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Move the hgst/wdc log page printing code into wdc.c

Browse Source 
These are all hgst/wdc specific, so move them into the wdc.c to live
with the wdc command.

Sponsored by: Netflix
Differential Revision: https://reviews.freebsd.org/D18403
This commit is contained in:
Warner Losh 2018-12-02 23:12:37 +00:00
parent a773b08b88
commit e2ed7941e0
Notes: svn2git 2020-12-20 02:59:44 +00:00 
svn path=/head/; revision=341410
2 changed files with 408 additions and 408 deletions
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408
sbin/nvmecontrol/logpage.c
View File

@ -440,405 +440,6 @@ print_intel_add_smart(const struct nvme_controller_data *cdata __unused, void *b
}
}
/*
* HGST's 0xc1 page. This is a grab bag of additional data. Please see
* https://www.hgst.com/sites/default/files/resources/US_SN150_ProdManual.pdf
* https://www.hgst.com/sites/default/files/resources/US_SN100_ProdManual.pdf
* Appendix A for details
*/
typedef void (*subprint_fn_t)(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
struct subpage_print
{
uint16_t key;
subprint_fn_t fn;
};
static void print_hgst_info_write_errors(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_read_errors(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_verify_errors(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_self_test(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_background_scan(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_erase_errors(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_erase_counts(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_temp_history(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_ssd_perf(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_firmware_load(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static struct subpage_print hgst_subpage[] = {
{ 0x02, print_hgst_info_write_errors },
{ 0x03, print_hgst_info_read_errors },
{ 0x05, print_hgst_info_verify_errors },
{ 0x10, print_hgst_info_self_test },
{ 0x15, print_hgst_info_background_scan },
{ 0x30, print_hgst_info_erase_errors },
{ 0x31, print_hgst_info_erase_counts },
{ 0x32, print_hgst_info_temp_history },
{ 0x37, print_hgst_info_ssd_perf },
{ 0x38, print_hgst_info_firmware_load },
};
/* Print a subpage that is basically just key value pairs */
static void
print_hgst_info_subpage_gen(void *buf, uint16_t subtype __unused, uint32_t size,
const struct kv_name *kv, size_t kv_count)
{
uint8_t *wsp, *esp;
uint16_t ptype;
uint8_t plen;
uint64_t param;
int i;
wsp = buf;
esp = wsp + size;
while (wsp < esp) {
ptype = le16dec(wsp);
wsp += 2;
wsp++; /* Flags, just ignore */
plen = *wsp++;
param = 0;
for (i = 0; i < plen; i++)
param |= (uint64_t)*wsp++ << (i * 8);
printf(" %-30s: %jd\n", kv_lookup(kv, kv_count, ptype), (uintmax_t)param);
}
}
static void
print_hgst_info_write_errors(void *buf, uint16_t subtype, uint8_t res __unused, uint32_t size)
{
static struct kv_name kv[] =
{
{ 0x0000, "Corrected Without Delay" },
{ 0x0001, "Corrected Maybe Delayed" },
{ 0x0002, "Re-Writes" },
{ 0x0003, "Errors Corrected" },
{ 0x0004, "Correct Algorithm Used" },
{ 0x0005, "Bytes Processed" },
{ 0x0006, "Uncorrected Errors" },
{ 0x8000, "Flash Write Commands" },
{ 0x8001, "HGST Special" },
};
printf("Write Errors Subpage:\n");
print_hgst_info_subpage_gen(buf, subtype, size, kv, nitems(kv));
}
static void
print_hgst_info_read_errors(void *buf, uint16_t subtype, uint8_t res __unused, uint32_t size)
{
static struct kv_name kv[] =
{
{ 0x0000, "Corrected Without Delay" },
{ 0x0001, "Corrected Maybe Delayed" },
{ 0x0002, "Re-Reads" },
{ 0x0003, "Errors Corrected" },
{ 0x0004, "Correct Algorithm Used" },
{ 0x0005, "Bytes Processed" },
{ 0x0006, "Uncorrected Errors" },
{ 0x8000, "Flash Read Commands" },
{ 0x8001, "XOR Recovered" },
{ 0x8002, "Total Corrected Bits" },
};
printf("Read Errors Subpage:\n");
print_hgst_info_subpage_gen(buf, subtype, size, kv, nitems(kv));
}
static void
print_hgst_info_verify_errors(void *buf, uint16_t subtype, uint8_t res __unused, uint32_t size)
{
static struct kv_name kv[] =
{
{ 0x0000, "Corrected Without Delay" },
{ 0x0001, "Corrected Maybe Delayed" },
{ 0x0002, "Re-Reads" },
{ 0x0003, "Errors Corrected" },
{ 0x0004, "Correct Algorithm Used" },
{ 0x0005, "Bytes Processed" },
{ 0x0006, "Uncorrected Errors" },
{ 0x8000, "Commands Processed" },
};
printf("Verify Errors Subpage:\n");
print_hgst_info_subpage_gen(buf, subtype, size, kv, nitems(kv));
}
static void
print_hgst_info_self_test(void *buf, uint16_t subtype __unused, uint8_t res __unused, uint32_t size)
{
size_t i;
uint8_t *walker = buf;
uint16_t code, hrs;
uint32_t lba;
printf("Self Test Subpage:\n");
for (i = 0; i < size / 20; i++) { /* Each entry is 20 bytes */
code = le16dec(walker);
walker += 2;
walker++; /* Ignore fixed flags */
if (*walker == 0) /* Last entry is zero length */
break;
if (*walker++ != 0x10) {
printf("Bad length for self test report\n");
return;
}
printf(" %-30s: %d\n", "Recent Test", code);
printf(" %-28s: %#x\n", "Self-Test Results", *walker & 0xf);
printf(" %-28s: %#x\n", "Self-Test Code", (*walker >> 5) & 0x7);
walker++;
printf(" %-28s: %#x\n", "Self-Test Number", *walker++);
hrs = le16dec(walker);
walker += 2;
lba = le32dec(walker);
walker += 4;
printf(" %-28s: %u\n", "Total Power On Hrs", hrs);
printf(" %-28s: %#jx (%jd)\n", "LBA", (uintmax_t)lba, (uintmax_t)lba);
printf(" %-28s: %#x\n", "Sense Key", *walker++ & 0xf);
printf(" %-28s: %#x\n", "Additional Sense Code", *walker++);
printf(" %-28s: %#x\n", "Additional Sense Qualifier", *walker++);
printf(" %-28s: %#x\n", "Vendor Specific Detail", *walker++);
}
}
static void
print_hgst_info_background_scan(void *buf, uint16_t subtype __unused, uint8_t res __unused, uint32_t size)
{
uint8_t *walker = buf;
uint8_t status;
uint16_t code, nscan, progress;
uint32_t pom, nand;
printf("Background Media Scan Subpage:\n");
/* Decode the header */
code = le16dec(walker);
walker += 2;
walker++; /* Ignore fixed flags */
if (*walker++ != 0x10) {
printf("Bad length for background scan header\n");
return;
}
if (code != 0) {
printf("Expceted code 0, found code %#x\n", code);
return;
}
pom = le32dec(walker);
walker += 4;
walker++; /* Reserved */
status = *walker++;
nscan = le16dec(walker);
walker += 2;
progress = le16dec(walker);
walker += 2;
walker += 6; /* Reserved */
printf(" %-30s: %d\n", "Power On Minutes", pom);
printf(" %-30s: %x (%s)\n", "BMS Status", status,
status == 0 ? "idle" : (status == 1 ? "active" : (status == 8 ? "suspended" : "unknown")));
printf(" %-30s: %d\n", "Number of BMS", nscan);
printf(" %-30s: %d\n", "Progress Current BMS", progress);
/* Report retirements */
if (walker - (uint8_t *)buf != 20) {
printf("Coding error, offset not 20\n");
return;
}
size -= 20;
printf(" %-30s: %d\n", "BMS retirements", size / 0x18);
while (size > 0) {
code = le16dec(walker);
walker += 2;
walker++;
if (*walker++ != 0x14) {
printf("Bad length parameter\n");
return;
}
pom = le32dec(walker);
walker += 4;
/*
* Spec sheet says the following are hard coded, if true, just
* print the NAND retirement.
*/
if (walker[0] == 0x41 &&
walker[1] == 0x0b &&
walker[2] == 0x01 &&
walker[3] == 0x00 &&
walker[4] == 0x00 &&
walker[5] == 0x00 &&
walker[6] == 0x00 &&
walker[7] == 0x00) {
walker += 8;
walker += 4; /* Skip reserved */
nand = le32dec(walker);
walker += 4;
printf(" %-30s: %d\n", "Retirement number", code);
printf(" %-28s: %#x\n", "NAND (C/T)BBBPPP", nand);
} else {
printf("Parameter %#x entry corrupt\n", code);
walker += 16;
}
}
}
static void
print_hgst_info_erase_errors(void *buf, uint16_t subtype __unused, uint8_t res __unused, uint32_t size)
{
static struct kv_name kv[] =
{
{ 0x0000, "Corrected Without Delay" },
{ 0x0001, "Corrected Maybe Delayed" },
{ 0x0002, "Re-Erase" },
{ 0x0003, "Errors Corrected" },
{ 0x0004, "Correct Algorithm Used" },
{ 0x0005, "Bytes Processed" },
{ 0x0006, "Uncorrected Errors" },
{ 0x8000, "Flash Erase Commands" },
{ 0x8001, "Mfg Defect Count" },
{ 0x8002, "Grown Defect Count" },
{ 0x8003, "Erase Count -- User" },
{ 0x8004, "Erase Count -- System" },
};
printf("Erase Errors Subpage:\n");
print_hgst_info_subpage_gen(buf, subtype, size, kv, nitems(kv));
}
static void
print_hgst_info_erase_counts(void *buf, uint16_t subtype, uint8_t res __unused, uint32_t size)
{
/* My drive doesn't export this -- so not coding up */
printf("XXX: Erase counts subpage: %p, %#x %d\n", buf, subtype, size);
}
static void
print_hgst_info_temp_history(void *buf, uint16_t subtype __unused, uint8_t res __unused, uint32_t size __unused)
{
uint8_t *walker = buf;
uint32_t min;
printf("Temperature History:\n");
printf(" %-30s: %d C\n", "Current Temperature", *walker++);
printf(" %-30s: %d C\n", "Reference Temperature", *walker++);
printf(" %-30s: %d C\n", "Maximum Temperature", *walker++);
printf(" %-30s: %d C\n", "Minimum Temperature", *walker++);
min = le32dec(walker);
walker += 4;
printf(" %-30s: %d:%02d:00\n", "Max Temperature Time", min / 60, min % 60);
min = le32dec(walker);
walker += 4;
printf(" %-30s: %d:%02d:00\n", "Over Temperature Duration", min / 60, min % 60);
min = le32dec(walker);
walker += 4;
printf(" %-30s: %d:%02d:00\n", "Min Temperature Time", min / 60, min % 60);
}
static void
print_hgst_info_ssd_perf(void *buf, uint16_t subtype __unused, uint8_t res, uint32_t size __unused)
{
uint8_t *walker = buf;
uint64_t val;
printf("SSD Performance Subpage Type %d:\n", res);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Read Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Read Blocks", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Cache Read Hits Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Cache Read Hits Blocks", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Read Commands Stalled", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Write Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Write Blocks", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Write Odd Start Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Write Odd End Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Write Commands Stalled", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "NAND Read Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "NAND Read Blocks", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "NAND Write Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "NAND Write Blocks", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "NAND Read Before Writes", val);
}
static void
print_hgst_info_firmware_load(void *buf, uint16_t subtype __unused, uint8_t res __unused, uint32_t size __unused)
{
uint8_t *walker = buf;
printf("Firmware Load Subpage:\n");
printf(" %-30s: %d\n", "Firmware Downloads", le32dec(walker));
}
static void
kv_indirect(void *buf, uint32_t subtype, uint8_t res, uint32_t size, struct subpage_print *sp, size_t nsp)
{
size_t i;
for (i = 0; i < nsp; i++, sp++) {
if (sp->key == subtype) {
sp->fn(buf, subtype, res, size);
return;
}
}
printf("No handler for page type %x\n", subtype);
}
static void
print_hgst_info_log(const struct nvme_controller_data *cdata __unused, void *buf, uint32_t size __unused)
{
uint8_t *walker, *end, *subpage;
int pages;
uint16_t len;
uint8_t subtype, res;
printf("HGST Extra Info Log\n");
printf("===================\n");
walker = buf;
pages = *walker++;
walker++;
len = le16dec(walker);
walker += 2;
end = walker + len; /* Length is exclusive of this header */
while (walker < end) {
subpage = walker + 4;
subtype = *walker++ & 0x3f; /* subtype */
res = *walker++; /* Reserved */
len = le16dec(walker);
walker += len + 2; /* Length, not incl header */
if (walker > end) {
printf("Ooops! Off the end of the list\n");
break;
}
kv_indirect(subpage, subtype, res, len, hgst_subpage, nitems(hgst_subpage));
}
}
/*
* Table of log page printer / sizing.
*
@ -855,15 +456,6 @@ NVME_LOGPAGE(health,
NVME_LOGPAGE(fw,
NVME_LOG_FIRMWARE_SLOT, NULL, "Firmware Information",
print_log_firmware, sizeof(struct nvme_firmware_page));
NVME_LOGPAGE(hgst_info,
HGST_INFO_LOG, "hgst", "Detailed Health/SMART",
print_hgst_info_log, DEFAULT_SIZE);
NVME_LOGPAGE(wdc_info,
HGST_INFO_LOG, "wdc", "Detailed Health/SMART",
print_hgst_info_log, DEFAULT_SIZE);
NVME_LOGPAGE(wds_info,
HGST_INFO_LOG, "wds", "Detailed Health/SMART",
print_hgst_info_log, DEFAULT_SIZE);
NVME_LOGPAGE(intel_temp,
INTEL_LOG_TEMP_STATS, "intel", "Temperature Stats",
print_intel_temp_stats, sizeof(struct intel_log_temp_stats));

408
sbin/nvmecontrol/wdc.c
View File

@ -197,4 +197,412 @@ wdc(int argc, char *argv[])
DISPATCH(argc, argv, wdc);
}
/*
* HGST's 0xc1 page. This is a grab bag of additional data. Please see
* https://www.hgst.com/sites/default/files/resources/US_SN150_ProdManual.pdf
* https://www.hgst.com/sites/default/files/resources/US_SN100_ProdManual.pdf
* Appendix A for details
*/
typedef void (*subprint_fn_t)(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
struct subpage_print
{
uint16_t key;
subprint_fn_t fn;
};
static void print_hgst_info_write_errors(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_read_errors(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_verify_errors(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_self_test(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_background_scan(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_erase_errors(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_erase_counts(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_temp_history(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_ssd_perf(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static void print_hgst_info_firmware_load(void *buf, uint16_t subtype, uint8_t res, uint32_t size);
static struct subpage_print hgst_subpage[] = {
{ 0x02, print_hgst_info_write_errors },
{ 0x03, print_hgst_info_read_errors },
{ 0x05, print_hgst_info_verify_errors },
{ 0x10, print_hgst_info_self_test },
{ 0x15, print_hgst_info_background_scan },
{ 0x30, print_hgst_info_erase_errors },
{ 0x31, print_hgst_info_erase_counts },
{ 0x32, print_hgst_info_temp_history },
{ 0x37, print_hgst_info_ssd_perf },
{ 0x38, print_hgst_info_firmware_load },
};
/* Print a subpage that is basically just key value pairs */
static void
print_hgst_info_subpage_gen(void *buf, uint16_t subtype __unused, uint32_t size,
const struct kv_name *kv, size_t kv_count)
{
uint8_t *wsp, *esp;
uint16_t ptype;
uint8_t plen;
uint64_t param;
int i;
wsp = buf;
esp = wsp + size;
while (wsp < esp) {
ptype = le16dec(wsp);
wsp += 2;
wsp++; /* Flags, just ignore */
plen = *wsp++;
param = 0;
for (i = 0; i < plen; i++)
param |= (uint64_t)*wsp++ << (i * 8);
printf(" %-30s: %jd\n", kv_lookup(kv, kv_count, ptype), (uintmax_t)param);
}
}
static void
print_hgst_info_write_errors(void *buf, uint16_t subtype, uint8_t res __unused, uint32_t size)
{
static struct kv_name kv[] =
{
{ 0x0000, "Corrected Without Delay" },
{ 0x0001, "Corrected Maybe Delayed" },
{ 0x0002, "Re-Writes" },
{ 0x0003, "Errors Corrected" },
{ 0x0004, "Correct Algorithm Used" },
{ 0x0005, "Bytes Processed" },
{ 0x0006, "Uncorrected Errors" },
{ 0x8000, "Flash Write Commands" },
{ 0x8001, "HGST Special" },
};
printf("Write Errors Subpage:\n");
print_hgst_info_subpage_gen(buf, subtype, size, kv, nitems(kv));
}
static void
print_hgst_info_read_errors(void *buf, uint16_t subtype, uint8_t res __unused, uint32_t size)
{
static struct kv_name kv[] =
{
{ 0x0000, "Corrected Without Delay" },
{ 0x0001, "Corrected Maybe Delayed" },
{ 0x0002, "Re-Reads" },
{ 0x0003, "Errors Corrected" },
{ 0x0004, "Correct Algorithm Used" },
{ 0x0005, "Bytes Processed" },
{ 0x0006, "Uncorrected Errors" },
{ 0x8000, "Flash Read Commands" },
{ 0x8001, "XOR Recovered" },
{ 0x8002, "Total Corrected Bits" },
};
printf("Read Errors Subpage:\n");
print_hgst_info_subpage_gen(buf, subtype, size, kv, nitems(kv));
}
static void
print_hgst_info_verify_errors(void *buf, uint16_t subtype, uint8_t res __unused, uint32_t size)
{
static struct kv_name kv[] =
{
{ 0x0000, "Corrected Without Delay" },
{ 0x0001, "Corrected Maybe Delayed" },
{ 0x0002, "Re-Reads" },
{ 0x0003, "Errors Corrected" },
{ 0x0004, "Correct Algorithm Used" },
{ 0x0005, "Bytes Processed" },
{ 0x0006, "Uncorrected Errors" },
{ 0x8000, "Commands Processed" },
};
printf("Verify Errors Subpage:\n");
print_hgst_info_subpage_gen(buf, subtype, size, kv, nitems(kv));
}
static void
print_hgst_info_self_test(void *buf, uint16_t subtype __unused, uint8_t res __unused, uint32_t size)
{
size_t i;
uint8_t *walker = buf;
uint16_t code, hrs;
uint32_t lba;
printf("Self Test Subpage:\n");
for (i = 0; i < size / 20; i++) { /* Each entry is 20 bytes */
code = le16dec(walker);
walker += 2;
walker++; /* Ignore fixed flags */
if (*walker == 0) /* Last entry is zero length */
break;
if (*walker++ != 0x10) {
printf("Bad length for self test report\n");
return;
}
printf(" %-30s: %d\n", "Recent Test", code);
printf(" %-28s: %#x\n", "Self-Test Results", *walker & 0xf);
printf(" %-28s: %#x\n", "Self-Test Code", (*walker >> 5) & 0x7);
walker++;
printf(" %-28s: %#x\n", "Self-Test Number", *walker++);
hrs = le16dec(walker);
walker += 2;
lba = le32dec(walker);
walker += 4;
printf(" %-28s: %u\n", "Total Power On Hrs", hrs);
printf(" %-28s: %#jx (%jd)\n", "LBA", (uintmax_t)lba, (uintmax_t)lba);
printf(" %-28s: %#x\n", "Sense Key", *walker++ & 0xf);
printf(" %-28s: %#x\n", "Additional Sense Code", *walker++);
printf(" %-28s: %#x\n", "Additional Sense Qualifier", *walker++);
printf(" %-28s: %#x\n", "Vendor Specific Detail", *walker++);
}
}
static void
print_hgst_info_background_scan(void *buf, uint16_t subtype __unused, uint8_t res __unused, uint32_t size)
{
uint8_t *walker = buf;
uint8_t status;
uint16_t code, nscan, progress;
uint32_t pom, nand;
printf("Background Media Scan Subpage:\n");
/* Decode the header */
code = le16dec(walker);
walker += 2;
walker++; /* Ignore fixed flags */
if (*walker++ != 0x10) {
printf("Bad length for background scan header\n");
return;
}
if (code != 0) {
printf("Expceted code 0, found code %#x\n", code);
return;
}
pom = le32dec(walker);
walker += 4;
walker++; /* Reserved */
status = *walker++;
nscan = le16dec(walker);
walker += 2;
progress = le16dec(walker);
walker += 2;
walker += 6; /* Reserved */
printf(" %-30s: %d\n", "Power On Minutes", pom);
printf(" %-30s: %x (%s)\n", "BMS Status", status,
status == 0 ? "idle" : (status == 1 ? "active" : (status == 8 ? "suspended" : "unknown")));
printf(" %-30s: %d\n", "Number of BMS", nscan);
printf(" %-30s: %d\n", "Progress Current BMS", progress);
/* Report retirements */
if (walker - (uint8_t *)buf != 20) {
printf("Coding error, offset not 20\n");
return;
}
size -= 20;
printf(" %-30s: %d\n", "BMS retirements", size / 0x18);
while (size > 0) {
code = le16dec(walker);
walker += 2;
walker++;
if (*walker++ != 0x14) {
printf("Bad length parameter\n");
return;
}
pom = le32dec(walker);
walker += 4;
/*
* Spec sheet says the following are hard coded, if true, just
* print the NAND retirement.
*/
if (walker[0] == 0x41 &&
walker[1] == 0x0b &&
walker[2] == 0x01 &&
walker[3] == 0x00 &&
walker[4] == 0x00 &&
walker[5] == 0x00 &&
walker[6] == 0x00 &&
walker[7] == 0x00) {
walker += 8;
walker += 4; /* Skip reserved */
nand = le32dec(walker);
walker += 4;
printf(" %-30s: %d\n", "Retirement number", code);
printf(" %-28s: %#x\n", "NAND (C/T)BBBPPP", nand);
} else {
printf("Parameter %#x entry corrupt\n", code);
walker += 16;
}
}
}
static void
print_hgst_info_erase_errors(void *buf, uint16_t subtype __unused, uint8_t res __unused, uint32_t size)
{
static struct kv_name kv[] =
{
{ 0x0000, "Corrected Without Delay" },
{ 0x0001, "Corrected Maybe Delayed" },
{ 0x0002, "Re-Erase" },
{ 0x0003, "Errors Corrected" },
{ 0x0004, "Correct Algorithm Used" },
{ 0x0005, "Bytes Processed" },
{ 0x0006, "Uncorrected Errors" },
{ 0x8000, "Flash Erase Commands" },
{ 0x8001, "Mfg Defect Count" },
{ 0x8002, "Grown Defect Count" },
{ 0x8003, "Erase Count -- User" },
{ 0x8004, "Erase Count -- System" },
};
printf("Erase Errors Subpage:\n");
print_hgst_info_subpage_gen(buf, subtype, size, kv, nitems(kv));
}
static void
print_hgst_info_erase_counts(void *buf, uint16_t subtype, uint8_t res __unused, uint32_t size)
{
/* My drive doesn't export this -- so not coding up */
printf("XXX: Erase counts subpage: %p, %#x %d\n", buf, subtype, size);
}
static void
print_hgst_info_temp_history(void *buf, uint16_t subtype __unused, uint8_t res __unused, uint32_t size __unused)
{
uint8_t *walker = buf;
uint32_t min;
printf("Temperature History:\n");
printf(" %-30s: %d C\n", "Current Temperature", *walker++);
printf(" %-30s: %d C\n", "Reference Temperature", *walker++);
printf(" %-30s: %d C\n", "Maximum Temperature", *walker++);
printf(" %-30s: %d C\n", "Minimum Temperature", *walker++);
min = le32dec(walker);
walker += 4;
printf(" %-30s: %d:%02d:00\n", "Max Temperature Time", min / 60, min % 60);
min = le32dec(walker);
walker += 4;
printf(" %-30s: %d:%02d:00\n", "Over Temperature Duration", min / 60, min % 60);
min = le32dec(walker);
walker += 4;
printf(" %-30s: %d:%02d:00\n", "Min Temperature Time", min / 60, min % 60);
}
static void
print_hgst_info_ssd_perf(void *buf, uint16_t subtype __unused, uint8_t res, uint32_t size __unused)
{
uint8_t *walker = buf;
uint64_t val;
printf("SSD Performance Subpage Type %d:\n", res);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Read Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Read Blocks", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Cache Read Hits Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Cache Read Hits Blocks", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Read Commands Stalled", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Write Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Write Blocks", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Write Odd Start Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Write Odd End Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "Host Write Commands Stalled", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "NAND Read Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "NAND Read Blocks", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "NAND Write Commands", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "NAND Write Blocks", val);
val = le64dec(walker);
walker += 8;
printf(" %-30s: %ju\n", "NAND Read Before Writes", val);
}
static void
print_hgst_info_firmware_load(void *buf, uint16_t subtype __unused, uint8_t res __unused, uint32_t size __unused)
{
uint8_t *walker = buf;
printf("Firmware Load Subpage:\n");
printf(" %-30s: %d\n", "Firmware Downloads", le32dec(walker));
}
static void
kv_indirect(void *buf, uint32_t subtype, uint8_t res, uint32_t size, struct subpage_print *sp, size_t nsp)
{
size_t i;
for (i = 0; i < nsp; i++, sp++) {
if (sp->key == subtype) {
sp->fn(buf, subtype, res, size);
return;
}
}
printf("No handler for page type %x\n", subtype);
}
static void
print_hgst_info_log(const struct nvme_controller_data *cdata __unused, void *buf, uint32_t size __unused)
{
uint8_t *walker, *end, *subpage;
int pages;
uint16_t len;
uint8_t subtype, res;
printf("HGST Extra Info Log\n");
printf("===================\n");
walker = buf;
pages = *walker++;
walker++;
len = le16dec(walker);
walker += 2;
end = walker + len; /* Length is exclusive of this header */
while (walker < end) {
subpage = walker + 4;
subtype = *walker++ & 0x3f; /* subtype */
res = *walker++; /* Reserved */
len = le16dec(walker);
walker += len + 2; /* Length, not incl header */
if (walker > end) {
printf("Ooops! Off the end of the list\n");
break;
}
kv_indirect(subpage, subtype, res, len, hgst_subpage, nitems(hgst_subpage));
}
}
NVME_LOGPAGE(hgst_info,
HGST_INFO_LOG, "hgst", "Detailed Health/SMART",
print_hgst_info_log, DEFAULT_SIZE);
NVME_LOGPAGE(wdc_info,
HGST_INFO_LOG, "wdc", "Detailed Health/SMART",
print_hgst_info_log, DEFAULT_SIZE);
NVME_LOGPAGE(wds_info,
HGST_INFO_LOG, "wds", "Detailed Health/SMART",
print_hgst_info_log, DEFAULT_SIZE);
NVME_COMMAND(top, wdc, wdc, WDC_USAGE);