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import CS smartmontools-7.1-3.el8

This commit is contained in:
eabdullin 2024-03-27 20:31:45 +00:00
parent d7df8b3ea7
commit 8136b5ad59
5 changed files with 782 additions and 49 deletions
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137
SOURCES/drivedb.h
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@ -224,8 +224,9 @@ const drive_settings builtin_knowndrives[] = {
//"-v 194,tempminmax,Temperature_Celsius "
//"-v 241,raw48,Total_LBAs_Written "
},
{ "Apacer AS340 SSDs",
"Apacer AS340 (120|240|480|960)GB", // tested with Apacer AS340 120GB/AP612PE0
{ "Apacer AS340/350 SSDs",
"Apacer AS3[45]0 ((12[08]|240|256|480|512|960)G|1T)B", // tested with
// Apacer AS340 120GB/AP612PE0, Apacer AS350 1TB/AP613PE0
"", "",
//"-v 9,raw24(raw8),Power_On_Hours "
//"-v 12,raw48,Power_Cycle_Count "
@ -244,8 +245,10 @@ const drive_settings builtin_knowndrives[] = {
},
{ "Apacer SSDs",
"([1248]|1[056]|20|3[02]|40|60|64|80|12[08]|160|240|256|320|480|512|640|960|1024|1280|1920|2048|3840|4096)(GB|TB) SATA Flash Drive|"
"S[GHTV]250-(M2[48][02]|25) ([1248]|1[056]|20|3[02]|40|60|64|80|12[08]|160|240|256|320|480|512|640|960|1024|1280|1920|2048|3840|4096)(GB|TB) SSD", // tested with 120GB SATA Flash Drive/SFMB6130, SH250-M242 128GB SSD/SFMB8120, ST250-M280 256GB SSD/SFMD6110
"SFM[BCDEGHJ][0-9A-Z][0-9A-Z][1-9A-Z][0-9A-Z]",
"1TB SATA SSD|" // tested with 1TB SATA SSD/AP613PE0 (AP1TPPSS25-R)
"S[GHTV]250-(M2[48][02]|25) ([1248]|1[056]|20|3[02]|40|60|64|80|12[08]|160|240|256|320|480|512|640|960|1024|1280|1920|2048|3840|4096)(GB|TB) SSD",
// tested with 120GB SATA Flash Drive/SFMB6130, SH250-M242 128GB SSD/SFMB8120, ST250-M280 256GB SSD/SFMD6110
"AP613PE0|SFM[BCDEGHJ][0-9A-Z][0-9A-Z][1-9A-Z][0-9A-Z]",
"",
//"-v 9,raw24(raw8),Power_On_Hours "
//"-v 12,raw48,Power_Cycle_Count "
@ -287,8 +290,9 @@ const drive_settings builtin_knowndrives[] = {
//"-v 199,raw48,UDMA_CRC_Error_Count "
//"-v 240,raw48,Unknown_SSD_Attribute "
},
{ "ATP SATA III aMLC M.2 2242 Embedded SSD",
"ATP I-Temp M\\.2 2242", // tested with ATP I-Temp M.2 2242/R0822A
{ "ATP SATA III aMLC M.2 2242/80 Embedded SSDs",
"ATP I-Temp M\\.2 22(42|80)", // tested with ATP I-Temp M.2 2242/R0822A,
// ATP I-Temp M.2 2280/R0822A
"","",
"-v 1,raw48,Raw_Read_Error_Count "
//"-v 5,raw16(raw16),Reallocated_Sector_Ct "
@ -324,6 +328,8 @@ const drive_settings builtin_knowndrives[] = {
{ "Crucial/Micron RealSSD C300/P300", // Marvell 88SS9174
"C300-CTFDDA[AC](064|128|256)MAG|" // tested with C300-CTFDDAC128MAG/0002,
// C300-CTFDDAC064MAG/0006
"(C300-)?MTFDBAK(064|128|256)MAG(-1G1)?|" // tested with
// C300-MTFDBAK128MAG/0006 (attr 9 only), MTFDBAK256MAG-1G1/0007
"P300-MTFDDAC(050|100|200)SAL", // tested with P300-MTFDDAC100SAL/0003
"", "",
//"-v 1,raw48,Raw_Read_Error_Rate "
@ -512,7 +518,8 @@ const drive_settings builtin_knowndrives[] = {
{ "Micron 5100 / 52x0 / 5300 / 5400 SSDs",
"(Micron_5100_)?(EE|MT)FDDA[KV](240|480|960|1T9|3T8|7T6)T(BY|CB|CC)|" // Matches both stock and Dell OEM
// tested with Micron_5100_MTFDDAK3T8TCB/D0MU410, MTFDDAK3T8TCB/D0MU410
"(Micron_5200_)?MTFDDAK(480|960|1T9|3T8|7T6)TD(C|D|N)|" // tested with Micron_5200_MTFDDAK3T8TDD/D1MU505
"(Micron_5200_)?MTFDDAK(240|480|960|1T9|3T8|7T6)TD(C|D|N)|" // tested with Micron_5200_MTFDDAK240TDN/D1MU005,
// Micron_5200_MTFDDAK3T8TDD/D1MU505
"Micron_5210_MTFDDAK(480|960|1T9|3T8|7T6)QDE|" // tested with Micron_5210_MTFDDAK7T6QDE/D2MU804
"Micron_5300(HC)?_MTFDDA[KV](240|480|960|1T9|3T8|7T6)TD[STU]|" // tested with Micron_5300_MTFDDAK1T9TDS/D3MU001
// Micron_5300HC_MTFDDAK960TDS/D3MN010
@ -742,7 +749,8 @@ const drive_settings builtin_knowndrives[] = {
},
{ "Phison Driven SSDs", // see MKP_521_Phison_SMART_attribute.pdf
"BP4 mSATA SSD|" // MyDigital BP4, tested with BP4 mSATA SSD/S8FM06.9
"Corsair Force LE200 SSD|" // tested with Corsair Force LE200 SSD/SBFM10, .../SBFM60.9
"Corsair Force LE(200)? SSD|" // tested with Corsair Force LE SSD/SAFC11.0,
// Corsair Force LE200 SSD/SBFM10, .../SBFM60.9
"GIGABYTE GP-GSTFS31((120|240|256|480)G|100T)NTD|" // tested with GIGABYTE GP-GSTFS31120GNTD/SBFM61.3
"GOODRAM IRIDIUM PRO|" // tested with GOODRAM IRIDIUM PRO/SAFM01.5
"IRP?-SSDPR-S25[AC]-(120|240|256|480|512|960|0[12]T)|" // Goodram IRIDM (PRO), tested with
@ -769,12 +777,13 @@ const drive_settings builtin_knowndrives[] = {
// Silicon Motion controller (see ticket #801), tested with
// KINGSTON SA400S37240G/SBFK10D7, KINGSTON SA400S37120G/SBFK71E0, */SBFKB1D1
// KINGSTON SA400S37480G/SBFK10D7 (two spaces), KINGSTON SA400M8240G/SBFK61E1
"Patriot (Blast|Blaze|Flare)|" // tested with Patriot Blast/SAFM11.3, Patriot Blaze/S9FM02,
// Patriot Flare/SBFM91.2
"Patriot (Blast|Blaze|Flare|Ignite)|" // tested with Patriot Blast/SAFM11.3,
// Patriot Blaze/S9FM02, Patriot Flare/SBFM91.2, Patriot Ignite/SAFM01.7
"Patriot Burst( (120|240|480|960)GB)?|" // tested with Patriot Burst/SBFM11.2,
// Patriot Burst 480GB/SBFMLA.5
"PNY CS(900|1311|2211) (120|240|480|960)GB SSD|" // tested with PNY CS900 120GB SSD/CS900612,
// PNY CS900 240GB SSD/CS900613, PNY CS1311 120GB SSD/CS131122, PNY CS2211 240GB SSD/CS221016
"PNY CS(900|1311|2211) (120|240|480|500|960)GB SSD|" // tested with PNY CS900 120GB SSD/CS900612,
// PNY CS900 240GB SSD/CS900613, PNY CS900 500GB SSD/CS900Y13, PNY CS1311 120GB SSD/CS131122,
// PNY CS2211 240GB SSD/CS221016 (CS900 1TB has different attribute set)
"PNY ELITE PSSD|" // tested with PNY ELITE PSSD/CS105P13 (240G)
"SSD Smartbuy (60|64|120|128|240|256|480|512|960|1024|2000)GB|" // PS3111-S11, tested with
// SSD Smartbuy 240GB/SBFM91.1, SSD Smartbuy 64GB/SBFM21.1
@ -827,14 +836,15 @@ const drive_settings builtin_knowndrives[] = {
// weak information in the model. Detection is based on Firmware.
{ "Phison Driven OEM SSDs", // see MKP_521_Phison_SMART_attribute.pdf
"GOODRAM|" // tested with GOODRAM CX200 (GOODRAM/SAFM12.2)
"Hoodisk SSD|" // tested with Hoodisk SSD/SBFM01.3
"Hoodisk SSD|" // tested with Hoodisk SSD/SBFM01.3, Hoodisk SSD/SBFMJ1.3
"INTENSO|" // tested with Intenso SSD SATA III Top (INTENSO/S9FM02.6, .../SAFM01.6)
"INTENSO SATA III SSD|" // tested with INTENSO SATA III SSD/SBFM11.2, .../SBFM81.3
"Kingmax SATA SSD (120|240|480|960)GB|" // tested with Kingmax SATA SSD 240GB/SBFMY1.3
"SATA SSD|" // tested with Supermicro SSD-DM032-PHI (SATA SSD/S9FM02.1),
// PC Engines msata16d (SATA SSD/S9FM02.3), FoxLine flssd240x4s(SATA SSD/SBFM10.5)
"SPCC Solid State Disk", // Silicon Power, tested with SPCC Solid State Disk/SBFD00.3,
// SPCC Solid State Disk/SBFM61.2, SPCC Solid State Disk/SBFMT1.3
"S[89AB]F[DM][0-9T][0-9]\\.[0-9]",
"S[89AB]F[DM][0-9JTY][0-9]\\.[0-9]",
"",
//"-v 1,raw48,Raw_Read_Error_Rate "
"-v 2,raw48,Not_In_Use "
@ -1390,10 +1400,10 @@ const drive_settings builtin_knowndrives[] = {
"-v 249,raw48,NAND_Writes_1GiB"
},
{ "Intel 53x and Pro 1500/2500 Series SSDs", // SandForce SF-2281, tested with
// INTEL SSDSC2BW180A4/DC12, SSDSC2BW240A4/DC12, SSDMCEAW120A4/DC33
// INTEL SSDMCEAW240A4/DC33, SSDSC2BF480A5/TG26, SSDSC2BW240H6/RG21
// INTEL SSDSC2BF180A4H/LH6i
"INTEL SSD(MCEA|SC2B|SCKJ)[WF](056|080|120|180|240|360|480)(A4H?|A5|H6)",
// INTEL SSDSC2BW180A4/DC12, INTEL SSDSC2BW240A4/DC12, INTEL SSDMCEAW120A4/DC33,
// INTEL SSDMCEAW240A4/DC33, INTEL SSDSC2BF180A4H/LH6i, INTEL SSDSC2BF480A5/TG26,
// INTEL SSDSC2BF240A5L/LT2i, INTEL SSDSC2BW240H6/RG21
"INTEL SSD(MCEA|SC2B|SCKJ)[WF](056|080|120|180|240|360|480)(A4H?|A5L?|H6)",
// SC2B = 2.5", MCEA = mSATA, SCKJ = M.2; A4 = 530/Pro 1500, A5 = Pro 2500, H6 = 535
"", "",
//"-v 5,raw16(raw16),Reallocated_Sector_Ct "
@ -1489,18 +1499,21 @@ const drive_settings builtin_knowndrives[] = {
// INTEL SSDSC2BB800G4T, SSDSC2BA200G3/5DV10250, SSDSC2BB080G6/G2010130, SSDSC2BX200G4/G2010110,
// INTEL SSDSC2BB016T6/G2010140, SSDSC2BX016T4/G2010140, SSDSC2BB150G7/N2010101,
// INTEL SSDSC2BB480H4/D2010380, INTEL SSDSC2BB240G4C/D201FJ14, INTEL SSDSC2BA800G3E/5DV10250
"INTEL SSDSC(1N|2B)[ABPX]((080|100|120|150|160|200|240|300|400|480|600|800)[GH][3467][CERT]?|(012|016)T[46])",
"INTEL SSDSC(1N|2B)[ABPX]((080|100|120|150|160|200|240|300|400|480|600|800)[GH][3467][CERT]?|(012|016)T[46])|"
// A = S3700, B*4 = S3500, B*6 = S3510, P = 730, X = S3610
// Dell ships drives with model of the form SSDSC2BB120G4R
"VK000(120|240|480)GWSXF", // tested with VK000480GWSXF/HPG2 (HPE INTEL SSDSC2BB480G4)
"", "",
//"-v 3,raw16(avg16),Spin_Up_Time "
//"-v 4,raw48,Start_Stop_Count "
//"-v 5,raw16(raw16),Reallocated_Sector_Ct "
//"-v 9,raw24(raw8),Power_On_Hours "
"-v 11,raw48,Unknown_Intel_Attribute " // VK000480GWSXF
//"-v 12,raw48,Power_Cycle_Count "
"-v 170,raw48,Available_Reservd_Space "
"-v 171,raw48,Program_Fail_Count "
"-v 172,raw48,Erase_Fail_Count "
"-v 173,raw48,Unknown_Intel_Attribute " // VK000480GWSXF
"-v 174,raw48,Unsafe_Shutdown_Count "
"-v 175,raw16(raw16),Power_Loss_Cap_Test "
"-v 183,raw48,SATA_Downshift_Count "
@ -1877,7 +1890,8 @@ const drive_settings builtin_knowndrives[] = {
// Samsung SSD 860 EVO 250GB/RVT01B6Q, Samsung SSD 860 EVO mSATA 250GB/RVT41B6Q,
// Samsung SSD 860 EVO 500GB/RVT01B6Q, Samsung SSD 860 EVO mSATA 500GB/RVT41B6Q,
// Samsung SSD 860 EVO mSATA 1TB/RVT41B6Q, Samsung SSD 860 EVO 2TB/RVT01B6Q,
// Samsung SSD 860 EVO 4TB/RVT04B6Q, Samsung SSD 870 EVO 1TB/SVT01B6Q
// Samsung SSD 860 EVO 4TB/RVT04B6Q, Samsung SSD 870 EVO 1TB/SVT01B6Q,
// Samsung SSD 870 EVO 4TB/SVT02B6Q
"Samsung SSD 8[56]0 PRO ((128|256|512)G|[124]T)B|" // tested with Samsung SSD 850 PRO 128GB/EXM01B6Q,
// Samsung SSD 850 PRO 1TB/EXM01B6Q, Samsung SSD 850 PRO 2TB/EXM02B6Q,
// Samsung SSD 860 PRO 256GB/RVM01B6Q, Samsung SSD 860 PRO 512GB/RVM01B6Q,
@ -1913,6 +1927,7 @@ const drive_settings builtin_knowndrives[] = {
"SAMSUNG MZ7L3(240|480|960|1T9|3T8|7T6)H(B[LN][AT]|CHQ|CJR)-.*|" // PM893/897, tested with
// SAMSUNG MZ7L3240HCHQ-00A07/JXTC104Q, SAMSUNG MZ7L3480HCHQ-00A07/JXTC104Q,
// SAMSUNG MZ7L3480HBLT-00A07/JXTE004Q, SAMSUNG MZ7L33T8HBLT-00A07/JXTC104Q
"MK000(240|480|960)GZXRB|" // MK000960GZXRB/HPG0 (HPE MZ7L3960HBLT-00AH3)
"SAMSUNG MZ7KH(240|480|960|1T9|3T8)HA(HQ|JR|LS)-.*|" //SM883
"SAMSUNG MZ[7N](LF|TY)(128|192|256)H[CD](GS|HP)-.*|" // CM871/871a, tested with SAMSUNG MZNLF128HCHP-000H1/FXT21H1Q,
// SAMSUNG MZNTY256HDHP-000/MAT21K0Q, SAMSUNG MZ7LF192HCGS-000L1/FXT03L1Q
@ -1969,7 +1984,8 @@ const drive_settings builtin_knowndrives[] = {
"-v 247,raw48,Timed_Workld_Timer " // PM863, PM893
"-v 249,raw48,NAND_Writes_1GiB " // CM871a, PM871
"-v 250,raw48,SATA_Iface_Downshift " // from the spec
"-v 251,raw48,NAND_Writes" // PM863, PM893
"-v 251,raw48,NAND_Writes " // PM863, PM893
"-v 252,raw48,Added_Bad_Flash_Blk_Ct" // 870 EVO FW SVT02B6Q
},
{ "Marvell based SanDisk SSDs",
"SanDisk SD5SG2[0-9]*G1052E|" // X100 (88SS9174), tested with SanDisk SD5SG2256G1052E/10.04.01
@ -2110,9 +2126,10 @@ const drive_settings builtin_knowndrives[] = {
},
{ "Silicon Motion based SSDs",
"ADATA_IMSS332-((008|016|032|064|128|256|512)G|001T)[AEMT]P?|" // tested with ADATA_IMSS332-128GTP/Q0810B
"ADATA (SP550|SU(650(NS38)?|655|[89]00))|" // tested with ADATA SP550/O0803B5a, ADATA SU650/S0212B0,
// ADATA SU650/V8X01c45, ADATA SU650/V8X21c64, ADATA SU650NS38/P191202a, ADATA SU655/V8X01c55,
// ADATA SU800/Q0913A, ADATA SU800/R0427A, ADATA SU800/R0918B, ADATA SU900/Q0125A, ADATA SU900/Q0710B
"ADATA (SP550|SU(630|650(NS38)?|655|[89]00))|" // tested with ADATA SP550/O0803B5a, ADATA SU630/S1127B0,
// ADATA SU650/S0212B0, ADATA SU650/V8X01c45, ADATA SU650/V8X21c64, ADATA SU650NS38/P191202a,
// ADATA SU655/V8X01c55, ADATA SU800/Q0913A, ADATA SU800/R0427A, ADATA SU800/R0918B, ADATA SU900/Q0125A,
// ADATA SU900/Q0710B
"CORSAIR FORCE LX SSD|" // tested with CORSAIR FORCE LX SSD/N0307A
"CHN mSATAM3 (128|256|512)|" // Zheino M3, tested with CHN mSATAM3 128/Q1124A0
"CIS 2S M305 (16|32|64|128|256)GB|" // Ceroz M305, tested with CIS 2S M305 64GB/P0316B
@ -2129,14 +2146,18 @@ const drive_settings builtin_knowndrives[] = {
"KingSpec KSD-[PS]A25\\.[1-9]-(016|032|064|128)(MS|SJ)|" // tested with KingSpec KSD-PA25.6-064MS/20140803
"KINGSTON SKC600(MS)?(256|512|1024|2048)G|" // KC600 MS=mSATA, tested with KINGSTON SKC600256G/S4500105,
// KINGSTON SKC600MS256G/S4500107
"LITEON LMH-(128|256|512)V2M-.*|" // tested with LITEON LMH-256V2M-11 MSATA 256GB/FM8110C
"LITEON LCH-(128|256V|512)2S-.*|" // tested with LITEON LCH-256V2S-HP/2C02
"MKNSSDRE(1TB|2TB|512GB|500GB|256GB|250GB)|" // tested with MKNSSDRE256GB/N1007C
"LITEON L[CM]H-(128|256|512)V2[MS](-.*)?|" // tested with LITEON LCH-256V2S-HP/2C02,
// LITEON LCH-256V2S/3C87901, LITEON LMH-256V2M-11 MSATA 256GB/FM8110C
"MKNSSDRE((25[06]|500|512)G|[12]T)B(-LT)?|" // Mushkin, tested with MKNSSDRE256GB/N1007C,
// MKNSSDRE250GB-LT/O1026A
"MKNSSD(S2|TR)(12[08]|2[45]0|480|500)GB(-(3DL|LT))?|" // Mushkin, tested with MKNSSDS2500GB/T0818A0,
// MKNSSDTR500GB/O1126A, MKNSSDTR128GB-3DL/Q0616B0
"NFN025SA31T-.*|"// Neo Forza (?), from HP Laptop, tested with NFN025SA31T-6000000/S0628A0
"NFN025SA31T-.*|" // Neo Forza (?), from HP Laptop, tested with NFN025SA31T-6000000/S0628A0
"NFORCE (256|512)25 - SSZS13|" // Nextron NForce, tested with NFORCE 25625 - SSZS13/V0915A0
"ONDA S-12 64GB|" // tested with ONDA S-12 64GB/U0401A0
"OWC Envoy Pro|" // tested with OWC Envoy Pro/R0522A0 (0x1e91:0xa2a5)
"Patriot P200 ((128|256|512)GB|[12]TB)|" // tested with Patriot P200 256GB/S1022A0
"Patriot P2[01]0 ((128|256|512)GB|[12]TB)|" // tested with Patriot P200 256GB/S1022A0,
// Patriot P210 256GB/HPS2227P
"R3SL(120|240|480|960)G|" // AMD Radeon SSDs, tested with R3SL240G/P0422C
"Ramsta SSD S800 (120|240|480)GB|" // SM2258G, tested with Ramsta SSD S800 480GB/RS81V0
"SED2QII-LP SATA SSD ((64|128|256|512)GB|[12]TB)|" // ACPI SED2QII-LP, tested with
@ -2238,24 +2259,26 @@ const drive_settings builtin_knowndrives[] = {
"240GB|" // from Lenovo T430 Thinkpad, tested with 240GB/P0510E
"Dogfish SSD (128|256|512)GB|" // tested with Dogfish SSD 128GB/S1211A0
"GIM(16|32|64|128|256|512)|"// GUDGA GIM, tested with GIM128/U0401A0
"INTENSO|" // tested with INTENSO/S1211A0 (Portable SSD 256GB premium edition)
"Intenso SSD|" // tested with Intenso SSD/Q1107A0
"Intenso ?SSD Sata III|" // Sata III High, tested with Intenso SSD Sata III/P0510E,
// Intenso SSD Sata III/R0817B0
"INTENSO( SSD)?|" // tested with INTENSO/S1211A0 (Portable SSD 256GB premium edition),
// INTENSO/V0609A0, INTENSO SSD/V0823A0
"Intenso ?SSD( Sata III)?|" // tested with Intenso SSD/Q1107A0, Intenso SSD Sata III/P0510E,
// Intenso SSD Sata III/R0817B0, Intenso SSD Sata III/V0303B0
"KingFast|" // tested with KingFast/P0725A (F6M), KingFast/S0424A0 (120GB), KingFast/S1128B0 (512GB)
"KSM512|" // KingSpec, tested with KSM512/S0509A0
"LDLC|" // tested with LDLC/KFS03005
"Netac MobileDataStar|" // tested with Netac MobileDataStar/HPS2227I (0x0dd8:0x0562)
"ORTIAL SSD|" // tested with ORTIAL SSD/U0202A0 (128GB)
"RX7 (240|256|512)G|" // tested with RX7 240G/T0910A0
"SATA3 ((12[08]|240|256|480)G|[12]T)B SSD|" // TCSUNBOW X3, tested with SATA3 240GB SSD/S0618A0,
// SATA3 1TB SSD/S1230A0,
// KingDian S370, tested with SATA3 128GB SSD/T0311A0, SATA3 256GB SSD/S1127B0
// KingDian S280, tested with SATA3 240GB SSD/T0519A0
"SPCC M\\.2 SSD|" // Silicon Power 2280 M55, tested with SPCC M.2 SSD/Q0627A0
"SPCC M\\.2 SSD|" // Silicon Power A/M55, tested with SPCC M.2 SSD/Q0627A0, SPCC M.2 SSD/U0506A0
"T-FORCE (128|256|512)GB|" // tested with T-FORCE 512GB/T0910A0
"Verbatim Vi550 S3", // may also exist with different controller (tickets #1626 <> #1629),
// tested with Verbatim Vi550 S3/U1124A0 (256GB)
"KFS03005|P0510E|P0725A|Q(0627|1107)A0|R0817B0|S(0424|0509|0618|1211|1230)A0|S112[78]B0|T0(311|519|910)A0|U(0202|0401|1124)A0",
// tested with Verbatim Vi550 S3/U1124A0 (128GB)
"HPS2227I|KFS03005|P0510E|P0725A|Q(0627|1107)A0|R0817B0|S(0424|0509|0618|1211|1230)A0|"
"S112[78]B0|T0(311|519|910)A0|U(0202|0401|0506|1124)A0|V0((606|823)A|303B)0",
"",
"-v 148,raw48,Total_SLC_Erase_Ct "
"-v 149,raw48,Max_SLC_Erase_Ct "
@ -2916,6 +2939,7 @@ const drive_settings builtin_knowndrives[] = {
"SK ?hynix (SC(210|300|308|311|313|401)|SH920) .*|" // tested with
// SK hynix SC210 mSATA 256GB/20002L00,
// SKhynix SC300 HFS256G32MND-3210A/20131P00,
// SK hynix SC308 SATA 256GB/30000P10,
// SK hynix SC308 SATA 128GB/30001P10,
// SK hynix SC311 SATA 512GB/70000P10,
// SK hynix SC313 HFS256G32TNF-N3A0A/70000P10,
@ -2928,7 +2952,6 @@ const drive_settings builtin_knowndrives[] = {
// HFS512G39MND-3510A/20400P00
"HFS(128|256|512)G39TND-N210A|" // SC308, tested with HFS128G39TND-N210A/30001P10
"HFS(120|250|500)G32TND-N1A2A|" // SL308, tested with HFS500G32TND-N1A2A/30000P10
"HFS(128|256|512)G39TND-N210A|" // SC308, tested with HFS128G39TND-N210A/30001P10
"HFS(128|256|512)G32TNF-N3A0A|" // SC313, tested with HFS256G32TNF-N3A0A/70000P10
"SHGS31-(250|500|1000)GS-2", // S31, tested with SHGS31-1000GS-2/90000Q00
"", "",
@ -2966,12 +2989,12 @@ const drive_settings builtin_knowndrives[] = {
"-v 212,raw48,Phy_Error_Count "
"-v 231,raw48,SSD_Life_Left "
"-v 234,raw48,Unknown_SK_hynix_Attrib "
"-v 236,raw48,Unknown_SK_hynix_Attrib " // SC313
"-v 236,raw48,Unknown_SK_hynix_Attrib " // SC311, SC313
"-v 238,raw48,Unknown_SK_hynix_Attrib " // SC401
"-v 241,raw48,Total_Writes_GB " // SC31: ~GB, not GiB (#1517)
"-v 242,raw48,Total_Reads_GB "
"-v 243,raw48,Total_Media_Writes "
"-v 249,raw48,Unknown_SK_hynix_Attrib " // SC313
"-v 249,raw48,NAND_Writes_GiB " // SC311, SC313
"-v 250,raw48,Read_Retry_Count "
},
{ "SK hynix SATA SSDs",
@ -5274,8 +5297,8 @@ const drive_settings builtin_knowndrives[] = {
"-d usbjmicron"
},
{ "USB: Samsung Portable SSD T7; ASMedia ASM2362",
"0x04e8:0x4001",
"",
"0x04e8:0x(4001|61fb)", // 0x61fb: T7 Shield
"", // 0x0100
"",
"-d sntasmedia"
},
@ -5878,6 +5901,13 @@ const drive_settings builtin_knowndrives[] = {
"",
"-d sat"
},
// Netac Technology
{ "USB: Netac Z Slim; ",
"0x0dd8:0x0562",
"", // 0x1101
"",
"-d sat"
},
// Cowon Systems, Inc.
{ "USB: Cowon iAudio X5; ",
"0x0e21:0x0510",
@ -6149,8 +6179,8 @@ const drive_settings builtin_knowndrives[] = {
"-d sat"
},
// ASMedia
{ "USB: ; ASMedia ASM2362", // USB->PCIe (NVMe)
"0x174c:0x2362",
{ "USB: ; ASMedia ASM236x", // USB->PCIe (NVMe)
"0x174c:0x236[24]",
"",
"",
"-d sntasmedia"
@ -6161,6 +6191,13 @@ const drive_settings builtin_knowndrives[] = {
"",
"-d sat"
},
// ASMedia
{ "USB: ; ASMedia ASM1352-PM", // USB3->2xSATA
"0x174d:0x1352",
"", // 0x0100
"",
"-d sat"
},
// LucidPort
{ "USB: ; LucidPORT USB300", // RaidSonic ICY BOX IB-110StU3-B, Sharkoon SATA QuickPort H3
"0x1759:0x500[02]", // 0x5000: USB 2.0, 0x5002: USB 3.0
@ -6410,6 +6447,13 @@ const drive_settings builtin_knowndrives[] = {
"",
"-d sat"
},
// Other World Computing
{ "USB: USB3 to SATA; ",
"0x7825:0xa2a4",
"", // 0x4101
"",
"-d sat"
},
// JMicron II
{ "USB: ; JMicron JMS566",
"0xa152:0xb566",
@ -6417,6 +6461,13 @@ const drive_settings builtin_knowndrives[] = {
"",
"-d sat"
},
// 0xab12 (?)
{ "USB: ; JMicron JMS578",
"0xab12:0x34cd",
"", // 0x0405
"",
"-d sat"
},
// Logilink
{ "USB: ; ",
"0xabcd:0x610[34]", // 0x6103: LogiLink AU0028A V1.0 USB 3.0 to IDE & SATA Adapter

200
SOURCES/smartmontools-7.4-r5121.patch Normal file
View File

@ -0,0 +1,200 @@
diff -up smartmontools-7.1/nvmecmds.cpp.r5121 smartmontools-7.1/nvmecmds.cpp
--- smartmontools-7.1/nvmecmds.cpp.r5121 2019-07-01 22:54:14.000000000 +0200
+++ smartmontools-7.1/nvmecmds.cpp 2023-11-22 12:56:02.927324622 +0100
@@ -3,7 +3,7 @@
*
* Home page of code is: https://www.smartmontools.org
*
- * Copyright (C) 2016-19 Christian Franke
+ * Copyright (C) 2016-20 Christian Franke
*
* SPDX-License-Identifier: GPL-2.0-or-later
*/
@@ -132,6 +132,7 @@ bool nvme_read_id_ctrl(nvme_device * dev
swapx(&id_ctrl.vid);
swapx(&id_ctrl.ssvid);
swapx(&id_ctrl.cntlid);
+ swapx(&id_ctrl.ver);
swapx(&id_ctrl.oacs);
swapx(&id_ctrl.wctemp);
swapx(&id_ctrl.cctemp);
@@ -181,30 +182,54 @@ bool nvme_read_id_ns(nvme_device * devic
return true;
}
-// Read NVMe log page with identifier LID.
-bool nvme_read_log_page(nvme_device * device, unsigned char lid, void * data,
- unsigned size, bool broadcast_nsid)
+static bool nvme_read_log_page_1(nvme_device * device, unsigned nsid,
+ unsigned char lid, void * data, unsigned size, unsigned offset = 0)
{
- if (!(4 <= size && size <= 0x4000 && (size % 4) == 0))
- throw std::logic_error("nvme_read_log_page(): invalid size");
+ if (!(4 <= size && size <= 0x1000 && !(size % 4) && !(offset % 4)))
+ return device->set_err(EINVAL, "Invalid NVMe log size %u or offset %u", size, offset);
memset(data, 0, size);
nvme_cmd_in in;
in.set_data_in(nvme_admin_get_log_page, data, size);
- in.nsid = broadcast_nsid ? 0xffffffff : device->get_nsid();
+ in.nsid = nsid;
in.cdw10 = lid | (((size / 4) - 1) << 16);
+ in.cdw12 = offset; // LPOL, NVMe 1.2.1
return nvme_pass_through(device, in);
}
+// Read NVMe log page with identifier LID.
+unsigned nvme_read_log_page(nvme_device * device, unsigned nsid, unsigned char lid,
+ void * data, unsigned size, bool nvme_121, unsigned offset /* = 0 */)
+{
+ unsigned n, bs;
+ for (n = 0; n < size; n += bs) {
+ if (!nvme_121 && offset + n > 0) {
+ device->set_err(ENOSYS, "Log Page Offset requires NVMe >= 1.2.1");
+ break;
+ }
+
+ // Limit transfer size to one page to avoid problems with
+ // limits of NVMe pass-through layer or too low MDTS values.
+ bs = size - n;
+ if (bs > 0x1000)
+ bs = 0x1000;
+ if (!nvme_read_log_page_1(device, nsid, lid, (char *)data + n, bs, offset + n))
+ break;
+ }
+
+ return n;
+}
+
// Read NVMe Error Information Log.
-bool nvme_read_error_log(nvme_device * device, nvme_error_log_page * error_log, unsigned num_entries)
+unsigned nvme_read_error_log(nvme_device * device, nvme_error_log_page * error_log,
+ unsigned num_entries, bool nvme_121)
{
- if (!nvme_read_log_page(device, 0x01, error_log, num_entries * sizeof(*error_log), true))
- return false;
+ unsigned n = nvme_read_log_page(device, 0xffffffff, 0x01, error_log,
+ num_entries * sizeof(*error_log), nvme_121);
if (isbigendian()) {
- for (unsigned i = 0; i < num_entries; i++) {
+ for (unsigned i = 0; i < n; i++) {
swapx(&error_log[i].error_count);
swapx(&error_log[i].sqid);
swapx(&error_log[i].cmdid);
@@ -215,13 +240,13 @@ bool nvme_read_error_log(nvme_device * d
}
}
- return true;
+ return n / sizeof(*error_log);
}
// Read NVMe SMART/Health Information log.
bool nvme_read_smart_log(nvme_device * device, nvme_smart_log & smart_log)
{
- if (!nvme_read_log_page(device, 0x02, &smart_log, sizeof(smart_log), true))
+ if (!nvme_read_log_page_1(device, 0xffffffff, 0x02, &smart_log, sizeof(smart_log)))
return false;
if (isbigendian()) {
diff -up smartmontools-7.1/nvmecmds.h.r5121 smartmontools-7.1/nvmecmds.h
--- smartmontools-7.1/nvmecmds.h.r5121 2019-07-01 22:54:14.000000000 +0200
+++ smartmontools-7.1/nvmecmds.h 2023-11-22 12:56:02.927324622 +0100
@@ -3,7 +3,7 @@
*
* Home page of code is: https://www.smartmontools.org
*
- * Copyright (C) 2016-19 Christian Franke
+ * Copyright (C) 2016-20 Christian Franke
*
* Original code from <linux/nvme.h>:
* Copyright (C) 2011-2014 Intel Corporation
@@ -236,12 +236,12 @@ bool nvme_read_id_ctrl(nvme_device * dev
bool nvme_read_id_ns(nvme_device * device, unsigned nsid, smartmontools::nvme_id_ns & id_ns);
// Read NVMe log page with identifier LID.
-bool nvme_read_log_page(nvme_device * device, unsigned char lid, void * data,
- unsigned size, bool broadcast_nsid);
+unsigned nvme_read_log_page(nvme_device * device, unsigned nsid, unsigned char lid,
+ void * data, unsigned size, bool nvme_121, unsigned offset = 0);
// Read NVMe Error Information Log.
-bool nvme_read_error_log(nvme_device * device, smartmontools::nvme_error_log_page * error_log,
- unsigned num_entries);
+unsigned nvme_read_error_log(nvme_device * device, smartmontools::nvme_error_log_page * error_log,
+ unsigned num_entries, bool nvme_121);
// Read NVMe SMART/Health Information log.
bool nvme_read_smart_log(nvme_device * device, smartmontools::nvme_smart_log & smart_log);
diff -up smartmontools-7.1/nvmeprint.cpp.r5121 smartmontools-7.1/nvmeprint.cpp
--- smartmontools-7.1/nvmeprint.cpp.r5121 2023-11-22 12:56:02.927324622 +0100
+++ smartmontools-7.1/nvmeprint.cpp 2023-11-22 13:00:34.472659814 +0100
@@ -524,6 +524,9 @@ int nvmePrintMain(nvme_device * device,
}
}
+ // Log Page Offset requires NVMe >= 1.2.1
+ bool nvme_121 = (id_ctrl.ver >= 0x10201);
+
// Print Error Information Log
if (options.error_log_entries) {
unsigned num_entries = id_ctrl.elpe + 1; // 0-based value
@@ -531,39 +534,47 @@ int nvmePrintMain(nvme_device * device,
nvme_error_log_page * error_log =
reinterpret_cast<nvme_error_log_page *>(error_log_buf.data());
- if (!nvme_read_error_log(device, error_log, num_entries)) {
+ unsigned read_entries = nvme_read_error_log(device, error_log, num_entries, nvme_121);
+ if (!read_entries) {
jerr("Read Error Information Log failed: %s\n\n", device->get_errmsg());
return retval | FAILSMART;
}
+ if (read_entries < num_entries)
+ jerr("Read Error Information Log failed, %u entries missing: %s\n",
+ num_entries - read_entries, device->get_errmsg());
- print_error_log(error_log, num_entries, options.error_log_entries);
+ print_error_log(error_log, read_entries, options.error_log_entries);
}
// Dump log page
if (options.log_page_size) {
// Align size to dword boundary
unsigned size = ((options.log_page_size + 4-1) / 4) * 4;
- bool broadcast_nsid;
raw_buffer log_buf(size);
+ unsigned nsid;
switch (options.log_page) {
case 1:
case 2:
case 3:
- broadcast_nsid = true;
+ nsid = 0xffffffff;
break;
default:
- broadcast_nsid = false;
+ nsid = device->get_nsid();
break;
}
- if (!nvme_read_log_page(device, options.log_page, log_buf.data(),
- size, broadcast_nsid)) {
+ unsigned read_bytes = nvme_read_log_page(device, nsid, options.log_page, log_buf.data(),
+ size, nvme_121);
+ if (!read_bytes) {
jerr("Read NVMe Log 0x%02x failed: %s\n\n", options.log_page, device->get_errmsg());
return retval | FAILSMART;
}
+ if (read_bytes < size)
+ jerr("Read NVMe Log 0x%02x failed, 0x%x bytes missing: %s\n",
+ options.log_page, size - read_bytes, device->get_errmsg());
- pout("NVMe Log 0x%02x (0x%04x bytes)\n", options.log_page, size);
- dStrHex(log_buf.data(), size, 0);
+ pout("NVMe Log 0x%02x (0x%04x bytes)\n", options.log_page, read_bytes);
+ dStrHex(log_buf.data(), read_bytes, 0);
pout("\n");
}

312
SOURCES/smartmontools-7.4-r5471.patch Normal file
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@ -0,0 +1,312 @@
diff -up smartmontools-7.1/dev_interface.cpp.r5471 smartmontools-7.1/dev_interface.cpp
--- smartmontools-7.1/dev_interface.cpp.r5471 2019-11-24 19:19:24.000000000 +0100
+++ smartmontools-7.1/dev_interface.cpp 2023-11-22 14:07:37.647756091 +0100
@@ -15,6 +15,7 @@
#include "dev_tunnelled.h"
#include "atacmds.h" // ATA_SMART_CMD/STATUS
#include "scsicmds.h" // scsi_cmnd_io
+#include "nvmecmds.h" // nvme_status_*()
#include "utility.h"
#include <errno.h>
@@ -235,12 +236,11 @@ bool scsi_device::scsi_pass_through_and_
bool nvme_device::set_nvme_err(nvme_cmd_out & out, unsigned status, const char * msg /* = 0 */)
{
- if (!status)
- throw std::logic_error("nvme_device: set_nvme_err() called with status=0");
-
out.status = status;
out.status_valid = true;
- return set_err(EIO, "%sNVMe Status 0x%02x", (msg ? msg : ""), status);
+ char buf[64];
+ return set_err(nvme_status_to_errno(status), "%s%s (0x%03x)", (msg ? msg : ""),
+ nvme_status_to_info_str(buf, status), status);
}
diff -up smartmontools-7.1/nvmecmds.cpp.r5471 smartmontools-7.1/nvmecmds.cpp
--- smartmontools-7.1/nvmecmds.cpp.r5471 2023-11-22 14:07:37.646756079 +0100
+++ smartmontools-7.1/nvmecmds.cpp 2023-11-22 14:07:37.648756102 +0100
@@ -258,3 +258,221 @@ bool nvme_read_smart_log(nvme_device * d
return true;
}
+
+// Return flagged error message for NVMe status SCT/SC fields or nullptr if unknown.
+// If message starts with '-', the status indicates an invalid command (EINVAL).
+static const char * nvme_status_to_flagged_str(uint16_t status)
+{
+ // Section 3.3.3.2.1 of NVM Express Base Specification Revision 2.0c, October 4, 2022
+ uint8_t sc = (uint8_t)status;
+ switch ((status >> 8) & 0x7) {
+ case 0x0: // Generic Command Status
+ if (sc < 0x80) switch (sc) {
+ case 0x00: return "Successful Completion";
+ case 0x01: return "-Invalid Command Opcode";
+ case 0x02: return "-Invalid Field in Command";
+ case 0x03: return "Command ID Conflict";
+ case 0x04: return "Data Transfer Error";
+ case 0x05: return "Commands Aborted due to Power Loss Notification";
+ case 0x06: return "Internal Error";
+ case 0x07: return "Command Abort Requested";
+ case 0x08: return "Command Aborted due to SQ Deletion";
+ case 0x09: return "Command Aborted due to Failed Fused Command";
+ case 0x0a: return "Command Aborted due to Missing Fused Command";
+ case 0x0b: return "-Invalid Namespace or Format";
+ case 0x0c: return "Command Sequence Error";
+ case 0x0d: return "-Invalid SGL Segment Descriptor";
+ case 0x0e: return "-Invalid Number of SGL Descriptors";
+ case 0x0f: return "-Data SGL Length Invalid";
+ case 0x10: return "-Metadata SGL Length Invalid";
+ case 0x11: return "-SGL Descriptor Type Invalid";
+ case 0x12: return "-Invalid Use of Controller Memory Buffer";
+ case 0x13: return "-PRP Offset Invalid";
+ case 0x14: return "Atomic Write Unit Exceeded";
+ case 0x15: return "Operation Denied";
+ case 0x16: return "-SGL Offset Invalid";
+ case 0x18: return "Host Identifier Inconsistent Format";
+ case 0x19: return "Keep Alive Timer Expired";
+ case 0x1a: return "-Keep Alive Timeout Invalid";
+ case 0x1b: return "Command Aborted due to Preempt and Abort";
+ case 0x1c: return "Sanitize Failed";
+ case 0x1d: return "Sanitize In Progress";
+ case 0x1e: return "SGL Data Block Granularity Invalid";
+ case 0x1f: return "Command Not Supported for Queue in CMB";
+ case 0x20: return "Namespace is Write Protected";
+ case 0x21: return "Command Interrupted";
+ case 0x22: return "Transient Transport Error";
+ case 0x23: return "Command Prohibited by Command and Feature Lockdown";
+ case 0x24: return "Admin Command Media Not Ready";
+ // 0x25-0x7f: Reserved
+ }
+ else switch (sc) {
+ // 0x80-0xbf: I/O Command Set Specific
+ case 0x80: return "LBA Out of Range";
+ case 0x81: return "Capacity Exceeded";
+ case 0x82: return "Namespace Not Ready";
+ case 0x83: return "Reservation Conflict";
+ case 0x84: return "Format In Progress";
+ case 0x85: return "-Invalid Value Size";
+ case 0x86: return "-Invalid Key Size";
+ case 0x87: return "KV Key Does Not Exist";
+ case 0x88: return "Unrecovered Error";
+ case 0x89: return "Key Exists";
+ // 0x90-0xbf: Reserved
+ // 0xc0-0xff: Vendor Specific
+ }
+ break;
+
+ case 0x1: // Command Specific Status
+ if (sc < 0x80) switch (sc) {
+ case 0x00: return "-Completion Queue Invalid";
+ case 0x01: return "-Invalid Queue Identifier";
+ case 0x02: return "-Invalid Queue Size";
+ case 0x03: return "Abort Command Limit Exceeded";
+ case 0x04: return "Abort Command Is Missing";
+ case 0x05: return "Asynchronous Event Request Limit Exceeded";
+ case 0x06: return "-Invalid Firmware Slot";
+ case 0x07: return "-Invalid Firmware Image";
+ case 0x08: return "-Invalid Interrupt Vector";
+ case 0x09: return "-Invalid Log Page";
+ case 0x0a: return "-Invalid Format";
+ case 0x0b: return "Firmware Activation Requires Conventional Reset";
+ case 0x0c: return "-Invalid Queue Deletion";
+ case 0x0d: return "Feature Identifier Not Saveable";
+ case 0x0e: return "Feature Not Changeable";
+ case 0x0f: return "Feature Not Namespace Specific";
+ case 0x10: return "Firmware Activation Requires NVM Subsystem Reset";
+ case 0x11: return "Firmware Activation Requires Controller Level Reset";
+ case 0x12: return "Firmware Activation Requires Maximum Time Violation";
+ case 0x13: return "Firmware Activation Prohibited";
+ case 0x14: return "Overlapping Range";
+ case 0x15: return "Namespace Insufficient Capacity";
+ case 0x16: return "-Namespace Identifier Unavailable";
+ case 0x18: return "Namespace Already Attached";
+ case 0x19: return "Namespace Is Private";
+ case 0x1a: return "Namespace Not Attached";
+ case 0x1b: return "Thin Provisioning Not Supported";
+ case 0x1c: return "-Controller List Invalid";
+ case 0x1d: return "Device Self-test In Progress";
+ case 0x1e: return "Boot Partition Write Prohibited";
+ case 0x1f: return "Invalid Controller Identifier";
+ case 0x20: return "-Invalid Secondary Controller State";
+ case 0x21: return "-Invalid Number of Controller Resources";
+ case 0x22: return "-Invalid Resource Identifier";
+ case 0x23: return "Sanitize Prohibited While Persistent Memory Region is Enabled";
+ case 0x24: return "-ANA Group Identifier Invalid";
+ case 0x25: return "ANA Attach Failed";
+ case 0x26: return "Insufficient Capacity";
+ case 0x27: return "Namespace Attachment Limit Exceeded";
+ case 0x28: return "Prohibition of Command Execution Not Supported";
+ case 0x29: return "I/O Command Set Not Supported";
+ case 0x2a: return "I/O Command Set Not Enabled";
+ case 0x2b: return "I/O Command Set Combination Rejected";
+ case 0x2c: return "-Invalid I/O Command Set";
+ case 0x2d: return "-Identifier Unavailable";
+ // 0x2e-0x6f: Reserved
+ // 0x70-0x7f: Directive Specific
+ }
+ else if (sc < 0xb8) switch (sc) {
+ // 0x80-0xbf: I/O Command Set Specific (overlap with Fabrics Command Set)
+ case 0x80: return "-Conflicting Attributes";
+ case 0x81: return "-Invalid Protection Information";
+ case 0x82: return "Attempted Write to Read Only Range";
+ case 0x83: return "Command Size Limit Exceeded";
+ // 0x84-0xb7: Reserved
+ }
+ else switch (sc) {
+ case 0xb8: return "Zoned Boundary Error";
+ case 0xb9: return "Zone Is Full";
+ case 0xba: return "Zone Is Read Only";
+ case 0xbb: return "Zone Is Offline";
+ case 0xbc: return "Zone Invalid Write";
+ case 0xbd: return "Too Many Active Zones";
+ case 0xbe: return "Too Many Open Zones";
+ case 0xbf: return "Invalid Zone State Transition";
+ // 0xc0-0xff: Vendor Specific
+ }
+ break;
+
+ case 0x2: // Media and Data Integrity Errors
+ switch (sc) {
+ // 0x00-0x7f: Reserved
+ case 0x80: return "Write Fault";
+ case 0x81: return "Unrecovered Read Error";
+ case 0x82: return "End-to-end Guard Check Error";
+ case 0x83: return "End-to-end Application Tag Check Error";
+ case 0x84: return "End-to-end Reference Tag Check Error";
+ case 0x85: return "Compare Failure";
+ case 0x86: return "Access Denied";
+ case 0x87: return "Deallocated or Unwritten Logical Block";
+ case 0x88: return "End-to-End Storage Tag Check Error";
+ // 0x89-0xbf: Reserved
+ // 0xc0-0xff: Vendor Specific
+ }
+ break;
+
+ case 0x3: // Path Related Status
+ switch (sc) {
+ case 0x00: return "Internal Path Error";
+ case 0x01: return "Asymmetric Access Persistent Loss";
+ case 0x02: return "Asymmetric Access Inaccessible";
+ case 0x03: return "Asymmetric Access Transition";
+ // 0x04-0x5f: Reserved
+ // 0x60-0x6f: Controller Detected Pathing Errors
+ case 0x60: return "Controller Pathing Error";
+ // 0x61-0x6f: Reserved
+ // 0x70-0x7f: Host Detected Pathing Errors
+ case 0x70: return "Host Pathing Error";
+ case 0x71: return "Command Aborted By Host";
+ // 0x72-0x7f: Reserved
+ // 0x80-0xbf: I/O Command Set Specific
+ // 0xc0-0xff: Vendor Specific
+ }
+ break;
+
+ // 0x4-0x6: Reserved
+ // 0x7: Vendor Specific
+ }
+ return nullptr;
+}
+
+// Return errno for NVMe status SCT/SC fields: 0, EINVAL or EIO.
+int nvme_status_to_errno(uint16_t status)
+{
+ if (!nvme_status_is_error(status))
+ return 0;
+ const char * s = nvme_status_to_flagged_str(status);
+ if (s && *s == '-')
+ return EINVAL;
+ return EIO;
+}
+
+// Return error message for NVMe status SCT/SC fields or nullptr if unknown.
+const char * nvme_status_to_str(uint16_t status)
+{
+ const char * s = nvme_status_to_flagged_str(status);
+ return (s && *s == '-' ? s + 1 : s);
+}
+
+// Return error message for NVMe status SCT/SC fields or explanatory message if unknown.
+const char * nvme_status_to_info_str(char * buf, size_t bufsize, uint16_t status)
+{
+ const char * s = nvme_status_to_str(status);
+ if (s)
+ return s;
+
+ uint8_t sct = (status >> 8) & 0x7, sc = (uint8_t)status;
+ const char * pfx = (sc >= 0xc0 ? "Vendor Specific " : "Unknown ");
+ switch (sct) {
+ case 0x0: s = "Generic Command Status"; break;
+ case 0x1: s = "Command Specific Status"; break;
+ case 0x2: s = "Media and Data Integrity Error"; break;
+ case 0x3: s = "Path Related Status"; break;
+ case 0x7: s = "Vendor Specific Status"; pfx = ""; break;
+ }
+ if (s)
+ snprintf(buf, bufsize, "%s%s 0x%02x", pfx, s, sc);
+ else
+ snprintf(buf, bufsize, "Unknown Status 0x%x/0x%02x", sct, sc);
+ return buf;
+}
diff -up smartmontools-7.1/nvmecmds.h.r5471 smartmontools-7.1/nvmecmds.h
--- smartmontools-7.1/nvmecmds.h.r5471 2023-11-22 14:07:37.646756079 +0100
+++ smartmontools-7.1/nvmecmds.h 2023-11-22 14:09:29.911084240 +0100
@@ -18,6 +18,8 @@
#include "static_assert.h"
+#include <errno.h>
+#include <stddef.h>
#include <stdint.h>
// The code below was originally imported from <linux/nvme.h> include file from
@@ -246,4 +248,22 @@ unsigned nvme_read_error_log(nvme_device
// Read NVMe SMART/Health Information log.
bool nvme_read_smart_log(nvme_device * device, smartmontools::nvme_smart_log & smart_log);
+// Return true if NVMe status indicates an error.
+constexpr bool nvme_status_is_error(uint16_t status)
+ { return !!(status & 0x07ff); }
+
+// Return errno for NVMe status SCT/SC fields: 0, EINVAL or EIO.
+int nvme_status_to_errno(uint16_t status);
+
+// Return error message for NVMe status SCT/SC fields or nullptr if unknown.
+const char * nvme_status_to_str(uint16_t status);
+
+// Return error message for NVMe status SCT/SC fields or explanatory message if unknown.
+const char * nvme_status_to_info_str(char * buf, size_t bufsize, uint16_t status);
+
+// Version of above for fixed size buffers.
+template <size_t SIZE>
+inline const char * nvme_status_to_info_str(char (& buf)[SIZE], unsigned status)
+ { return nvme_status_to_info_str(buf, SIZE, status); }
+
#endif // NVMECMDS_H
diff -up smartmontools-7.1/nvmeprint.cpp.r5471 smartmontools-7.1/nvmeprint.cpp
--- smartmontools-7.1/nvmeprint.cpp.r5471 2023-11-22 14:07:37.648756102 +0100
+++ smartmontools-7.1/nvmeprint.cpp 2023-11-22 14:11:35.899574762 +0100
@@ -420,7 +420,7 @@ static void print_error_log(const nvme_e
continue;
if (cnt == 1)
- pout("Num ErrCount SQId CmdId Status PELoc LBA NSID VS\n");
+ pout("Num ErrCount SQId CmdId Status PELoc LBA NSID VS Message\n");
char sq[16] = "-", cm[16] = "-", st[16] = "-", pe[16] = "-";
char lb[32] = "-", ns[16] = "-", vs[8] = "-";
@@ -439,8 +439,10 @@ static void print_error_log(const nvme_e
if (e.vs != 0x00)
snprintf(vs, sizeof(vs), "0x%02x", e.vs);
- pout("%3u %10" PRIu64 " %5s %7s %7s %6s %12s %5s %5s\n",
- i, e.error_count, sq, cm, st, pe, lb, ns, vs);
+ char buf[64];
+ pout("%3u %10" PRIu64 " %5s %7s %7s %6s %12s %5s %5s %s\n",
+ i, e.error_count, sq, cm, st, pe, lb, ns, vs,
+ nvme_status_to_info_str(buf, e.status_field >> 1));
}
if (!cnt)

159
SOURCES/smartmontools-7.4-r5472.patch Normal file
View File

@ -0,0 +1,159 @@
diff -U0 smartmontools-7.1/ChangeLog.r5472 smartmontools-7.1/ChangeLog
diff -up smartmontools-7.1/smartd.conf.5.in.r5472 smartmontools-7.1/smartd.conf.5.in
--- smartmontools-7.1/smartd.conf.5.in.r5472 2019-12-13 21:20:45.000000000 +0100
+++ smartmontools-7.1/smartd.conf.5.in 2023-11-22 12:32:37.341051288 +0100
@@ -696,6 +696,20 @@ error log has increased since the last c
.I error
\- [NVMe] report if the "Number of Error Information Log Entries" from the
SMART/Health Information log has increased since the last check.
+.br
+[NEW EXPERIMENTAL SMARTD FEATURE]
+This will only be logged as LOG_CRIT if at least one of the new errors is
+still present in the Error Information log and its status indicates a
+device related error.
+Up to eight of the most recent of these errors are logged as LOG_INFO then.
+This is useful because the NVMe Error Information log is not persistent
+across power cycles or device resets.
+.br
+If all new errors are either no longer present in the log or are not device
+related (e.g. invalid command, invalid field in command, ...), a LOG_INFO
+message is generated instead.
+This avoids misleading warnings if the operating system issues unsupported
+commands and the device firmware also logs these kind of errors.
.Sp
.\" %ENDIF OS Darwin FreeBSD Linux NetBSD Windows Cygwin
.I xerror
diff -up smartmontools-7.1/smartd.cpp.r5472 smartmontools-7.1/smartd.cpp
--- smartmontools-7.1/smartd.cpp.r5472 2019-12-29 14:10:18.000000000 +0100
+++ smartmontools-7.1/smartd.cpp 2023-11-22 12:35:19.254046678 +0100
@@ -2,7 +2,7 @@
* Home page of code is: https://www.smartmontools.org
*
* Copyright (C) 2002-11 Bruce Allen
- * Copyright (C) 2008-19 Christian Franke
+ * Copyright (C) 2008-23 Christian Franke
* Copyright (C) 2000 Michael Cornwell <cornwell@acm.org>
* Copyright (C) 2008 Oliver Bock <brevilo@users.sourceforge.net>
*
@@ -410,6 +410,9 @@ struct dev_config
ata_vendor_attr_defs attribute_defs; // -v options
+ // NVMe only
+ unsigned nvme_err_log_max_entries{}; // size of error log
+
dev_config();
};
@@ -2628,6 +2631,74 @@ static int nvme_get_max_temp_kelvin(cons
return k;
}
+// Check the NVMe Error Information log for device related errors.
+static bool check_nvme_error_log(const dev_config & cfg, dev_state & state, nvme_device * nvmedev,
+ uint64_t newcnt = 0)
+{
+ // Limit transfer size to one page (64 entries) to avoid problems with
+ // limits of NVMe pass-through layer or too low MDTS values.
+ unsigned want_entries = 64;
+ if (want_entries > cfg.nvme_err_log_max_entries)
+ want_entries = cfg.nvme_err_log_max_entries;
+ raw_buffer error_log_buf(want_entries * sizeof(nvme_error_log_page));
+ nvme_error_log_page * error_log =
+ reinterpret_cast<nvme_error_log_page *>(error_log_buf.data());
+ unsigned read_entries = nvme_read_error_log(nvmedev, error_log, want_entries, false /*!lpo_sup*/);
+ if (!read_entries) {
+ PrintOut(LOG_INFO, "Device: %s, Read %u entries from Error Information Log failed\n",
+ cfg.name.c_str(), want_entries);
+ return false;
+ }
+
+ if (!newcnt)
+ return true; // Support check only
+
+ // Scan log, find device related errors
+ uint64_t oldcnt = state.nvme_err_log_entries, mincnt = newcnt;
+ int err = 0, ign = 0;
+ for (unsigned i = 0; i < read_entries; i++) {
+ const nvme_error_log_page & e = error_log[i];
+ if (!e.error_count)
+ continue; // unused
+ if (e.error_count <= oldcnt)
+ break; // stop on first old entry
+ if (e.error_count < mincnt)
+ mincnt = e.error_count; // min known error
+ if (e.error_count > newcnt)
+ newcnt = e.error_count; // adjust maximum
+ uint16_t status = e.status_field >> 1;
+ if (!nvme_status_is_error(status) || nvme_status_to_errno(status) == EINVAL) {
+ ign++; // Not a device related error
+ continue;
+ }
+
+ // Log the most recent 8 errors
+ if (++err > 8)
+ continue;
+ char buf[64];
+ PrintOut(LOG_INFO, "Device: %s, NVMe error [%u], count %" PRIu64 ", status 0x%04x: %s\n",
+ cfg.name.c_str(), i, e.error_count, e.status_field,
+ nvme_status_to_info_str(buf, e.status_field >> 1));
+ }
+
+ std::string msg = strprintf("Device: %s, NVMe error count increased from %" PRIu64 " to %" PRIu64
+ " (%d new, %d ignored, %" PRIu64 " unknown)",
+ cfg.name.c_str(), oldcnt, newcnt, err, ign,
+ (mincnt > oldcnt + 1 ? mincnt - oldcnt - 1 : 0));
+ // LOG_CRIT only if device related errors are found
+ if (!err) {
+ PrintOut(LOG_INFO, "%s\n", msg.c_str());
+ }
+ else {
+ PrintOut(LOG_CRIT, "%s\n", msg.c_str());
+ MailWarning(cfg, state, 4, "%s", msg.c_str());
+ }
+
+ state.nvme_err_log_entries = newcnt;
+ state.must_write = true;
+ return true;
+}
+
static int NVMeDeviceScan(dev_config & cfg, dev_state & state, nvme_device * nvmedev,
const dev_config_vector * prev_cfgs)
{
@@ -2687,8 +2758,14 @@ static int NVMeDeviceScan(dev_config & c
}
// Init total error count
+ cfg.nvme_err_log_max_entries = id_ctrl.elpe + 1; // 0's based value
if (cfg.errorlog || cfg.xerrorlog) {
- state.nvme_err_log_entries = le128_to_uint64(smart_log.num_err_log_entries);
+ if (!check_nvme_error_log(cfg, state, nvmedev)) {
+ PrintOut(LOG_INFO, "Device: %s, Error Information unavailable, ignoring -l [x]error\n", name);
+ cfg.errorlog = cfg.xerrorlog = false;
+ }
+ else
+ state.nvme_err_log_entries = le128_to_uint64(smart_log.num_err_log_entries);
}
// If no supported tests selected, return
@@ -3760,16 +3837,12 @@ static int NVMeCheckDevice(const dev_con
// Check if number of errors has increased
if (cfg.errorlog || cfg.xerrorlog) {
- uint64_t oldcnt = state.nvme_err_log_entries;
uint64_t newcnt = le128_to_uint64(smart_log.num_err_log_entries);
- if (newcnt > oldcnt) {
- PrintOut(LOG_CRIT, "Device: %s, number of Error Log entries increased from %" PRIu64 " to %" PRIu64 "\n",
- name, oldcnt, newcnt);
- MailWarning(cfg, state, 4, "Device: %s, number of Error Log entries increased from %" PRIu64 " to %" PRIu64,
- name, oldcnt, newcnt);
- state.must_write = true;
+ if (newcnt > state.nvme_err_log_entries) {
+ // Warn only if device related errors are found
+ check_nvme_error_log(cfg, state, nvmedev, newcnt);
}
- state.nvme_err_log_entries = newcnt;
+ // else // TODO: Handle decrease of count?
}
CloseDevice(nvmedev, name);

23
SPECS/smartmontools.spec
View File

@ -1,7 +1,7 @@
Summary: Tools for monitoring SMART capable hard disks
Name: smartmontools
Version: 7.1
Release: 2%{?dist}
Release: 3%{?dist}
Epoch: 1
Group: System Environment/Base
License: GPLv2+
@ -20,6 +20,11 @@ Patch3: smartmontools-7.2-logsuppagefix2.patch
Patch4: smartmontools-7.2-logsuppagefix3.patch
Patch5: smartmontools-7.2-logsuppagefix4.patch
# 3x from upstream, for smartmontools <= 7.4, #RHEL-6982
Patch6: smartmontools-7.4-r5121.patch
Patch7: smartmontools-7.4-r5471.patch
Patch8: smartmontools-7.4-r5472.patch
BuildRoot: %(mktemp -ud %{_tmppath}/%{name}-%{version}-%{release}-XXXXXX)
#new rpm does not handle this (yet?)
#Requires(triggerun): systemd-units
@ -40,11 +45,14 @@ failure.
%prep
%setup -q
%patch1 -p1 -b .defaultconf
%patch2 -p2 -b .logsuppagefix1
%patch3 -p2 -b .logsuppagefix2
%patch4 -p2 -b .logsuppagefix3
%patch5 -p1 -b .logsuppagefix4
%patch -P 1 -p1 -b .defaultconf
%patch -P 2 -p2 -b .logsuppagefix1
%patch -P 3 -p2 -b .logsuppagefix2
%patch -P 4 -p2 -b .logsuppagefix3
%patch -P 5 -p1 -b .logsuppagefix4
%patch -P 6 -p1 -b .r5121
%patch -P 7 -p1 -b .r5471
%patch -P 8 -p1 -b .r5472
# update SOURCE5 on maintainer's machine prior commiting, there's no internet connection on builders
curl %{UrlSource5} -o %{SOURCE5} ||:
@ -116,6 +124,9 @@ fi
%{_sharedstatedir}/%{name}
%changelog
* Wed Nov 22 2023 Michal Hlavinka <mhlavink@redhat.com> - 1:7.1-3
- don't report new non-device related errors as critical (#RHEL-6982)
* Mon May 29 2023 Michal Hlavinka <mhlavink@redhat.com> - 1:7.1-2
- support reporting of Error Counter logging details (#2136439)