Annotation of embedaddon/smartmontools/atacmds.h, revision 1.1.1.2
1.1 misho 1: /*
2: * atacmds.h
3: *
4: * Home page of code is: http://smartmontools.sourceforge.net
5: *
6: * Copyright (C) 2002-11 Bruce Allen <smartmontools-support@lists.sourceforge.net>
1.1.1.2 ! misho 7: * Copyright (C) 2008-12 Christian Franke <smartmontools-support@lists.sourceforge.net>
1.1 misho 8: * Copyright (C) 1999-2000 Michael Cornwell <cornwell@acm.org>
9: *
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)
13: * any later version.
14: *
15: * You should have received a copy of the GNU General Public License
16: * (for example COPYING); if not, write to the Free
17: * Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
18: *
19: * This code was originally developed as a Senior Thesis by Michael Cornwell
20: * at the Concurrent Systems Laboratory (now part of the Storage Systems
21: * Research Center), Jack Baskin School of Engineering, University of
22: * California, Santa Cruz. http://ssrc.soe.ucsc.edu/
23: *
24: */
25:
26: #ifndef ATACMDS_H_
27: #define ATACMDS_H_
28:
1.1.1.2 ! misho 29: #define ATACMDS_H_CVSID "$Id: atacmds.h 3528 2012-03-25 17:13:47Z chrfranke $"
1.1 misho 30:
31: #include "dev_interface.h" // ata_device
32:
33: // Macro to check expected size of struct at compile time using a
34: // dummy typedef. On size mismatch, compiler reports a negative array
35: // size. If you see an error message of this form, it means that the
36: // #pragma pack(1) pragma below is not having the desired effect on
37: // your compiler.
38: #define ASSERT_SIZEOF_STRUCT(s, n) \
39: typedef char assert_sizeof_struct_##s[(sizeof(struct s) == (n)) ? 1 : -1]
40:
41: // Add __attribute__((packed)) if compiler supports it
42: // because some gcc versions (at least ARM) lack support of #pragma pack()
43: #ifdef HAVE_ATTR_PACKED
44: #define ATTR_PACKED __attribute__((packed))
45: #else
46: #define ATTR_PACKED
47: #endif
48:
49: typedef enum {
50: // returns no data, just succeeds or fails
51: ENABLE,
52: DISABLE,
53: AUTOSAVE,
54: IMMEDIATE_OFFLINE,
55: AUTO_OFFLINE,
56: STATUS, // just says if SMART is working or not
57: STATUS_CHECK, // says if disk's SMART status is healthy, or failing
58: // return 512 bytes of data:
59: READ_VALUES,
60: READ_THRESHOLDS,
61: READ_LOG,
62: IDENTIFY,
63: PIDENTIFY,
64: // returns 1 byte of data
65: CHECK_POWER_MODE,
66: // writes 512 bytes of data:
67: WRITE_LOG
68: } smart_command_set;
69:
70: // Possible values for fix_firmwarebug.
71: enum {
72: FIX_NOTSPECIFIED = 0,
73: FIX_NONE,
74: FIX_SAMSUNG,
75: FIX_SAMSUNG2,
76: FIX_SAMSUNG3
77: };
78:
79: // ATA Specification Command Register Values (Commands)
1.1.1.2 ! misho 80: #define ATA_CHECK_POWER_MODE 0xe5
1.1 misho 81: #define ATA_IDENTIFY_DEVICE 0xec
82: #define ATA_IDENTIFY_PACKET_DEVICE 0xa1
1.1.1.2 ! misho 83: #define ATA_IDLE 0xe3
1.1 misho 84: #define ATA_SMART_CMD 0xb0
1.1.1.2 ! misho 85: #define ATA_SECURITY_FREEZE_LOCK 0xf5
! 86: #define ATA_SET_FEATURES 0xef
! 87: #define ATA_STANDBY_IMMEDIATE 0xe0
! 88:
! 89: // SET_FEATURES subcommands
! 90: #define ATA_DISABLE_AAM 0xc2
! 91: #define ATA_DISABLE_APM 0x85
! 92: #define ATA_DISABLE_WRITE_CACHE 0x82
! 93: #define ATA_DISABLE_READ_LOOK_AHEAD 0x55
! 94: #define ATA_ENABLE_AAM 0x42
! 95: #define ATA_ENABLE_APM 0x05
! 96: #define ATA_ENABLE_WRITE_CACHE 0x02
! 97: #define ATA_ENABLE_READ_LOOK_AHEAD 0xaa
! 98:
1.1 misho 99: // 48-bit commands
100: #define ATA_READ_LOG_EXT 0x2F
101:
102: // ATA Specification Feature Register Values (SMART Subcommands).
103: // Note that some are obsolete as of ATA-7.
104: #define ATA_SMART_READ_VALUES 0xd0
105: #define ATA_SMART_READ_THRESHOLDS 0xd1
106: #define ATA_SMART_AUTOSAVE 0xd2
107: #define ATA_SMART_SAVE 0xd3
108: #define ATA_SMART_IMMEDIATE_OFFLINE 0xd4
109: #define ATA_SMART_READ_LOG_SECTOR 0xd5
110: #define ATA_SMART_WRITE_LOG_SECTOR 0xd6
111: #define ATA_SMART_WRITE_THRESHOLDS 0xd7
112: #define ATA_SMART_ENABLE 0xd8
113: #define ATA_SMART_DISABLE 0xd9
114: #define ATA_SMART_STATUS 0xda
115: // SFF 8035i Revision 2 Specification Feature Register Value (SMART
116: // Subcommand)
117: #define ATA_SMART_AUTO_OFFLINE 0xdb
118:
119: // Sector Number values for ATA_SMART_IMMEDIATE_OFFLINE Subcommand
120: #define OFFLINE_FULL_SCAN 0
121: #define SHORT_SELF_TEST 1
122: #define EXTEND_SELF_TEST 2
123: #define CONVEYANCE_SELF_TEST 3
124: #define SELECTIVE_SELF_TEST 4
125: #define ABORT_SELF_TEST 127
126: #define SHORT_CAPTIVE_SELF_TEST 129
127: #define EXTEND_CAPTIVE_SELF_TEST 130
128: #define CONVEYANCE_CAPTIVE_SELF_TEST 131
129: #define SELECTIVE_CAPTIVE_SELF_TEST 132
130: #define CAPTIVE_MASK (0x01<<7)
131:
132: // Maximum allowed number of SMART Attributes
133: #define NUMBER_ATA_SMART_ATTRIBUTES 30
134:
135: // Needed parts of the ATA DRIVE IDENTIFY Structure. Those labeled
136: // word* are NOT used.
137: #pragma pack(1)
138: struct ata_identify_device {
139: unsigned short words000_009[10];
140: unsigned char serial_no[20];
141: unsigned short words020_022[3];
142: unsigned char fw_rev[8];
143: unsigned char model[40];
144: unsigned short words047_079[33];
145: unsigned short major_rev_num;
146: unsigned short minor_rev_num;
147: unsigned short command_set_1;
148: unsigned short command_set_2;
149: unsigned short command_set_extension;
150: unsigned short cfs_enable_1;
151: unsigned short word086;
152: unsigned short csf_default;
153: unsigned short words088_255[168];
154: } ATTR_PACKED;
155: #pragma pack()
156: ASSERT_SIZEOF_STRUCT(ata_identify_device, 512);
157:
158: /* ata_smart_attribute is the vendor specific in SFF-8035 spec */
159: #pragma pack(1)
160: struct ata_smart_attribute {
161: unsigned char id;
162: // meaning of flag bits: see MACROS just below
163: // WARNING: MISALIGNED!
164: unsigned short flags;
165: unsigned char current;
166: unsigned char worst;
167: unsigned char raw[6];
168: unsigned char reserv;
169: } ATTR_PACKED;
170: #pragma pack()
171: ASSERT_SIZEOF_STRUCT(ata_smart_attribute, 12);
172:
173: // MACROS to interpret the flags bits in the previous structure.
174: // These have not been implemented using bitflags and a union, to make
175: // it portable across bit/little endian and different platforms.
176:
177: // 0: Prefailure bit
178:
179: // From SFF 8035i Revision 2 page 19: Bit 0 (pre-failure/advisory bit)
180: // - If the value of this bit equals zero, an attribute value less
181: // than or equal to its corresponding attribute threshold indicates an
182: // advisory condition where the usage or age of the device has
183: // exceeded its intended design life period. If the value of this bit
184: // equals one, an attribute value less than or equal to its
185: // corresponding attribute threshold indicates a prefailure condition
186: // where imminent loss of data is being predicted.
187: #define ATTRIBUTE_FLAGS_PREFAILURE(x) (x & 0x01)
188:
189: // 1: Online bit
190:
191: // From SFF 8035i Revision 2 page 19: Bit 1 (on-line data collection
192: // bit) - If the value of this bit equals zero, then the attribute
193: // value is updated only during off-line data collection
194: // activities. If the value of this bit equals one, then the attribute
195: // value is updated during normal operation of the device or during
196: // both normal operation and off-line testing.
197: #define ATTRIBUTE_FLAGS_ONLINE(x) (x & 0x02)
198:
199:
200: // The following are (probably) IBM's, Maxtors and Quantum's definitions for the
201: // vendor-specific bits:
202: // 2: Performance type bit
203: #define ATTRIBUTE_FLAGS_PERFORMANCE(x) (x & 0x04)
204:
205: // 3: Errorrate type bit
206: #define ATTRIBUTE_FLAGS_ERRORRATE(x) (x & 0x08)
207:
208: // 4: Eventcount bit
209: #define ATTRIBUTE_FLAGS_EVENTCOUNT(x) (x & 0x10)
210:
211: // 5: Selfpereserving bit
212: #define ATTRIBUTE_FLAGS_SELFPRESERVING(x) (x & 0x20)
213:
214: // 6-15: Reserved for future use
215: #define ATTRIBUTE_FLAGS_OTHER(x) ((x) & 0xffc0)
216:
217:
1.1.1.2 ! misho 218: // Format of data returned by SMART READ DATA
! 219: // Table 62 of T13/1699-D (ATA8-ACS) Revision 6a, September 2008
1.1 misho 220: #pragma pack(1)
221: struct ata_smart_values {
222: unsigned short int revnumber;
223: struct ata_smart_attribute vendor_attributes [NUMBER_ATA_SMART_ATTRIBUTES];
224: unsigned char offline_data_collection_status;
225: unsigned char self_test_exec_status; //IBM # segments for offline collection
226: unsigned short int total_time_to_complete_off_line; // IBM different
227: unsigned char vendor_specific_366; // Maxtor & IBM curent segment pointer
228: unsigned char offline_data_collection_capability;
229: unsigned short int smart_capability;
230: unsigned char errorlog_capability;
231: unsigned char vendor_specific_371; // Maxtor, IBM: self-test failure checkpoint see below!
232: unsigned char short_test_completion_time;
1.1.1.2 ! misho 233: unsigned char extend_test_completion_time_b; // If 0xff, use 16-bit value below
1.1 misho 234: unsigned char conveyance_test_completion_time;
1.1.1.2 ! misho 235: unsigned short extend_test_completion_time_w; // e04130r2, added to T13/1699-D Revision 1c, April 2005
! 236: unsigned char reserved_377_385[9];
1.1 misho 237: unsigned char vendor_specific_386_510[125]; // Maxtor bytes 508-509 Attribute/Threshold Revision #
238: unsigned char chksum;
239: } ATTR_PACKED;
240: #pragma pack()
241: ASSERT_SIZEOF_STRUCT(ata_smart_values, 512);
242:
243: /* Maxtor, IBM: self-test failure checkpoint byte meaning:
244: 00 - write test
245: 01 - servo basic
246: 02 - servo random
247: 03 - G-list scan
248: 04 - Handling damage
249: 05 - Read scan
250: */
251:
252: /* Vendor attribute of SMART Threshold (compare to ata_smart_attribute above) */
253: #pragma pack(1)
254: struct ata_smart_threshold_entry {
255: unsigned char id;
256: unsigned char threshold;
257: unsigned char reserved[10];
258: } ATTR_PACKED;
259: #pragma pack()
260: ASSERT_SIZEOF_STRUCT(ata_smart_threshold_entry, 12);
261:
262: /* Format of Read SMART THreshold Command */
263: /* Compare to ata_smart_values above */
264: #pragma pack(1)
265: struct ata_smart_thresholds_pvt {
266: unsigned short int revnumber;
267: struct ata_smart_threshold_entry thres_entries[NUMBER_ATA_SMART_ATTRIBUTES];
268: unsigned char reserved[149];
269: unsigned char chksum;
270: } ATTR_PACKED;
271: #pragma pack()
272: ASSERT_SIZEOF_STRUCT(ata_smart_thresholds_pvt, 512);
273:
274:
275: // Table 42 of T13/1321D Rev 1 spec (Error Data Structure)
276: #pragma pack(1)
277: struct ata_smart_errorlog_error_struct {
278: unsigned char reserved;
279: unsigned char error_register;
280: unsigned char sector_count;
281: unsigned char sector_number;
282: unsigned char cylinder_low;
283: unsigned char cylinder_high;
284: unsigned char drive_head;
285: unsigned char status;
286: unsigned char extended_error[19];
287: unsigned char state;
288: unsigned short timestamp;
289: } ATTR_PACKED;
290: #pragma pack()
291: ASSERT_SIZEOF_STRUCT(ata_smart_errorlog_error_struct, 30);
292:
293:
294: // Table 41 of T13/1321D Rev 1 spec (Command Data Structure)
295: #pragma pack(1)
296: struct ata_smart_errorlog_command_struct {
297: unsigned char devicecontrolreg;
298: unsigned char featuresreg;
299: unsigned char sector_count;
300: unsigned char sector_number;
301: unsigned char cylinder_low;
302: unsigned char cylinder_high;
303: unsigned char drive_head;
304: unsigned char commandreg;
305: unsigned int timestamp;
306: } ATTR_PACKED;
307: #pragma pack()
308: ASSERT_SIZEOF_STRUCT(ata_smart_errorlog_command_struct, 12);
309:
310: // Table 40 of T13/1321D Rev 1 spec (Error log data structure)
311: #pragma pack(1)
312: struct ata_smart_errorlog_struct {
313: struct ata_smart_errorlog_command_struct commands[5];
314: struct ata_smart_errorlog_error_struct error_struct;
315: } ATTR_PACKED;
316: #pragma pack()
317: ASSERT_SIZEOF_STRUCT(ata_smart_errorlog_struct, 90);
318:
319: // Table 39 of T13/1321D Rev 1 spec (SMART error log sector)
320: #pragma pack(1)
321: struct ata_smart_errorlog {
322: unsigned char revnumber;
323: unsigned char error_log_pointer;
324: struct ata_smart_errorlog_struct errorlog_struct[5];
325: unsigned short int ata_error_count;
326: unsigned char reserved[57];
327: unsigned char checksum;
328: } ATTR_PACKED;
329: #pragma pack()
330: ASSERT_SIZEOF_STRUCT(ata_smart_errorlog, 512);
331:
332:
333: // Extended Comprehensive SMART Error Log data structures
334: // See Section A.7 of
335: // AT Attachment 8 - ATA/ATAPI Command Set (ATA8-ACS)
336: // T13/1699-D Revision 6a (Working Draft), September 6, 2008.
337:
338: // Command data structure
339: // Table A.9 of T13/1699-D Revision 6a
340: #pragma pack(1)
341: struct ata_smart_exterrlog_command
342: {
343: unsigned char device_control_register;
344: unsigned char features_register;
345: unsigned char features_register_hi;
346: unsigned char count_register;
347: unsigned char count_register_hi;
348: unsigned char lba_low_register;
349: unsigned char lba_low_register_hi;
350: unsigned char lba_mid_register;
351: unsigned char lba_mid_register_hi;
352: unsigned char lba_high_register;
353: unsigned char lba_high_register_hi;
354: unsigned char device_register;
355: unsigned char command_register;
356:
357: unsigned char reserved;
358: unsigned int timestamp;
359: } ATTR_PACKED;
360: #pragma pack()
361: ASSERT_SIZEOF_STRUCT(ata_smart_exterrlog_command, 18);
362:
363: // Error data structure
364: // Table A.10 T13/1699-D Revision 6a
365: #pragma pack(1)
366: struct ata_smart_exterrlog_error
367: {
368: unsigned char device_control_register;
369: unsigned char error_register;
370: unsigned char count_register;
371: unsigned char count_register_hi;
372: unsigned char lba_low_register;
373: unsigned char lba_low_register_hi;
374: unsigned char lba_mid_register;
375: unsigned char lba_mid_register_hi;
376: unsigned char lba_high_register;
377: unsigned char lba_high_register_hi;
378: unsigned char device_register;
379: unsigned char status_register;
380:
381: unsigned char extended_error[19];
382: unsigned char state;
383: unsigned short timestamp;
384: } ATTR_PACKED;
385: #pragma pack()
386: ASSERT_SIZEOF_STRUCT(ata_smart_exterrlog_error, 34);
387:
388: // Error log data structure
389: // Table A.8 of T13/1699-D Revision 6a
390: #pragma pack(1)
391: struct ata_smart_exterrlog_error_log
392: {
393: ata_smart_exterrlog_command commands[5];
394: ata_smart_exterrlog_error error;
395: } ATTR_PACKED;
396: #pragma pack()
397: ASSERT_SIZEOF_STRUCT(ata_smart_exterrlog_error_log, 124);
398:
399: // Ext. Comprehensive SMART error log
400: // Table A.7 of T13/1699-D Revision 6a
401: #pragma pack(1)
402: struct ata_smart_exterrlog
403: {
404: unsigned char version;
405: unsigned char reserved1;
406: unsigned short error_log_index;
407: ata_smart_exterrlog_error_log error_logs[4];
408: unsigned short device_error_count;
409: unsigned char reserved2[9];
410: unsigned char checksum;
411: } ATTR_PACKED;
412: #pragma pack()
413: ASSERT_SIZEOF_STRUCT(ata_smart_exterrlog, 512);
414:
415:
416: // Table 45 of T13/1321D Rev 1 spec (Self-test log descriptor entry)
417: #pragma pack(1)
418: struct ata_smart_selftestlog_struct {
419: unsigned char selftestnumber; // Sector number register
420: unsigned char selfteststatus;
421: unsigned short int timestamp;
422: unsigned char selftestfailurecheckpoint;
423: unsigned int lbafirstfailure;
424: unsigned char vendorspecific[15];
425: } ATTR_PACKED;
426: #pragma pack()
427: ASSERT_SIZEOF_STRUCT(ata_smart_selftestlog_struct, 24);
428:
429: // Table 44 of T13/1321D Rev 1 spec (Self-test log data structure)
430: #pragma pack(1)
431: struct ata_smart_selftestlog {
432: unsigned short int revnumber;
433: struct ata_smart_selftestlog_struct selftest_struct[21];
434: unsigned char vendorspecific[2];
435: unsigned char mostrecenttest;
436: unsigned char reserved[2];
437: unsigned char chksum;
438: } ATTR_PACKED;
439: #pragma pack()
440: ASSERT_SIZEOF_STRUCT(ata_smart_selftestlog, 512);
441:
442: // Extended SMART Self-test log data structures
443: // See Section A.8 of
444: // AT Attachment 8 - ATA/ATAPI Command Set (ATA8-ACS)
445: // T13/1699-D Revision 6a (Working Draft), September 6, 2008.
446:
447: // Extended Self-test log descriptor entry
448: // Table A.13 of T13/1699-D Revision 6a
449: #pragma pack(1)
450: struct ata_smart_extselftestlog_desc
451: {
452: unsigned char self_test_type;
453: unsigned char self_test_status;
454: unsigned short timestamp;
455: unsigned char checkpoint;
456: unsigned char failing_lba[6];
457: unsigned char vendorspecific[15];
458: } ATTR_PACKED;
459: #pragma pack()
460: ASSERT_SIZEOF_STRUCT(ata_smart_extselftestlog_desc, 26);
461:
462: // Extended Self-test log data structure
463: // Table A.12 of T13/1699-D Revision 6a
464: #pragma pack(1)
465: struct ata_smart_extselftestlog
466: {
467: unsigned char version;
468: unsigned char reserved1;
469: unsigned short log_desc_index;
470: struct ata_smart_extselftestlog_desc log_descs[19];
471: unsigned char vendor_specifc[2];
472: unsigned char reserved2[11];
473: unsigned char chksum;
474: } ATTR_PACKED;
475: #pragma pack()
476: ASSERT_SIZEOF_STRUCT(ata_smart_extselftestlog, 512);
477:
478: // SMART LOG DIRECTORY Table 52 of T13/1532D Vol 1 Rev 1a
479: #pragma pack(1)
480: struct ata_smart_log_entry {
481: unsigned char numsectors;
482: unsigned char reserved;
483: } ATTR_PACKED;
484: #pragma pack()
485: ASSERT_SIZEOF_STRUCT(ata_smart_log_entry, 2);
486:
487: #pragma pack(1)
488: struct ata_smart_log_directory {
489: unsigned short int logversion;
490: struct ata_smart_log_entry entry[255];
491: } ATTR_PACKED;
492: #pragma pack()
493: ASSERT_SIZEOF_STRUCT(ata_smart_log_directory, 512);
494:
495: // SMART SELECTIVE SELF-TEST LOG Table 61 of T13/1532D Volume 1
496: // Revision 3
497: #pragma pack(1)
498: struct test_span {
499: uint64_t start;
500: uint64_t end;
501: } ATTR_PACKED;
502: #pragma pack()
503: ASSERT_SIZEOF_STRUCT(test_span, 16);
504:
505: #pragma pack(1)
506: struct ata_selective_self_test_log {
507: unsigned short logversion;
508: struct test_span span[5];
509: unsigned char reserved1[337-82+1];
510: unsigned char vendor_specific1[491-338+1];
511: uint64_t currentlba;
512: unsigned short currentspan;
513: unsigned short flags;
514: unsigned char vendor_specific2[507-504+1];
515: unsigned short pendingtime;
516: unsigned char reserved2;
517: unsigned char checksum;
518: } ATTR_PACKED;
519: #pragma pack()
520: ASSERT_SIZEOF_STRUCT(ata_selective_self_test_log, 512);
521:
522: #define SELECTIVE_FLAG_DOSCAN (0x0002)
523: #define SELECTIVE_FLAG_PENDING (0x0008)
524: #define SELECTIVE_FLAG_ACTIVE (0x0010)
525:
526:
527: // SCT (SMART Command Transport) data structures
528: // See Sections 8.2 and 8.3 of:
529: // AT Attachment 8 - ATA/ATAPI Command Set (ATA8-ACS)
530: // T13/1699-D Revision 3f (Working Draft), December 11, 2006.
531:
532: // SCT Status response (read with SMART_READ_LOG page 0xe0)
533: // Table 60 of T13/1699-D Revision 3f
534: #pragma pack(1)
535: struct ata_sct_status_response
536: {
537: unsigned short format_version; // 0-1: Status response format version number (2, 3)
538: unsigned short sct_version; // 2-3: Vendor specific version number
539: unsigned short sct_spec; // 4-5: SCT level supported (1)
540: unsigned int status_flags; // 6-9: Status flags (Bit 0: Segment initialized, Bits 1-31: reserved)
541: unsigned char device_state; // 10: Device State (0-5)
542: unsigned char bytes011_013[3]; // 11-13: reserved
543: unsigned short ext_status_code; // 14-15: Status of last SCT command (0xffff if executing)
544: unsigned short action_code; // 16-17: Action code of last SCT command
545: unsigned short function_code; // 18-19: Function code of last SCT command
546: unsigned char bytes020_039[20]; // 20-39: reserved
547: uint64_t lba_current; // 40-47: LBA of SCT command executing in background
548: unsigned char bytes048_199[152]; // 48-199: reserved
549: signed char hda_temp; // 200: Current temperature in Celsius (0x80 = invalid)
550: signed char min_temp; // 201: Minimum temperature this power cycle
551: signed char max_temp; // 202: Maximum temperature this power cycle
552: signed char life_min_temp; // 203: Minimum lifetime temperature
553: signed char life_max_temp; // 204: Maximum lifetime temperature
554: unsigned char byte205; // 205: reserved (T13/e06152r0-2: Average lifetime temperature)
555: unsigned int over_limit_count; // 206-209: # intervals since last reset with temperature > Max Op Limit
556: unsigned int under_limit_count; // 210-213: # intervals since last reset with temperature < Min Op Limit
557: unsigned char bytes214_479[266]; // 214-479: reserved
558: unsigned char vendor_specific[32];// 480-511: vendor specific
559: } ATTR_PACKED;
560: #pragma pack()
561: ASSERT_SIZEOF_STRUCT(ata_sct_status_response, 512);
562:
563: // SCT Error Recovery Control command (send with SMART_WRITE_LOG page 0xe0)
564: // Table 88 of T13/1699-D Revision 6a
565: #pragma pack(1)
566: struct ata_sct_error_recovery_control_command
567: {
568: unsigned short action_code; // 3 = Error Recovery Control
569: unsigned short function_code; // 1 = Set, 2 = Return
570: unsigned short selection_code; // 1 = Read Timer, 2 = Write Timer
571: unsigned short time_limit; // If set: Recovery time limit in 100ms units
572: unsigned short words004_255[252]; // reserved
573: } ATTR_PACKED;
574: #pragma pack()
575: ASSERT_SIZEOF_STRUCT(ata_sct_error_recovery_control_command, 512);
576:
577: // SCT Feature Control command (send with SMART_WRITE_LOG page 0xe0)
578: // Table 72 of T13/1699-D Revision 3f
579: #pragma pack(1)
580: struct ata_sct_feature_control_command
581: {
582: unsigned short action_code; // 4 = Feature Control
583: unsigned short function_code; // 1 = Set, 2 = Return, 3 = Return options
584: unsigned short feature_code; // 3 = Temperature logging interval
585: unsigned short state; // Interval
586: unsigned short option_flags; // Bit 0: persistent, Bits 1-15: reserved
587: unsigned short words005_255[251]; // reserved
588: } ATTR_PACKED;
589: #pragma pack()
590: ASSERT_SIZEOF_STRUCT(ata_sct_feature_control_command, 512);
591:
592: // SCT Data Table command (send with SMART_WRITE_LOG page 0xe0)
593: // Table 73 of T13/1699-D Revision 3f
594: #pragma pack(1)
595: struct ata_sct_data_table_command
596: {
597: unsigned short action_code; // 5 = Data Table
598: unsigned short function_code; // 1 = Read Table
599: unsigned short table_id; // 2 = Temperature History
600: unsigned short words003_255[253]; // reserved
601: } ATTR_PACKED;
602: #pragma pack()
603: ASSERT_SIZEOF_STRUCT(ata_sct_data_table_command, 512);
604:
605: // SCT Temperature History Table (read with SMART_READ_LOG page 0xe1)
606: // Table 75 of T13/1699-D Revision 3f
607: #pragma pack(1)
608: struct ata_sct_temperature_history_table
609: {
610: unsigned short format_version; // 0-1: Data table format version number (2)
611: unsigned short sampling_period; // 2-3: Temperature sampling period in minutes
612: unsigned short interval; // 4-5: Timer interval between history entries
613: signed char max_op_limit; // 6: Maximum recommended continuous operating temperature
614: signed char over_limit; // 7: Maximum temperature limit
615: signed char min_op_limit; // 8: Minimum recommended continuous operating limit
616: signed char under_limit; // 9: Minimum temperature limit
617: unsigned char bytes010_029[20]; // 10-29: reserved
618: unsigned short cb_size; // 30-31: Number of history entries (range 128-478)
619: unsigned short cb_index; // 32-33: Index of last updated entry (zero-based)
620: signed char cb[478]; // 34-(34+cb_size-1): Circular buffer of temperature values
621: } ATTR_PACKED;
622: #pragma pack()
623: ASSERT_SIZEOF_STRUCT(ata_sct_temperature_history_table, 512);
624:
625: // Possible values for span_args.mode
626: enum {
627: SEL_RANGE, // MIN-MAX
628: SEL_REDO, // redo this
629: SEL_NEXT, // do next range
630: SEL_CONT // redo or next depending of last test status
631: };
632:
633: // Arguments for selective self-test
634: struct ata_selective_selftest_args
635: {
636: // Arguments for each span
637: struct span_args
638: {
639: uint64_t start; // First block
640: uint64_t end; // Last block
641: int mode; // SEL_*, see above
642:
643: span_args()
644: : start(0), end(0), mode(SEL_RANGE) { }
645: };
646:
647: span_args span[5]; // Range and mode for 5 spans
648: int num_spans; // Number of spans
649: int pending_time; // One plus time in minutes to wait after powerup before restarting
650: // interrupted offline scan after selective self-test.
651: int scan_after_select; // Run offline scan after selective self-test:
652: // 0: don't change,
653: // 1: turn off scan after selective self-test,
654: // 2: turn on scan after selective self-test.
655:
656: ata_selective_selftest_args()
657: : num_spans(0), pending_time(0), scan_after_select(0) { }
658: };
659:
660: // Priority for vendor attribute defs
661: enum ata_vendor_def_prior
662: {
663: PRIOR_DEFAULT,
664: PRIOR_DATABASE,
665: PRIOR_USER
666: };
667:
668: // Raw attribute value print formats
669: enum ata_attr_raw_format
670: {
671: RAWFMT_DEFAULT,
672: RAWFMT_RAW8,
673: RAWFMT_RAW16,
674: RAWFMT_RAW48,
675: RAWFMT_HEX48,
1.1.1.2 ! misho 676: RAWFMT_RAW56,
! 677: RAWFMT_HEX56,
1.1 misho 678: RAWFMT_RAW64,
679: RAWFMT_HEX64,
680: RAWFMT_RAW16_OPT_RAW16,
681: RAWFMT_RAW16_OPT_AVG16,
1.1.1.2 ! misho 682: RAWFMT_RAW24_OPT_RAW8,
1.1 misho 683: RAWFMT_RAW24_DIV_RAW24,
684: RAWFMT_RAW24_DIV_RAW32,
685: RAWFMT_SEC2HOUR,
686: RAWFMT_MIN2HOUR,
687: RAWFMT_HALFMIN2HOUR,
688: RAWFMT_MSEC24_HOUR32,
689: RAWFMT_TEMPMINMAX,
690: RAWFMT_TEMP10X,
691: };
692:
693: // Attribute flags
694: enum {
695: ATTRFLAG_INCREASING = 0x01, // Value not reset (for reallocated/pending counts)
696: ATTRFLAG_NO_NORMVAL = 0x02, // Normalized value not valid
697: ATTRFLAG_NO_WORSTVAL = 0x04 // Worst value not valid
698: };
699:
700: // Vendor attribute display defs for all attribute ids
701: class ata_vendor_attr_defs
702: {
703: public:
704: struct entry
705: {
706: std::string name; // Attribute name, empty for default
707: ata_attr_raw_format raw_format; // Raw value print format
708: ata_vendor_def_prior priority; // Setting priority
709: unsigned flags; // ATTRFLAG_*
710: char byteorder[8+1]; // String [012345rvwz] to define byte order
711:
712: entry()
713: : raw_format(RAWFMT_DEFAULT),
714: priority(PRIOR_DEFAULT),
715: flags(0)
716: { byteorder[0] = 0; }
717: };
718:
719: entry & operator[](unsigned char id)
720: { return m_defs[id]; }
721:
722: const entry & operator[](unsigned char id) const
723: { return m_defs[id]; }
724:
725: private:
726: entry m_defs[256];
727: };
728:
729:
730: // Print ATA debug messages?
731: extern unsigned char ata_debugmode;
732:
733: // Suppress serial number?
734: extern bool dont_print_serial_number;
735:
736: // Get information from drive
737: int ata_read_identity(ata_device * device, ata_identify_device * buf, bool fix_swapped_id);
738: int ataCheckPowerMode(ata_device * device);
739:
1.1.1.2 ! misho 740: // Issue a no-data ATA command with optional sector count register value
! 741: bool ata_nodata_command(ata_device * device, unsigned char command, int sector_count = -1);
! 742:
! 743: // Issue SET FEATURES command with optional sector count register value
! 744: bool ata_set_features(ata_device * device, unsigned char features, int sector_count = -1);
! 745:
1.1 misho 746: /* Read S.M.A.R.T information from drive */
747: int ataReadSmartValues(ata_device * device,struct ata_smart_values *);
748: int ataReadSmartThresholds(ata_device * device, struct ata_smart_thresholds_pvt *);
749: int ataReadErrorLog (ata_device * device, ata_smart_errorlog *data,
750: unsigned char fix_firmwarebug);
751: int ataReadSelfTestLog(ata_device * device, ata_smart_selftestlog * data,
752: unsigned char fix_firmwarebug);
753: int ataReadSelectiveSelfTestLog(ata_device * device, struct ata_selective_self_test_log *data);
754: int ataSetSmartThresholds(ata_device * device, struct ata_smart_thresholds_pvt *);
755: int ataReadLogDirectory(ata_device * device, ata_smart_log_directory *, bool gpl);
756:
757: // Read GP Log page(s)
758: bool ataReadLogExt(ata_device * device, unsigned char logaddr,
759: unsigned char features, unsigned page,
760: void * data, unsigned nsectors);
761: // Read SMART Log page(s)
762: bool ataReadSmartLog(ata_device * device, unsigned char logaddr,
763: void * data, unsigned nsectors);
764: // Read SMART Extended Comprehensive Error Log
765: bool ataReadExtErrorLog(ata_device * device, ata_smart_exterrlog * log,
766: unsigned nsectors);
767: // Read SMART Extended Self-test Log
768: bool ataReadExtSelfTestLog(ata_device * device, ata_smart_extselftestlog * log,
769: unsigned nsectors);
770:
771: // Read SCT information
772: int ataReadSCTStatus(ata_device * device, ata_sct_status_response * sts);
773: int ataReadSCTTempHist(ata_device * device, ata_sct_temperature_history_table * tmh,
774: ata_sct_status_response * sts);
775: // Set SCT temperature logging interval
776: int ataSetSCTTempInterval(ata_device * device, unsigned interval, bool persistent);
777:
778: // Get/Set SCT Error Recovery Control
779: int ataGetSCTErrorRecoveryControltime(ata_device * device, unsigned type, unsigned short & time_limit);
780: int ataSetSCTErrorRecoveryControltime(ata_device * device, unsigned type, unsigned short time_limit);
781:
782:
783: /* Enable/Disable SMART on device */
784: int ataEnableSmart (ata_device * device);
785: int ataDisableSmart (ata_device * device);
786: int ataEnableAutoSave(ata_device * device);
787: int ataDisableAutoSave(ata_device * device);
788:
789: /* Automatic Offline Testing */
790: int ataEnableAutoOffline (ata_device * device);
791: int ataDisableAutoOffline (ata_device * device);
792:
793: /* S.M.A.R.T. test commands */
1.1.1.2 ! misho 794: int ataSmartTest(ata_device * device, int testtype, bool force,
! 795: const ata_selective_selftest_args & args,
! 796: const ata_smart_values * sv, uint64_t num_sectors);
! 797:
1.1 misho 798: int ataWriteSelectiveSelfTestLog(ata_device * device, ata_selective_selftest_args & args,
799: const ata_smart_values * sv, uint64_t num_sectors,
800: const ata_selective_selftest_args * prev_spans = 0);
801:
802: // Returns the latest compatibility of ATA/ATAPI Version the device
803: // supports. Returns -1 if Version command is not supported
804: int ataVersionInfo(const char ** description, const ata_identify_device * drive, unsigned short * minor);
805:
806: // Get World Wide Name (WWN) fields.
807: // Return NAA field or -1 if WWN is unsupported.
808: int ata_get_wwn(const ata_identify_device * id, unsigned & oui, uint64_t & unique_id);
809:
810: // If SMART supported, this is guaranteed to return 1 if SMART is enabled, else 0.
811: int ataDoesSmartWork(ata_device * device);
812:
813: // returns 1 if SMART supported, 0 if not supported or can't tell
814: int ataSmartSupport(const ata_identify_device * drive);
815:
816: // Return values:
817: // 1: SMART enabled
818: // 0: SMART disabled
819: // -1: can't tell if SMART is enabled -- try issuing ataDoesSmartWork command to see
820: int ataIsSmartEnabled(const ata_identify_device * drive);
821:
822: int ataSmartStatus2(ata_device * device);
823:
824: int isSmartErrorLogCapable(const ata_smart_values * data, const ata_identify_device * identity);
825:
826: int isSmartTestLogCapable(const ata_smart_values * data, const ata_identify_device * identity);
827:
828: int isGeneralPurposeLoggingCapable(const ata_identify_device * identity);
829:
830: int isSupportExecuteOfflineImmediate(const ata_smart_values * data);
831:
832: int isSupportAutomaticTimer(const ata_smart_values * data);
833:
834: int isSupportOfflineAbort(const ata_smart_values * data);
835:
836: int isSupportOfflineSurfaceScan(const ata_smart_values * data);
837:
838: int isSupportSelfTest(const ata_smart_values * data);
839:
840: int isSupportConveyanceSelfTest(const ata_smart_values * data);
841:
842: int isSupportSelectiveSelfTest(const ata_smart_values * data);
843:
844: inline bool isSCTCapable(const ata_identify_device *drive)
845: { return !!(drive->words088_255[206-88] & 0x01); } // 0x01 = SCT support
846:
847: inline bool isSCTErrorRecoveryControlCapable(const ata_identify_device *drive)
848: { return ((drive->words088_255[206-88] & 0x09) == 0x09); } // 0x08 = SCT Error Recovery Control support
849:
850: inline bool isSCTFeatureControlCapable(const ata_identify_device *drive)
851: { return ((drive->words088_255[206-88] & 0x11) == 0x11); } // 0x10 = SCT Feature Control support
852:
853: inline bool isSCTDataTableCapable(const ata_identify_device *drive)
854: { return ((drive->words088_255[206-88] & 0x21) == 0x21); } // 0x20 = SCT Data Table support
855:
856: int TestTime(const ata_smart_values * data, int testtype);
857:
858: // Attribute state
859: enum ata_attr_state
860: {
861: ATTRSTATE_NON_EXISTING, // No such Attribute
862: ATTRSTATE_NO_NORMVAL, // Normalized value not valid
863: ATTRSTATE_NO_THRESHOLD, // Unknown or no threshold
864: ATTRSTATE_OK, // Never failed
865: ATTRSTATE_FAILED_PAST, // Failed in the past
866: ATTRSTATE_FAILED_NOW // Failed now
867: };
868:
869: // Get attribute state
870: ata_attr_state ata_get_attr_state(const ata_smart_attribute & attr,
871: int attridx,
872: const ata_smart_threshold_entry * thresholds,
873: const ata_vendor_attr_defs & defs,
874: unsigned char * threshval = 0);
875:
876: // Get attribute raw value.
877: uint64_t ata_get_attr_raw_value(const ata_smart_attribute & attr,
878: const ata_vendor_attr_defs & defs);
879:
880: // Format attribute raw value.
881: std::string ata_format_attr_raw_value(const ata_smart_attribute & attr,
882: const ata_vendor_attr_defs & defs);
883:
884: // Get attribute name
885: std::string ata_get_smart_attr_name(unsigned char id,
886: const ata_vendor_attr_defs & defs);
887:
888: // External handler function, for when a checksum is not correct. Can
889: // simply return if no action is desired, or can print error messages
890: // as needed, or exit. Is passed a string with the name of the Data
891: // Structure with the incorrect checksum.
892: void checksumwarning(const char *string);
893:
894: // Find attribute index for attribute id, -1 if not found.
895: int ata_find_attr_index(unsigned char id, const ata_smart_values & smartval);
896:
897: // Return Temperature Attribute raw value selected according to possible
898: // non-default interpretations. If the Attribute does not exist, return 0
899: unsigned char ata_return_temperature_value(const ata_smart_values * data, const ata_vendor_attr_defs & defs);
900:
901:
902: // This are the meanings of the Self-test failure checkpoint byte.
903: // This is in the self-test log at offset 4 bytes into the self-test
904: // descriptor and in the SMART READ DATA structure at byte offset
905: // 371. These codes are not well documented. The meanings returned by
906: // this routine are used (at least) by Maxtor and IBM. Returns NULL if
907: // not recognized.
908: const char *SelfTestFailureCodeName(unsigned char which);
909:
910:
911: #define MAX_ATTRIBUTE_NUM 256
912:
913: // Parse vendor attribute display def (-v option).
914: // Return false on error.
915: bool parse_attribute_def(const char * opt, ata_vendor_attr_defs & defs,
916: ata_vendor_def_prior priority);
917:
918: // Get ID and increase flag of current pending or offline
919: // uncorrectable attribute.
920: unsigned char get_unc_attr_id(bool offline, const ata_vendor_attr_defs & defs,
921: bool & increase);
922:
923: // Return a multiline string containing a list of valid arguments for
924: // parse_attribute_def().
925: std::string create_vendor_attribute_arg_list();
926:
927:
928: // These are two of the functions that are defined in os_*.c and need
929: // to be ported to get smartmontools onto another OS.
930: // Moved to C++ interface
931: //int ata_command_interface(int device, smart_command_set command, int select, char *data);
932: //int escalade_command_interface(int fd, int escalade_port, int escalade_type, smart_command_set command, int select, char *data);
933: //int marvell_command_interface(int device, smart_command_set command, int select, char *data);
934: //int highpoint_command_interface(int device, smart_command_set command, int select, char *data);
935: //int areca_command_interface(int fd, int disknum, smart_command_set command, int select, char *data);
936:
937:
938: // Optional functions of os_*.c
939: #ifdef HAVE_ATA_IDENTIFY_IS_CACHED
940: // Return true if OS caches the ATA identify sector
941: //int ata_identify_is_cached(int fd);
942: #endif
943:
944: // This function is exported to give low-level capability
945: int smartcommandhandler(ata_device * device, smart_command_set command, int select, char *data);
946:
947: // Print one self-test log entry.
948: // Returns:
949: // -1: failed self-test
950: // 1: extended self-test completed without error
951: // 0: otherwise
952: int ataPrintSmartSelfTestEntry(unsigned testnum, unsigned char test_type,
953: unsigned char test_status,
954: unsigned short timestamp,
955: uint64_t failing_lba,
956: bool print_error_only, bool & print_header);
957:
958: // Print Smart self-test log, used by smartctl and smartd.
959: int ataPrintSmartSelfTestlog(const ata_smart_selftestlog * data, bool allentries,
960: unsigned char fix_firmwarebug);
961:
962: // Get capacity and sector sizes from IDENTIFY data
963: struct ata_size_info
964: {
965: uint64_t sectors;
966: uint64_t capacity;
967: unsigned log_sector_size;
968: unsigned phy_sector_size;
969: unsigned log_sector_offset;
970: };
971:
972: void ata_get_size_info(const ata_identify_device * id, ata_size_info & sizes);
973:
974: // Convenience function for formatting strings from ata_identify_device.
975: void ata_format_id_string(char * out, const unsigned char * in, int n);
976:
977: // Utility routines.
978: unsigned char checksum(const void * data);
979:
980: void swap2(char *location);
981: void swap4(char *location);
982: void swap8(char *location);
983: // Typesafe variants using overloading
984: inline void swapx(unsigned short * p)
985: { swap2((char*)p); }
986: inline void swapx(unsigned int * p)
987: { swap4((char*)p); }
988: inline void swapx(uint64_t * p)
989: { swap8((char*)p); }
990:
991: // Return pseudo-device to parse "smartctl -r ataioctl,2 ..." output
992: // and simulate an ATA device with same behaviour
993: ata_device * get_parsed_ata_device(smart_interface * intf, const char * dev_name);
994:
995: #endif /* ATACMDS_H_ */
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