4 * Home page of code is: http://smartmontools.sourceforge.net
6 * Copyright (C) 2002-11 Bruce Allen
7 * Copyright (C) 2008-15 Christian Franke
8 * Copyright (C) 1999-2000 Michael Cornwell <cornwell@acm.org>
10 * This program is free software; you can redistribute it and/or modify
11 * it under the terms of the GNU General Public License as published by
12 * the Free Software Foundation; either version 2, or (at your option)
15 * You should have received a copy of the GNU General Public License
16 * (for example COPYING); If not, see <http://www.gnu.org/licenses/>.
18 * This code was originally developed as a Senior Thesis by Michael Cornwell
19 * at the Concurrent Systems Laboratory (now part of the Storage Systems
20 * Research Center), Jack Baskin School of Engineering, University of
21 * California, Santa Cruz. http://ssrc.soe.ucsc.edu/
34 #include "atacmdnames.h"
36 #include "ataidentify.h"
37 #include "dev_interface.h"
41 #include "knowndrives.h"
43 const char * ataprint_cpp_cvsid
= "$Id: ataprint.cpp 4104 2015-06-03 18:50:39Z chrfranke $"
47 static const char * infofound(const char *output
) {
48 return (*output
? output
: "[No Information Found]");
51 // Return true if '-T permissive' is specified,
52 // used to ignore missing capabilities
53 static bool is_permissive()
55 if (!failuretest_permissive
)
57 failuretest_permissive
--;
61 /* For the given Command Register (CR) and Features Register (FR), attempts
62 * to construct a string that describes the contents of the Status
63 * Register (ST) and Error Register (ER). If the meanings of the flags of
64 * the error register are not known for the given command then it returns an
67 * The meanings of the flags of the error register for all commands are
68 * described in the ATA spec and could all be supported here in theory.
69 * Currently, only a few commands are supported (those that have been seen
70 * to produce errors). If many more are to be added then this function
71 * should probably be redesigned.
74 static std::string
format_st_er_desc(
75 unsigned char CR
, unsigned char FR
,
76 unsigned char ST
, unsigned char ER
,
78 const ata_smart_errorlog_error_struct
* lba28_regs
,
79 const ata_smart_exterrlog_error
* lba48_regs
82 const char *error_flag
[8];
83 int i
, print_lba
=0, print_sector
=0;
85 // Set of character strings corresponding to different error codes.
86 // Please keep in alphabetic order if you add more.
87 const char *abrt
= "ABRT"; // ABORTED
88 const char *amnf
= "AMNF"; // ADDRESS MARK NOT FOUND
89 const char *ccto
= "CCTO"; // COMMAND COMPLETION TIMED OUT
90 const char *eom
= "EOM"; // END OF MEDIA
91 const char *icrc
= "ICRC"; // INTERFACE CRC ERROR
92 const char *idnf
= "IDNF"; // ID NOT FOUND
93 const char *ili
= "ILI"; // MEANING OF THIS BIT IS COMMAND-SET SPECIFIC
94 const char *mc
= "MC"; // MEDIA CHANGED
95 const char *mcr
= "MCR"; // MEDIA CHANGE REQUEST
96 const char *nm
= "NM"; // NO MEDIA
97 const char *obs
= "obs"; // OBSOLETE
98 const char *tk0nf
= "TK0NF"; // TRACK 0 NOT FOUND
99 const char *unc
= "UNC"; // UNCORRECTABLE
100 const char *wp
= "WP"; // WRITE PROTECTED
102 /* If for any command the Device Fault flag of the status register is
103 * not used then used_device_fault should be set to 0 (in the CR switch
106 int uses_device_fault
= 1;
108 /* A value of NULL means that the error flag isn't used */
109 for (i
= 0; i
< 8; i
++)
110 error_flag
[i
] = NULL
;
115 case 0x10: // RECALIBRATE
116 error_flag
[2] = abrt
;
117 error_flag
[1] = tk0nf
;
119 case 0x20: /* READ SECTOR(S) */
120 case 0x21: // READ SECTOR(S)
121 case 0x24: // READ SECTOR(S) EXT
122 case 0xC4: /* READ MULTIPLE */
123 case 0x29: // READ MULTIPLE EXT
126 error_flag
[4] = idnf
;
128 error_flag
[2] = abrt
;
130 error_flag
[0] = amnf
;
133 case 0x22: // READ LONG (with retries)
134 case 0x23: // READ LONG (without retries)
135 error_flag
[4] = idnf
;
136 error_flag
[2] = abrt
;
137 error_flag
[0] = amnf
;
140 case 0x2a: // READ STREAM DMA
141 case 0x2b: // READ STREAM PIO
143 error_flag
[7] = icrc
;
146 error_flag
[4] = idnf
;
148 error_flag
[2] = abrt
;
150 error_flag
[0] = ccto
;
154 case 0x3A: // WRITE STREAM DMA
155 case 0x3B: // WRITE STREAM PIO
157 error_flag
[7] = icrc
;
160 error_flag
[4] = idnf
;
162 error_flag
[2] = abrt
;
164 error_flag
[0] = ccto
;
168 case 0x25: // READ DMA EXT
169 case 0x26: // READ DMA QUEUED EXT
170 case 0xC7: // READ DMA QUEUED
171 case 0xC8: // READ DMA (with retries)
172 case 0xC9: // READ DMA (without retries, obsolete since ATA-5)
173 case 0x60: // READ FPDMA QUEUED (NCQ)
174 error_flag
[7] = icrc
;
177 error_flag
[4] = idnf
;
179 error_flag
[2] = abrt
;
181 error_flag
[0] = amnf
;
183 if (CR
==0x25 || CR
==0xC8)
186 case 0x30: /* WRITE SECTOR(S) */
187 case 0x31: // WRITE SECTOR(S)
188 case 0x34: // WRITE SECTOR(S) EXT
189 case 0xC5: /* WRITE MULTIPLE */
190 case 0x39: // WRITE MULTIPLE EXT
191 case 0xCE: // WRITE MULTIPLE FUA EXT
194 error_flag
[4] = idnf
;
196 error_flag
[2] = abrt
;
200 case 0x32: // WRITE LONG (with retries)
201 case 0x33: // WRITE LONG (without retries)
202 error_flag
[4] = idnf
;
203 error_flag
[2] = abrt
;
206 case 0x3C: // WRITE VERIFY
208 error_flag
[4] = idnf
;
209 error_flag
[2] = abrt
;
210 error_flag
[0] = amnf
;
213 case 0x40: // READ VERIFY SECTOR(S) with retries
214 case 0x41: // READ VERIFY SECTOR(S) without retries
215 case 0x42: // READ VERIFY SECTOR(S) EXT
218 error_flag
[4] = idnf
;
220 error_flag
[2] = abrt
;
222 error_flag
[0] = amnf
;
225 case 0xA0: /* PACKET */
226 /* Bits 4-7 are all used for sense key (a 'command packet set specific error
227 * indication' according to the ATA/ATAPI-7 standard), so "Sense key" will
228 * be repeated in the error description string if more than one of those
231 error_flag
[7] = "Sense key (bit 3)",
232 error_flag
[6] = "Sense key (bit 2)",
233 error_flag
[5] = "Sense key (bit 1)",
234 error_flag
[4] = "Sense key (bit 0)",
235 error_flag
[2] = abrt
;
239 case 0xA1: /* IDENTIFY PACKET DEVICE */
240 case 0xEF: /* SET FEATURES */
242 case 0xC6: /* SET MULTIPLE MODE */
243 error_flag
[2] = abrt
;
245 case 0x2F: // READ LOG EXT
247 error_flag
[4] = idnf
;
248 error_flag
[2] = abrt
;
251 case 0x3F: // WRITE LOG EXT
252 error_flag
[4] = idnf
;
253 error_flag
[2] = abrt
;
256 case 0xB0: /* SMART */
258 case 0xD0: // SMART READ DATA
259 case 0xD1: // SMART READ ATTRIBUTE THRESHOLDS
260 case 0xD5: /* SMART READ LOG */
262 error_flag
[4] = idnf
;
263 error_flag
[2] = abrt
;
266 case 0xD6: /* SMART WRITE LOG */
267 error_flag
[4] = idnf
;
268 error_flag
[2] = abrt
;
271 case 0xD2: // Enable/Disable Attribute Autosave
272 case 0xD3: // SMART SAVE ATTRIBUTE VALUES (ATA-3)
273 case 0xD8: // SMART ENABLE OPERATIONS
274 case 0xD9: /* SMART DISABLE OPERATIONS */
275 case 0xDA: /* SMART RETURN STATUS */
276 case 0xDB: // Enable/Disable Auto Offline (SFF)
277 error_flag
[2] = abrt
;
279 case 0xD4: // SMART EXECUTE IMMEDIATE OFFLINE
280 error_flag
[4] = idnf
;
281 error_flag
[2] = abrt
;
288 case 0xB1: /* DEVICE CONFIGURATION */
290 case 0xC0: /* DEVICE CONFIGURATION RESTORE */
291 error_flag
[2] = abrt
;
298 case 0xCA: // WRITE DMA (with retries)
299 case 0xCB: // WRITE DMA (without retries, obsolete since ATA-5)
300 case 0x35: // WRITE DMA EXT
301 case 0x3D: // WRITE DMA FUA EXT
302 case 0xCC: // WRITE DMA QUEUED
303 case 0x36: // WRITE DMA QUEUED EXT
304 case 0x3E: // WRITE DMA QUEUED FUA EXT
305 case 0x61: // WRITE FPDMA QUEUED (NCQ)
306 error_flag
[7] = icrc
;
309 error_flag
[4] = idnf
;
311 error_flag
[2] = abrt
;
313 error_flag
[0] = amnf
;
318 case 0xE4: // READ BUFFER
319 case 0xE8: // WRITE BUFFER
320 error_flag
[2] = abrt
;
326 /* We ignore any status flags other than Device Fault and Error */
328 if (uses_device_fault
&& (ST
& (1 << 5))) {
329 str
= "Device Fault";
330 if (ST
& 1) // Error flag
333 if (ST
& 1) { // Error flag
337 for (i
= 7; i
>= 0; i
--)
338 if ((ER
& (1 << i
)) && (error_flag
[i
])) {
341 str
+= error_flag
[i
];
345 // If the error was a READ or WRITE error, print the Logical Block
346 // Address (LBA) at which the read or write failed.
348 // print number of sectors, if known, and append to print string
350 str
+= strprintf(" %d sectors", print_sector
);
354 // bits 24-27: bits 0-3 of DH
355 lba
= 0xf & lba28_regs
->drive_head
;
358 lba
|= lba28_regs
->cylinder_high
;
361 lba
|= lba28_regs
->cylinder_low
;
364 lba
|= lba28_regs
->sector_number
;
365 str
+= strprintf(" at LBA = 0x%08x = %u", lba
, lba
);
367 else if (lba48_regs
) {
368 // This assumes that upper LBA registers are 0 for 28-bit commands
369 // (TODO: detect 48-bit commands above)
371 lba48
= lba48_regs
->lba_high_register_hi
;
373 lba48
|= lba48_regs
->lba_mid_register_hi
;
375 lba48
|= lba48_regs
->lba_low_register_hi
;
376 lba48
|= lba48_regs
->device_register
& 0xf;
378 lba48
|= lba48_regs
->lba_high_register
;
380 lba48
|= lba48_regs
->lba_mid_register
;
382 lba48
|= lba48_regs
->lba_low_register
;
383 str
+= strprintf(" at LBA = 0x%08" PRIx64
" = %" PRIu64
, lba48
, lba48
);
390 static inline std::string
format_st_er_desc(
391 const ata_smart_errorlog_struct
* data
)
393 return format_st_er_desc(
394 data
->commands
[4].commandreg
,
395 data
->commands
[4].featuresreg
,
396 data
->error_struct
.status
,
397 data
->error_struct
.error_register
,
398 data
->error_struct
.sector_count
,
399 &data
->error_struct
, (const ata_smart_exterrlog_error
*)0);
402 static inline std::string
format_st_er_desc(
403 const ata_smart_exterrlog_error_log
* data
)
405 return format_st_er_desc(
406 data
->commands
[4].command_register
,
407 data
->commands
[4].features_register
,
408 data
->error
.status_register
,
409 data
->error
.error_register
,
410 data
->error
.count_register_hi
<< 8 | data
->error
.count_register
,
411 (const ata_smart_errorlog_error_struct
*)0, &data
->error
);
415 static const char * get_form_factor(unsigned short word168
)
417 // Table A.32 of T13/2161-D (ACS-3) Revision 4p, September 19, 2013
418 // Table 236 of T13/BSR INCITS 529 (ACS-4) Revision 04, August 25, 2014
420 case 0x1: return "5.25 inches";
421 case 0x2: return "3.5 inches";
422 case 0x3: return "2.5 inches";
423 case 0x4: return "1.8 inches";
424 case 0x5: return "< 1.8 inches";
425 case 0x6: return "mSATA"; // ACS-4
426 case 0x7: return "M.2"; // ACS-4
427 case 0x8: return "MicroSSD"; // ACS-4
428 case 0x9: return "CFast"; // ACS-4
433 static int find_msb(unsigned short word
)
435 for (int bit
= 15; bit
>= 0; bit
--)
436 if (word
& (1 << bit
))
441 static const char * get_ata_major_version(const ata_identify_device
* drive
)
443 switch (find_msb(drive
->major_rev_num
)) {
444 case 10: return "ACS-3";
445 case 9: return "ACS-2";
446 case 8: return "ATA8-ACS";
447 case 7: return "ATA/ATAPI-7";
448 case 6: return "ATA/ATAPI-6";
449 case 5: return "ATA/ATAPI-5";
450 case 4: return "ATA/ATAPI-4";
451 case 3: return "ATA-3";
452 case 2: return "ATA-2";
453 case 1: return "ATA-1";
458 static const char * get_ata_minor_version(const ata_identify_device
* drive
)
460 // Table 10 of X3T13/2008D (ATA-3) Revision 7b, January 27, 1997
461 // Table 28 of T13/1410D (ATA/ATAPI-6) Revision 3b, February 26, 2002
462 // Table 31 of T13/1699-D (ATA8-ACS) Revision 6a, September 6, 2008
463 // Table 46 of T13/BSR INCITS 529 (ACS-4) Revision 08, April 28, 2015
464 switch (drive
->minor_rev_num
) {
465 case 0x0001: return "ATA-1 X3T9.2/781D prior to revision 4";
466 case 0x0002: return "ATA-1 published, ANSI X3.221-1994";
467 case 0x0003: return "ATA-1 X3T9.2/781D revision 4";
468 case 0x0004: return "ATA-2 published, ANSI X3.279-1996";
469 case 0x0005: return "ATA-2 X3T10/948D prior to revision 2k";
470 case 0x0006: return "ATA-3 X3T10/2008D revision 1";
471 case 0x0007: return "ATA-2 X3T10/948D revision 2k";
472 case 0x0008: return "ATA-3 X3T10/2008D revision 0";
473 case 0x0009: return "ATA-2 X3T10/948D revision 3";
474 case 0x000a: return "ATA-3 published, ANSI X3.298-1997";
475 case 0x000b: return "ATA-3 X3T10/2008D revision 6"; // 1st ATA-3 revision with SMART
476 case 0x000c: return "ATA-3 X3T13/2008D revision 7 and 7a";
477 case 0x000d: return "ATA/ATAPI-4 X3T13/1153D revision 6";
478 case 0x000e: return "ATA/ATAPI-4 T13/1153D revision 13";
479 case 0x000f: return "ATA/ATAPI-4 X3T13/1153D revision 7";
480 case 0x0010: return "ATA/ATAPI-4 T13/1153D revision 18";
481 case 0x0011: return "ATA/ATAPI-4 T13/1153D revision 15";
482 case 0x0012: return "ATA/ATAPI-4 published, ANSI NCITS 317-1998";
483 case 0x0013: return "ATA/ATAPI-5 T13/1321D revision 3";
484 case 0x0014: return "ATA/ATAPI-4 T13/1153D revision 14";
485 case 0x0015: return "ATA/ATAPI-5 T13/1321D revision 1";
486 case 0x0016: return "ATA/ATAPI-5 published, ANSI NCITS 340-2000";
487 case 0x0017: return "ATA/ATAPI-4 T13/1153D revision 17";
488 case 0x0018: return "ATA/ATAPI-6 T13/1410D revision 0";
489 case 0x0019: return "ATA/ATAPI-6 T13/1410D revision 3a";
490 case 0x001a: return "ATA/ATAPI-7 T13/1532D revision 1";
491 case 0x001b: return "ATA/ATAPI-6 T13/1410D revision 2";
492 case 0x001c: return "ATA/ATAPI-6 T13/1410D revision 1";
493 case 0x001d: return "ATA/ATAPI-7 published, ANSI INCITS 397-2005";
494 case 0x001e: return "ATA/ATAPI-7 T13/1532D revision 0";
495 case 0x001f: return "ACS-3 T13/2161-D revision 3b";
497 case 0x0021: return "ATA/ATAPI-7 T13/1532D revision 4a";
498 case 0x0022: return "ATA/ATAPI-6 published, ANSI INCITS 361-2002";
500 case 0x0027: return "ATA8-ACS T13/1699-D revision 3c";
501 case 0x0028: return "ATA8-ACS T13/1699-D revision 6";
502 case 0x0029: return "ATA8-ACS T13/1699-D revision 4";
504 case 0x0031: return "ACS-2 T13/2015-D revision 2";
506 case 0x0033: return "ATA8-ACS T13/1699-D revision 3e";
508 case 0x0039: return "ATA8-ACS T13/1699-D revision 4c";
510 case 0x0042: return "ATA8-ACS T13/1699-D revision 3f";
512 case 0x0052: return "ATA8-ACS T13/1699-D revision 3b";
514 case 0x005e: return "ACS-4 T13/BSR INCITS 529 revision 5";
516 case 0x006d: return "ACS-3 T13/2161-D revision 5";
518 case 0x0082: return "ACS-2 published, ANSI INCITS 482-2012";
520 case 0x0107: return "ATA8-ACS T13/1699-D revision 2d";
522 case 0x010a: return "ACS-3 published, ANSI INCITS 522-2014";
524 case 0x0110: return "ACS-2 T13/2015-D revision 3";
526 case 0x011b: return "ACS-3 T13/2161-D revision 4";
532 static const char * get_pata_version(unsigned short word222
, char (& buf
)[32])
534 switch (word222
& 0x0fff) {
535 default: snprintf(buf
, sizeof(buf
),
536 "Unknown (0x%03x)", word222
& 0x0fff); return buf
;
538 case 0x003: return "ATA8-APT";
539 case 0x002: return "ATA/ATAPI-7";
543 static const char * get_sata_version(unsigned short word222
, char (& buf
)[32])
545 switch (find_msb(word222
& 0x0fff)) {
546 default: snprintf(buf
, sizeof(buf
),
547 "SATA >3.2 (0x%03x)", word222
& 0x0fff); return buf
;
548 case 7: return "SATA 3.2";
549 case 6: return "SATA 3.1";
550 case 5: return "SATA 3.0";
551 case 4: return "SATA 2.6";
552 case 3: return "SATA 2.5";
553 case 2: return "SATA II Ext";
554 case 1: return "SATA 1.0a";
555 case 0: return "ATA8-AST";
556 case -1: return "Unknown";
560 static const char * get_sata_speed(int level
)
565 default: return ">6.0 Gb/s (7)";
566 case 6: return ">6.0 Gb/s (6)";
567 case 5: return ">6.0 Gb/s (5)";
568 case 4: return ">6.0 Gb/s (4)";
569 case 3: return "6.0 Gb/s";
570 case 2: return "3.0 Gb/s";
571 case 1: return "1.5 Gb/s";
575 static const char * get_sata_maxspeed(const ata_identify_device
* drive
)
577 unsigned short word076
= drive
->words047_079
[76-47];
578 if (word076
& 0x0001)
580 return get_sata_speed(find_msb(word076
& 0x00fe));
583 static const char * get_sata_curspeed(const ata_identify_device
* drive
)
585 unsigned short word077
= drive
->words047_079
[77-47];
586 if (word077
& 0x0001)
588 return get_sata_speed((word077
>> 1) & 0x7);
592 static void print_drive_info(const ata_identify_device
* drive
,
593 const ata_size_info
& sizes
, int rpm
,
594 const drive_settings
* dbentry
)
596 // format drive information (with byte swapping as needed)
597 char model
[40+1], serial
[20+1], firmware
[8+1];
598 ata_format_id_string(model
, drive
->model
, sizeof(model
)-1);
599 ata_format_id_string(serial
, drive
->serial_no
, sizeof(serial
)-1);
600 ata_format_id_string(firmware
, drive
->fw_rev
, sizeof(firmware
)-1);
602 // Print model family if known
603 if (dbentry
&& *dbentry
->modelfamily
)
604 pout("Model Family: %s\n", dbentry
->modelfamily
);
606 pout("Device Model: %s\n", infofound(model
));
608 if (!dont_print_serial_number
) {
609 pout("Serial Number: %s\n", infofound(serial
));
611 unsigned oui
= 0; uint64_t unique_id
= 0;
612 int naa
= ata_get_wwn(drive
, oui
, unique_id
);
614 pout("LU WWN Device Id: %x %06x %09" PRIx64
"\n", naa
, oui
, unique_id
);
617 // Additional Product Identifier (OEM Id) string in words 170-173
618 // (e08130r1, added in ACS-2 Revision 1, December 17, 2008)
619 if (0x2020 <= drive
->words088_255
[170-88] && drive
->words088_255
[170-88] <= 0x7e7e) {
621 ata_format_id_string(add
, (const unsigned char *)(drive
->words088_255
+170-88), sizeof(add
)-1);
623 pout("Add. Product Id: %s\n", add
);
626 pout("Firmware Version: %s\n", infofound(firmware
));
628 if (sizes
.capacity
) {
630 char num
[64], cap
[32];
631 pout("User Capacity: %s bytes [%s]\n",
632 format_with_thousands_sep(num
, sizeof(num
), sizes
.capacity
),
633 format_capacity(cap
, sizeof(cap
), sizes
.capacity
));
635 // Print sector sizes.
636 if (sizes
.phy_sector_size
== sizes
.log_sector_size
)
637 pout("Sector Size: %u bytes logical/physical\n", sizes
.log_sector_size
);
639 pout("Sector Sizes: %u bytes logical, %u bytes physical",
640 sizes
.log_sector_size
, sizes
.phy_sector_size
);
641 if (sizes
.log_sector_offset
)
642 pout(" (offset %u bytes)", sizes
.log_sector_offset
);
647 // Print nominal media rotation rate if reported
650 pout("Rotation Rate: Solid State Device\n");
652 pout("Rotation Rate: %d rpm\n", rpm
);
654 pout("Rotation Rate: Unknown (0x%04x)\n", -rpm
);
657 // Print form factor if reported
658 unsigned short word168
= drive
->words088_255
[168-88];
660 const char * form_factor
= get_form_factor(word168
);
662 pout("Form Factor: %s\n", form_factor
);
664 pout("Form Factor: Unknown (0x%04x)\n", word168
);
667 // See if drive is recognized
668 pout("Device is: %s\n", !dbentry
?
669 "Not in smartctl database [for details use: -P showall]":
670 "In smartctl database [for details use: -P show]");
674 if ( (drive
->major_rev_num
!= 0x0000 && drive
->major_rev_num
!= 0xffff)
675 || (drive
->minor_rev_num
!= 0x0000 && drive
->minor_rev_num
!= 0xffff)) {
676 const char * majorver
= get_ata_major_version(drive
);
677 const char * minorver
= get_ata_minor_version(drive
);
679 if (majorver
&& minorver
&& str_starts_with(minorver
, majorver
)) {
680 // Major and minor strings match, print minor string only
687 ataver
= strprintf("Unknown(0x%04x)", drive
->major_rev_num
);
690 ataver
+= strprintf(", %s", minorver
);
691 else if (drive
->minor_rev_num
!= 0x0000 && drive
->minor_rev_num
!= 0xffff)
692 ataver
+= strprintf(" (unknown minor revision code: 0x%04x)", drive
->minor_rev_num
);
694 ataver
+= " (minor revision not indicated)";
697 pout("ATA Version is: %s\n", infofound(ataver
.c_str()));
699 // Print Transport specific version
701 unsigned short word222
= drive
->words088_255
[222-88];
702 if (word222
!= 0x0000 && word222
!= 0xffff) switch (word222
>> 12) {
704 pout("Transport Type: Parallel, %s\n", get_pata_version(word222
, buf
));
708 const char * sataver
= get_sata_version(word222
, buf
);
709 const char * maxspeed
= get_sata_maxspeed(drive
);
710 const char * curspeed
= get_sata_curspeed(drive
);
711 pout("SATA Version is: %s%s%s%s%s%s\n", sataver
,
712 (maxspeed
? ", " : ""), (maxspeed
? maxspeed
: ""),
713 (curspeed
? " (current: " : ""), (curspeed
? curspeed
: ""),
714 (curspeed
? ")" : ""));
717 case 0xe: // PCIe (ACS-4)
718 pout("Transport Type: PCIe (0x%03x)\n", word222
& 0x0fff);
721 pout("Transport Type: Unknown (0x%04x)\n", word222
);
725 // print current time and date and timezone
726 char timedatetz
[DATEANDEPOCHLEN
]; dateandtimezone(timedatetz
);
727 pout("Local Time is: %s\n", timedatetz
);
729 // Print warning message, if there is one
730 if (dbentry
&& *dbentry
->warningmsg
)
731 pout("\n==> WARNING: %s\n\n", dbentry
->warningmsg
);
734 static const char *OfflineDataCollectionStatus(unsigned char status_byte
)
736 unsigned char stat
=status_byte
& 0x7f;
740 return "was never started";
742 return "was completed without error";
744 if (status_byte
== 0x03)
745 return "is in progress";
747 return "is in a Reserved state";
749 return "was suspended by an interrupting command from host";
751 return "was aborted by an interrupting command from host";
753 return "was aborted by the device with a fatal error";
756 return "is in a Vendor Specific state";
758 return "is in a Reserved state";
763 // prints verbose value Off-line data collection status byte
764 static void PrintSmartOfflineStatus(const ata_smart_values
* data
)
766 pout("Offline data collection status: (0x%02x)\t",
767 (int)data
->offline_data_collection_status
);
769 // Off-line data collection status byte is not a reserved
770 // or vendor specific value
771 pout("Offline data collection activity\n"
772 "\t\t\t\t\t%s.\n", OfflineDataCollectionStatus(data
->offline_data_collection_status
));
774 // Report on Automatic Data Collection Status. Only IBM documents
775 // this bit. See SFF 8035i Revision 2 for details.
776 if (data
->offline_data_collection_status
& 0x80)
777 pout("\t\t\t\t\tAuto Offline Data Collection: Enabled.\n");
779 pout("\t\t\t\t\tAuto Offline Data Collection: Disabled.\n");
784 static void PrintSmartSelfExecStatus(const ata_smart_values
* data
,
785 firmwarebug_defs firmwarebugs
)
787 pout("Self-test execution status: ");
789 switch (data
->self_test_exec_status
>> 4)
792 pout("(%4d)\tThe previous self-test routine completed\n\t\t\t\t\t",
793 (int)data
->self_test_exec_status
);
794 pout("without error or no self-test has ever \n\t\t\t\t\tbeen run.\n");
797 pout("(%4d)\tThe self-test routine was aborted by\n\t\t\t\t\t",
798 (int)data
->self_test_exec_status
);
802 pout("(%4d)\tThe self-test routine was interrupted\n\t\t\t\t\t",
803 (int)data
->self_test_exec_status
);
804 pout("by the host with a hard or soft reset.\n");
807 pout("(%4d)\tA fatal error or unknown test error\n\t\t\t\t\t",
808 (int)data
->self_test_exec_status
);
809 pout("occurred while the device was executing\n\t\t\t\t\t");
810 pout("its self-test routine and the device \n\t\t\t\t\t");
811 pout("was unable to complete the self-test \n\t\t\t\t\t");
815 pout("(%4d)\tThe previous self-test completed having\n\t\t\t\t\t",
816 (int)data
->self_test_exec_status
);
817 pout("a test element that failed and the test\n\t\t\t\t\t");
818 pout("element that failed is not known.\n");
821 pout("(%4d)\tThe previous self-test completed having\n\t\t\t\t\t",
822 (int)data
->self_test_exec_status
);
823 pout("the electrical element of the test\n\t\t\t\t\t");
827 pout("(%4d)\tThe previous self-test completed having\n\t\t\t\t\t",
828 (int)data
->self_test_exec_status
);
829 pout("the servo (and/or seek) element of the \n\t\t\t\t\t");
830 pout("test failed.\n");
833 pout("(%4d)\tThe previous self-test completed having\n\t\t\t\t\t",
834 (int)data
->self_test_exec_status
);
835 pout("the read element of the test failed.\n");
838 pout("(%4d)\tThe previous self-test completed having\n\t\t\t\t\t",
839 (int)data
->self_test_exec_status
);
840 pout("a test element that failed and the\n\t\t\t\t\t");
841 pout("device is suspected of having handling\n\t\t\t\t\t");
845 if (firmwarebugs
.is_set(BUG_SAMSUNG3
) && data
->self_test_exec_status
== 0xf0) {
846 pout("(%4d)\tThe previous self-test routine completed\n\t\t\t\t\t",
847 (int)data
->self_test_exec_status
);
848 pout("with unknown result or self-test in\n\t\t\t\t\t");
849 pout("progress with less than 10%% remaining.\n");
852 pout("(%4d)\tSelf-test routine in progress...\n\t\t\t\t\t",
853 (int)data
->self_test_exec_status
);
854 pout("%1d0%% of test remaining.\n",
855 (int)(data
->self_test_exec_status
& 0x0f));
859 pout("(%4d)\tReserved.\n",
860 (int)data
->self_test_exec_status
);
866 static void PrintSmartTotalTimeCompleteOffline (const ata_smart_values
* data
)
868 pout("Total time to complete Offline \n");
869 pout("data collection: \t\t(%5d) seconds.\n",
870 (int)data
->total_time_to_complete_off_line
);
873 static void PrintSmartOfflineCollectCap(const ata_smart_values
*data
)
875 pout("Offline data collection\n");
876 pout("capabilities: \t\t\t (0x%02x) ",
877 (int)data
->offline_data_collection_capability
);
879 if (data
->offline_data_collection_capability
== 0x00){
880 pout("\tOffline data collection not supported.\n");
883 pout( "%s\n", isSupportExecuteOfflineImmediate(data
)?
884 "SMART execute Offline immediate." :
885 "No SMART execute Offline immediate.");
887 pout( "\t\t\t\t\t%s\n", isSupportAutomaticTimer(data
)?
888 "Auto Offline data collection on/off support.":
889 "No Auto Offline data collection support.");
891 pout( "\t\t\t\t\t%s\n", isSupportOfflineAbort(data
)?
892 "Abort Offline collection upon new\n\t\t\t\t\tcommand.":
893 "Suspend Offline collection upon new\n\t\t\t\t\tcommand.");
895 pout( "\t\t\t\t\t%s\n", isSupportOfflineSurfaceScan(data
)?
896 "Offline surface scan supported.":
897 "No Offline surface scan supported.");
899 pout( "\t\t\t\t\t%s\n", isSupportSelfTest(data
)?
900 "Self-test supported.":
901 "No Self-test supported.");
903 pout( "\t\t\t\t\t%s\n", isSupportConveyanceSelfTest(data
)?
904 "Conveyance Self-test supported.":
905 "No Conveyance Self-test supported.");
907 pout( "\t\t\t\t\t%s\n", isSupportSelectiveSelfTest(data
)?
908 "Selective Self-test supported.":
909 "No Selective Self-test supported.");
913 static void PrintSmartCapability(const ata_smart_values
*data
)
915 pout("SMART capabilities: ");
916 pout("(0x%04x)\t", (int)data
->smart_capability
);
918 if (data
->smart_capability
== 0x00)
920 pout("Automatic saving of SMART data\t\t\t\t\tis not implemented.\n");
925 pout( "%s\n", (data
->smart_capability
& 0x01)?
926 "Saves SMART data before entering\n\t\t\t\t\tpower-saving mode.":
927 "Does not save SMART data before\n\t\t\t\t\tentering power-saving mode.");
929 if ( data
->smart_capability
& 0x02 )
931 pout("\t\t\t\t\tSupports SMART auto save timer.\n");
936 static void PrintSmartErrorLogCapability(const ata_smart_values
* data
, const ata_identify_device
* identity
)
938 pout("Error logging capability: ");
940 if ( isSmartErrorLogCapable(data
, identity
) )
942 pout(" (0x%02x)\tError logging supported.\n",
943 (int)data
->errorlog_capability
);
946 pout(" (0x%02x)\tError logging NOT supported.\n",
947 (int)data
->errorlog_capability
);
951 static void PrintSmartShortSelfTestPollingTime(const ata_smart_values
* data
)
953 pout("Short self-test routine \n");
954 if (isSupportSelfTest(data
))
955 pout("recommended polling time: \t (%4d) minutes.\n",
956 (int)data
->short_test_completion_time
);
958 pout("recommended polling time: \t Not Supported.\n");
961 static void PrintSmartExtendedSelfTestPollingTime(const ata_smart_values
* data
)
963 pout("Extended self-test routine\n");
964 if (isSupportSelfTest(data
))
965 pout("recommended polling time: \t (%4d) minutes.\n",
966 TestTime(data
, EXTEND_SELF_TEST
));
968 pout("recommended polling time: \t Not Supported.\n");
971 static void PrintSmartConveyanceSelfTestPollingTime(const ata_smart_values
* data
)
973 pout("Conveyance self-test routine\n");
974 if (isSupportConveyanceSelfTest(data
))
975 pout("recommended polling time: \t (%4d) minutes.\n",
976 (int)data
->conveyance_test_completion_time
);
978 pout("recommended polling time: \t Not Supported.\n");
981 // Check SMART attribute table for Threshold failure
982 // onlyfailed=0: are or were any age or prefailure attributes <= threshold
983 // onlyfailed=1: are any prefailure attributes <= threshold now
984 static int find_failed_attr(const ata_smart_values
* data
,
985 const ata_smart_thresholds_pvt
* thresholds
,
986 const ata_vendor_attr_defs
& defs
, int onlyfailed
)
988 for (int i
= 0; i
< NUMBER_ATA_SMART_ATTRIBUTES
; i
++) {
989 const ata_smart_attribute
& attr
= data
->vendor_attributes
[i
];
991 ata_attr_state state
= ata_get_attr_state(attr
, i
, thresholds
->thres_entries
, defs
);
994 if (state
>= ATTRSTATE_FAILED_PAST
)
998 if (state
== ATTRSTATE_FAILED_NOW
&& ATTRIBUTE_FLAGS_PREFAILURE(attr
.flags
))
1005 // onlyfailed=0 : print all attribute values
1006 // onlyfailed=1: just ones that are currently failed and have prefailure bit set
1007 // onlyfailed=2: ones that are failed, or have failed with or without prefailure bit set
1008 static void PrintSmartAttribWithThres(const ata_smart_values
* data
,
1009 const ata_smart_thresholds_pvt
* thresholds
,
1010 const ata_vendor_attr_defs
& defs
, int rpm
,
1011 int onlyfailed
, unsigned char format
)
1013 bool brief
= !!(format
& ata_print_options::FMT_BRIEF
);
1014 bool hexid
= !!(format
& ata_print_options::FMT_HEX_ID
);
1015 bool hexval
= !!(format
& ata_print_options::FMT_HEX_VAL
);
1016 bool needheader
= true;
1018 // step through all vendor attributes
1019 for (int i
= 0; i
< NUMBER_ATA_SMART_ATTRIBUTES
; i
++) {
1020 const ata_smart_attribute
& attr
= data
->vendor_attributes
[i
];
1022 // Check attribute and threshold
1023 unsigned char threshold
= 0;
1024 ata_attr_state state
= ata_get_attr_state(attr
, i
, thresholds
->thres_entries
, defs
, &threshold
);
1025 if (state
== ATTRSTATE_NON_EXISTING
)
1028 // These break out of the loop if we are only printing certain entries...
1029 if (onlyfailed
== 1 && !(ATTRIBUTE_FLAGS_PREFAILURE(attr
.flags
) && state
== ATTRSTATE_FAILED_NOW
))
1032 if (onlyfailed
== 2 && state
< ATTRSTATE_FAILED_PAST
)
1035 // print header only if needed
1038 pout("SMART Attributes Data Structure revision number: %d\n",(int)data
->revnumber
);
1039 pout("Vendor Specific SMART Attributes with Thresholds:\n");
1042 pout("ID#%s ATTRIBUTE_NAME FLAG VALUE WORST THRESH TYPE UPDATED WHEN_FAILED RAW_VALUE\n",
1043 (!hexid
? "" : " "));
1045 pout("ID#%s ATTRIBUTE_NAME FLAGS VALUE WORST THRESH FAIL RAW_VALUE\n",
1046 (!hexid
? "" : " "));
1050 // Format value, worst, threshold
1051 std::string valstr
, worstr
, threstr
;
1052 if (state
> ATTRSTATE_NO_NORMVAL
)
1053 valstr
= (!hexval
? strprintf("%.3d", attr
.current
)
1054 : strprintf("0x%02x", attr
.current
));
1056 valstr
= (!hexval
? "---" : "----");
1057 if (!(defs
[attr
.id
].flags
& ATTRFLAG_NO_WORSTVAL
))
1058 worstr
= (!hexval
? strprintf("%.3d", attr
.worst
)
1059 : strprintf("0x%02x", attr
.worst
));
1061 worstr
= (!hexval
? "---" : "----");
1062 if (state
> ATTRSTATE_NO_THRESHOLD
)
1063 threstr
= (!hexval
? strprintf("%.3d", threshold
)
1064 : strprintf("0x%02x", threshold
));
1066 threstr
= (!hexval
? "---" : "----");
1068 // Print line for each valid attribute
1069 std::string idstr
= (!hexid
? strprintf("%3d", attr
.id
)
1070 : strprintf("0x%02x", attr
.id
));
1071 std::string attrname
= ata_get_smart_attr_name(attr
.id
, defs
, rpm
);
1072 std::string rawstr
= ata_format_attr_raw_value(attr
, defs
);
1075 pout("%s %-24s0x%04x %-4s %-4s %-4s %-10s%-9s%-12s%s\n",
1076 idstr
.c_str(), attrname
.c_str(), attr
.flags
,
1077 valstr
.c_str(), worstr
.c_str(), threstr
.c_str(),
1078 (ATTRIBUTE_FLAGS_PREFAILURE(attr
.flags
) ? "Pre-fail" : "Old_age"),
1079 (ATTRIBUTE_FLAGS_ONLINE(attr
.flags
) ? "Always" : "Offline"),
1080 (state
== ATTRSTATE_FAILED_NOW
? "FAILING_NOW" :
1081 state
== ATTRSTATE_FAILED_PAST
? "In_the_past"
1085 pout("%s %-24s%c%c%c%c%c%c%c %-4s %-4s %-4s %-5s%s\n",
1086 idstr
.c_str(), attrname
.c_str(),
1087 (ATTRIBUTE_FLAGS_PREFAILURE(attr
.flags
) ? 'P' : '-'),
1088 (ATTRIBUTE_FLAGS_ONLINE(attr
.flags
) ? 'O' : '-'),
1089 (ATTRIBUTE_FLAGS_PERFORMANCE(attr
.flags
) ? 'S' : '-'),
1090 (ATTRIBUTE_FLAGS_ERRORRATE(attr
.flags
) ? 'R' : '-'),
1091 (ATTRIBUTE_FLAGS_EVENTCOUNT(attr
.flags
) ? 'C' : '-'),
1092 (ATTRIBUTE_FLAGS_SELFPRESERVING(attr
.flags
) ? 'K' : '-'),
1093 (ATTRIBUTE_FLAGS_OTHER(attr
.flags
) ? '+' : ' '),
1094 valstr
.c_str(), worstr
.c_str(), threstr
.c_str(),
1095 (state
== ATTRSTATE_FAILED_NOW
? "NOW" :
1096 state
== ATTRSTATE_FAILED_PAST
? "Past"
1103 if (!onlyfailed
&& brief
) {
1104 int n
= (!hexid
? 28 : 29);
1105 pout("%*s||||||_ K auto-keep\n"
1106 "%*s|||||__ C event count\n"
1107 "%*s||||___ R error rate\n"
1108 "%*s|||____ S speed/performance\n"
1109 "%*s||_____ O updated online\n"
1110 "%*s|______ P prefailure warning\n",
1111 n
, "", n
, "", n
, "", n
, "", n
, "", n
, "");
1117 // Print SMART related SCT capabilities
1118 static void ataPrintSCTCapability(const ata_identify_device
*drive
)
1120 unsigned short sctcaps
= drive
->words088_255
[206-88];
1121 if (!(sctcaps
& 0x01))
1123 pout("SCT capabilities: \t (0x%04x)\tSCT Status supported.\n", sctcaps
);
1125 pout("\t\t\t\t\tSCT Error Recovery Control supported.\n");
1127 pout("\t\t\t\t\tSCT Feature Control supported.\n");
1129 pout("\t\t\t\t\tSCT Data Table supported.\n");
1133 static void PrintGeneralSmartValues(const ata_smart_values
*data
, const ata_identify_device
*drive
,
1134 firmwarebug_defs firmwarebugs
)
1136 pout("General SMART Values:\n");
1138 PrintSmartOfflineStatus(data
);
1140 if (isSupportSelfTest(data
)){
1141 PrintSmartSelfExecStatus(data
, firmwarebugs
);
1144 PrintSmartTotalTimeCompleteOffline(data
);
1145 PrintSmartOfflineCollectCap(data
);
1146 PrintSmartCapability(data
);
1148 PrintSmartErrorLogCapability(data
, drive
);
1150 pout( "\t\t\t\t\t%s\n", isGeneralPurposeLoggingCapable(drive
)?
1151 "General Purpose Logging supported.":
1152 "No General Purpose Logging support.");
1154 if (isSupportSelfTest(data
)){
1155 PrintSmartShortSelfTestPollingTime (data
);
1156 PrintSmartExtendedSelfTestPollingTime (data
);
1158 if (isSupportConveyanceSelfTest(data
))
1159 PrintSmartConveyanceSelfTestPollingTime (data
);
1161 ataPrintSCTCapability(drive
);
1166 // Get # sectors of a log addr, 0 if log does not exist.
1167 static unsigned GetNumLogSectors(const ata_smart_log_directory
* logdir
, unsigned logaddr
, bool gpl
)
1175 unsigned n
= logdir
->entry
[logaddr
-1].numsectors
;
1177 // GP logs may have >255 sectors
1178 n
|= logdir
->entry
[logaddr
-1].reserved
<< 8;
1183 static const char * GetLogName(unsigned logaddr
)
1185 // Table 205 of T13/BSR INCITS 529 (ACS-4) Revision 08, April 28, 2015
1186 // Table 112 of Serial ATA Revision 3.2, August 7, 2013
1188 case 0x00: return "Log Directory";
1189 case 0x01: return "Summary SMART error log";
1190 case 0x02: return "Comprehensive SMART error log";
1191 case 0x03: return "Ext. Comprehensive SMART error log";
1192 case 0x04: return "Device Statistics log";
1193 case 0x05: return "Reserved for CFA"; // ACS-2
1194 case 0x06: return "SMART self-test log";
1195 case 0x07: return "Extended self-test log";
1196 case 0x08: return "Power Conditions log"; // ACS-2
1197 case 0x09: return "Selective self-test log";
1198 case 0x0a: return "Device Statistics Notification"; // ACS-3
1199 case 0x0b: return "Reserved for CFA"; // ACS-3
1200 case 0x0c: return "Pending Defects log"; // ACS-4
1201 case 0x0d: return "LPS Mis-alignment log"; // ACS-2
1203 case 0x0f: return "Sense Data for Successful NCQ Cmds log"; // ACS-4
1204 case 0x10: return "SATA NCQ Queued Error log";
1205 case 0x11: return "SATA Phy Event Counters log";
1206 //case 0x12: return "SATA NCQ Queue Management log"; // SATA 3.0/3.1
1207 case 0x12: return "SATA NCQ NON-DATA log"; // SATA 3.2
1208 case 0x13: return "SATA NCQ Send and Receive log"; // SATA 3.1
1209 case 0x14: return "SATA Hybrid Information log"; // SATA 3.2
1210 case 0x15: return "SATA Rebuild Assist log"; // SATA 3.2
1212 case 0x17: return "Reserved for Serial ATA";
1214 case 0x19: return "LBA Status log"; // ACS-3
1216 case 0x20: return "Streaming performance log [OBS-8]";
1217 case 0x21: return "Write stream error log";
1218 case 0x22: return "Read stream error log";
1219 case 0x23: return "Delayed sector log [OBS-8]";
1220 case 0x24: return "Current Device Internal Status Data log"; // ACS-3
1221 case 0x25: return "Saved Device Internal Status Data log"; // ACS-3
1223 case 0x30: return "IDENTIFY DEVICE data log"; // ACS-3
1225 case 0xe0: return "SCT Command/Status";
1226 case 0xe1: return "SCT Data Transfer";
1228 if (0xa0 <= logaddr
&& logaddr
<= 0xdf)
1229 return "Device vendor specific log";
1230 if (0x80 <= logaddr
&& logaddr
<= 0x9f)
1231 return "Host vendor specific log";
1237 // Get log access permissions
1238 static const char * get_log_rw(unsigned logaddr
)
1240 if ( ( logaddr
<= 0x08)
1241 || (0x0c <= logaddr
&& logaddr
<= 0x0d)
1242 || (0x0f <= logaddr
&& logaddr
<= 0x14)
1243 || (0x19 == logaddr
)
1244 || (0x20 <= logaddr
&& logaddr
<= 0x25)
1245 || (0x30 == logaddr
))
1248 if ( (0x09 <= logaddr
&& logaddr
<= 0x0a)
1249 || (0x15 == logaddr
)
1250 || (0x80 <= logaddr
&& logaddr
<= 0x9f)
1251 || (0xe0 <= logaddr
&& logaddr
<= 0xe1))
1254 if (0xa0 <= logaddr
&& logaddr
<= 0xdf)
1255 return "VS"; // Vendor specific
1257 return "-"; // Unknown/Reserved
1260 // Init a fake log directory, assume that standard logs are supported
1261 const ata_smart_log_directory
* fake_logdir(ata_smart_log_directory
* logdir
,
1262 const ata_print_options
& options
)
1264 memset(logdir
, 0, sizeof(*logdir
));
1265 logdir
->logversion
= 255;
1266 logdir
->entry
[0x01-1].numsectors
= 1;
1267 logdir
->entry
[0x03-1].numsectors
= (options
.smart_ext_error_log
+ (4-1)) / 4;
1268 logdir
->entry
[0x04-1].numsectors
= 8;
1269 logdir
->entry
[0x06-1].numsectors
= 1;
1270 logdir
->entry
[0x07-1].numsectors
= (options
.smart_ext_selftest_log
+ (19-1)) / 19;
1271 logdir
->entry
[0x09-1].numsectors
= 1;
1272 logdir
->entry
[0x11-1].numsectors
= 1;
1276 // Print SMART and/or GP Log Directory
1277 static void PrintLogDirectories(const ata_smart_log_directory
* gplogdir
,
1278 const ata_smart_log_directory
* smartlogdir
)
1281 pout("General Purpose Log Directory Version %u\n", gplogdir
->logversion
);
1283 pout("SMART %sLog Directory Version %u%s\n",
1284 (gplogdir
? " " : ""), smartlogdir
->logversion
,
1285 (smartlogdir
->logversion
==1 ? " [multi-sector log support]" : ""));
1287 pout("Address Access R/W Size Description\n");
1289 for (unsigned i
= 0; i
<= 0xff; i
++) {
1290 // Get number of sectors
1291 unsigned smart_numsect
= GetNumLogSectors(smartlogdir
, i
, false);
1292 unsigned gp_numsect
= GetNumLogSectors(gplogdir
, i
, true );
1294 if (!(smart_numsect
|| gp_numsect
))
1295 continue; // Log does not exist
1297 const char * acc
; unsigned size
;
1298 if (smart_numsect
== gp_numsect
) {
1299 acc
= "GPL,SL"; size
= gp_numsect
;
1301 else if (!smart_numsect
) {
1302 acc
= "GPL"; size
= gp_numsect
;
1304 else if (!gp_numsect
) {
1305 acc
= " SL"; size
= smart_numsect
;
1312 if (acc
&& ((0x80 <= i
&& i
< 0x9f) || (0xa0 <= i
&& i
< 0xdf))) {
1313 // Find range of Host/Device vendor specific logs with same size
1314 unsigned imax
= (i
< 0x9f ? 0x9f : 0xdf);
1315 for (unsigned j
= i
+1; j
<= imax
; j
++) {
1316 unsigned sn
= GetNumLogSectors(smartlogdir
, j
, false);
1317 unsigned gn
= GetNumLogSectors(gplogdir
, j
, true );
1319 if (!(sn
== smart_numsect
&& gn
== gp_numsect
))
1325 const char * name
= GetLogName(i
);
1326 const char * rw
= get_log_rw(i
);
1329 pout("0x%02x-0x%02x %-6s %-3s %5u %s\n", i
, i2
, acc
, rw
, size
, name
);
1333 pout( "0x%02x %-6s %-3s %5u %s\n", i
, acc
, rw
, size
, name
);
1335 // GPL and SL support different sizes
1336 pout( "0x%02x %-6s %-3s %5u %s\n", i
, "GPL", rw
, gp_numsect
, name
);
1337 pout( "0x%02x %-6s %-3s %5u %s\n", i
, "SL", rw
, smart_numsect
, name
);
1343 // Print hexdump of log pages.
1344 // Format is compatible with 'xxd -r'.
1345 static void PrintLogPages(const char * type
, const unsigned char * data
,
1346 unsigned char logaddr
, unsigned page
,
1347 unsigned num_pages
, unsigned max_pages
)
1349 pout("%s Log 0x%02x [%s], Page %u-%u (of %u)\n",
1350 type
, logaddr
, GetLogName(logaddr
), page
, page
+num_pages
-1, max_pages
);
1351 for (unsigned i
= 0; i
< num_pages
* 512; i
+= 16) {
1352 const unsigned char * p
= data
+i
;
1353 pout("%07x: %02x %02x %02x %02x %02x %02x %02x %02x "
1354 "%02x %02x %02x %02x %02x %02x %02x %02x ",
1356 p
[ 0], p
[ 1], p
[ 2], p
[ 3], p
[ 4], p
[ 5], p
[ 6], p
[ 7],
1357 p
[ 8], p
[ 9], p
[10], p
[11], p
[12], p
[13], p
[14], p
[15]);
1358 #define P(n) (' ' <= p[n] && p[n] <= '~' ? (int)p[n] : '.')
1359 pout("|%c%c%c%c%c%c%c%c"
1360 "%c%c%c%c%c%c%c%c|\n",
1361 P( 0), P( 1), P( 2), P( 3), P( 4), P( 5), P( 6), P( 7),
1362 P( 8), P( 9), P(10), P(11), P(12), P(13), P(14), P(15));
1364 if ((i
& 0x1ff) == 0x1f0)
1369 ///////////////////////////////////////////////////////////////////////
1370 // Device statistics (Log 0x04)
1372 // Section A.5 of T13/2161-D (ACS-3) Revision 5, October 28, 2013
1373 // Section 9.5 of T13/BSR INCITS 529 (ACS-4) Revision 08, April 28, 2015
1375 struct devstat_entry_info
1377 short size
; // #bytes of value, -1 for signed char
1381 const devstat_entry_info devstat_info_0x00
[] = {
1382 { 2, "List of supported log pages" },
1386 const devstat_entry_info devstat_info_0x01
[] = {
1387 { 2, "General Statistics" },
1388 { 4, "Lifetime Power-On Resets" },
1389 { 4, "Power-on Hours" },
1390 { 6, "Logical Sectors Written" },
1391 { 6, "Number of Write Commands" },
1392 { 6, "Logical Sectors Read" },
1393 { 6, "Number of Read Commands" },
1394 { 6, "Date and Time TimeStamp" }, // ACS-3
1395 { 4, "Pending Error Count" }, // ACS-4
1396 { 2, "Workload Utilization" }, // ACS-4
1397 { 6, "Utilization Usage Rate" }, // ACS-4 (TODO: field provides 3 values)
1401 const devstat_entry_info devstat_info_0x02
[] = {
1402 { 2, "Free-Fall Statistics" },
1403 { 4, "Number of Free-Fall Events Detected" },
1404 { 4, "Overlimit Shock Events" },
1408 const devstat_entry_info devstat_info_0x03
[] = {
1409 { 2, "Rotating Media Statistics" },
1410 { 4, "Spindle Motor Power-on Hours" },
1411 { 4, "Head Flying Hours" },
1412 { 4, "Head Load Events" },
1413 { 4, "Number of Reallocated Logical Sectors" },
1414 { 4, "Read Recovery Attempts" },
1415 { 4, "Number of Mechanical Start Failures" },
1416 { 4, "Number of Realloc. Candidate Logical Sectors" }, // ACS-3
1417 { 4, "Number of High Priority Unload Events" }, // ACS-3
1421 const devstat_entry_info devstat_info_0x04
[] = {
1422 { 2, "General Errors Statistics" },
1423 { 4, "Number of Reported Uncorrectable Errors" },
1424 //{ 4, "Number of Resets Between Command Acceptance and Command Completion" },
1425 { 4, "Resets Between Cmd Acceptance and Completion" },
1429 const devstat_entry_info devstat_info_0x05
[] = {
1430 { 2, "Temperature Statistics" },
1431 { -1, "Current Temperature" },
1432 { -1, "Average Short Term Temperature" },
1433 { -1, "Average Long Term Temperature" },
1434 { -1, "Highest Temperature" },
1435 { -1, "Lowest Temperature" },
1436 { -1, "Highest Average Short Term Temperature" },
1437 { -1, "Lowest Average Short Term Temperature" },
1438 { -1, "Highest Average Long Term Temperature" },
1439 { -1, "Lowest Average Long Term Temperature" },
1440 { 4, "Time in Over-Temperature" },
1441 { -1, "Specified Maximum Operating Temperature" },
1442 { 4, "Time in Under-Temperature" },
1443 { -1, "Specified Minimum Operating Temperature" },
1447 const devstat_entry_info devstat_info_0x06
[] = {
1448 { 2, "Transport Statistics" },
1449 { 4, "Number of Hardware Resets" },
1450 { 4, "Number of ASR Events" },
1451 { 4, "Number of Interface CRC Errors" },
1455 const devstat_entry_info devstat_info_0x07
[] = {
1456 { 2, "Solid State Device Statistics" },
1457 { 1, "Percentage Used Endurance Indicator" },
1461 const devstat_entry_info
* devstat_infos
[] = {
1472 const int num_devstat_infos
= sizeof(devstat_infos
)/sizeof(devstat_infos
[0]);
1474 static const char * get_device_statistics_page_name(int page
)
1476 if (page
< num_devstat_infos
)
1477 return devstat_infos
[page
][0].name
;
1479 return "Vendor Specific Statistics"; // ACS-4
1480 return "Unknown Statistics";
1483 static void print_device_statistics_page(const unsigned char * data
, int page
)
1485 const devstat_entry_info
* info
= (page
< num_devstat_infos
? devstat_infos
[page
] : 0);
1486 const char * name
= get_device_statistics_page_name(page
);
1488 // Check page number in header
1489 static const char line
[] = " ===== = = === == ";
1491 pout("0x%02x%s%s (empty) ==\n", page
, line
, name
);
1494 if (data
[2] != page
) {
1495 pout("0x%02x%s%s (invalid page 0x%02x in header) ==\n", page
, line
, name
, data
[2]);
1499 pout("0x%02x%s%s (rev %d) ==\n", page
, line
, name
, data
[0] | (data
[1] << 8));
1502 for (int i
= 1, offset
= 8; offset
< 512-7; i
++, offset
+=8) {
1503 // Check for last known entry
1504 if (info
&& !info
[i
].size
)
1507 // Skip unsupported entries
1508 unsigned char flags
= data
[offset
+7];
1509 if (!(flags
& 0x80))
1512 // Stop if unknown entries contain garbage data due to buggy firmware
1513 if (!info
&& (data
[offset
+5] || data
[offset
+6])) {
1514 pout("0x%02x 0x%03x - - [Trailing garbage ignored]\n", page
, offset
);
1518 // Get value size, default to max if unknown
1519 int size
= (info
? info
[i
].size
: 7);
1523 if (flags
& 0x40) { // valid flag
1527 val
= (signed char)data
[offset
];
1531 for (int j
= 0; j
< size
; j
++)
1532 val
|= (int64_t)data
[offset
+j
] << (j
*8);
1534 snprintf(valstr
, sizeof(valstr
), "%" PRId64
, val
);
1537 // Value not known (yet)
1538 valstr
[0] = '-'; valstr
[1] = 0;
1541 pout("0x%02x 0x%03x %d %15s %c%c%c%c %s\n",
1545 (flags
& 0x20 ? 'N' : '-'), // normalized statistics
1546 (flags
& 0x10 ? 'D' : '-'), // supports DSN (ACS-3)
1547 (flags
& 0x08 ? 'C' : '-'), // monitored condition met (ACS-3)
1548 (flags
& 0x07 ? '+' : ' '), // reserved flags
1549 (info
? info
[i
].name
:
1550 page
== 0xff ? "Vendor Specific" // ACS-4
1555 static bool print_device_statistics(ata_device
* device
, unsigned nsectors
,
1556 const std::vector
<int> & single_pages
, bool all_pages
, bool ssd_page
,
1559 // Read list of supported pages from page 0
1560 unsigned char page_0
[512] = {0, };
1564 rc
= ataReadLogExt(device
, 0x04, 0, 0, page_0
, 1);
1566 rc
= ataReadSmartLog(device
, 0x04, page_0
, 1);
1568 pout("Read Device Statistics page 0x00 failed\n\n");
1572 unsigned char nentries
= page_0
[8];
1573 if (!(page_0
[2] == 0 && nentries
> 0)) {
1574 pout("Device Statistics page 0x00 is invalid (page=0x%02x, nentries=%d)\n\n", page_0
[2], nentries
);
1578 // Prepare list of pages to print
1579 std::vector
<int> pages
;
1582 // Add all supported pages
1583 for (i
= 0; i
< nentries
; i
++) {
1584 int page
= page_0
[8+1+i
];
1586 pages
.push_back(page
);
1590 // Add manually specified pages
1591 bool print_page_0
= false;
1592 for (i
= 0; i
< single_pages
.size() || ssd_page
; i
++) {
1593 int page
= (i
< single_pages
.size() ? single_pages
[i
] : 0x07);
1595 print_page_0
= true;
1596 else if (page
>= (int)nsectors
)
1597 pout("Device Statistics Log has only 0x%02x pages\n", nsectors
);
1599 pages
.push_back(page
);
1604 // Print list of supported pages if requested
1606 pout("Device Statistics (%s Log 0x04) supported pages\n",
1607 use_gplog
? "GP" : "SMART");
1608 pout("Page Description\n");
1609 for (i
= 0; i
< nentries
; i
++) {
1610 int page
= page_0
[8+1+i
];
1611 pout("0x%02x %s\n", page
, get_device_statistics_page_name(page
));
1616 // Read & print pages
1617 if (!pages
.empty()) {
1618 pout("Device Statistics (%s Log 0x04)\n",
1619 use_gplog
? "GP" : "SMART");
1620 pout("Page Offset Size Value Flags Description\n");
1624 for (i
= 0; i
< pages
.size(); i
++) {
1625 int page
= pages
[i
];
1626 if (max_page
< page
&& page
< 0xff)
1630 raw_buffer
pages_buf((max_page
+1) * 512);
1632 if (!use_gplog
&& !ataReadSmartLog(device
, 0x04, pages_buf
.data(), max_page
+1)) {
1633 pout("Read Device Statistics pages 0x00-0x%02x failed\n\n", max_page
);
1637 for (i
= 0; i
< pages
.size(); i
++) {
1638 int page
= pages
[i
];
1640 if (!ataReadLogExt(device
, 0x04, 0, page
, pages_buf
.data(), 1)) {
1641 pout("Read Device Statistics page 0x%02x failed\n\n", page
);
1645 else if (page
> max_page
)
1648 int offset
= (use_gplog
? 0 : page
* 512);
1649 print_device_statistics_page(pages_buf
.data() + offset
, page
);
1652 pout("%32s|||_ C monitored condition met\n", "");
1653 pout("%32s||__ D supports DSN\n", "");
1654 pout("%32s|___ N normalized value\n\n", "");
1661 ///////////////////////////////////////////////////////////////////////
1664 static void PrintSataPhyEventCounters(const unsigned char * data
, bool reset
)
1667 checksumwarning("SATA Phy Event Counters");
1668 pout("SATA Phy Event Counters (GP Log 0x11)\n");
1669 if (data
[0] || data
[1] || data
[2] || data
[3])
1670 pout("[Reserved: 0x%02x 0x%02x 0x%02x 0x%02x]\n",
1671 data
[0], data
[1], data
[2], data
[3]);
1672 pout("ID Size Value Description\n");
1674 for (unsigned i
= 4; ; ) {
1675 // Get counter id and size (bits 14:12)
1676 unsigned id
= data
[i
] | (data
[i
+1] << 8);
1677 unsigned size
= ((id
>> 12) & 0x7) << 1;
1680 // End of counter table ?
1685 if (!(2 <= size
&& size
<= 8 && i
+ size
< 512)) {
1686 pout("0x%04x %u: Invalid entry\n", id
, size
);
1691 uint64_t val
= 0, max_val
= 0;
1692 for (unsigned j
= 0; j
< size
; j
+=2) {
1693 val
|= (uint64_t)(data
[i
+j
] | (data
[i
+j
+1] << 8)) << (j
*8);
1694 max_val
|= (uint64_t)0xffffU
<< (j
*8);
1701 case 0x001: name
= "Command failed due to ICRC error"; break; // Mandatory
1702 case 0x002: name
= "R_ERR response for data FIS"; break;
1703 case 0x003: name
= "R_ERR response for device-to-host data FIS"; break;
1704 case 0x004: name
= "R_ERR response for host-to-device data FIS"; break;
1705 case 0x005: name
= "R_ERR response for non-data FIS"; break;
1706 case 0x006: name
= "R_ERR response for device-to-host non-data FIS"; break;
1707 case 0x007: name
= "R_ERR response for host-to-device non-data FIS"; break;
1708 case 0x008: name
= "Device-to-host non-data FIS retries"; break;
1709 case 0x009: name
= "Transition from drive PhyRdy to drive PhyNRdy"; break;
1710 case 0x00A: name
= "Device-to-host register FISes sent due to a COMRESET"; break; // Mandatory
1711 case 0x00B: name
= "CRC errors within host-to-device FIS"; break;
1712 case 0x00D: name
= "Non-CRC errors within host-to-device FIS"; break;
1713 case 0x00F: name
= "R_ERR response for host-to-device data FIS, CRC"; break;
1714 case 0x010: name
= "R_ERR response for host-to-device data FIS, non-CRC"; break;
1715 case 0x012: name
= "R_ERR response for host-to-device non-data FIS, CRC"; break;
1716 case 0x013: name
= "R_ERR response for host-to-device non-data FIS, non-CRC"; break;
1717 default: name
= (id
& 0x8000 ? "Vendor specific" : "Unknown"); break;
1720 // Counters stop at max value, add '+' in this case
1721 pout("0x%04x %u %12" PRIu64
"%c %s\n", id
, size
, val
,
1722 (val
== max_val
? '+' : ' '), name
);
1725 pout("All counters reset\n");
1729 // Format milliseconds from error log entry as "DAYS+H:M:S.MSEC"
1730 static std::string
format_milliseconds(unsigned msec
)
1732 unsigned days
= msec
/ 86400000U;
1733 msec
-= days
* 86400000U;
1734 unsigned hours
= msec
/ 3600000U;
1735 msec
-= hours
* 3600000U;
1736 unsigned min
= msec
/ 60000U;
1737 msec
-= min
* 60000U;
1738 unsigned sec
= msec
/ 1000U;
1739 msec
-= sec
* 1000U;
1743 str
= strprintf("%2ud+", days
);
1744 str
+= strprintf("%02u:%02u:%02u.%03u", hours
, min
, sec
, msec
);
1748 // Get description for 'state' value from SMART Error Logs
1749 static const char * get_error_log_state_desc(unsigned state
)
1753 case 0x0: return "in an unknown state";
1754 case 0x1: return "sleeping";
1755 case 0x2: return "in standby mode";
1756 case 0x3: return "active or idle";
1757 case 0x4: return "doing SMART Offline or Self-test";
1759 return (state
< 0xb ? "in a reserved state"
1760 : "in a vendor specific state");
1764 // returns number of errors
1765 static int PrintSmartErrorlog(const ata_smart_errorlog
*data
,
1766 firmwarebug_defs firmwarebugs
)
1768 pout("SMART Error Log Version: %d\n", (int)data
->revnumber
);
1770 // if no errors logged, return
1771 if (!data
->error_log_pointer
){
1772 pout("No Errors Logged\n\n");
1776 // If log pointer out of range, return
1777 if (data
->error_log_pointer
>5){
1778 pout("Invalid Error Log index = 0x%02x (T13/1321D rev 1c "
1779 "Section 8.41.6.8.2.2 gives valid range from 1 to 5)\n\n",
1780 (int)data
->error_log_pointer
);
1784 // Some internal consistency checking of the data structures
1785 if ((data
->ata_error_count
-data
->error_log_pointer
) % 5 && !firmwarebugs
.is_set(BUG_SAMSUNG2
)) {
1786 pout("Warning: ATA error count %d inconsistent with error log pointer %d\n\n",
1787 data
->ata_error_count
,data
->error_log_pointer
);
1790 // starting printing error log info
1791 if (data
->ata_error_count
<=5)
1792 pout( "ATA Error Count: %d\n", (int)data
->ata_error_count
);
1794 pout( "ATA Error Count: %d (device log contains only the most recent five errors)\n",
1795 (int)data
->ata_error_count
);
1797 pout("\tCR = Command Register [HEX]\n"
1798 "\tFR = Features Register [HEX]\n"
1799 "\tSC = Sector Count Register [HEX]\n"
1800 "\tSN = Sector Number Register [HEX]\n"
1801 "\tCL = Cylinder Low Register [HEX]\n"
1802 "\tCH = Cylinder High Register [HEX]\n"
1803 "\tDH = Device/Head Register [HEX]\n"
1804 "\tDC = Device Command Register [HEX]\n"
1805 "\tER = Error register [HEX]\n"
1806 "\tST = Status register [HEX]\n"
1807 "Powered_Up_Time is measured from power on, and printed as\n"
1808 "DDd+hh:mm:SS.sss where DD=days, hh=hours, mm=minutes,\n"
1809 "SS=sec, and sss=millisec. It \"wraps\" after 49.710 days.\n\n");
1811 // now step through the five error log data structures (table 39 of spec)
1812 for (int k
= 4; k
>= 0; k
-- ) {
1814 // The error log data structure entries are a circular buffer
1815 int j
, i
=(data
->error_log_pointer
+k
)%5;
1816 const ata_smart_errorlog_struct
* elog
= data
->errorlog_struct
+i
;
1817 const ata_smart_errorlog_error_struct
* summary
= &(elog
->error_struct
);
1819 // Spec says: unused error log structures shall be zero filled
1820 if (nonempty(elog
, sizeof(*elog
))){
1821 // Table 57 of T13/1532D Volume 1 Revision 3
1822 const char *msgstate
= get_error_log_state_desc(summary
->state
);
1823 int days
= (int)summary
->timestamp
/24;
1825 // See table 42 of ATA5 spec
1827 pout("Error %d occurred at disk power-on lifetime: %d hours (%d days + %d hours)\n",
1828 (int)(data
->ata_error_count
+k
-4), (int)summary
->timestamp
, days
, (int)(summary
->timestamp
-24*days
));
1830 pout(" When the command that caused the error occurred, the device was %s.\n\n",msgstate
);
1831 pout(" After command completion occurred, registers were:\n"
1832 " ER ST SC SN CL CH DH\n"
1833 " -- -- -- -- -- -- --\n"
1834 " %02x %02x %02x %02x %02x %02x %02x",
1835 (int)summary
->error_register
,
1836 (int)summary
->status
,
1837 (int)summary
->sector_count
,
1838 (int)summary
->sector_number
,
1839 (int)summary
->cylinder_low
,
1840 (int)summary
->cylinder_high
,
1841 (int)summary
->drive_head
);
1842 // Add a description of the contents of the status and error registers
1844 std::string st_er_desc
= format_st_er_desc(elog
);
1845 if (!st_er_desc
.empty())
1846 pout(" %s", st_er_desc
.c_str());
1848 pout(" Commands leading to the command that caused the error were:\n"
1849 " CR FR SC SN CL CH DH DC Powered_Up_Time Command/Feature_Name\n"
1850 " -- -- -- -- -- -- -- -- ---------------- --------------------\n");
1851 for ( j
= 4; j
>= 0; j
--){
1852 const ata_smart_errorlog_command_struct
* thiscommand
= elog
->commands
+j
;
1854 // Spec says: unused data command structures shall be zero filled
1855 if (nonempty(thiscommand
, sizeof(*thiscommand
))) {
1856 pout(" %02x %02x %02x %02x %02x %02x %02x %02x %16s %s\n",
1857 (int)thiscommand
->commandreg
,
1858 (int)thiscommand
->featuresreg
,
1859 (int)thiscommand
->sector_count
,
1860 (int)thiscommand
->sector_number
,
1861 (int)thiscommand
->cylinder_low
,
1862 (int)thiscommand
->cylinder_high
,
1863 (int)thiscommand
->drive_head
,
1864 (int)thiscommand
->devicecontrolreg
,
1865 format_milliseconds(thiscommand
->timestamp
).c_str(),
1866 look_up_ata_command(thiscommand
->commandreg
, thiscommand
->featuresreg
));
1873 if (printing_is_switchable
)
1876 return data
->ata_error_count
;
1879 // Print SMART Extended Comprehensive Error Log (GP Log 0x03)
1880 static int PrintSmartExtErrorLog(ata_device
* device
,
1881 const firmwarebug_defs
& firmwarebugs
,
1882 const ata_smart_exterrlog
* log
,
1883 unsigned nsectors
, unsigned max_errors
)
1885 pout("SMART Extended Comprehensive Error Log Version: %u (%u sectors)\n",
1886 log
->version
, nsectors
);
1888 if (!log
->device_error_count
) {
1889 pout("No Errors Logged\n\n");
1895 unsigned nentries
= nsectors
* 4;
1896 unsigned erridx
= log
->error_log_index
;
1897 if (!(1 <= erridx
&& erridx
<= nentries
)){
1898 // Some Samsung disks (at least SP1614C/SW100-25, HD300LJ/ZT100-12) use the
1899 // former index from Summary Error Log (byte 1, now reserved) and set byte 2-3
1901 if (!(erridx
== 0 && 1 <= log
->reserved1
&& log
->reserved1
<= nentries
)) {
1902 pout("Invalid Error Log index = 0x%04x (reserved = 0x%02x)\n", erridx
, log
->reserved1
);
1905 pout("Invalid Error Log index = 0x%04x, trying reserved byte (0x%02x) instead\n", erridx
, log
->reserved1
);
1906 erridx
= log
->reserved1
;
1909 // Index base is not clearly specified by ATA8-ACS (T13/1699-D Revision 6a),
1910 // it is 1-based in practice.
1913 // Calculate #errors to print
1914 unsigned errcnt
= log
->device_error_count
;
1916 if (errcnt
<= nentries
)
1917 pout("Device Error Count: %u\n", log
->device_error_count
);
1920 pout("Device Error Count: %u (device log contains only the most recent %u errors)\n",
1921 log
->device_error_count
, errcnt
);
1924 if (max_errors
< errcnt
)
1925 errcnt
= max_errors
;
1928 pout("\tCR = Command Register\n"
1929 "\tFEATR = Features Register\n"
1930 "\tCOUNT = Count (was: Sector Count) Register\n"
1931 "\tLBA_48 = Upper bytes of LBA High/Mid/Low Registers ] ATA-8\n"
1932 "\tLH = LBA High (was: Cylinder High) Register ] LBA\n"
1933 "\tLM = LBA Mid (was: Cylinder Low) Register ] Register\n"
1934 "\tLL = LBA Low (was: Sector Number) Register ]\n"
1935 "\tDV = Device (was: Device/Head) Register\n"
1936 "\tDC = Device Control Register\n"
1937 "\tER = Error register\n"
1938 "\tST = Status register\n"
1939 "Powered_Up_Time is measured from power on, and printed as\n"
1940 "DDd+hh:mm:SS.sss where DD=days, hh=hours, mm=minutes,\n"
1941 "SS=sec, and sss=millisec. It \"wraps\" after 49.710 days.\n\n");
1943 // Recently read log page
1944 ata_smart_exterrlog log_buf
;
1945 unsigned log_buf_page
= ~0;
1947 // Iterate through circular buffer in reverse direction
1948 for (unsigned i
= 0, errnum
= log
->device_error_count
;
1949 i
< errcnt
; i
++, errnum
--, erridx
= (erridx
> 0 ? erridx
- 1 : nentries
- 1)) {
1951 // Read log page if needed
1952 const ata_smart_exterrlog
* log_p
;
1953 unsigned page
= erridx
/ 4;
1957 if (page
!= log_buf_page
) {
1958 memset(&log_buf
, 0, sizeof(log_buf
));
1959 if (!ataReadExtErrorLog(device
, &log_buf
, page
, 1, firmwarebugs
))
1961 log_buf_page
= page
;
1966 const ata_smart_exterrlog_error_log
& entry
= log_p
->error_logs
[erridx
% 4];
1968 // Skip unused entries
1969 if (!nonempty(&entry
, sizeof(entry
))) {
1970 pout("Error %u [%u] log entry is empty\n", errnum
, erridx
);
1974 // Print error information
1976 const ata_smart_exterrlog_error
& err
= entry
.error
;
1977 pout("Error %u [%u] occurred at disk power-on lifetime: %u hours (%u days + %u hours)\n",
1978 errnum
, erridx
, err
.timestamp
, err
.timestamp
/ 24, err
.timestamp
% 24);
1981 pout(" When the command that caused the error occurred, the device was %s.\n\n",
1982 get_error_log_state_desc(err
.state
));
1985 pout(" After command completion occurred, registers were:\n"
1986 " ER -- ST COUNT LBA_48 LH LM LL DV DC\n"
1987 " -- -- -- == -- == == == -- -- -- -- --\n"
1988 " %02x -- %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x",
1990 err
.status_register
,
1991 err
.count_register_hi
,
1993 err
.lba_high_register_hi
,
1994 err
.lba_mid_register_hi
,
1995 err
.lba_low_register_hi
,
1996 err
.lba_high_register
,
1997 err
.lba_mid_register
,
1998 err
.lba_low_register
,
1999 err
.device_register
,
2000 err
.device_control_register
);
2002 // Add a description of the contents of the status and error registers
2004 std::string st_er_desc
= format_st_er_desc(&entry
);
2005 if (!st_er_desc
.empty())
2006 pout(" %s", st_er_desc
.c_str());
2009 // Print command history
2010 pout(" Commands leading to the command that caused the error were:\n"
2011 " CR FEATR COUNT LBA_48 LH LM LL DV DC Powered_Up_Time Command/Feature_Name\n"
2012 " -- == -- == -- == == == -- -- -- -- -- --------------- --------------------\n");
2013 for (int ci
= 4; ci
>= 0; ci
--) {
2014 const ata_smart_exterrlog_command
& cmd
= entry
.commands
[ci
];
2016 // Skip unused entries
2017 if (!nonempty(&cmd
, sizeof(cmd
)))
2020 // Print registers, timestamp and ATA command name
2021 pout(" %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %16s %s\n",
2022 cmd
.command_register
,
2023 cmd
.features_register_hi
,
2024 cmd
.features_register
,
2025 cmd
.count_register_hi
,
2027 cmd
.lba_high_register_hi
,
2028 cmd
.lba_mid_register_hi
,
2029 cmd
.lba_low_register_hi
,
2030 cmd
.lba_high_register
,
2031 cmd
.lba_mid_register
,
2032 cmd
.lba_low_register
,
2033 cmd
.device_register
,
2034 cmd
.device_control_register
,
2035 format_milliseconds(cmd
.timestamp
).c_str(),
2036 look_up_ata_command(cmd
.command_register
, cmd
.features_register
));
2042 if (printing_is_switchable
)
2045 return log
->device_error_count
;
2048 // Print SMART Extended Self-test Log (GP Log 0x07)
2049 static int PrintSmartExtSelfTestLog(const ata_smart_extselftestlog
* log
,
2050 unsigned nsectors
, unsigned max_entries
)
2052 pout("SMART Extended Self-test Log Version: %u (%u sectors)\n",
2053 log
->version
, nsectors
);
2055 if (!log
->log_desc_index
){
2056 pout("No self-tests have been logged. [To run self-tests, use: smartctl -t]\n\n");
2061 unsigned nentries
= nsectors
* 19;
2062 unsigned logidx
= log
->log_desc_index
;
2063 if (logidx
> nentries
) {
2064 pout("Invalid Self-test Log index = 0x%04x (reserved = 0x%02x)\n", logidx
, log
->reserved1
);
2068 // Index base is not clearly specified by ATA8-ACS (T13/1699-D Revision 6a),
2069 // it is 1-based in practice.
2072 bool print_header
= true;
2073 int errcnt
= 0, igncnt
= 0;
2074 int ext_ok_testnum
= -1;
2076 // Iterate through circular buffer in reverse direction
2077 for (unsigned i
= 0, testnum
= 1;
2078 i
< nentries
&& testnum
<= max_entries
;
2079 i
++, logidx
= (logidx
> 0 ? logidx
- 1 : nentries
- 1)) {
2081 const ata_smart_extselftestlog_desc
& entry
= log
[logidx
/ 19].log_descs
[logidx
% 19];
2083 // Skip unused entries
2084 if (!nonempty(&entry
, sizeof(entry
)))
2088 const unsigned char * b
= entry
.failing_lba
;
2089 uint64_t lba48
= b
[0]
2092 | ((uint64_t)b
[3] << 24)
2093 | ((uint64_t)b
[4] << 32)
2094 | ((uint64_t)b
[5] << 40);
2097 int state
= ataPrintSmartSelfTestEntry(testnum
, entry
.self_test_type
,
2098 entry
.self_test_status
, entry
.timestamp
, lba48
,
2099 false /*!print_error_only*/, print_header
);
2102 // Self-test showed an error
2103 if (ext_ok_testnum
< 0)
2106 // Newer successful extended self-test exits
2109 else if (state
> 0 && ext_ok_testnum
< 0) {
2110 // Latest successful extended self-test
2111 ext_ok_testnum
= testnum
;
2117 pout("%d of %d failed self-tests are outdated by newer successful extended offline self-test #%2d\n",
2118 igncnt
, igncnt
+errcnt
, ext_ok_testnum
);
2124 static void ataPrintSelectiveSelfTestLog(const ata_selective_self_test_log
* log
, const ata_smart_values
* sv
)
2126 int i
,field1
,field2
;
2129 uint64_t maxl
=0,maxr
=0;
2130 uint64_t current
=log
->currentlba
;
2131 uint64_t currentend
=current
+65535;
2133 // print data structure revision number
2134 pout("SMART Selective self-test log data structure revision number %d\n",(int)log
->logversion
);
2135 if (1 != log
->logversion
)
2136 pout("Note: revision number not 1 implies that no selective self-test has ever been run\n");
2138 switch((sv
->self_test_exec_status
)>>4){
2139 case 0:msg
="Completed";
2141 case 1:msg
="Aborted_by_host";
2143 case 2:msg
="Interrupted";
2145 case 3:msg
="Fatal_error";
2147 case 4:msg
="Completed_unknown_failure";
2149 case 5:msg
="Completed_electrical_failure";
2151 case 6:msg
="Completed_servo/seek_failure";
2153 case 7:msg
="Completed_read_failure";
2155 case 8:msg
="Completed_handling_damage??";
2157 case 15:msg
="Self_test_in_progress";
2159 default:msg
="Unknown_status ";
2163 // find the number of columns needed for printing. If in use, the
2164 // start/end of span being read-scanned...
2165 if (log
->currentspan
>5) {
2169 for (i
=0; i
<5; i
++) {
2170 uint64_t start
=log
->span
[i
].start
;
2171 uint64_t end
=log
->span
[i
].end
;
2172 // ... plus max start/end of each of the five test spans.
2179 // we need at least 7 characters wide fields to accomodate the
2181 if ((field1
=snprintf(tmp
,64, "%" PRIu64
, maxl
))<7)
2183 if ((field2
=snprintf(tmp
,64, "%" PRIu64
, maxr
))<7)
2186 // now print the five test spans
2187 pout(" SPAN %*s %*s CURRENT_TEST_STATUS\n", field1
, "MIN_LBA", field2
, "MAX_LBA");
2189 for (i
=0; i
<5; i
++) {
2190 uint64_t start
=log
->span
[i
].start
;
2191 uint64_t end
=log
->span
[i
].end
;
2193 if ((i
+1)==(int)log
->currentspan
)
2194 // this span is currently under test
2195 pout(" %d %*" PRIu64
" %*" PRIu64
" %s [%01d0%% left] (%" PRIu64
"-%" PRIu64
")\n",
2196 i
+1, field1
, start
, field2
, end
, msg
,
2197 (int)(sv
->self_test_exec_status
& 0xf), current
, currentend
);
2199 // this span is not currently under test
2200 pout(" %d %*" PRIu64
" %*" PRIu64
" Not_testing\n",
2201 i
+1, field1
, start
, field2
, end
);
2204 // if we are currently read-scanning, print LBAs and the status of
2206 if (log
->currentspan
>5)
2207 pout("%5d %*" PRIu64
" %*" PRIu64
" Read_scanning %s\n",
2208 (int)log
->currentspan
, field1
, current
, field2
, currentend
,
2209 OfflineDataCollectionStatus(sv
->offline_data_collection_status
));
2211 /* Print selective self-test flags. Possible flag combinations are
2212 (numbering bits from 0-15):
2216 1 0 0 Will carry out scan after selective test
2217 1 1 0 Waiting to carry out scan after powerup
2218 1 0 1 Currently scanning
2219 1 1 1 Currently scanning
2222 pout("Selective self-test flags (0x%x):\n", (unsigned int)log
->flags
);
2223 if (log
->flags
& SELECTIVE_FLAG_DOSCAN
) {
2224 if (log
->flags
& SELECTIVE_FLAG_ACTIVE
)
2225 pout(" Currently read-scanning the remainder of the disk.\n");
2226 else if (log
->flags
& SELECTIVE_FLAG_PENDING
)
2227 pout(" Read-scan of remainder of disk interrupted; will resume %d min after power-up.\n",
2228 (int)log
->pendingtime
);
2230 pout(" After scanning selected spans, read-scan remainder of disk.\n");
2233 pout(" After scanning selected spans, do NOT read-scan remainder of disk.\n");
2235 // print pending time
2236 pout("If Selective self-test is pending on power-up, resume after %d minute delay.\n",
2237 (int)log
->pendingtime
);
2242 // Format SCT Temperature value
2243 static const char * sct_ptemp(signed char x
, char (& buf
)[20])
2245 if (x
== -128 /*0x80 = unknown*/)
2247 snprintf(buf
, sizeof(buf
), "%2d", x
);
2251 static const char * sct_pbar(int x
, char (& buf
)[64])
2262 memset(buf
, '*', x
);
2268 buf
[0] = '-'; buf
[1] = 0;
2273 static const char * sct_device_state_msg(unsigned char state
)
2276 case 0: return "Active";
2277 case 1: return "Stand-by";
2278 case 2: return "Sleep";
2279 case 3: return "DST executing in background";
2280 case 4: return "SMART Off-line Data Collection executing in background";
2281 case 5: return "SCT command executing in background";
2282 default:return "Unknown";
2287 static int ataPrintSCTStatus(const ata_sct_status_response
* sts
)
2289 pout("SCT Status Version: %u\n", sts
->format_version
);
2290 pout("SCT Version (vendor specific): %u (0x%04x)\n", sts
->sct_version
, sts
->sct_version
);
2291 pout("SCT Support Level: %u\n", sts
->sct_spec
);
2292 pout("Device State: %s (%u)\n",
2293 sct_device_state_msg(sts
->device_state
), sts
->device_state
);
2294 char buf1
[20], buf2
[20];
2295 if ( !sts
->min_temp
&& !sts
->life_min_temp
2296 && !sts
->under_limit_count
&& !sts
->over_limit_count
) {
2297 // "Reserved" fields not set, assume "old" format version 2
2298 // Table 11 of T13/1701DT-N (SMART Command Transport) Revision 5, February 2005
2299 // Table 54 of T13/1699-D (ATA8-ACS) Revision 3e, July 2006
2300 pout("Current Temperature: %s Celsius\n",
2301 sct_ptemp(sts
->hda_temp
, buf1
));
2302 pout("Power Cycle Max Temperature: %s Celsius\n",
2303 sct_ptemp(sts
->max_temp
, buf2
));
2304 pout("Lifetime Max Temperature: %s Celsius\n",
2305 sct_ptemp(sts
->life_max_temp
, buf2
));
2308 // Assume "new" format version 2 or version 3
2309 // T13/e06152r0-3 (Additional SCT Temperature Statistics), August - October 2006
2310 // Table 60 of T13/1699-D (ATA8-ACS) Revision 3f, December 2006 (format version 2)
2311 // Table 80 of T13/1699-D (ATA8-ACS) Revision 6a, September 2008 (format version 3)
2312 // Table 182 of T13/BSR INCITS 529 (ACS-4) Revision 02a, May 22, 2014 (smart_status field)
2313 pout("Current Temperature: %s Celsius\n",
2314 sct_ptemp(sts
->hda_temp
, buf1
));
2315 pout("Power Cycle Min/Max Temperature: %s/%s Celsius\n",
2316 sct_ptemp(sts
->min_temp
, buf1
), sct_ptemp(sts
->max_temp
, buf2
));
2317 pout("Lifetime Min/Max Temperature: %s/%s Celsius\n",
2318 sct_ptemp(sts
->life_min_temp
, buf1
), sct_ptemp(sts
->life_max_temp
, buf2
));
2319 signed char avg
= sts
->byte205
; // Average Temperature from e06152r0-2, removed in e06152r3
2320 if (0 < avg
&& sts
->life_min_temp
<= avg
&& avg
<= sts
->life_max_temp
)
2321 pout("Lifetime Average Temperature: %2d Celsius\n", avg
);
2322 pout("Under/Over Temperature Limit Count: %2u/%u\n",
2323 sts
->under_limit_count
, sts
->over_limit_count
);
2325 if (sts
->smart_status
) // ACS-4
2326 pout("SMART Status: 0x%04x (%s)\n", sts
->smart_status
,
2327 (sts
->smart_status
== 0x2cf4 ? "FAILED" :
2328 sts
->smart_status
== 0xc24f ? "PASSED" : "Reserved"));
2330 if (nonempty(sts
->vendor_specific
, sizeof(sts
->vendor_specific
))) {
2331 pout("Vendor specific:\n");
2332 for (unsigned i
= 0; i
< sizeof(sts
->vendor_specific
); i
++)
2333 pout("%02x%c", sts
->vendor_specific
[i
], ((i
& 0xf) != 0xf ? ' ' : '\n'));
2339 // Print SCT Temperature History Table
2340 static int ataPrintSCTTempHist(const ata_sct_temperature_history_table
* tmh
)
2342 char buf1
[20], buf2
[20], buf3
[64];
2343 pout("SCT Temperature History Version: %u%s\n", tmh
->format_version
,
2344 (tmh
->format_version
!= 2 ? " (Unknown, should be 2)" : ""));
2345 pout("Temperature Sampling Period: %u minute%s\n",
2346 tmh
->sampling_period
, (tmh
->sampling_period
==1?"":"s"));
2347 pout("Temperature Logging Interval: %u minute%s\n",
2348 tmh
->interval
, (tmh
->interval
==1?"":"s"));
2349 pout("Min/Max recommended Temperature: %s/%s Celsius\n",
2350 sct_ptemp(tmh
->min_op_limit
, buf1
), sct_ptemp(tmh
->max_op_limit
, buf2
));
2351 pout("Min/Max Temperature Limit: %s/%s Celsius\n",
2352 sct_ptemp(tmh
->under_limit
, buf1
), sct_ptemp(tmh
->over_limit
, buf2
));
2353 pout("Temperature History Size (Index): %u (%u)\n", tmh
->cb_size
, tmh
->cb_index
);
2355 if (!(0 < tmh
->cb_size
&& tmh
->cb_size
<= sizeof(tmh
->cb
) && tmh
->cb_index
< tmh
->cb_size
)) {
2357 pout("Temperature History is empty\n");
2359 pout("Invalid Temperature History Size or Index\n");
2364 pout("\nIndex Estimated Time Temperature Celsius\n");
2365 unsigned n
= 0, i
= (tmh
->cb_index
+1) % tmh
->cb_size
;
2366 unsigned interval
= (tmh
->interval
> 0 ? tmh
->interval
: 1);
2367 time_t t
= time(0) - (tmh
->cb_size
-1) * interval
* 60;
2368 t
-= t
% (interval
* 60);
2369 while (n
< tmh
->cb_size
) {
2370 // Find range of identical temperatures
2371 unsigned n1
= n
, n2
= n
+1, i2
= (i
+1) % tmh
->cb_size
;
2372 while (n2
< tmh
->cb_size
&& tmh
->cb
[i2
] == tmh
->cb
[i
]) {
2373 n2
++; i2
= (i2
+1) % tmh
->cb_size
;
2377 if (n
== n1
|| n
== n2
-1 || n2
<= n1
+3) {
2379 // TODO: Don't print times < boot time
2380 strftime(date
, sizeof(date
), "%Y-%m-%d %H:%M", localtime(&t
));
2381 pout(" %3u %s %s %s\n", i
, date
,
2382 sct_ptemp(tmh
->cb
[i
], buf1
), sct_pbar(tmh
->cb
[i
], buf3
));
2384 else if (n
== n1
+1) {
2385 pout(" ... ..(%3u skipped). .. %s\n",
2386 n2
-n1
-2, sct_pbar(tmh
->cb
[i
], buf3
));
2388 t
+= interval
* 60; i
= (i
+1) % tmh
->cb_size
; n
++;
2391 //assert(n == tmh->cb_size && i == (tmh->cb_index+1) % tmh->cb_size);
2396 // Print SCT Error Recovery Control timers
2397 static void ataPrintSCTErrorRecoveryControl(bool set
, unsigned short read_timer
, unsigned short write_timer
)
2399 pout("SCT Error Recovery Control%s:\n", (set
? " set to" : ""));
2401 pout(" Read: Disabled\n");
2403 pout(" Read: %6d (%0.1f seconds)\n", read_timer
, read_timer
/10.0);
2405 pout(" Write: Disabled\n");
2407 pout(" Write: %6d (%0.1f seconds)\n", write_timer
, write_timer
/10.0);
2410 static void print_aam_level(const char * msg
, int level
, int recommended
= -1)
2412 // Table 56 of T13/1699-D (ATA8-ACS) Revision 6a, September 6, 2008
2413 // Obsolete since T13/2015-D (ACS-2) Revision 4a, December 9, 2010
2416 s
= "vendor specific";
2417 else if (level
< 128)
2418 s
= "unknown/retired";
2419 else if (level
== 128)
2421 else if (level
< 254)
2423 else if (level
== 254)
2424 s
= "maximum performance";
2428 if (recommended
>= 0)
2429 pout("%s%d (%s), recommended: %d\n", msg
, level
, s
, recommended
);
2431 pout("%s%d (%s)\n", msg
, level
, s
);
2434 static void print_apm_level(const char * msg
, int level
)
2436 // Table 120 of T13/2015-D (ACS-2) Revision 7, June 22, 2011
2438 if (!(1 <= level
&& level
<= 254))
2440 else if (level
== 1)
2441 s
= "minimum power consumption with standby";
2442 else if (level
< 128)
2443 s
= "intermediate level with standby";
2444 else if (level
== 128)
2445 s
= "minimum power consumption without standby";
2446 else if (level
< 254)
2447 s
= "intermediate level without standby";
2449 s
= "maximum performance";
2451 pout("%s%d (%s)\n", msg
, level
, s
);
2454 static void print_ata_security_status(const char * msg
, unsigned short state
)
2456 const char * s1
, * s2
= "", * s3
= "", * s4
= "";
2458 // Table 6 of T13/2015-D (ACS-2) Revision 7, June 22, 2011
2459 if (!(state
& 0x0001))
2461 else if (!(state
& 0x0002)) {
2463 if (!(state
& 0x0008))
2464 s2
= "NOT FROZEN [SEC1]";
2466 s2
= "frozen [SEC2]";
2469 s1
= "ENABLED, PW level ";
2470 if (!(state
& 0x0020))
2475 if (!(state
& 0x0004)) {
2476 s3
= ", not locked, ";
2477 if (!(state
& 0x0008))
2478 s4
= "not frozen [SEC5]";
2480 s4
= "frozen [SEC6]";
2483 s3
= ", **LOCKED** [SEC4]";
2485 s4
= ", PW ATTEMPTS EXCEEDED";
2489 pout("%s%s%s%s%s\n", msg
, s1
, s2
, s3
, s4
);
2492 static void print_standby_timer(const char * msg
, int timer
, const ata_identify_device
& drive
)
2494 const char * s1
= 0;
2495 int hours
= 0, minutes
= 0 , seconds
= 0;
2497 // Table 63 of T13/2015-D (ACS-2) Revision 7, June 22, 2011
2500 else if (timer
<= 240)
2501 seconds
= timer
* 5, minutes
= seconds
/ 60, seconds
%= 60;
2502 else if (timer
<= 251)
2503 minutes
= (timer
- 240) * 30, hours
= minutes
/ 60, minutes
%= 60;
2504 else if (timer
== 252)
2506 else if (timer
== 253)
2507 s1
= "between 8 hours and 12 hours";
2508 else if (timer
== 255)
2509 minutes
= 21, seconds
= 15;
2513 const char * s2
= "", * s3
= "";
2514 if (!(drive
.words047_079
[49-47] & 0x2000))
2515 s2
= " or vendor-specific";
2516 if (timer
> 0 && (drive
.words047_079
[50-47] & 0xc001) == 0x4001)
2517 s3
= ", a vendor-specific minimum applies";
2520 pout("%s%d (%s%s%s)\n", msg
, timer
, s1
, s2
, s3
);
2522 pout("%s%d (%02d:%02d:%02d%s%s)\n", msg
, timer
, hours
, minutes
, seconds
, s2
, s3
);
2526 int ataPrintMain (ata_device
* device
, const ata_print_options
& options
)
2528 // If requested, check power mode first
2529 const char * powername
= 0;
2530 bool powerchg
= false;
2531 if (options
.powermode
) {
2532 unsigned char powerlimit
= 0xff;
2533 int powermode
= ataCheckPowerMode(device
);
2534 switch (powermode
) {
2536 if (device
->is_syscall_unsup()) {
2537 pout("CHECK POWER MODE not implemented, ignoring -n option\n"); break;
2539 powername
= "SLEEP"; powerlimit
= 2;
2542 powername
= "STANDBY"; powerlimit
= 3; break;
2544 powername
= "IDLE"; powerlimit
= 4; break;
2546 powername
= "ACTIVE or IDLE"; break;
2548 pout("CHECK POWER MODE returned unknown value 0x%02x, ignoring -n option\n", powermode
);
2552 if (options
.powermode
>= powerlimit
) {
2553 pout("Device is in %s mode, exit(%d)\n", powername
, FAILPOWER
);
2556 powerchg
= (powermode
!= 0xff); // SMART tests will spin up drives
2560 // SMART values needed ?
2561 bool need_smart_val
= (
2562 options
.smart_check_status
2563 || options
.smart_general_values
2564 || options
.smart_vendor_attrib
2565 || options
.smart_error_log
2566 || options
.smart_selftest_log
2567 || options
.smart_selective_selftest_log
2568 || options
.smart_ext_error_log
2569 || options
.smart_ext_selftest_log
2570 || options
.smart_auto_offl_enable
2571 || options
.smart_auto_offl_disable
2572 || options
.smart_selftest_type
!= -1
2575 // SMART must be enabled ?
2576 bool need_smart_enabled
= (
2578 || options
.smart_auto_save_enable
2579 || options
.smart_auto_save_disable
2582 // SMART feature set needed ?
2583 bool need_smart_support
= (
2585 || options
.smart_enable
2586 || options
.smart_disable
2589 // SMART and GP log directories needed ?
2590 bool need_smart_logdir
= (
2591 options
.smart_logdir
2592 || options
.devstat_all_pages
// devstat fallback to smartlog if needed
2593 || options
.devstat_ssd_page
2594 || !options
.devstat_pages
.empty()
2597 bool need_gp_logdir
= (
2599 || options
.smart_ext_error_log
2600 || options
.smart_ext_selftest_log
2601 || options
.devstat_all_pages
2602 || options
.devstat_ssd_page
2603 || !options
.devstat_pages
.empty()
2607 for (i
= 0; i
< options
.log_requests
.size(); i
++) {
2608 if (options
.log_requests
[i
].gpl
)
2609 need_gp_logdir
= true;
2611 need_smart_logdir
= true;
2614 // SCT commands needed ?
2615 bool need_sct_support
= (
2616 options
.sct_temp_sts
2617 || options
.sct_temp_hist
2618 || options
.sct_temp_int
2619 || options
.sct_erc_get
2620 || options
.sct_erc_set
2621 || options
.sct_wcache_reorder_get
2622 || options
.sct_wcache_reorder_set
2625 // Exit if no further options specified
2626 if (!( options
.drive_info
|| options
.show_presets
2627 || need_smart_support
|| need_smart_logdir
2628 || need_gp_logdir
|| need_sct_support
2630 || options
.identify_word_level
>= 0
2631 || options
.get_set_used
)) {
2633 pout("Device is in %s mode\n", powername
);
2635 pout("ATA device successfully opened\n\n"
2636 "Use 'smartctl -a' (or '-x') to print SMART (and more) information\n\n");
2640 // Start by getting Drive ID information. We need this, to know if SMART is supported.
2642 ata_identify_device drive
; memset(&drive
, 0, sizeof(drive
));
2643 unsigned char raw_drive
[sizeof(drive
)]; memset(&raw_drive
, 0, sizeof(raw_drive
));
2645 device
->clear_err();
2646 int retid
= ata_read_identity(device
, &drive
, options
.fix_swapped_id
, raw_drive
);
2648 pout("Read Device Identity failed: %s\n\n",
2649 (device
->get_errno() ? device
->get_errmsg() : "Unknown error"));
2650 failuretest(MANDATORY_CMD
, returnval
|=FAILID
);
2652 else if (!nonempty(&drive
, sizeof(drive
))) {
2653 pout("Read Device Identity failed: empty IDENTIFY data\n\n");
2654 failuretest(MANDATORY_CMD
, returnval
|=FAILID
);
2657 // If requested, show which presets would be used for this drive and exit.
2658 if (options
.show_presets
) {
2659 show_presets(&drive
);
2663 // Use preset vendor attribute options unless user has requested otherwise.
2664 ata_vendor_attr_defs attribute_defs
= options
.attribute_defs
;
2665 firmwarebug_defs firmwarebugs
= options
.firmwarebugs
;
2666 const drive_settings
* dbentry
= 0;
2667 if (!options
.ignore_presets
)
2668 dbentry
= lookup_drive_apply_presets(&drive
, attribute_defs
,
2671 // Get capacity, sector sizes and rotation rate
2672 ata_size_info sizes
;
2673 ata_get_size_info(&drive
, sizes
);
2674 int rpm
= ata_get_rotation_rate(&drive
);
2676 // Print ATA IDENTIFY info if requested
2677 if (options
.identify_word_level
>= 0) {
2678 pout("=== ATA IDENTIFY DATA ===\n");
2679 // Pass raw data without endianness adjustments
2680 ata_print_identify_data(raw_drive
, (options
.identify_word_level
> 0), options
.identify_bit_level
);
2683 // Print most drive identity information if requested
2684 if (options
.drive_info
) {
2685 pout("=== START OF INFORMATION SECTION ===\n");
2686 print_drive_info(&drive
, sizes
, rpm
, dbentry
);
2689 // Check and print SMART support and state
2690 int smart_supported
= -1, smart_enabled
= -1;
2691 if (need_smart_support
|| options
.drive_info
) {
2695 pout("SMART support is: Unavailable - Packet Interface Devices [this device: %s] don't support ATA SMART\n",
2696 packetdevicetype(retid
-1));
2699 // Disk device: SMART supported and enabled ?
2700 smart_supported
= ataSmartSupport(&drive
);
2701 smart_enabled
= ataIsSmartEnabled(&drive
);
2703 if (smart_supported
< 0)
2704 pout("SMART support is: Ambiguous - ATA IDENTIFY DEVICE words 82-83 don't show if SMART supported.\n");
2705 if (smart_supported
&& smart_enabled
< 0) {
2706 pout("SMART support is: Ambiguous - ATA IDENTIFY DEVICE words 85-87 don't show if SMART is enabled.\n");
2707 if (need_smart_support
) {
2708 failuretest(MANDATORY_CMD
, returnval
|=FAILSMART
);
2709 // check SMART support by trying a command
2710 pout(" Checking to be sure by trying SMART RETURN STATUS command.\n");
2711 if (ataDoesSmartWork(device
))
2712 smart_supported
= smart_enabled
= 1;
2715 else if (smart_supported
< 0 && (smart_enabled
> 0 || dbentry
))
2716 // Assume supported if enabled or in drive database
2717 smart_supported
= 1;
2719 if (smart_supported
< 0)
2720 pout("SMART support is: Unknown - Try option -s with argument 'on' to enable it.");
2721 else if (!smart_supported
)
2722 pout("SMART support is: Unavailable - device lacks SMART capability.\n");
2724 if (options
.drive_info
)
2725 pout("SMART support is: Available - device has SMART capability.\n");
2726 if (smart_enabled
>= 0) {
2727 if (device
->ata_identify_is_cached()) {
2728 if (options
.drive_info
)
2729 pout(" %sabled status cached by OS, trying SMART RETURN STATUS cmd.\n",
2730 (smart_enabled
?"En":"Dis"));
2731 smart_enabled
= ataDoesSmartWork(device
);
2733 if (options
.drive_info
)
2734 pout("SMART support is: %s\n",
2735 (smart_enabled
? "Enabled" : "Disabled"));
2742 if (options
.get_aam
) {
2743 if ((drive
.command_set_2
& 0xc200) != 0x4200) // word083
2744 pout("AAM feature is: Unavailable\n");
2745 else if (!(drive
.word086
& 0x0200))
2746 pout("AAM feature is: Disabled\n");
2748 print_aam_level("AAM level is: ", drive
.words088_255
[94-88] & 0xff,
2749 drive
.words088_255
[94-88] >> 8);
2753 if (options
.get_apm
) {
2754 if ((drive
.command_set_2
& 0xc008) != 0x4008) // word083
2755 pout("APM feature is: Unavailable\n");
2756 else if (!(drive
.word086
& 0x0008))
2757 pout("APM feature is: Disabled\n");
2759 print_apm_level("APM level is: ", drive
.words088_255
[91-88] & 0xff);
2762 // Print read look-ahead status
2763 if (options
.get_lookahead
) {
2764 pout("Rd look-ahead is: %s\n",
2765 ( (drive
.command_set_2
& 0xc000) != 0x4000 // word083
2766 || !(drive
.command_set_1
& 0x0040)) ? "Unavailable" : // word082
2767 !(drive
.cfs_enable_1
& 0x0040) ? "Disabled" : "Enabled"); // word085
2770 // Print write cache status
2771 if (options
.get_wcache
) {
2772 pout("Write cache is: %s\n",
2773 ( (drive
.command_set_2
& 0xc000) != 0x4000 // word083
2774 || !(drive
.command_set_1
& 0x0020)) ? "Unavailable" : // word082
2775 !(drive
.cfs_enable_1
& 0x0020) ? "Disabled" : "Enabled"); // word085
2778 // Print ATA security status
2779 if (options
.get_security
)
2780 print_ata_security_status("ATA Security is: ", drive
.words088_255
[128-88]);
2782 // Print write cache reordering status
2783 if (options
.sct_wcache_reorder_get
) {
2784 if (isSCTFeatureControlCapable(&drive
)) {
2785 int wcache_reorder
= ataGetSetSCTWriteCacheReordering(device
,
2786 false /*enable*/, false /*persistent*/, false /*set*/);
2788 if (-1 <= wcache_reorder
&& wcache_reorder
<= 2)
2789 pout("Wt Cache Reorder: %s\n",
2790 (wcache_reorder
== -1 ? "Unknown (SCT Feature Control command failed)" :
2791 wcache_reorder
== 0 ? "Unknown" : // not defined in standard but returned on some drives if not set
2792 wcache_reorder
== 1 ? "Enabled" : "Disabled"));
2794 pout("Wt Cache Reorder: Unknown (0x%02x)\n", wcache_reorder
);
2797 pout("Wt Cache Reorder: Unavailable\n");
2800 // Print remaining drive info
2801 if (options
.drive_info
) {
2802 // Print the (now possibly changed) power mode if available
2804 pout("Power mode %s %s\n", (powerchg
?"was:":"is: "), powername
);
2808 // Exit if SMART is not supported but must be available to proceed
2809 if (smart_supported
<= 0 && need_smart_support
)
2810 failuretest(MANDATORY_CMD
, returnval
|=FAILSMART
);
2812 // START OF THE ENABLE/DISABLE SECTION OF THE CODE
2813 if ( options
.smart_disable
|| options
.smart_enable
2814 || options
.smart_auto_save_disable
|| options
.smart_auto_save_enable
2815 || options
.smart_auto_offl_disable
|| options
.smart_auto_offl_enable
2816 || options
.set_aam
|| options
.set_apm
|| options
.set_lookahead
2817 || options
.set_wcache
|| options
.set_security_freeze
|| options
.set_standby
2818 || options
.sct_wcache_reorder_set
)
2819 pout("=== START OF ENABLE/DISABLE COMMANDS SECTION ===\n");
2821 // Enable/Disable AAM
2822 if (options
.set_aam
) {
2823 if (options
.set_aam
> 0) {
2824 if (!ata_set_features(device
, ATA_ENABLE_AAM
, options
.set_aam
-1)) {
2825 pout("AAM enable failed: %s\n", device
->get_errmsg());
2826 returnval
|= FAILSMART
;
2829 print_aam_level("AAM set to level ", options
.set_aam
-1);
2832 if (!ata_set_features(device
, ATA_DISABLE_AAM
)) {
2833 pout("AAM disable failed: %s\n", device
->get_errmsg());
2834 returnval
|= FAILSMART
;
2837 pout("AAM disabled\n");
2841 // Enable/Disable APM
2842 if (options
.set_apm
) {
2843 if (options
.set_apm
> 0) {
2844 if (!ata_set_features(device
, ATA_ENABLE_APM
, options
.set_apm
-1)) {
2845 pout("APM enable failed: %s\n", device
->get_errmsg());
2846 returnval
|= FAILSMART
;
2849 print_apm_level("APM set to level ", options
.set_apm
-1);
2852 if (!ata_set_features(device
, ATA_DISABLE_APM
)) {
2853 pout("APM disable failed: %s\n", device
->get_errmsg());
2854 returnval
|= FAILSMART
;
2857 pout("APM disabled\n");
2861 // Enable/Disable read look-ahead
2862 if (options
.set_lookahead
) {
2863 bool enable
= (options
.set_lookahead
> 0);
2864 if (!ata_set_features(device
, (enable
? ATA_ENABLE_READ_LOOK_AHEAD
: ATA_DISABLE_READ_LOOK_AHEAD
))) {
2865 pout("Read look-ahead %sable failed: %s\n", (enable
? "en" : "dis"), device
->get_errmsg());
2866 returnval
|= FAILSMART
;
2869 pout("Read look-ahead %sabled\n", (enable
? "en" : "dis"));
2872 // Enable/Disable write cache
2873 if (options
.set_wcache
) {
2874 bool enable
= (options
.set_wcache
> 0);
2875 if (!ata_set_features(device
, (enable
? ATA_ENABLE_WRITE_CACHE
: ATA_DISABLE_WRITE_CACHE
))) {
2876 pout("Write cache %sable failed: %s\n", (enable
? "en" : "dis"), device
->get_errmsg());
2877 returnval
|= FAILSMART
;
2880 pout("Write cache %sabled\n", (enable
? "en" : "dis"));
2883 // Enable/Disable write cache reordering
2884 if (options
.sct_wcache_reorder_set
) {
2885 bool enable
= (options
.sct_wcache_reorder_set
> 0);
2886 if (!isSCTFeatureControlCapable(&drive
))
2887 pout("Write cache reordering %sable failed: SCT Feature Control command not supported\n",
2888 (enable
? "en" : "dis"));
2889 else if (ataGetSetSCTWriteCacheReordering(device
,
2890 enable
, false /*persistent*/, true /*set*/) < 0) {
2891 pout("Write cache reordering %sable failed: %s\n", (enable
? "en" : "dis"), device
->get_errmsg());
2892 returnval
|= FAILSMART
;
2895 pout("Write cache reordering %sabled\n", (enable
? "en" : "dis"));
2898 // Freeze ATA security
2899 if (options
.set_security_freeze
) {
2900 if (!ata_nodata_command(device
, ATA_SECURITY_FREEZE_LOCK
)) {
2901 pout("ATA SECURITY FREEZE LOCK failed: %s\n", device
->get_errmsg());
2902 returnval
|= FAILSMART
;
2905 pout("ATA Security set to frozen mode\n");
2908 // Set standby timer
2909 if (options
.set_standby
) {
2910 if (!ata_nodata_command(device
, ATA_IDLE
, options
.set_standby
-1)) {
2911 pout("ATA IDLE command failed: %s\n", device
->get_errmsg());
2912 returnval
|= FAILSMART
;
2915 print_standby_timer("Standby timer set to ", options
.set_standby
-1, drive
);
2918 // Enable/Disable SMART commands
2919 if (options
.smart_enable
) {
2920 if (ataEnableSmart(device
)) {
2921 pout("SMART Enable failed: %s\n\n", device
->get_errmsg());
2922 failuretest(MANDATORY_CMD
, returnval
|=FAILSMART
);
2925 pout("SMART Enabled.\n");
2930 // Turn off SMART on device
2931 if (options
.smart_disable
) {
2932 if (ataDisableSmart(device
)) {
2933 pout("SMART Disable failed: %s\n\n", device
->get_errmsg());
2934 failuretest(MANDATORY_CMD
,returnval
|=FAILSMART
);
2938 // Exit if SMART is disabled but must be enabled to proceed
2939 if (options
.smart_disable
|| (smart_enabled
<= 0 && need_smart_enabled
&& !is_permissive())) {
2940 pout("SMART Disabled. Use option -s with argument 'on' to enable it.\n");
2941 if (!options
.smart_disable
)
2942 pout("(override with '-T permissive' option)\n");
2946 // Enable/Disable Auto-save attributes
2947 if (options
.smart_auto_save_enable
) {
2948 if (ataEnableAutoSave(device
)){
2949 pout("SMART Enable Attribute Autosave failed: %s\n\n", device
->get_errmsg());
2950 failuretest(MANDATORY_CMD
, returnval
|=FAILSMART
);
2953 pout("SMART Attribute Autosave Enabled.\n");
2956 if (options
.smart_auto_save_disable
) {
2957 if (ataDisableAutoSave(device
)){
2958 pout("SMART Disable Attribute Autosave failed: %s\n\n", device
->get_errmsg());
2959 failuretest(MANDATORY_CMD
, returnval
|=FAILSMART
);
2962 pout("SMART Attribute Autosave Disabled.\n");
2965 // Read SMART values and thresholds if necessary
2966 ata_smart_values smartval
; memset(&smartval
, 0, sizeof(smartval
));
2967 ata_smart_thresholds_pvt smartthres
; memset(&smartthres
, 0, sizeof(smartthres
));
2968 bool smart_val_ok
= false, smart_thres_ok
= false;
2970 if (need_smart_val
) {
2971 if (ataReadSmartValues(device
, &smartval
)) {
2972 pout("Read SMART Data failed: %s\n\n", device
->get_errmsg());
2973 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
2976 smart_val_ok
= true;
2978 if (options
.smart_check_status
|| options
.smart_vendor_attrib
) {
2979 if (ataReadSmartThresholds(device
, &smartthres
)){
2980 pout("Read SMART Thresholds failed: %s\n\n", device
->get_errmsg());
2981 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
2984 smart_thres_ok
= true;
2989 // Enable/Disable Off-line testing
2990 bool needupdate
= false;
2991 if (options
.smart_auto_offl_enable
) {
2992 if (!isSupportAutomaticTimer(&smartval
)){
2993 pout("SMART Automatic Timers not supported\n\n");
2994 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
2996 needupdate
= smart_val_ok
;
2997 if (ataEnableAutoOffline(device
)){
2998 pout("SMART Enable Automatic Offline failed: %s\n\n", device
->get_errmsg());
2999 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3002 pout("SMART Automatic Offline Testing Enabled every four hours.\n");
3005 if (options
.smart_auto_offl_disable
) {
3006 if (!isSupportAutomaticTimer(&smartval
)){
3007 pout("SMART Automatic Timers not supported\n\n");
3008 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3010 needupdate
= smart_val_ok
;
3011 if (ataDisableAutoOffline(device
)){
3012 pout("SMART Disable Automatic Offline failed: %s\n\n", device
->get_errmsg());
3013 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3016 pout("SMART Automatic Offline Testing Disabled.\n");
3019 if (needupdate
&& ataReadSmartValues(device
, &smartval
)){
3020 pout("Read SMART Data failed: %s\n\n", device
->get_errmsg());
3021 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3022 smart_val_ok
= false;
3025 // all this for a newline!
3026 if ( options
.smart_disable
|| options
.smart_enable
3027 || options
.smart_auto_save_disable
|| options
.smart_auto_save_enable
3028 || options
.smart_auto_offl_disable
|| options
.smart_auto_offl_enable
3029 || options
.set_aam
|| options
.set_apm
|| options
.set_lookahead
3030 || options
.set_wcache
|| options
.set_security_freeze
|| options
.set_standby
3031 || options
.sct_wcache_reorder_set
)
3034 // START OF READ-ONLY OPTIONS APART FROM -V and -i
3035 if ( options
.smart_check_status
|| options
.smart_general_values
3036 || options
.smart_vendor_attrib
|| options
.smart_error_log
3037 || options
.smart_selftest_log
|| options
.smart_selective_selftest_log
3038 || options
.smart_ext_error_log
|| options
.smart_ext_selftest_log
3039 || options
.sct_temp_sts
|| options
.sct_temp_hist
)
3040 pout("=== START OF READ SMART DATA SECTION ===\n");
3042 // Check SMART status
3043 if (options
.smart_check_status
) {
3045 switch (ataSmartStatus2(device
)) {
3048 // The case where the disk health is OK
3049 pout("SMART overall-health self-assessment test result: PASSED\n");
3050 if (smart_thres_ok
&& find_failed_attr(&smartval
, &smartthres
, attribute_defs
, 0)) {
3051 if (options
.smart_vendor_attrib
)
3052 pout("See vendor-specific Attribute list for marginal Attributes.\n\n");
3055 pout("Please note the following marginal Attributes:\n");
3056 PrintSmartAttribWithThres(&smartval
, &smartthres
, attribute_defs
, rpm
, 2, options
.output_format
);
3065 // The case where the disk health is NOT OK
3067 pout("SMART overall-health self-assessment test result: FAILED!\n"
3068 "Drive failure expected in less than 24 hours. SAVE ALL DATA.\n");
3070 if (smart_thres_ok
&& find_failed_attr(&smartval
, &smartthres
, attribute_defs
, 1)) {
3071 returnval
|=FAILATTR
;
3072 if (options
.smart_vendor_attrib
)
3073 pout("See vendor-specific Attribute list for failed Attributes.\n\n");
3076 pout("Failed Attributes:\n");
3077 PrintSmartAttribWithThres(&smartval
, &smartthres
, attribute_defs
, rpm
, 1, options
.output_format
);
3081 pout("No failed Attributes found.\n\n");
3082 returnval
|=FAILSTATUS
;
3088 // Something went wrong with the SMART STATUS command.
3089 // The ATA SMART RETURN STATUS command provides the result in the ATA output
3090 // registers. Buggy ATA/SATA drivers and SAT Layers often do not properly
3091 // return the registers values.
3092 pout("SMART Status %s: %s\n",
3093 (device
->is_syscall_unsup() ? "not supported" : "command failed"),
3094 device
->get_errmsg());
3095 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3097 if (!(smart_val_ok
&& smart_thres_ok
)) {
3099 pout("SMART overall-health self-assessment test result: UNKNOWN!\n"
3100 "SMART Status, Attributes and Thresholds cannot be read.\n\n");
3102 else if (find_failed_attr(&smartval
, &smartthres
, attribute_defs
, 1)) {
3104 pout("SMART overall-health self-assessment test result: FAILED!\n"
3105 "Drive failure expected in less than 24 hours. SAVE ALL DATA.\n");
3106 pout("Warning: This result is based on an Attribute check.\n");
3108 returnval
|=FAILATTR
;
3109 returnval
|=FAILSTATUS
;
3110 if (options
.smart_vendor_attrib
)
3111 pout("See vendor-specific Attribute list for failed Attributes.\n\n");
3114 pout("Failed Attributes:\n");
3115 PrintSmartAttribWithThres(&smartval
, &smartthres
, attribute_defs
, rpm
, 1, options
.output_format
);
3119 pout("SMART overall-health self-assessment test result: PASSED\n");
3120 pout("Warning: This result is based on an Attribute check.\n");
3121 if (find_failed_attr(&smartval
, &smartthres
, attribute_defs
, 0)) {
3122 if (options
.smart_vendor_attrib
)
3123 pout("See vendor-specific Attribute list for marginal Attributes.\n\n");
3126 pout("Please note the following marginal Attributes:\n");
3127 PrintSmartAttribWithThres(&smartval
, &smartthres
, attribute_defs
, rpm
, 2, options
.output_format
);
3136 } // end of switch statement
3139 } // end of checking SMART Status
3141 // Print general SMART values
3142 if (smart_val_ok
&& options
.smart_general_values
)
3143 PrintGeneralSmartValues(&smartval
, &drive
, firmwarebugs
);
3145 // Print vendor-specific attributes
3146 if (smart_val_ok
&& options
.smart_vendor_attrib
) {
3148 PrintSmartAttribWithThres(&smartval
, &smartthres
, attribute_defs
, rpm
,
3149 (printing_is_switchable
? 2 : 0), options
.output_format
);
3153 // If GP Log is supported use smart log directory for
3154 // error and selftest log support check.
3155 bool gp_log_supported
= !!isGeneralPurposeLoggingCapable(&drive
);
3156 if ( gp_log_supported
3157 && ( options
.smart_error_log
|| options
.smart_selftest_log
3158 || options
.retry_error_log
|| options
.retry_selftest_log
))
3159 need_smart_logdir
= true;
3161 ata_smart_log_directory smartlogdir_buf
, gplogdir_buf
;
3162 const ata_smart_log_directory
* smartlogdir
= 0, * gplogdir
= 0;
3164 // Read SMART Log directory
3165 if (need_smart_logdir
) {
3166 if (firmwarebugs
.is_set(BUG_NOLOGDIR
))
3167 smartlogdir
= fake_logdir(&smartlogdir_buf
, options
);
3168 else if (ataReadLogDirectory(device
, &smartlogdir_buf
, false)) {
3169 pout("Read SMART Log Directory failed: %s\n\n", device
->get_errmsg());
3170 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3173 smartlogdir
= &smartlogdir_buf
;
3176 // Read GP Log directory
3177 if (need_gp_logdir
) {
3178 if (firmwarebugs
.is_set(BUG_NOLOGDIR
))
3179 gplogdir
= fake_logdir(&gplogdir_buf
, options
);
3180 else if (!gp_log_supported
&& !is_permissive()) {
3181 if (options
.gp_logdir
)
3182 pout("General Purpose Log Directory not supported\n\n");
3184 else if (ataReadLogDirectory(device
, &gplogdir_buf
, true)) {
3185 pout("Read GP Log Directory failed\n\n");
3186 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3189 gplogdir
= &gplogdir_buf
;
3192 // Print log directories
3193 if ((options
.gp_logdir
&& gplogdir
) || (options
.smart_logdir
&& smartlogdir
)) {
3194 if (firmwarebugs
.is_set(BUG_NOLOGDIR
))
3195 pout("Log Directories not read due to '-F nologdir' option\n\n");
3197 PrintLogDirectories(gplogdir
, smartlogdir
);
3201 for (i
= 0; i
< options
.log_requests
.size(); i
++) {
3202 const ata_log_request
& req
= options
.log_requests
[i
];
3205 unsigned max_nsectors
;
3207 type
= "General Purpose";
3208 max_nsectors
= GetNumLogSectors(gplogdir
, req
.logaddr
, true);
3212 max_nsectors
= GetNumLogSectors(smartlogdir
, req
.logaddr
, false);
3215 if (!max_nsectors
) {
3216 if (!is_permissive()) {
3217 pout("%s Log 0x%02x does not exist (override with '-T permissive' option)\n", type
, req
.logaddr
);
3220 max_nsectors
= req
.page
+1;
3222 if (max_nsectors
<= req
.page
) {
3223 pout("%s Log 0x%02x has only %u sectors, output skipped\n", type
, req
.logaddr
, max_nsectors
);
3227 unsigned ns
= req
.nsectors
;
3228 if (ns
> max_nsectors
- req
.page
) {
3229 if (req
.nsectors
!= ~0U) // "FIRST-max"
3230 pout("%s Log 0x%02x has only %u sectors, output truncated\n", type
, req
.logaddr
, max_nsectors
);
3231 ns
= max_nsectors
- req
.page
;
3234 // SMART log don't support sector offset, start with first sector
3235 unsigned offs
= (req
.gpl
? 0 : req
.page
);
3237 raw_buffer
log_buf((offs
+ ns
) * 512);
3240 ok
= ataReadLogExt(device
, req
.logaddr
, 0x00, req
.page
, log_buf
.data(), ns
);
3242 ok
= ataReadSmartLog(device
, req
.logaddr
, log_buf
.data(), offs
+ ns
);
3244 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3246 PrintLogPages(type
, log_buf
.data() + offs
*512, req
.logaddr
, req
.page
, ns
, max_nsectors
);
3249 // Print SMART Extendend Comprehensive Error Log
3250 bool do_smart_error_log
= options
.smart_error_log
;
3251 if (options
.smart_ext_error_log
) {
3253 unsigned nsectors
= GetNumLogSectors(gplogdir
, 0x03, true);
3255 pout("SMART Extended Comprehensive Error Log (GP Log 0x03) not supported\n\n");
3257 // Read only first sector to get error count and index
3258 // Print function will read more sectors as needed
3259 ata_smart_exterrlog log_03
; memset(&log_03
, 0, sizeof(log_03
));
3260 if (!ataReadExtErrorLog(device
, &log_03
, 0, 1, firmwarebugs
)) {
3261 pout("Read SMART Extended Comprehensive Error Log failed\n\n");
3262 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3265 if (PrintSmartExtErrorLog(device
, firmwarebugs
, &log_03
, nsectors
, options
.smart_ext_error_log
))
3266 returnval
|= FAILERR
;
3272 if (options
.retry_error_log
)
3273 do_smart_error_log
= true;
3274 else if (!do_smart_error_log
)
3275 pout("Try '-l [xerror,]error' to read traditional SMART Error Log\n");
3279 // Print SMART error log
3280 if (do_smart_error_log
) {
3281 if (!( GetNumLogSectors(smartlogdir
, 0x01, false)
3282 || ( !(smartlogdir
&& gp_log_supported
)
3283 && isSmartErrorLogCapable(&smartval
, &drive
))
3284 || is_permissive() )) {
3285 pout("SMART Error Log not supported\n\n");
3288 ata_smart_errorlog smarterror
; memset(&smarterror
, 0, sizeof(smarterror
));
3289 if (ataReadErrorLog(device
, &smarterror
, firmwarebugs
)) {
3290 pout("Read SMART Error Log failed: %s\n\n", device
->get_errmsg());
3291 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3294 // quiet mode is turned on inside PrintSmartErrorLog()
3295 if (PrintSmartErrorlog(&smarterror
, firmwarebugs
))
3302 // Print SMART Extendend Self-test Log
3303 bool do_smart_selftest_log
= options
.smart_selftest_log
;
3304 if (options
.smart_ext_selftest_log
) {
3306 unsigned nsectors
= GetNumLogSectors(gplogdir
, 0x07, true);
3308 pout("SMART Extended Self-test Log (GP Log 0x07) not supported\n\n");
3309 else if (nsectors
>= 256)
3310 pout("SMART Extended Self-test Log size %u not supported\n\n", nsectors
);
3312 raw_buffer
log_07_buf(nsectors
* 512);
3313 ata_smart_extselftestlog
* log_07
= (ata_smart_extselftestlog
*)log_07_buf
.data();
3314 if (!ataReadExtSelfTestLog(device
, log_07
, nsectors
)) {
3315 pout("Read SMART Extended Self-test Log failed\n\n");
3316 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3319 if (PrintSmartExtSelfTestLog(log_07
, nsectors
, options
.smart_ext_selftest_log
))
3320 returnval
|= FAILLOG
;
3326 if (options
.retry_selftest_log
)
3327 do_smart_selftest_log
= true;
3328 else if (!do_smart_selftest_log
)
3329 pout("Try '-l [xselftest,]selftest' to read traditional SMART Self Test Log\n");
3333 // Print SMART self-test log
3334 if (do_smart_selftest_log
) {
3335 if (!( GetNumLogSectors(smartlogdir
, 0x06, false)
3336 || ( !(smartlogdir
&& gp_log_supported
)
3337 && isSmartTestLogCapable(&smartval
, &drive
))
3338 || is_permissive() )) {
3339 pout("SMART Self-test Log not supported\n\n");
3342 ata_smart_selftestlog smartselftest
; memset(&smartselftest
, 0, sizeof(smartselftest
));
3343 if (ataReadSelfTestLog(device
, &smartselftest
, firmwarebugs
)) {
3344 pout("Read SMART Self-test Log failed: %s\n\n", device
->get_errmsg());
3345 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3349 if (ataPrintSmartSelfTestlog(&smartselftest
, !printing_is_switchable
, firmwarebugs
))
3350 returnval
|= FAILLOG
;
3357 // Print SMART selective self-test log
3358 if (options
.smart_selective_selftest_log
) {
3359 ata_selective_self_test_log log
;
3361 if (!isSupportSelectiveSelfTest(&smartval
))
3362 pout("Selective Self-tests/Logging not supported\n\n");
3363 else if(ataReadSelectiveSelfTestLog(device
, &log
)) {
3364 pout("Read SMART Selective Self-test Log failed: %s\n\n", device
->get_errmsg());
3365 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3369 // If any errors were found, they are logged in the SMART Self-test log.
3370 // So there is no need to print the Selective Self Test log in silent
3372 if (!printing_is_switchable
)
3373 ataPrintSelectiveSelfTestLog(&log
, &smartval
);
3379 // Check if SCT commands available
3380 bool sct_ok
= isSCTCapable(&drive
);
3381 if(!sct_ok
&& (options
.sct_temp_sts
|| options
.sct_temp_hist
|| options
.sct_temp_int
3382 || options
.sct_erc_get
|| options
.sct_erc_set
))
3383 pout("SCT Commands not supported\n\n");
3385 // Print SCT status and temperature history table
3386 if (sct_ok
&& (options
.sct_temp_sts
|| options
.sct_temp_hist
|| options
.sct_temp_int
)) {
3388 bool sct_temp_hist_ok
= isSCTDataTableCapable(&drive
);
3389 ata_sct_status_response sts
;
3391 if (options
.sct_temp_sts
|| (options
.sct_temp_hist
&& sct_temp_hist_ok
)) {
3393 if (ataReadSCTStatus(device
, &sts
)) {
3395 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3398 if (options
.sct_temp_sts
) {
3399 ataPrintSCTStatus(&sts
);
3404 if (!sct_temp_hist_ok
&& (options
.sct_temp_hist
|| options
.sct_temp_int
)) {
3405 pout("SCT Data Table command not supported\n\n");
3406 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3410 if (options
.sct_temp_hist
) {
3411 // Read SCT temperature history,
3412 // requires initial SCT status from above
3413 ata_sct_temperature_history_table tmh
;
3414 if (ataReadSCTTempHist(device
, &tmh
, &sts
)) {
3415 pout("Read SCT Temperature History failed\n\n");
3416 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3419 ataPrintSCTTempHist(&tmh
);
3423 if (options
.sct_temp_int
) {
3424 // Set new temperature logging interval
3425 if (!isSCTFeatureControlCapable(&drive
)) {
3426 pout("SCT Feature Control command not supported\n\n");
3427 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3430 if (ataSetSCTTempInterval(device
, options
.sct_temp_int
, options
.sct_temp_int_pers
)) {
3431 pout("Write Temperature Logging Interval failed\n\n");
3432 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3435 pout("Temperature Logging Interval set to %u minute%s (%s)\n",
3436 options
.sct_temp_int
, (options
.sct_temp_int
== 1 ? "" : "s"),
3437 (options
.sct_temp_int_pers
? "persistent" : "volatile"));
3443 // SCT Error Recovery Control
3444 if (sct_ok
&& (options
.sct_erc_get
|| options
.sct_erc_set
)) {
3445 if (!isSCTErrorRecoveryControlCapable(&drive
)) {
3446 pout("SCT Error Recovery Control command not supported\n\n");
3447 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3450 bool sct_erc_get
= options
.sct_erc_get
;
3451 if (options
.sct_erc_set
) {
3452 // Set SCT Error Recovery Control
3453 if ( ataSetSCTErrorRecoveryControltime(device
, 1, options
.sct_erc_readtime
)
3454 || ataSetSCTErrorRecoveryControltime(device
, 2, options
.sct_erc_writetime
)) {
3455 pout("SCT (Set) Error Recovery Control command failed\n");
3456 if (!( (options
.sct_erc_readtime
== 70 && options
.sct_erc_writetime
== 70)
3457 || (options
.sct_erc_readtime
== 0 && options
.sct_erc_writetime
== 0)))
3458 pout("Retry with: 'scterc,70,70' to enable ERC or 'scterc,0,0' to disable\n");
3459 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3460 sct_erc_get
= false;
3462 else if (!sct_erc_get
)
3463 ataPrintSCTErrorRecoveryControl(true, options
.sct_erc_readtime
,
3464 options
.sct_erc_writetime
);
3468 // Print SCT Error Recovery Control
3469 unsigned short read_timer
, write_timer
;
3470 if ( ataGetSCTErrorRecoveryControltime(device
, 1, read_timer
)
3471 || ataGetSCTErrorRecoveryControltime(device
, 2, write_timer
)) {
3472 pout("SCT (Get) Error Recovery Control command failed\n");
3473 if (options
.sct_erc_set
) {
3474 pout("The previous SCT (Set) Error Recovery Control command succeeded\n");
3475 ataPrintSCTErrorRecoveryControl(true, options
.sct_erc_readtime
,
3476 options
.sct_erc_writetime
);
3478 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3481 ataPrintSCTErrorRecoveryControl(false, read_timer
, write_timer
);
3487 // Print Device Statistics
3488 if (options
.devstat_all_pages
|| options
.devstat_ssd_page
|| !options
.devstat_pages
.empty()) {
3489 bool use_gplog
= true;
3490 unsigned nsectors
= 0;
3492 nsectors
= GetNumLogSectors(gplogdir
, 0x04, false);
3493 else if (smartlogdir
){ // for systems without ATA_READ_LOG_EXT
3494 nsectors
= GetNumLogSectors(smartlogdir
, 0x04, false);
3498 pout("Device Statistics (GP/SMART Log 0x04) not supported\n\n");
3499 else if (!print_device_statistics(device
, nsectors
, options
.devstat_pages
,
3500 options
.devstat_all_pages
, options
.devstat_ssd_page
, use_gplog
))
3501 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3504 // Print SATA Phy Event Counters
3505 if (options
.sataphy
) {
3506 unsigned nsectors
= GetNumLogSectors(gplogdir
, 0x11, true);
3507 // Packet interface devices do not provide a log directory, check support bit
3508 if (!nsectors
&& (drive
.words047_079
[76-47] & 0x0401) == 0x0400)
3511 pout("SATA Phy Event Counters (GP Log 0x11) not supported\n\n");
3512 else if (nsectors
!= 1)
3513 pout("SATA Phy Event Counters with %u sectors not supported\n\n", nsectors
);
3515 unsigned char log_11
[512] = {0, };
3516 unsigned char features
= (options
.sataphy_reset
? 0x01 : 0x00);
3517 if (!ataReadLogExt(device
, 0x11, features
, 0, log_11
, 1)) {
3518 pout("Read SATA Phy Event Counters failed\n\n");
3519 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3522 PrintSataPhyEventCounters(log_11
, options
.sataphy_reset
);
3526 // Set to standby (spindown) mode
3527 // (Above commands may spinup drive)
3528 if (options
.set_standby_now
) {
3529 if (!ata_nodata_command(device
, ATA_STANDBY_IMMEDIATE
)) {
3530 pout("ATA STANDBY IMMEDIATE command failed: %s\n", device
->get_errmsg());
3531 returnval
|= FAILSMART
;
3534 pout("Device placed in STANDBY mode\n");
3537 // START OF THE TESTING SECTION OF THE CODE. IF NO TESTING, RETURN
3538 if (!smart_val_ok
|| options
.smart_selftest_type
== -1)
3541 pout("=== START OF OFFLINE IMMEDIATE AND SELF-TEST SECTION ===\n");
3542 // if doing a self-test, be sure it's supported by the hardware
3543 switch (options
.smart_selftest_type
) {
3544 case OFFLINE_FULL_SCAN
:
3545 if (!isSupportExecuteOfflineImmediate(&smartval
)){
3546 pout("Execute Offline Immediate function not supported\n\n");
3547 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3550 case ABORT_SELF_TEST
:
3551 case SHORT_SELF_TEST
:
3552 case EXTEND_SELF_TEST
:
3553 case SHORT_CAPTIVE_SELF_TEST
:
3554 case EXTEND_CAPTIVE_SELF_TEST
:
3555 if (!isSupportSelfTest(&smartval
)){
3556 pout("Self-test functions not supported\n\n");
3557 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3560 case CONVEYANCE_SELF_TEST
:
3561 case CONVEYANCE_CAPTIVE_SELF_TEST
:
3562 if (!isSupportConveyanceSelfTest(&smartval
)){
3563 pout("Conveyance Self-test functions not supported\n\n");
3564 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3567 case SELECTIVE_SELF_TEST
:
3568 case SELECTIVE_CAPTIVE_SELF_TEST
:
3569 if (!isSupportSelectiveSelfTest(&smartval
)){
3570 pout("Selective Self-test functions not supported\n\n");
3571 failuretest(MANDATORY_CMD
, returnval
|=FAILSMART
);
3575 break; // Vendor specific type
3578 // Now do the test. Note ataSmartTest prints its own error/success
3580 if (ataSmartTest(device
, options
.smart_selftest_type
, options
.smart_selftest_force
,
3581 options
.smart_selective_args
, &smartval
, sizes
.sectors
))
3582 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3584 // Tell user how long test will take to complete. This is tricky
3585 // because in the case of an Offline Full Scan, the completion
3586 // timer is volatile, and needs to be read AFTER the command is
3587 // given. If this will interrupt the Offline Full Scan, we don't
3588 // do it, just warn user.
3589 if (options
.smart_selftest_type
== OFFLINE_FULL_SCAN
) {
3590 if (isSupportOfflineAbort(&smartval
))
3591 pout("Note: giving further SMART commands will abort Offline testing\n");
3592 else if (ataReadSmartValues(device
, &smartval
)){
3593 pout("Read SMART Data failed: %s\n\n", device
->get_errmsg());
3594 failuretest(OPTIONAL_CMD
, returnval
|=FAILSMART
);
3598 // Now say how long the test will take to complete
3599 int timewait
= TestTime(&smartval
, options
.smart_selftest_type
);
3601 time_t t
=time(NULL
);
3602 if (options
.smart_selftest_type
== OFFLINE_FULL_SCAN
) {
3604 pout("Please wait %d seconds for test to complete.\n", (int)timewait
);
3607 pout("Please wait %d minutes for test to complete.\n", (int)timewait
);
3609 pout("Test will complete after %s\n", ctime(&t
));
3611 if ( options
.smart_selftest_type
!= SHORT_CAPTIVE_SELF_TEST
3612 && options
.smart_selftest_type
!= EXTEND_CAPTIVE_SELF_TEST
3613 && options
.smart_selftest_type
!= CONVEYANCE_CAPTIVE_SELF_TEST
3614 && options
.smart_selftest_type
!= SELECTIVE_CAPTIVE_SELF_TEST
)
3615 pout("Use smartctl -X to abort test.\n");