErrorlog(&smarterror, fix_firmwarebug))
- returnval|=FAILERR;
- PRINT_OFF(con);
+ ata_smart_errorlog smarterror; memset(&smarterror, 0, sizeof(smarterror));
+ if (ataReadErrorLog(device, &smarterror, firmwarebugs)) {
+ pout("Read SMART Error Log failed: %s\n\n", device->get_errmsg());
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ }
+ else {
+ // quiet mode is turned on inside PrintSmartErrorLog()
+ if (PrintSmartErrorlog(&smarterror, firmwarebugs))
+ returnval|=FAILERR;
+ print_off();
+ }
}
}
bool ok = false;
unsigned nsectors = GetNumLogSectors(gplogdir, 0x07, true);
if (!nsectors)
- pout("SMART Extended Self-test Log (GP Log 0x07) not supported\n");
+ pout("SMART Extended Self-test Log (GP Log 0x07) not supported\n\n");
else if (nsectors >= 256)
- pout("SMART Extended Self-test Log size %u not supported\n", nsectors);
+ pout("SMART Extended Self-test Log size %u not supported\n\n", nsectors);
else {
raw_buffer log_07_buf(nsectors * 512);
ata_smart_extselftestlog * log_07 = (ata_smart_extselftestlog *)log_07_buf.data();
- if (!ataReadExtSelfTestLog(device, log_07, nsectors))
+ if (!ataReadExtSelfTestLog(device, log_07, nsectors)) {
+ pout("Read SMART Extended Self-test Log failed\n\n");
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ }
else {
- PrintSmartExtSelfTestLog(log_07, nsectors, options.smart_ext_selftest_log);
+ if (PrintSmartExtSelfTestLog(log_07, nsectors, options.smart_ext_selftest_log))
+ returnval |= FAILLOG;
ok = true;
}
}
// Print SMART self-test log
if (do_smart_selftest_log) {
- if (!isSmartTestLogCapable(&smartval, &drive)){
- pout("Warning: device does not support Self Test Logging\n");
- failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
- }
- if(ataReadSelfTestLog(device, &smartselftest, fix_firmwarebug)){
- pout("Smartctl: SMART Self Test Log Read Failed\n");
- failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ if (!( GetNumLogSectors(smartlogdir, 0x06, false)
+ || ( !(smartlogdir && gp_log_supported)
+ && isSmartTestLogCapable(&smartval, &drive))
+ || is_permissive() )) {
+ pout("SMART Self-test Log not supported\n\n");
}
else {
- PRINT_ON(con);
- if (ataPrintSmartSelfTestlog(&smartselftest, !con->printing_switchable, fix_firmwarebug))
- returnval|=FAILLOG;
- PRINT_OFF(con);
- pout("\n");
+ ata_smart_selftestlog smartselftest; memset(&smartselftest, 0, sizeof(smartselftest));
+ if (ataReadSelfTestLog(device, &smartselftest, firmwarebugs)) {
+ pout("Read SMART Self-test Log failed: %s\n\n", device->get_errmsg());
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ }
+ else {
+ print_on();
+ if (ataPrintSmartSelfTestlog(&smartselftest, !printing_is_switchable, firmwarebugs))
+ returnval |= FAILLOG;
+ print_off();
+ pout("\n");
+ }
}
}
ata_selective_self_test_log log;
if (!isSupportSelectiveSelfTest(&smartval))
- pout("Device does not support Selective Self Tests/Logging\n");
+ pout("Selective Self-tests/Logging not supported\n\n");
else if(ataReadSelectiveSelfTestLog(device, &log)) {
- pout("Smartctl: SMART Selective Self Test Log Read Failed\n");
+ pout("Read SMART Selective Self-test Log failed: %s\n\n", device->get_errmsg());
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
}
else {
- PRINT_ON(con);
+ print_on();
// If any errors were found, they are logged in the SMART Self-test log.
// So there is no need to print the Selective Self Test log in silent
// mode.
- if (!con->printing_switchable) ataPrintSelectiveSelfTestLog(&log, &smartval);
- PRINT_OFF(con);
+ if (!printing_is_switchable)
+ ataPrintSelectiveSelfTestLog(&log, &smartval);
+ print_off();
pout("\n");
}
}
+ // Check if SCT commands available
+ bool sct_ok = isSCTCapable(&drive);
+ if(!sct_ok && (options.sct_temp_sts || options.sct_temp_hist || options.sct_temp_int
+ || options.sct_erc_get || options.sct_erc_set ))
+ pout("SCT Commands not supported\n\n");
+
// Print SCT status and temperature history table
- if (options.sct_temp_sts || options.sct_temp_hist || options.sct_temp_int) {
+ if (sct_ok && (options.sct_temp_sts || options.sct_temp_hist || options.sct_temp_int)) {
for (;;) {
- if (!isSCTCapable(&drive)) {
- pout("Warning: device does not support SCT Commands\n");
+ bool sct_temp_hist_ok = isSCTDataTableCapable(&drive);
+ ata_sct_status_response sts;
+
+ if (options.sct_temp_sts || (options.sct_temp_hist && sct_temp_hist_ok)) {
+ // Read SCT status
+ if (ataReadSCTStatus(device, &sts)) {
+ pout("\n");
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ break;
+ }
+ if (options.sct_temp_sts) {
+ ataPrintSCTStatus(&sts);
+ pout("\n");
+ }
+ }
+
+ if (!sct_temp_hist_ok && (options.sct_temp_hist || options.sct_temp_int)) {
+ pout("SCT Data Table command not supported\n\n");
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
break;
}
- if (options.sct_temp_sts || options.sct_temp_hist) {
- ata_sct_status_response sts;
+
+ if (options.sct_temp_hist) {
+ // Read SCT temperature history,
+ // requires initial SCT status from above
ata_sct_temperature_history_table tmh;
- if (!options.sct_temp_hist) {
- // Read SCT status only
- if (ataReadSCTStatus(device, &sts)) {
- failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
- break;
- }
- }
- else {
- if (!isSCTDataTableCapable(&drive)) {
- pout("Warning: device does not support SCT Data Table command\n");
- failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
- break;
- }
- // Read SCT status and temperature history
- if (ataReadSCTTempHist(device, &tmh, &sts)) {
- failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
- break;
- }
+ if (ataReadSCTTempHist(device, &tmh, &sts)) {
+ pout("Read SCT Temperature History failed\n\n");
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ break;
}
- if (options.sct_temp_sts)
- ataPrintSCTStatus(&sts);
- if (options.sct_temp_hist)
- ataPrintSCTTempHist(&tmh);
+ ataPrintSCTTempHist(&tmh);
pout("\n");
}
+
if (options.sct_temp_int) {
// Set new temperature logging interval
if (!isSCTFeatureControlCapable(&drive)) {
- pout("Warning: device does not support SCT Feature Control command\n");
+ pout("SCT Feature Control command not supported\n\n");
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
break;
}
if (ataSetSCTTempInterval(device, options.sct_temp_int, options.sct_temp_int_pers)) {
+ pout("Write Temperature Logging Interval failed\n\n");
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
break;
}
}
}
+ // SCT Error Recovery Control
+ if (sct_ok && (options.sct_erc_get || options.sct_erc_set)) {
+ if (!isSCTErrorRecoveryControlCapable(&drive)) {
+ pout("SCT Error Recovery Control command not supported\n\n");
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ }
+ else {
+ bool sct_erc_get = options.sct_erc_get;
+ if (options.sct_erc_set) {
+ // Set SCT Error Recovery Control
+ if ( ataSetSCTErrorRecoveryControltime(device, 1, options.sct_erc_readtime )
+ || ataSetSCTErrorRecoveryControltime(device, 2, options.sct_erc_writetime)) {
+ pout("SCT (Set) Error Recovery Control command failed\n");
+ if (!( (options.sct_erc_readtime == 70 && options.sct_erc_writetime == 70)
+ || (options.sct_erc_readtime == 0 && options.sct_erc_writetime == 0)))
+ pout("Retry with: 'scterc,70,70' to enable ERC or 'scterc,0,0' to disable\n");
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ sct_erc_get = false;
+ }
+ else if (!sct_erc_get)
+ ataPrintSCTErrorRecoveryControl(true, options.sct_erc_readtime,
+ options.sct_erc_writetime);
+ }
+
+ if (sct_erc_get) {
+ // Print SCT Error Recovery Control
+ unsigned short read_timer, write_timer;
+ if ( ataGetSCTErrorRecoveryControltime(device, 1, read_timer )
+ || ataGetSCTErrorRecoveryControltime(device, 2, write_timer)) {
+ pout("SCT (Get) Error Recovery Control command failed\n");
+ if (options.sct_erc_set) {
+ pout("The previous SCT (Set) Error Recovery Control command succeeded\n");
+ ataPrintSCTErrorRecoveryControl(true, options.sct_erc_readtime,
+ options.sct_erc_writetime);
+ }
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ }
+ else
+ ataPrintSCTErrorRecoveryControl(false, read_timer, write_timer);
+ }
+ pout("\n");
+ }
+ }
+
+ // Print Device Statistics
+ if (options.devstat_all_pages || options.devstat_ssd_page || !options.devstat_pages.empty()) {
+ bool use_gplog = true;
+ unsigned nsectors = 0;
+ if (gplogdir)
+ nsectors = GetNumLogSectors(gplogdir, 0x04, false);
+ else if (smartlogdir){ // for systems without ATA_READ_LOG_EXT
+ nsectors = GetNumLogSectors(smartlogdir, 0x04, false);
+ use_gplog = false;
+ }
+ if (!nsectors)
+ pout("Device Statistics (GP/SMART Log 0x04) not supported\n\n");
+ else if (!print_device_statistics(device, nsectors, options.devstat_pages,
+ options.devstat_all_pages, options.devstat_ssd_page, use_gplog))
+ failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ }
+
// Print SATA Phy Event Counters
if (options.sataphy) {
unsigned nsectors = GetNumLogSectors(gplogdir, 0x11, true);
+ // Packet interface devices do not provide a log directory, check support bit
+ if (!nsectors && (drive.words047_079[76-47] & 0x0401) == 0x0400)
+ nsectors = 1;
if (!nsectors)
- pout("SATA Phy Event Counters (GP Log 0x11) not supported\n");
+ pout("SATA Phy Event Counters (GP Log 0x11) not supported\n\n");
else if (nsectors != 1)
- pout("SATA Phy Event Counters with %u sectors not supported\n", nsectors);
+ pout("SATA Phy Event Counters with %u sectors not supported\n\n", nsectors);
else {
unsigned char log_11[512] = {0, };
unsigned char features = (options.sataphy_reset ? 0x01 : 0x00);
- if (!ataReadLogExt(device, 0x11, features, 0, log_11, 1))
+ if (!ataReadLogExt(device, 0x11, features, 0, log_11, 1)) {
+ pout("Read SATA Phy Event Counters failed\n\n");
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
+ }
else
PrintSataPhyEventCounters(log_11, options.sataphy_reset);
}
}
+ // Set to standby (spindown) mode
+ // (Above commands may spinup drive)
+ if (options.set_standby_now) {
+ if (!ata_nodata_command(device, ATA_STANDBY_IMMEDIATE)) {
+ pout("ATA STANDBY IMMEDIATE command failed: %s\n", device->get_errmsg());
+ returnval |= FAILSMART;
+ }
+ else
+ pout("Device placed in STANDBY mode\n");
+ }
+
// START OF THE TESTING SECTION OF THE CODE. IF NO TESTING, RETURN
- if (options.smart_selftest_type == -1)
+ if (!smart_val_ok || options.smart_selftest_type == -1)
return returnval;
pout("=== START OF OFFLINE IMMEDIATE AND SELF-TEST SECTION ===\n");
switch (options.smart_selftest_type) {
case OFFLINE_FULL_SCAN:
if (!isSupportExecuteOfflineImmediate(&smartval)){
- pout("Warning: device does not support Execute Offline Immediate function.\n\n");
+ pout("Execute Offline Immediate function not supported\n\n");
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
}
break;
case SHORT_CAPTIVE_SELF_TEST:
case EXTEND_CAPTIVE_SELF_TEST:
if (!isSupportSelfTest(&smartval)){
- pout("Warning: device does not support Self-Test functions.\n\n");
+ pout("Self-test functions not supported\n\n");
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
}
break;
case CONVEYANCE_SELF_TEST:
case CONVEYANCE_CAPTIVE_SELF_TEST:
if (!isSupportConveyanceSelfTest(&smartval)){
- pout("Warning: device does not support Conveyance Self-Test functions.\n\n");
+ pout("Conveyance Self-test functions not supported\n\n");
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
}
break;
case SELECTIVE_SELF_TEST:
case SELECTIVE_CAPTIVE_SELF_TEST:
if (!isSupportSelectiveSelfTest(&smartval)){
- pout("Warning: device does not support Selective Self-Test functions.\n\n");
+ pout("Selective Self-test functions not supported\n\n");
failuretest(MANDATORY_CMD, returnval|=FAILSMART);
}
break;
default:
- pout("Internal error in smartctl: smart_test_type==%d not recognized\n", options.smart_selftest_type);
- pout("Please contact smartmontools developers at %s.\n", PACKAGE_BUGREPORT);
- EXIT(returnval|=FAILCMD);
+ break; // Vendor specific type
}
// Now do the test. Note ataSmartTest prints its own error/success
// messages
- if (ataSmartTest(device, options.smart_selftest_type, options.smart_selective_args,
- &smartval, get_num_sectors(&drive) ))
+ if (ataSmartTest(device, options.smart_selftest_type, options.smart_selftest_force,
+ options.smart_selective_args, &smartval, sizes.sectors ))
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
else {
// Tell user how long test will take to complete. This is tricky
if (isSupportOfflineAbort(&smartval))
pout("Note: giving further SMART commands will abort Offline testing\n");
else if (ataReadSmartValues(device, &smartval)){
- pout("Smartctl: SMART Read Values failed.\n");
+ pout("Read SMART Data failed: %s\n\n", device->get_errmsg());
failuretest(OPTIONAL_CMD, returnval|=FAILSMART);
}
}
// Now say how long the test will take to complete
- if ((timewait = TestTime(&smartval, options.smart_selftest_type))) {
+ int timewait = TestTime(&smartval, options.smart_selftest_type);
+ if (timewait) {
time_t t=time(NULL);
if (options.smart_selftest_type == OFFLINE_FULL_SCAN) {
t+=timewait;
projects / mirror_smartmontools-debian.git / blobdiff