/* * knowndrives.cpp * * Home page of code is: http://smartmontools.sourceforge.net * Address of support mailing list: smartmontools-support@lists.sourceforge.net * * Copyright (C) 2003-7 Philip Williams, Bruce Allen * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * You should have received a copy of the GNU General Public License * (for example COPYING); if not, write to the Free * Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * */ #include "config.h" #include "int64.h" #include #include "atacmds.h" #include "ataprint.h" #include "extern.h" #include "knowndrives.h" #include "utility.h" // includes const char *knowndrives_c_cvsid="$Id: knowndrives.cpp,v 1.162 2007/11/05 00:29:11 geoffk1 Exp $" ATACMDS_H_CVSID ATAPRINT_H_CVSID CONFIG_H_CVSID EXTERN_H_CVSID INT64_H_CVSID KNOWNDRIVES_H_CVSID UTILITY_H_CVSID; #define MODEL_STRING_LENGTH 40 #define FIRMWARE_STRING_LENGTH 8 #define TABLEPRINTWIDTH 19 // See vendorattributeargs[] array in atacmds.cpp for definitions. #define PRESET_9_MINUTES { 9, 1 } #define PRESET_9_TEMP { 9, 2 } #define PRESET_9_SECONDS { 9, 3 } #define PRESET_9_HALFMINUTES { 9, 4 } #define PRESET_192_EMERGENCYRETRACTCYCLECT { 192, 1 } #define PRESET_193_LOADUNLOAD { 193, 1 } #define PRESET_194_10XCELSIUS { 194, 1 } #define PRESET_194_UNKNOWN { 194, 2 } #define PRESET_198_OFFLINESCANUNCSECTORCT { 198, 1 } #define PRESET_200_WRITEERRORCOUNT { 200, 1 } #define PRESET_201_DETECTEDTACOUNT { 201, 1 } #define PRESET_220_TEMP { 220, 1 } /* Arrays of preset vendor-specific attribute options for use in * knowndrives[]. */ extern int64_t bytes; // to hold onto exit code for atexit routine extern int exitstatus; // These three are common to several models. const unsigned char vendoropts_9_minutes[][2] = { PRESET_9_MINUTES, {0,0} }; const unsigned char vendoropts_9_halfminutes[][2] = { PRESET_9_HALFMINUTES, {0,0} }; const unsigned char vendoropts_9_seconds[][2] = { PRESET_9_SECONDS, {0,0} }; const unsigned char vendoropts_Maxtor_4D080H4[][2] = { PRESET_9_MINUTES, PRESET_194_UNKNOWN, {0,0} }; const unsigned char vendoropts_Fujitsu_MHS2020AT[][2] = { PRESET_9_SECONDS, PRESET_192_EMERGENCYRETRACTCYCLECT, PRESET_198_OFFLINESCANUNCSECTORCT, PRESET_200_WRITEERRORCOUNT, PRESET_201_DETECTEDTACOUNT, {0,0} }; const unsigned char vendoropts_Fujitsu_MHR2040AT[][2] = { PRESET_9_SECONDS, PRESET_192_EMERGENCYRETRACTCYCLECT, PRESET_198_OFFLINESCANUNCSECTORCT, PRESET_200_WRITEERRORCOUNT, {0,0} }; const unsigned char vendoropts_Samsung_SV4012H[][2] = { PRESET_9_HALFMINUTES, {0,0} }; const unsigned char vendoropts_Samsung_SV1204H[][2] = { PRESET_9_HALFMINUTES, PRESET_194_10XCELSIUS, {0,0} }; const unsigned char vendoropts_Hitachi_DK23XX[][2] = { PRESET_9_MINUTES, PRESET_193_LOADUNLOAD, {0,0} }; const char same_as_minus_F[]="Fixes byte order in some SMART data (same as -F samsung)"; const char same_as_minus_F2[]="Fixes byte order in some SMART data (same as -F samsung2)"; const char same_as_minus_F3[]="Fixes completed self-test reported as in progress (same as -F samsung3)"; const char may_need_minus_F_disabled[] ="May need -F samsung disabled; see manual for details."; const char may_need_minus_F2_disabled[]="May need -F samsung2 disabled; see manual for details."; const char may_need_minus_F2_enabled[] ="May need -F samsung2 enabled; see manual for details."; const char may_need_minus_F_enabled[] ="May need -F samsung or -F samsung2 enabled; see manual for details."; const char may_need_minus_F3_enabled[] ="May need -F samsung3 enabled; see manual for details."; /* Special-purpose functions for use in knowndrives[]. */ void specialpurpose_reverse_samsung(smartmonctrl *con) { if (con->fixfirmwarebug==FIX_NOTSPECIFIED) con->fixfirmwarebug = FIX_SAMSUNG; } void specialpurpose_reverse_samsung2(smartmonctrl *con) { if (con->fixfirmwarebug==FIX_NOTSPECIFIED) con->fixfirmwarebug = FIX_SAMSUNG2; } void specialpurpose_fix_samsung3(smartmonctrl *con) { if (con->fixfirmwarebug==FIX_NOTSPECIFIED) con->fixfirmwarebug = FIX_SAMSUNG3; } /* Table of settings for known drives terminated by an element containing all * zeros. The drivesettings structure is described in knowndrives.h. Note * that lookupdrive() will search knowndrives[] from the start to end or * until it finds the first match, so the order in knowndrives[] is important * for distinct entries that could match the same drive. */ // Note that the table just below uses EXTENDED REGULAR EXPRESSIONS. // A good on-line reference for these is: // http://www.zeus.com/extra/docsystem/docroot/apps/web/docs/modules/access/regex.html const drivesettings knowndrives[] = { { "IBM Deskstar 60GXP series", // ER60A46A firmware "(IBM-|Hitachi )?IC35L0[12346]0AVER07", "^ER60A46A$", NULL, NULL, NULL, NULL }, { "IBM Deskstar 60GXP series", // All other firmware "(IBM-|Hitachi )?IC35L0[12346]0AVER07", ".*", "IBM Deskstar 60GXP drives may need upgraded SMART firmware.\n" "Please see http://www.geocities.com/dtla_update/index.html#rel and\n" "http://www-3.ibm.com/pc/support/site.wss/document.do?lndocid=MIGR-42215 or\n" "http://www-1.ibm.com/support/docview.wss?uid=psg1MIGR-42215", NULL, NULL, NULL }, { "IBM Deskstar 40GV & 75GXP series (A5AA/A6AA firmware)", "(IBM-)?DTLA-30[57]0[123467][05]", "^T[WX][123468AG][OF]A[56]AA$", NULL, NULL, NULL, NULL }, { "IBM Deskstar 40GV & 75GXP series (all other firmware)", "(IBM-)?DTLA-30[57]0[123467][05]", ".*", "IBM Deskstar 40GV and 75GXP drives may need upgraded SMART firmware.\n" "Please see http://www.geocities.com/dtla_update/ and\n" "http://www-3.ibm.com/pc/support/site.wss/document.do?lndocid=MIGR-42215 or\n" "http://www-1.ibm.com/support/docview.wss?uid=psg1MIGR-42215", NULL, NULL, NULL }, { NULL, // ExcelStor J240, J340, J360, J680, and J880 "^ExcelStor Technology J(24|34|36|68|88)0$", ".*", NULL, NULL, NULL, NULL }, { NULL, // Fujitsu M1623TAU "^FUJITSU M1623TAU$", ".*", NULL, vendoropts_9_seconds, NULL, NULL }, { "Fujitsu MHG series", "^FUJITSU MHG2...ATU?", ".*", NULL, vendoropts_9_seconds, NULL, NULL }, { "Fujitsu MHH series", "^FUJITSU MHH2...ATU?", ".*", NULL, vendoropts_9_seconds, NULL, NULL }, { "Fujitsu MHJ series", "^FUJITSU MHJ2...ATU?", ".*", NULL, vendoropts_9_seconds, NULL, NULL }, { "Fujitsu MHK series", "^FUJITSU MHK2...ATU?", ".*", NULL, vendoropts_9_seconds, NULL, NULL }, { NULL, // Fujitsu MHL2300AT "^FUJITSU MHL2300AT$", ".*", "This drive's firmware has a harmless Drive Identity Structure\n" "checksum error bug.", vendoropts_9_seconds, NULL, NULL }, { NULL, // MHM2200AT, MHM2150AT, MHM2100AT, MHM2060AT "^FUJITSU MHM2(20|15|10|06)0AT$", ".*", "This drive's firmware has a harmless Drive Identity Structure\n" "checksum error bug.", vendoropts_9_seconds, NULL, NULL }, { "Fujitsu MHN series", "^FUJITSU MHN2...AT$", ".*", NULL, vendoropts_9_seconds, NULL, NULL }, { NULL, // Fujitsu MHR2020AT "^FUJITSU MHR2020AT$", ".*", NULL, vendoropts_9_seconds, NULL, NULL }, { NULL, // Fujitsu MHR2040AT "^FUJITSU MHR2040AT$", ".*", // Tested on 40BA NULL, vendoropts_Fujitsu_MHR2040AT, NULL, NULL }, { "Fujitsu MHSxxxxAT family", "^FUJITSU MHS20[6432]0AT( .)?$", ".*", NULL, vendoropts_Fujitsu_MHS2020AT, NULL, NULL }, { "Fujitsu MHT series", "^FUJITSU MHT2...(AH|AS|AT|BH)U?", ".*", NULL, vendoropts_9_seconds, NULL, NULL }, { "Fujitsu MHU series", "^FUJITSU MHU2...ATU?", ".*", NULL, vendoropts_9_seconds, NULL, NULL }, { "Fujitsu MHV series", "^FUJITSU MHV2...(AH|AS|AT|BH|BS|BT)", ".*", NULL, vendoropts_9_seconds, NULL, NULL }, { "Fujitsu MPA..MPG series", "^FUJITSU MP[A-G]3...A[HTEV]U?", ".*", NULL, vendoropts_9_seconds, NULL, NULL }, { NULL, // Samsung SV4012H (known firmware) "^SAMSUNG SV4012H$", "^RM100-08$", NULL, vendoropts_Samsung_SV4012H, specialpurpose_reverse_samsung, same_as_minus_F }, { NULL, // Samsung SV4012H (all other firmware) "^SAMSUNG SV4012H$", ".*", may_need_minus_F_disabled, vendoropts_Samsung_SV4012H, specialpurpose_reverse_samsung, same_as_minus_F }, { NULL, // Samsung SV0412H (known firmware) "^SAMSUNG SV0412H$", "^SK100-01$", NULL, vendoropts_Samsung_SV1204H, specialpurpose_reverse_samsung, same_as_minus_F }, { NULL, // Samsung SV0412H (all other firmware) "^SAMSUNG SV0412H$", ".*", may_need_minus_F_disabled, vendoropts_Samsung_SV1204H, specialpurpose_reverse_samsung, same_as_minus_F }, { NULL, // Samsung SV1204H (known firmware) "^SAMSUNG SV1204H$", "^RK100-1[3-5]$", NULL, vendoropts_Samsung_SV1204H, specialpurpose_reverse_samsung, same_as_minus_F }, { NULL, // Samsung SV1204H (all other firmware) "^SAMSUNG SV1204H$", ".*", may_need_minus_F_disabled, vendoropts_Samsung_SV1204H, specialpurpose_reverse_samsung, same_as_minus_F }, { NULL, // SAMSUNG SV0322A tested with FW JK200-35 "^SAMSUNG SV0322A$", ".*", NULL, NULL, NULL, NULL }, { NULL, // SAMSUNG SP40A2H with RR100-07 firmware "^SAMSUNG SP40A2H$", "^RR100-07$", NULL, vendoropts_9_halfminutes, specialpurpose_reverse_samsung, same_as_minus_F }, { NULL, // SAMSUNG SP8004H with QW100-61 firmware "^SAMSUNG SP8004H$", "^QW100-61$", NULL, vendoropts_9_halfminutes, specialpurpose_reverse_samsung, same_as_minus_F }, { "SAMSUNG SpinPoint T133 series", // tested with HD300LJ/ZT100-12, HD400LJ/ZZ100-14, HD401LJ/ZZ100-15 "^SAMSUNG HD(250KD|(30[01]|320|40[01])L[DJ])$", ".*", NULL, NULL, NULL, NULL }, { "SAMSUNG SpinPoint T166 series", // tested with HD501LJ/CR100-10 "^SAMSUNG HD(080G|160H|32[01]K|403L|50[01]L)J$", ".*", NULL, NULL, NULL, NULL }, { "SAMSUNG SpinPoint P120 series", // VF100-37 firmware, tested with SP2514N/VF100-37 "^SAMSUNG SP(16[01]3|2[05][01]4)[CN]$", "^VF100-37$", NULL, NULL, specialpurpose_fix_samsung3, same_as_minus_F3 }, { "SAMSUNG SpinPoint P120 series", // other firmware, tested with SP2504C/VT100-33 "^SAMSUNG SP(16[01]3|2[05][01]4)[CN]$", ".*", may_need_minus_F3_enabled, NULL, NULL, NULL }, { "SAMSUNG SpinPoint P80 SD series", // tested with HD160JJ/ZM100-33 "^SAMSUNG HD(080H|120I|160J)J$", ".*", NULL, NULL, NULL, NULL }, { "SAMSUNG SpinPoint P80 series", // BH100-35 firmware, tested with SP0842N/BH100-35 "^SAMSUNG SP(0451|08[0124]2|12[0145]3|16[0145]4)[CN]$", "^BH100-35$", NULL, NULL, specialpurpose_fix_samsung3, same_as_minus_F3 }, { "SAMSUNG SpinPoint P80 series", // firmware *-35 or later "^SAMSUNG SP(0451|08[0124]2|12[0145]3|16[0145]4)[CN]$", ".*-3[5-9]$", may_need_minus_F3_enabled, NULL, NULL, NULL }, { "SAMSUNG SpinPoint P80 series", // firmware *-26...34, tested with SP1614C/SW100-34 "^SAMSUNG SP(0451|08[0124]2|12[0145]3|16[0145]4)[CN]$", ".*-(2[6789]|3[0-4])$", NULL, vendoropts_9_halfminutes, NULL, NULL }, { NULL, // Any other Samsung disk with *-23 *-24 firmware // SAMSUNG SP1213N (TL100-23 firmware) // SAMSUNG SP0802N (TK100-23 firmware) // Samsung SP1604N, tested with FW TM100-23 and TM100-24 "^SAMSUNG .*$", ".*-2[34]$", NULL, vendoropts_Samsung_SV4012H, specialpurpose_reverse_samsung2, same_as_minus_F2 }, { NULL, // All Samsung drives with '.*-25' firmware "^SAMSUNG.*", ".*-25$", may_need_minus_F2_disabled, vendoropts_Samsung_SV4012H, specialpurpose_reverse_samsung2, same_as_minus_F2 }, { NULL, // All Samsung drives with '.*-26 or later (currently to -39)' firmware "^SAMSUNG.*", ".*-(2[6789]|3[0-9])$", NULL, vendoropts_Samsung_SV4012H, NULL, NULL }, { NULL, // Samsung ALL OTHER DRIVES "^SAMSUNG.*", ".*", may_need_minus_F_enabled, NULL, NULL, NULL }, { "Maxtor Fireball 541DX family", "^Maxtor 2B0(0[468]|1[05]|20)H1$", ".*", NULL, vendoropts_Maxtor_4D080H4, NULL, NULL }, { "Maxtor Fireball 3 family", "^Maxtor 2F0[234]0[JL]0$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 2160 Ultra ATA family", "^Maxtor 8(2160D2|3228D3|3240D3|4320D4|6480D6|8400D8|8455D8)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 2880 Ultra ATA family", "^Maxtor 9(0510D4|0576D4|0648D5|0720D5|0840D6|0845D6|0864D6|1008D7|1080D8|1152D8)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 3400 Ultra ATA family", "^Maxtor 9(1(360|350|202)D8|1190D7|10[12]0D6|0840D5|06[48]0D4|0510D3|1(350|202)E8|1010E6|0840E5|0640E4)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax D540X-4G family", "^Maxtor 4G(120J6|160J[68])$", ".*", NULL, vendoropts_Maxtor_4D080H4, NULL, NULL }, { "Maxtor DiamondMax D540X-4K family", "^MAXTOR 4K(020H1|040H2|060H3|080H4)$", ".*", NULL, NULL, NULL, NULL }, { "Maxtor DiamondMax Plus D740X family", "^MAXTOR 6L0(20[JL]1|40[JL]2|60[JL]3|80[JL]4)$", ".*", NULL, NULL, NULL, NULL }, { "Maxtor DiamondMax Plus 5120 Ultra ATA 33 family", "^Maxtor 9(0512D2|0680D3|0750D3|0913D4|1024D4|1360D6|1536D6|1792D7|2048D8)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax Plus 6800 Ultra ATA 66 family", "^Maxtor 9(2732U8|2390U7|2049U6|1707U5|1366U4|1024U3|0845U3|0683U2)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax D540X-4D", "^Maxtor 4D0(20H1|40H2|60H3|80H4)$", ".*", NULL, vendoropts_Maxtor_4D080H4, NULL, NULL }, { "Maxtor DiamondMax 16 family", "^Maxtor 4(R0[68]0[JL]0|R1[26]0L0|A160J0|R120L4)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 4320 Ultra ATA family", "^Maxtor (91728D8|91512D7|91303D6|91080D5|90845D4|90645D3|90648D[34]|90432D2)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 17 VL family", "^Maxtor 9(0431U1|0641U2|0871U2|1301U3|1741U4)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 20 VL family", "^Maxtor (94091U8|93071U6|92561U5|92041U4|91731U4|91531U3|91361U3|91021U2|90841U2|90651U2)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax VL 30 family", "^Maxtor (33073U4|32049U3|31536U2|30768U1)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 36 family", "^Maxtor (93652U8|92739U6|91826U4|91369U3|90913U2|90845U2|90435U1)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 40 ATA 66 series", "^Maxtor 9(0684U2|1024U2|1362U3|1536U3|2049U4|2562U5|3073U6|4098U8)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax Plus 40 series (Ultra ATA 66 and Ultra ATA 100)", "^Maxtor (54098[UH]8|53073[UH]6|52732[UH]6|52049[UH]4|51536[UH]3|51369[UH]3|51024[UH]2)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 40 VL Ultra ATA 100 series", "^Maxtor 3(1024H1|1535H2|2049H2|3073H3|4098H4)( B)?$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax Plus 45 Ulta ATA 100 family", "^Maxtor 5(4610H6|4098H6|3073H4|2049H3|1536H2|1369H2|1023H2)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 60 ATA 66 family", "^Maxtor 9(1023U2|1536U2|2049U3|2305U3|3073U4|4610U6|6147U8)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 60 ATA 100 family", "^Maxtor 9(1023H2|1536H2|2049H3|2305H3|3073H4|4610H6|6147H8)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax Plus 60 family", "^Maxtor 5T0(60H6|40H4|30H3|20H2|10H1)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 80 family", "^Maxtor (98196H8|96147H6)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 536DX family", "^Maxtor 4W(100H6|080H6|060H4|040H3|030H2)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax Plus 8 family", "^Maxtor 6(E0[234]|K04)0L0$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 10 family (ATA/133 and SATA/150)", "^Maxtor 6(B(30|25|20|16|12|08)0[MPRS]|L(080[MLP]|(100|120)[MP]|160[MP]|200[MPRS]|250[RS]|300[RS]))0$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 10 family (SATA/300)", "^Maxtor 6V(080E|160E|200E|250F|300F|320F)0$", ".*", NULL, NULL, NULL, NULL }, { "Maxtor DiamondMax Plus 9 family", "^Maxtor 6Y((060|080|120|160)L0|(060|080|120|160|200|250)P0|(060|080|120|160|200|250)M0)$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor DiamondMax 11 family", "^Maxtor 6H[45]00[FR]0$", ".*", NULL, NULL, NULL, NULL }, { "Maxtor MaXLine Plus II", "^Maxtor 7Y250[PM]0$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor MaXLine II family", "^Maxtor [45]A(25|30|32)0[JN]0$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor MaXLine III family (ATA/133 and SATA/150)", "^Maxtor 7L(25|30)0[SR]0$", ".*", NULL, vendoropts_9_minutes, NULL, NULL }, { "Maxtor MaXLine III family (SATA/300)", "^Maxtor 7V(25|30)0F0$", ".*", NULL, NULL, NULL, NULL }, { "Maxtor MaXLine Pro 500 family", // There is also a 7H500R0 model, but I "^Maxtor 7H500F0$", // haven't added it because I suspect ".*", // it might need vendoropts_9_minutes NULL, NULL, NULL, NULL // and nobody has submitted a report yet }, { NULL, // HITACHI_DK14FA-20B "^HITACHI_DK14FA-20B$", ".*", NULL, vendoropts_Hitachi_DK23XX, NULL, NULL }, { "HITACHI Travelstar DK23XX/DK23XXB series", "^HITACHI_DK23..-..B?$", ".*", NULL, vendoropts_Hitachi_DK23XX, NULL, NULL }, { "Hitachi Endurastar J4K20/N4K20 (formerly DK23FA-20J)", "^(HITACHI_DK23FA-20J|HTA422020F9AT[JN]0)$", ".*", NULL, vendoropts_Hitachi_DK23XX, NULL, NULL }, { "IBM Deskstar 14GXP and 16GP series", "^IBM-DTTA-3(7101|7129|7144|5032|5043|5064|5084|5101|5129|5168)0$", ".*", NULL, NULL, NULL, NULL }, { "IBM Deskstar 25GP and 22GXP family", "^IBM-DJNA-3(5(101|152|203|250)|7(091|135|180|220))0$", ".*", NULL, NULL, NULL, NULL }, { "IBM Travelstar 4GT family", "^IBM-DTCA-2(324|409)0$", ".*", NULL, NULL, NULL, NULL }, { "IBM Travelstar 25GS, 18GT, and 12GN family", "^IBM-DARA-2(25|18|15|12|09|06)000$", ".*", NULL, NULL, NULL, NULL }, { "IBM Travelstar 48GH, 30GN, and 15GN family", "^(IBM-|Hitachi )?IC25(T048ATDA05|N0(30|20|15|12|10|07|06|05)ATDA04)-.$", ".*", NULL, NULL, NULL, NULL }, { "IBM Travelstar 32GH, 30GT, and 20GN family", "^IBM-DJSA-2(32|30|20|10|05)$", ".*", NULL, NULL, NULL, NULL }, { "IBM Travelstar 4GN family", "^IBM-DKLA-2(216|324|432)0$", ".*", NULL, NULL, NULL, NULL }, { "IBM Deskstar 37GP and 34GXP family", "^IBM-DPTA-3(5(375|300|225|150)|7(342|273|205|136))0$", ".*", NULL, NULL, NULL, NULL }, { "IBM/Hitachi Travelstar 60GH and 40GN family", "^(IBM-|Hitachi )?IC25(T060ATC[SX]05|N0[4321]0ATC[SX]04)-.$", ".*", NULL, NULL, NULL, NULL }, { "IBM/Hitachi Travelstar 40GNX family", "^(IBM-|Hitachi )?IC25N0[42]0ATC[SX]05-.$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Travelstar 80GN family", "^(Hitachi )?IC25N0[23468]0ATMR04-.$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Travelstar 5K80 family", "^HTS5480[8642]0M9AT00$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Travelstar 5K100 series", "^HTS5410[1864]0G9(AT|SA)00$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Travelstar E5K100 series", "^HTE541040G9(AT|SA)00$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Travelstar 5K160 series", "^(Hitachi )?HTS5416([468]0|1[26])J9(AT|SA)00$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Travelstar 7K60", "^HTS726060M9AT00$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Travelstar 7K100", "^HTS7210[168]0G9(AT|SA)00$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Travelstar E7K100", "^HTE7210[168]0G9(AT|SA)00$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Travelstar E7K60 family", "^HTE7260[46]0M9AT00$", ".*", NULL, NULL, NULL, NULL }, { "IBM/Hitachi Deskstar 120GXP family", "^(IBM-)?IC35L((020|040|060|080|120)AVVA|0[24]0AVVN)07-[01]$", ".*", NULL, NULL, NULL, NULL }, { "IBM/Hitachi Deskstar GXP-180 family", "^(IBM-)?IC35L(030|060|090|120|180)AVV207-[01]$", ".*", NULL, NULL, NULL, NULL }, { "IBM Travelstar 14GS", "^IBM-DCYA-214000$", ".*", NULL, NULL, NULL, NULL }, { "IBM Travelstar 4LP", "^IBM-DTNA-2(180|216)0$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Deskstar 7K80 series", "^(Hitachi )?HDS7280([48]0PLAT20|(40)?PLA320|80PLA380)$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Deskstar 7K250 series", "^(Hitachi )?HDS7225((40|80|12|16)VLAT20|(12|16|25)VLAT80|(80|12|16|25)VLSA80)$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Deskstar T7K250 series", "^(Hitachi )?HDT7225((25|20|16)DLA(T80|380))$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Deskstar 7K400 series", "^(Hitachi )?HDS724040KL(AT|SA)80$", ".*", NULL, NULL, NULL, NULL }, { "Hitachi Deskstar 7K500 series", "^(Hitachi )?HDS725050KLA(360|T80)$", ".*", NULL, NULL, NULL, NULL }, { "Toshiba 2.5\" HDD series (30-60 GB)", "^TOSHIBA MK((6034|4032)GSX|(6034|4032)GAX|(6026|4026|4019|3019)GAXB?|(6025|6021|4025|4021|4018|3021|3018)GAS|(4036|3029)GACE?|(4018|3017)GAP)$", ".*", NULL, NULL, NULL, NULL }, { "Toshiba 2.5\" HDD series (80 GB and above)", "^TOSHIBA MK(80(25GAS|26GAX|32GAX|32GSX)|10(31GAS|32GAX)|12(33GAS|34G[AS]X)|2035GSS)$", ".*", NULL, NULL, NULL, NULL }, { NULL, // TOSHIBA MK6022GAX "^TOSHIBA MK6022GAX$", ".*", NULL, NULL, NULL, NULL }, { NULL, // TOSHIBA MK6409MAV "^TOSHIBA MK6409MAV$", ".*", NULL, NULL, NULL, NULL }, { NULL, // TOS MK3019GAXB SUN30G "^TOS MK3019GAXB SUN30G$", ".*", NULL, NULL, NULL, NULL }, { NULL, // TOSHIBA MK2016GAP, MK2017GAP, MK2018GAP, MK2018GAS, MK2023GAS "^TOSHIBA MK20(1[678]GAP|(18|23)GAS)$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Momentus family", "^ST9(20|28|40|48)11A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Momentus 42 family", "^ST9(2014|3015|4019)A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Momentus 4200.2 Series", "^ST9(100822|808210|60821|50212|402113|30219)A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Momentus 5400.2 series", "^ST9(808211|60822|408114|308110|120821|10082[34]|8823|6812|4813|3811)AS?$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Momentus 7200.1 series", "^ST9(10021|80825|6023|4015)AS?$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Medalist 2110, 3221, 4321, 6531, and 8641", "^ST3(2110|3221|4321|6531|8641)A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate U Series X family", "^ST3(10014A(CE)?|20014A)$", ".*", NULL, NULL, NULL, NULL }, { "Seagate U7 family", "^ST3(30012|40012|60012|80022|120020)A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate U Series 6 family", "^ST3(8002|6002|4081|3061|2041)0A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate U Series 5 family", "^ST3(40823|30621|20413|15311|10211)A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate U4 family", "^ST3(2112|4311|6421|8421)A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate U8 family", "^ST3(8410|4313|17221|13021)A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate U10 family", "^ST3(20423|15323|10212)A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Barracuda ATA II family", "^ST3(3063|2042|1532|1021)0A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Barracuda ATA III family", "^ST3(40824|30620|20414|15310|10215)A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Barracuda ATA IV family", "^ST3(20011|30011|40016|60021|80021)A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Barracuda ATA V family", "^ST3(12002(3A|4A|9A|3AS)|800(23A|15A|23AS)|60(015A|210A)|40017A)$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Barracuda 5400.1", "^ST340015A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Barracuda 7200.7 and 7200.7 Plus family", "^ST3(200021A|200822AS?|16002[13]AS?|12002[26]AS?|1[26]082[78]AS|8001[13]AS?|80817AS|60014A|40111AS|40014AS?)$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Barracuda 7200.8 family", "^ST3(400[68]32|300[68]31|250[68]23|200826)AS?$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Barracuda 7200.9 family", "^ST3(500[68]41|400[68]33|300[68]22|250[68]24|250[68]24|200827|160[28]12|120814|120[28]13|80[28]110|402111)AS?$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Barracuda 7200.10 family", "^ST3(750[68]4|500[68]3|400[68]2|320[68]2|300[68]2|250[68]2|20082)0AS?$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Medalist 17240, 13030, 10231, 8420, and 4310", "^ST3(17240|13030|10231|8420|4310)A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate Medalist 17242, 13032, 10232, 8422, and 4312", "^ST3(1724|1303|1023|842|431)2A$", ".*", NULL, NULL, NULL, NULL }, { "Seagate NL35 family", "^ST3(250623|250823|400632|400832|250824|250624|400633|400833|500641|500841)NS$", ".*", NULL, NULL, NULL, NULL }, { "Western Digital Protege", /* Western Digital drives with this comment all appear to use Attribute 9 in * a non-standard manner. These entries may need to be updated when it * is understood exactly how Attribute 9 should be interpreted. * UPDATE: this is probably explained by the WD firmware bug described in the * smartmontools FAQ */ "^WDC WD([2468]00E|1[26]00A)B-.*$", ".*", NULL, NULL, NULL, NULL }, { "Western Digital Caviar family", /* Western Digital drives with this comment all appear to use Attribute 9 in * a non-standard manner. These entries may need to be updated when it * is understood exactly how Attribute 9 should be interpreted. * UPDATE: this is probably explained by the WD firmware bug described in the * smartmontools FAQ */ "^WDC WD(2|3|4|6|8|10|12|16|18|20|25)00BB-.*$", ".*", NULL, NULL, NULL, NULL }, { "Western Digital Caviar WDxxxAB series", /* Western Digital drives with this comment all appear to use Attribute 9 in * a non-standard manner. These entries may need to be updated when it * is understood exactly how Attribute 9 should be interpreted. * UPDATE: this is probably explained by the WD firmware bug described in the * smartmontools FAQ */ "^WDC WD(3|4|6)00AB-.*$", ".*", NULL, NULL, NULL, NULL }, { "Western Digital Caviar WDxxxAA series", /* Western Digital drives with this comment all appear to use Attribute 9 in * a non-standard manner. These entries may need to be updated when it * is understood exactly how Attribute 9 should be interpreted. * UPDATE: this is probably explained by the WD firmware bug described in the * smartmontools FAQ */ "^WDC WD...?AA(-.*)?$", ".*", NULL, NULL, NULL, NULL }, { "Western Digital Caviar WDxxxBA series", /* Western Digital drives with this comment all appear to use Attribute 9 in * a non-standard manner. These entries may need to be updated when it * is understood exactly how Attribute 9 should be interpreted. * UPDATE: this is probably explained by the WD firmware bug described in the * smartmontools FAQ */ "^WDC WD...BA$", ".*", NULL, NULL, NULL, NULL }, { NULL, // Western Digital Caviar AC12500, AC14300, AC23200, AC24300, AC25100, // AC36400, AC38400 "^WDC AC(125|143|232|243|251|364|384)00.?", ".*", NULL, NULL, NULL, NULL }, { "Western Digital Caviar Serial ATA family", "^WDC WD(4|8|20|32)00BD-.*$", ".*", NULL, NULL, NULL, NULL }, { "Western Digital Caviar SE family", /* Western Digital drives with this comment all appear to use Attribute 9 in * a non-standard manner. These entries may need to be updated when it * is understood exactly how Attribute 9 should be interpreted. * UPDATE: this is probably explained by the WD firmware bug described in the * smartmontools FAQ */ "^WDC WD((4|6|8|10|12|16|18|20|25|30|32)00JB|(12|20|25)00PB)-.*$", ".*", NULL, NULL, NULL, NULL }, { "Western Digital Caviar SE (Serial ATA) family", "^WDC WD((4|8|12|16|20|25|32)00JD|(12|16|20|25|30|32)00JS|1600AAJS)-.*$", ".*", NULL, NULL, NULL, NULL }, { "Western Digital Caviar SE16 family", "^WDC WD((25|32|40|50)00KS|4000KD)-.*$", ".*", NULL, NULL, NULL, NULL }, { "Western Digital Caviar RE Serial ATA series", "^WDC WD((12|16|25|32)00SD|2500YD|4000Y[RS]|5000YS)-.*$", ".*", NULL, NULL, NULL, NULL }, { "Western Digital Raptor family", "^WDC WD((360|740|800)GD|(360|740|1500)ADFD)-.*$", ".*", NULL, NULL, NULL, NULL }, { "Western Digital Scorpio family", "^WDC WD((12|10|8|6|4)00(UE|VE|BEAS|BEVS))-.*$", ".*", NULL, NULL, NULL, NULL }, { NULL, // QUANTUM BIGFOOT TS10.0A "^QUANTUM BIGFOOT TS10.0A$", ".*", NULL, NULL, NULL, NULL }, { NULL, // QUANTUM FIREBALLlct15 20 and QUANTUM FIREBALLlct15 30 "^QUANTUM FIREBALLlct15 [123]0$", ".*", NULL, NULL, NULL, NULL }, { "QUANTUM FIREBALLlct20 series", "^QUANTUM FIREBALLlct20 [234]0$", ".*", NULL, NULL, NULL, NULL }, { NULL, // QUANTUM FIREBALL CX10.2A "^QUANTUM FIREBALL CX10.2A$", ".*", NULL, NULL, NULL, NULL }, { "Quantum Fireball Plus LM series", "^QUANTUM FIREBALLP LM(10.2|15|20.5|30)$", ".*", NULL, NULL, NULL, NULL }, { "Quantum Fireball CR series", "^QUANTUM FIREBALL CR(4.3|8.4)A$", ".*", NULL, NULL, NULL, NULL }, { NULL, // QUANTUM FIREBALLP AS10.2, AS20.5, AS30.0, and AS40.0 "^QUANTUM FIREBALLP AS(10.2|20.5|30.0|40.0)$", ".*", NULL, NULL, NULL, NULL }, { NULL, // QUANTUM FIREBALL EX6.4A "^QUANTUM FIREBALL EX6.4A$", ".*", NULL, NULL, NULL, NULL }, { NULL, // QUANTUM FIREBALL ST3.2A "^QUANTUM FIREBALL ST(3.2|4.3)A$", ".*", NULL, NULL, NULL, NULL }, { NULL, // QUANTUM FIREBALL EX3.2A "^QUANTUM FIREBALL EX3.2A$", ".*", NULL, NULL, NULL, NULL }, { NULL, // QUANTUM FIREBALLP KX27.3 "^QUANTUM FIREBALLP KX27.3$", ".*", NULL, NULL, NULL, NULL }, { "Quantum Fireball Plus KA series", "^QUANTUM FIREBALLP KA(9|10).1$", ".*", NULL, NULL, NULL, NULL }, { "Quantum Fireball SE series", "^QUANTUM FIREBALL SE4.3A$", ".*", NULL, NULL, NULL, NULL }, /*------------------------------------------------------------ * End of table. Do not add entries below this marker. *------------------------------------------------------------ */ {NULL, NULL, NULL, NULL, NULL, NULL, NULL} }; // Searches knowndrives[] for a drive with the given model number and firmware // string. If either the drive's model or firmware strings are not set by the // manufacturer then values of NULL may be used. Returns the index of the // first match in knowndrives[] or -1 if no match if found. int lookupdrive(const char *model, const char *firmware) { regex_t regex; int i, index; const char *empty = ""; model = model ? model : empty; firmware = firmware ? firmware : empty; for (i = 0, index = -1; index == -1 && knowndrives[i].modelregexp; i++) { // Attempt to compile regular expression. if (compileregex(®ex, knowndrives[i].modelregexp, REG_EXTENDED)) goto CONTINUE; // Check whether model matches the regular expression in knowndrives[i]. if (!regexec(®ex, model, 0, NULL, 0)) { // model matches, now check firmware. if (!knowndrives[i].firmwareregexp) // The firmware regular expression in knowndrives[i] is NULL, which is // considered a match. index = i; else { // Compare firmware against the regular expression in knowndrives[i]. regfree(®ex); // Recycle regex. if (compileregex(®ex, knowndrives[i].firmwareregexp, REG_EXTENDED)) goto CONTINUE; if (!regexec(®ex, firmware, 0, NULL, 0)) index = i; } } CONTINUE: regfree(®ex); } return index; } // Shows all presets for drives in knowndrives[]. void showonepreset(const drivesettings *drivetable){ const unsigned char (* presets)[2] = drivetable->vendoropts; int first_preset = 1; // Basic error check if (!drivetable || !drivetable->modelregexp){ pout("Null known drive table pointer. Please report\n" "this error to smartmontools developers at " PACKAGE_BUGREPORT ".\n"); return; } // print model and firmware regular expressions pout("%-*s %s\n", TABLEPRINTWIDTH, "MODEL REGEXP:", drivetable->modelregexp); pout("%-*s %s\n", TABLEPRINTWIDTH, "FIRMWARE REGEXP:", drivetable->firmwareregexp ? drivetable->firmwareregexp : ""); pout("%-*s %s\n", TABLEPRINTWIDTH, "MODEL FAMILY:", drivetable->modelfamily ? drivetable->modelfamily : ""); // if there are any presets, then show them if (presets && (*presets)[0]) while (1) { char out[256]; const int attr = (*presets)[0], val = (*presets)[1]; unsigned char fakearray[MAX_ATTRIBUTE_NUM]; // if we are at the end of the attribute list, break out if (!attr) break; // This is a hack. ataPrintSmartAttribName() needs a pointer to an // "array" to dereference, so we provide such a pointer. fakearray[attr]=val; ataPrintSmartAttribName(out, attr, fakearray); // Use leading zeros instead of spaces so that everything lines up. out[0] = (out[0] == ' ') ? '0' : out[0]; out[1] = (out[1] == ' ') ? '0' : out[1]; pout("%-*s %s\n", TABLEPRINTWIDTH, first_preset ? "ATTRIBUTE OPTIONS:" : "", out); first_preset = 0; presets++; } else pout("%-*s %s\n", TABLEPRINTWIDTH, "ATTRIBUTE OPTIONS:", "None preset; no -v options are required."); // Is a special purpose function defined? If so, describe it if (drivetable->specialpurpose){ pout("%-*s ", TABLEPRINTWIDTH, "OTHER PRESETS:"); pout("%s\n", drivetable->functiondesc ? drivetable->functiondesc : "A special purpose function " "is defined for this drive"); } // Print any special warnings if (drivetable->warningmsg){ pout("%-*s ", TABLEPRINTWIDTH, "WARNINGS:"); pout("%s\n", drivetable->warningmsg); } return; } // Shows all presets for drives in knowndrives[]. // Returns <0 on syntax error in regular expressions. int showallpresets(void){ int i; int rc = 0; regex_t regex; // loop over all entries in the knowndrives[] table, printing them // out in a nice format for (i=0; knowndrives[i].modelregexp; i++){ showonepreset(&knowndrives[i]); pout("\n"); } // Check all regular expressions for (i=0; knowndrives[i].modelregexp; i++){ if (compileregex(®ex, knowndrives[i].modelregexp, REG_EXTENDED)) rc = -1; if (knowndrives[i].firmwareregexp) { if (compileregex(®ex, knowndrives[i].firmwareregexp, REG_EXTENDED)) rc = -1; } } pout("For information about adding a drive to the database see the FAQ on the\n"); pout("smartmontools home page: " PACKAGE_HOMEPAGE "\n"); return rc; } // Shows all matching presets for a drive in knowndrives[]. // Returns # matching entries. int showmatchingpresets(const char *model, const char *firmware){ int i; int cnt = 0; const char * firmwaremsg = (firmware ? firmware : "(any)"); regex_t regex; for (i=0; knowndrives[i].modelregexp; i++){ if (i > 0) regfree(®ex); if (compileregex(®ex, knowndrives[i].modelregexp, REG_EXTENDED)) continue; if (regexec(®ex, model, 0, NULL, 0)) continue; if (firmware && knowndrives[i].firmwareregexp) { regfree(®ex); if (compileregex(®ex, knowndrives[i].firmwareregexp, REG_EXTENDED)) continue; if (regexec(®ex, firmware, 0, NULL, 0)) continue; } if (++cnt == 1) pout("Drive found in smartmontools Database. Drive identity strings:\n" "%-*s %s\n" "%-*s %s\n" "match smartmontools Drive Database entry:\n", TABLEPRINTWIDTH, "MODEL:", model, TABLEPRINTWIDTH, "FIRMWARE:", firmwaremsg); else if (cnt == 2) pout("and match these additional entries:\n"); showonepreset(&knowndrives[i]); pout("\n"); } regfree(®ex); if (cnt == 0) pout("No presets are defined for this drive. Its identity strings:\n" "MODEL: %s\n" "FIRMWARE: %s\n" "do not match any of the known regular expressions.\n", model, firmwaremsg); return cnt; } // Shows the presets (if any) that are available for the given drive. void showpresets(const struct ata_identify_device *drive){ int i; char model[MODEL_STRING_LENGTH+1], firmware[FIRMWARE_STRING_LENGTH+1]; // get the drive's model/firmware strings format_ata_string(model, (char *)drive->model, MODEL_STRING_LENGTH); format_ata_string(firmware, (char *)drive->fw_rev, FIRMWARE_STRING_LENGTH); // and search to see if they match values in the table if ((i = lookupdrive(model, firmware)) < 0) { // no matches found pout("No presets are defined for this drive. Its identity strings:\n" "MODEL: %s\n" "FIRMWARE: %s\n" "do not match any of the known regular expressions.\n" "Use -P showall to list all known regular expressions.\n", model, firmware); return; } // We found a matching drive. Print out all information about it. pout("Drive found in smartmontools Database. Drive identity strings:\n" "%-*s %s\n" "%-*s %s\n" "match smartmontools Drive Database entry:\n", TABLEPRINTWIDTH, "MODEL:", model, TABLEPRINTWIDTH, "FIRMWARE:", firmware); showonepreset(&knowndrives[i]); return; } // Sets preset vendor attribute options in opts by finding the entry // (if any) for the given drive in knowndrives[]. Values that have // already been set in opts will not be changed. Returns <0 if drive // not recognized else index >=0 into drive database. int applypresets(const struct ata_identify_device *drive, unsigned char **optsptr, smartmonctrl *con) { int i; unsigned char *opts; char model[MODEL_STRING_LENGTH+1], firmware[FIRMWARE_STRING_LENGTH+1]; if (*optsptr==NULL) bytes+=MAX_ATTRIBUTE_NUM; if (*optsptr==NULL && !(*optsptr=(unsigned char *)calloc(MAX_ATTRIBUTE_NUM,1))){ pout("Unable to allocate memory in applypresets()"); bytes-=MAX_ATTRIBUTE_NUM; EXIT(1); } opts=*optsptr; // get the drive's model/firmware strings format_ata_string(model, (char *)drive->model, MODEL_STRING_LENGTH); format_ata_string(firmware, (char *)drive->fw_rev, FIRMWARE_STRING_LENGTH); // Look up the drive in knowndrives[]. if ((i = lookupdrive(model, firmware)) >= 0) { // if vendoropts is non-NULL then Attribute interpretation presets if (knowndrives[i].vendoropts) { const unsigned char (* presets)[2]; // For each attribute in list of attribute/val pairs... presets = knowndrives[i].vendoropts; while (1) { const int attr = (*presets)[0]; const int val = (*presets)[1]; if (!attr) break; // ... set attribute if user hasn't already done so. if (!opts[attr]) opts[attr] = val; presets++; } } // If a special-purpose function is defined for this drive then // call it. Note that if command line arguments or Directives // over-ride this choice, then the specialpurpose function that is // called must deal with this. if (knowndrives[i].specialpurpose) (*knowndrives[i].specialpurpose)(con); } // return <0 if drive wasn't recognized, or index>=0 into database // if it was return i; }