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|
/*
* This file and its contents are supplied under the terms of the
* Common Development and Distribution License ("CDDL"), version 1.0.
* You may only use this file in accordance with the terms of version
* 1.0 of the CDDL.
*
* A full copy of the text of the CDDL should have accompanied this
* source. A copy of the CDDL is also available via the Internet at
* http://www.illumos.org/license/CDDL.
*/
/*
* Copyright 2017 Joyent, Inc.
* Copyright 2021 Oxide Computer Company
* Copyright 2022 Tintri by DDN, Inc. All rights reserved.
*/
/*
* nvmeadm -- NVMe administration utility
*
* nvmeadm [-v] [-d] [-h] <command> [<ctl>[/<ns>][,...]] [args]
* commands: list
* identify
* get-logpage <logpage name>
* get-features <feature>[,...]
* format ...
* secure-erase ...
* detach ...
* attach ...
* list-firmware ...
* load-firmware ...
* commit-firmware ...
* activate-firmware ...
*/
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <fcntl.h>
#include <strings.h>
#include <ctype.h>
#include <err.h>
#include <sys/sunddi.h>
#include <libdevinfo.h>
#include <sys/nvme.h>
#include "nvmeadm.h"
struct nvme_feature {
char *f_name;
char *f_short;
uint8_t f_feature;
size_t f_bufsize;
uint_t f_getflags;
int (*f_get)(int, const nvme_feature_t *, const nvme_process_arg_t *);
void (*f_print)(uint64_t, void *, size_t, nvme_identify_ctrl_t *,
nvme_version_t *);
};
#define NVMEADM_F_CTRL 1
#define NVMEADM_F_NS 2
#define NVMEADM_F_BOTH (NVMEADM_F_CTRL | NVMEADM_F_NS)
#define NVMEADM_C_MULTI 1
#define NVMEADM_C_EXCL 2
struct nvmeadm_cmd {
char *c_name;
const char *c_desc;
const char *c_flagdesc;
int (*c_func)(int, const nvme_process_arg_t *);
void (*c_usage)(const char *);
void (*c_optparse)(nvme_process_arg_t *);
int c_flags;
};
static void usage(const nvmeadm_cmd_t *);
static void nvme_walk(nvme_process_arg_t *, di_node_t);
static boolean_t nvme_match(nvme_process_arg_t *);
static int nvme_process(di_node_t, di_minor_t, void *);
static int do_list(int, const nvme_process_arg_t *);
static int do_identify(int, const nvme_process_arg_t *);
static int do_get_logpage_error(int, const nvme_process_arg_t *);
static int do_get_logpage_health(int, const nvme_process_arg_t *);
static int do_get_logpage_fwslot(int, const nvme_process_arg_t *);
static int do_get_logpage(int, const nvme_process_arg_t *);
static int do_get_feat_common(int, const nvme_feature_t *,
const nvme_process_arg_t *);
static int do_get_feat_intr_vect(int, const nvme_feature_t *,
const nvme_process_arg_t *);
static int do_get_feat_temp_thresh(int, const nvme_feature_t *,
const nvme_process_arg_t *);
static int do_get_features(int, const nvme_process_arg_t *);
static int do_format(int, const nvme_process_arg_t *);
static int do_secure_erase(int, const nvme_process_arg_t *);
static int do_attach_detach(int, const nvme_process_arg_t *);
static int do_firmware_load(int, const nvme_process_arg_t *);
static int do_firmware_commit(int, const nvme_process_arg_t *);
static int do_firmware_activate(int, const nvme_process_arg_t *);
static void optparse_list(nvme_process_arg_t *);
static void usage_list(const char *);
static void usage_identify(const char *);
static void usage_get_logpage(const char *);
static void usage_get_features(const char *);
static void usage_format(const char *);
static void usage_secure_erase(const char *);
static void usage_attach_detach(const char *);
static void usage_firmware_list(const char *);
static void usage_firmware_load(const char *);
static void usage_firmware_commit(const char *);
static void usage_firmware_activate(const char *);
int verbose;
int debug;
static int exitcode;
static const nvmeadm_cmd_t nvmeadm_cmds[] = {
{
"list",
"list controllers and namespaces",
" -p\t\tprint parsable output\n"
" -o field\tselect a field for parsable output\n",
do_list, usage_list, optparse_list,
NVMEADM_C_MULTI
},
{
"identify",
"identify controllers and/or namespaces",
NULL,
do_identify, usage_identify, NULL,
NVMEADM_C_MULTI
},
{
"get-logpage",
"get a log page from controllers and/or namespaces",
NULL,
do_get_logpage, usage_get_logpage, NULL,
NVMEADM_C_MULTI
},
{
"get-features",
"get features from controllers and/or namespaces",
NULL,
do_get_features, usage_get_features, NULL,
NVMEADM_C_MULTI
},
{
"format",
"format namespace(s) of a controller",
NULL,
do_format, usage_format, NULL,
NVMEADM_C_EXCL
},
{
"secure-erase",
"secure erase namespace(s) of a controller",
" -c Do a cryptographic erase.",
do_secure_erase, usage_secure_erase, NULL,
NVMEADM_C_EXCL
},
{
"detach",
"detach blkdev(4D) from namespace(s) of a controller",
NULL,
do_attach_detach, usage_attach_detach, NULL,
NVMEADM_C_EXCL
},
{
"attach",
"attach blkdev(4D) to namespace(s) of a controller",
NULL,
do_attach_detach, usage_attach_detach, NULL,
NVMEADM_C_EXCL
},
{
"list-firmware",
"list firmware on a controller",
NULL,
do_get_logpage_fwslot, usage_firmware_list, NULL,
0
},
{
"load-firmware",
"load firmware to a controller",
NULL,
do_firmware_load, usage_firmware_load, NULL,
0
},
{
"commit-firmware",
"commit downloaded firmware to a slot of a controller",
NULL,
do_firmware_commit, usage_firmware_commit, NULL,
0
},
{
"activate-firmware",
"activate a firmware slot of a controller",
NULL,
do_firmware_activate, usage_firmware_activate, NULL,
0
},
{
NULL, NULL, NULL,
NULL, NULL, NULL, 0
}
};
static const nvme_feature_t features[] = {
{ "Arbitration", "",
NVME_FEAT_ARBITRATION, 0, NVMEADM_F_CTRL,
do_get_feat_common, nvme_print_feat_arbitration },
{ "Power Management", "",
NVME_FEAT_POWER_MGMT, 0, NVMEADM_F_CTRL,
do_get_feat_common, nvme_print_feat_power_mgmt },
{ "LBA Range Type", "range",
NVME_FEAT_LBA_RANGE, NVME_LBA_RANGE_BUFSIZE, NVMEADM_F_NS,
do_get_feat_common, nvme_print_feat_lba_range },
{ "Temperature Threshold", "",
NVME_FEAT_TEMPERATURE, 0, NVMEADM_F_CTRL,
do_get_feat_temp_thresh, nvme_print_feat_temperature },
{ "Error Recovery", "",
NVME_FEAT_ERROR, 0, NVMEADM_F_CTRL,
do_get_feat_common, nvme_print_feat_error },
{ "Volatile Write Cache", "cache",
NVME_FEAT_WRITE_CACHE, 0, NVMEADM_F_CTRL,
do_get_feat_common, nvme_print_feat_write_cache },
{ "Number of Queues", "queues",
NVME_FEAT_NQUEUES, 0, NVMEADM_F_CTRL,
do_get_feat_common, nvme_print_feat_nqueues },
{ "Interrupt Coalescing", "coalescing",
NVME_FEAT_INTR_COAL, 0, NVMEADM_F_CTRL,
do_get_feat_common, nvme_print_feat_intr_coal },
{ "Interrupt Vector Configuration", "vector",
NVME_FEAT_INTR_VECT, 0, NVMEADM_F_CTRL,
do_get_feat_intr_vect, nvme_print_feat_intr_vect },
{ "Write Atomicity", "atomicity",
NVME_FEAT_WRITE_ATOM, 0, NVMEADM_F_CTRL,
do_get_feat_common, nvme_print_feat_write_atom },
{ "Asynchronous Event Configuration", "event",
NVME_FEAT_ASYNC_EVENT, 0, NVMEADM_F_CTRL,
do_get_feat_common, nvme_print_feat_async_event },
{ "Autonomous Power State Transition", "",
NVME_FEAT_AUTO_PST, NVME_AUTO_PST_BUFSIZE, NVMEADM_F_CTRL,
do_get_feat_common, nvme_print_feat_auto_pst },
{ "Software Progress Marker", "progress",
NVME_FEAT_PROGRESS, 0, NVMEADM_F_CTRL,
do_get_feat_common, nvme_print_feat_progress },
{ NULL, NULL, 0, 0, B_FALSE, NULL }
};
int
main(int argc, char **argv)
{
int c;
const nvmeadm_cmd_t *cmd;
di_node_t node;
nvme_process_arg_t npa = { 0 };
int help = 0;
char *tmp, *lasts = NULL;
char *ctrl = NULL;
while ((c = getopt(argc, argv, "dhv")) != -1) {
switch (c) {
case 'd':
debug++;
break;
case 'v':
verbose++;
break;
case 'h':
help++;
break;
case '?':
usage(NULL);
exit(-1);
}
}
if (optind == argc) {
usage(NULL);
if (help)
exit(0);
else
exit(-1);
}
/* Look up the specified command in the command table. */
for (cmd = &nvmeadm_cmds[0]; cmd->c_name != NULL; cmd++)
if (strcmp(cmd->c_name, argv[optind]) == 0)
break;
if (cmd->c_name == NULL) {
usage(NULL);
exit(-1);
}
if (help) {
usage(cmd);
exit(0);
}
npa.npa_cmd = cmd;
npa.npa_interactive = B_TRUE;
npa.npa_excl = ((cmd->c_flags & NVMEADM_C_EXCL) != 0);
optind++;
/*
* Store the remaining arguments for use by the command. Give the
* command a chance to process the options across the board before going
* into each controller.
*/
npa.npa_argc = argc - optind;
npa.npa_argv = &argv[optind];
if (cmd->c_optparse != NULL) {
cmd->c_optparse(&npa);
}
/*
* All commands but "list" require a ctl/ns argument. However, this
* should not be passed through to the command in its subsequent
* arguments.
*/
if ((npa.npa_argc == 0 || (strncmp(npa.npa_argv[0], "nvme", 4) != 0)) &&
cmd->c_func != do_list) {
warnx("missing controller/namespace name");
usage(cmd);
exit(-1);
}
if (npa.npa_argc > 0) {
ctrl = npa.npa_argv[0];
npa.npa_argv++;
npa.npa_argc--;
} else {
ctrl = NULL;
}
/*
* Make sure we're not running commands on multiple controllers that
* aren't allowed to do that.
*/
if (ctrl != NULL && strchr(ctrl, ',') != NULL &&
(cmd->c_flags & NVMEADM_C_MULTI) == 0) {
warnx("%s not allowed on multiple controllers",
cmd->c_name);
usage(cmd);
exit(-1);
}
/*
* Get controller/namespace arguments and run command.
*/
npa.npa_name = strtok_r(ctrl, ",", &lasts);
do {
if (npa.npa_name != NULL) {
tmp = strchr(npa.npa_name, '/');
if (tmp != NULL) {
*tmp++ = '\0';
npa.npa_nsid = tmp;
npa.npa_isns = B_TRUE;
}
}
if ((node = di_init("/", DINFOSUBTREE | DINFOMINOR)) == NULL)
err(-1, "failed to initialize libdevinfo");
nvme_walk(&npa, node);
di_fini(node);
if (npa.npa_found == 0) {
if (npa.npa_name != NULL) {
warnx("%s%.*s%.*s: no such controller or "
"namespace", npa.npa_name,
npa.npa_isns ? -1 : 0, "/",
npa.npa_isns ? -1 : 0, npa.npa_nsid);
} else {
warnx("no controllers found");
}
exitcode--;
}
npa.npa_found = 0;
npa.npa_name = strtok_r(NULL, ",", &lasts);
} while (npa.npa_name != NULL);
exit(exitcode);
}
static void
nvme_oferr(const char *fmt, ...)
{
va_list ap;
va_start(ap, fmt);
verrx(-1, fmt, ap);
}
static void
usage(const nvmeadm_cmd_t *cmd)
{
(void) fprintf(stderr, "usage:\n");
(void) fprintf(stderr, " %s -h %s\n", getprogname(),
cmd != NULL ? cmd->c_name : "[<command>]");
(void) fprintf(stderr, " %s [-dv] ", getprogname());
if (cmd != NULL) {
cmd->c_usage(cmd->c_name);
} else {
(void) fprintf(stderr,
"<command> <ctl>[/<ns>][,...] [<args>]\n");
(void) fprintf(stderr,
"\n Manage NVMe controllers and namespaces.\n");
(void) fprintf(stderr, "\ncommands:\n");
for (cmd = &nvmeadm_cmds[0]; cmd->c_name != NULL; cmd++)
(void) fprintf(stderr, " %-18s - %s\n",
cmd->c_name, cmd->c_desc);
}
(void) fprintf(stderr, "\nflags:\n"
" -h\t\tprint usage information\n"
" -d\t\tprint information useful for debugging %s\n"
" -v\t\tprint verbose information\n", getprogname());
if (cmd != NULL && cmd->c_flagdesc != NULL)
(void) fprintf(stderr, "%s\n", cmd->c_flagdesc);
}
static boolean_t
nvme_match(nvme_process_arg_t *npa)
{
char *name;
char *nsid = NULL;
if (npa->npa_name == NULL)
return (B_TRUE);
if (asprintf(&name, "%s%d", di_driver_name(npa->npa_node),
di_instance(npa->npa_node)) < 0)
err(-1, "nvme_match()");
if (strcmp(name, npa->npa_name) != 0) {
free(name);
return (B_FALSE);
}
free(name);
if (npa->npa_isns) {
if (npa->npa_nsid == NULL)
return (B_TRUE);
nsid = di_minor_name(npa->npa_minor);
if (nsid == NULL || strcmp(npa->npa_nsid, nsid) != 0)
return (B_FALSE);
}
return (B_TRUE);
}
char *
nvme_dskname(const nvme_process_arg_t *npa)
{
char *path = NULL;
di_node_t child;
di_dim_t dim;
char *addr;
dim = di_dim_init();
for (child = di_child_node(npa->npa_node);
child != DI_NODE_NIL;
child = di_sibling_node(child)) {
addr = di_bus_addr(child);
if (addr == NULL)
continue;
if (addr[0] == 'w')
addr++;
if (strncasecmp(addr, di_minor_name(npa->npa_minor),
strchrnul(addr, ',') - addr) != 0)
continue;
path = di_dim_path_dev(dim, di_driver_name(child),
di_instance(child), "c");
/*
* Error out if we didn't get a path, or if it's too short for
* the following operations to be safe.
*/
if (path == NULL || strlen(path) < 2)
goto fail;
/* Chop off 's0' and get everything past the last '/' */
path[strlen(path) - 2] = '\0';
path = strrchr(path, '/');
if (path == NULL)
goto fail;
path++;
break;
}
di_dim_fini(dim);
return (path);
fail:
err(-1, "nvme_dskname");
}
static int
nvme_process(di_node_t node, di_minor_t minor, void *arg)
{
nvme_process_arg_t *npa = arg;
int fd;
npa->npa_node = node;
npa->npa_minor = minor;
if (!nvme_match(npa))
return (DI_WALK_CONTINUE);
if ((fd = nvme_open(minor, npa->npa_excl)) < 0)
return (DI_WALK_CONTINUE);
npa->npa_found++;
npa->npa_path = di_devfs_path(node);
if (npa->npa_path == NULL)
goto out;
npa->npa_version = nvme_version(fd);
if (npa->npa_version == NULL)
goto out;
npa->npa_idctl = nvme_identify_ctrl(fd);
if (npa->npa_idctl == NULL)
goto out;
npa->npa_idns = nvme_identify_nsid(fd);
if (npa->npa_idns == NULL)
goto out;
if (npa->npa_isns) {
npa->npa_ignored = nvme_is_ignored_ns(fd);
if (!npa->npa_ignored)
npa->npa_dsk = nvme_dskname(npa);
}
exitcode += npa->npa_cmd->c_func(fd, npa);
out:
di_devfs_path_free(npa->npa_path);
free(npa->npa_dsk);
free(npa->npa_version);
free(npa->npa_idctl);
free(npa->npa_idns);
npa->npa_version = NULL;
npa->npa_idctl = NULL;
npa->npa_idns = NULL;
nvme_close(fd);
return (DI_WALK_CONTINUE);
}
static void
nvme_walk(nvme_process_arg_t *npa, di_node_t node)
{
char *minor_nodetype = DDI_NT_NVME_NEXUS;
if (npa->npa_isns)
minor_nodetype = DDI_NT_NVME_ATTACHMENT_POINT;
(void) di_walk_minor(node, minor_nodetype, 0, npa, nvme_process);
}
static void
usage_list(const char *c_name)
{
(void) fprintf(stderr, "%s "
"[-p -o field[,...]] [<ctl>[/<ns>][,...]\n\n"
" List NVMe controllers and their namespaces. If no "
"controllers and/or name-\n spaces are specified, all "
"controllers and namespaces in the system will be\n "
"listed.\n", c_name);
}
static void
optparse_list(nvme_process_arg_t *npa)
{
int c;
uint_t oflags = 0;
boolean_t parse = B_FALSE;
const char *fields = NULL;
optind = 0;
while ((c = getopt(npa->npa_argc, npa->npa_argv, ":o:p")) != -1) {
switch (c) {
case 'o':
fields = optarg;
break;
case 'p':
parse = B_TRUE;
oflags |= OFMT_PARSABLE;
break;
case '?':
errx(-1, "unknown list option: -%c", optopt);
break;
case ':':
errx(-1, "option -%c requires an argument", optopt);
default:
break;
}
}
if (fields != NULL && !parse) {
errx(-1, "-o can only be used when in parsable mode (-p)");
}
if (parse && fields == NULL) {
errx(-1, "parsable mode (-p) requires one to specify output "
"fields with -o");
}
if (parse) {
ofmt_status_t oferr;
oferr = ofmt_open(fields, nvme_list_ofmt, oflags, 0,
&npa->npa_ofmt);
ofmt_check(oferr, B_TRUE, npa->npa_ofmt, nvme_oferr, warnx);
}
npa->npa_argc -= optind;
npa->npa_argv += optind;
}
static int
do_list_nsid(int fd, const nvme_process_arg_t *npa)
{
_NOTE(ARGUNUSED(fd));
const uint_t format = npa->npa_idns->id_flbas.lba_format;
const uint_t bshift = npa->npa_idns->id_lbaf[format].lbaf_lbads;
/*
* Some devices have extra namespaces with illegal block sizes and
* zero blocks. Don't list them when verbose operation isn't requested.
*/
if ((bshift < 9 || npa->npa_idns->id_nsize == 0) && verbose == 0)
return (0);
if (npa->npa_ofmt == NULL) {
(void) printf(" %s/%s (%s): ", npa->npa_name,
di_minor_name(npa->npa_minor),
npa->npa_dsk != NULL ? npa->npa_dsk : "unattached");
nvme_print_nsid_summary(npa->npa_idns);
} else {
ofmt_print(npa->npa_ofmt, (void *)npa);
}
return (0);
}
static int
do_list(int fd, const nvme_process_arg_t *npa)
{
_NOTE(ARGUNUSED(fd));
nvme_process_arg_t ns_npa = { 0 };
nvmeadm_cmd_t cmd = { 0 };
char *name;
if (asprintf(&name, "%s%d", di_driver_name(npa->npa_node),
di_instance(npa->npa_node)) < 0)
err(-1, "do_list()");
if (npa->npa_ofmt == NULL) {
(void) printf("%s: ", name);
nvme_print_ctrl_summary(npa->npa_idctl, npa->npa_version);
}
ns_npa.npa_name = name;
ns_npa.npa_isns = B_TRUE;
ns_npa.npa_nsid = npa->npa_nsid;
cmd = *(npa->npa_cmd);
cmd.c_func = do_list_nsid;
ns_npa.npa_cmd = &cmd;
ns_npa.npa_ofmt = npa->npa_ofmt;
ns_npa.npa_idctl = npa->npa_idctl;
nvme_walk(&ns_npa, npa->npa_node);
free(name);
return (exitcode);
}
static void
usage_identify(const char *c_name)
{
(void) fprintf(stderr, "%s <ctl>[/<ns>][,...]\n\n"
" Print detailed information about the specified NVMe "
"controllers and/or name-\n spaces.\n", c_name);
}
static int
do_identify(int fd, const nvme_process_arg_t *npa)
{
if (!npa->npa_isns) {
nvme_capabilities_t *cap;
cap = nvme_capabilities(fd);
if (cap == NULL)
return (-1);
(void) printf("%s: ", npa->npa_name);
nvme_print_identify_ctrl(npa->npa_idctl, cap,
npa->npa_version);
free(cap);
} else {
(void) printf("%s/%s: ", npa->npa_name,
di_minor_name(npa->npa_minor));
nvme_print_identify_nsid(npa->npa_idns,
npa->npa_version);
}
return (0);
}
static void
usage_get_logpage(const char *c_name)
{
(void) fprintf(stderr, "%s <ctl>[/<ns>][,...] <logpage>\n\n"
" Print the specified log page of the specified NVMe "
"controllers and/or name-\n spaces. Supported log pages "
"are error, health, and firmware.\n", c_name);
}
static void
usage_firmware_list(const char *c_name)
{
(void) fprintf(stderr, "%s <ctl>\n\n"
" Print the log page that contains the list of firmware "
"images installed on the specified NVMe controller.\n", c_name);
}
static int
do_get_logpage_error(int fd, const nvme_process_arg_t *npa)
{
int nlog = npa->npa_idctl->id_elpe + 1;
size_t bufsize = sizeof (nvme_error_log_entry_t) * nlog;
nvme_error_log_entry_t *elog;
if (npa->npa_isns)
errx(-1, "Error Log not available on a per-namespace basis");
elog = nvme_get_logpage(fd, NVME_LOGPAGE_ERROR, &bufsize);
if (elog == NULL)
return (-1);
nlog = bufsize / sizeof (nvme_error_log_entry_t);
(void) printf("%s: ", npa->npa_name);
nvme_print_error_log(nlog, elog, npa->npa_version);
free(elog);
return (0);
}
static int
do_get_logpage_health(int fd, const nvme_process_arg_t *npa)
{
size_t bufsize = sizeof (nvme_health_log_t);
nvme_health_log_t *hlog;
if (npa->npa_isns) {
if (npa->npa_idctl->id_lpa.lp_smart == 0)
errx(-1, "SMART/Health information not available "
"on a per-namespace basis on this controller");
}
hlog = nvme_get_logpage(fd, NVME_LOGPAGE_HEALTH, &bufsize);
if (hlog == NULL)
return (-1);
(void) printf("%s: ", npa->npa_name);
nvme_print_health_log(hlog, npa->npa_idctl, npa->npa_version);
free(hlog);
return (0);
}
static int
do_get_logpage_fwslot(int fd, const nvme_process_arg_t *npa)
{
size_t bufsize = sizeof (nvme_fwslot_log_t);
nvme_fwslot_log_t *fwlog;
if (npa->npa_isns)
errx(-1, "Firmware Slot information not available on a "
"per-namespace basis");
fwlog = nvme_get_logpage(fd, NVME_LOGPAGE_FWSLOT, &bufsize);
if (fwlog == NULL)
return (-1);
(void) printf("%s: ", npa->npa_name);
nvme_print_fwslot_log(fwlog, npa->npa_idctl);
free(fwlog);
return (0);
}
static int
do_get_logpage(int fd, const nvme_process_arg_t *npa)
{
int ret = 0;
int (*func)(int, const nvme_process_arg_t *);
if (npa->npa_argc < 1) {
warnx("missing logpage name");
usage(npa->npa_cmd);
exit(-1);
}
if (strcmp(npa->npa_argv[0], "error") == 0)
func = do_get_logpage_error;
else if (strcmp(npa->npa_argv[0], "health") == 0)
func = do_get_logpage_health;
else if (strcmp(npa->npa_argv[0], "firmware") == 0)
func = do_get_logpage_fwslot;
else
errx(-1, "invalid log page: %s", npa->npa_argv[0]);
ret = func(fd, npa);
return (ret);
}
static void
usage_get_features(const char *c_name)
{
const nvme_feature_t *feat;
(void) fprintf(stderr, "%s <ctl>[/<ns>][,...] [<feature>[,...]]\n\n"
" Print the specified features of the specified NVMe controllers "
"and/or\n namespaces. Supported features are:\n\n", c_name);
(void) fprintf(stderr, " %-35s %-14s %s\n",
"FEATURE NAME", "SHORT NAME", "CONTROLLER/NAMESPACE");
for (feat = &features[0]; feat->f_feature != 0; feat++) {
char *type;
if ((feat->f_getflags & NVMEADM_F_BOTH) == NVMEADM_F_BOTH)
type = "both";
else if ((feat->f_getflags & NVMEADM_F_CTRL) != 0)
type = "controller only";
else
type = "namespace only";
(void) fprintf(stderr, " %-35s %-14s %s\n",
feat->f_name, feat->f_short, type);
}
}
static int
do_get_feat_common(int fd, const nvme_feature_t *feat,
const nvme_process_arg_t *npa)
{
void *buf = NULL;
size_t bufsize = feat->f_bufsize;
uint64_t res;
if (nvme_get_feature(fd, feat->f_feature, 0, &res, &bufsize, &buf)
== B_FALSE)
return (EINVAL);
nvme_print(2, feat->f_name, -1, NULL);
feat->f_print(res, buf, bufsize, npa->npa_idctl, npa->npa_version);
free(buf);
return (0);
}
static int
do_get_feat_temp_thresh_one(int fd, const nvme_feature_t *feat,
const char *label, uint16_t tmpsel, uint16_t thsel,
const nvme_process_arg_t *npa)
{
uint64_t res;
void *buf = NULL;
size_t bufsize = feat->f_bufsize;
nvme_temp_threshold_t tt;
tt.r = 0;
tt.b.tt_tmpsel = tmpsel;
tt.b.tt_thsel = thsel;
if (!nvme_get_feature(fd, feat->f_feature, tt.r, &res, &bufsize,
&buf)) {
return (EINVAL);
}
feat->f_print(res, (void *)label, 0, npa->npa_idctl, npa->npa_version);
free(buf);
return (0);
}
/*
* In NVMe 1.2, the specification allowed for up to 8 sensors to be on the
* device and changed the main device to have a composite temperature sensor. As
* a result, there is a set of thresholds for each sensor. In addition, they
* added both an over-temperature and under-temperature threshold. Since most
* devices don't actually implement all the sensors, we get the health page and
* see which sensors have a non-zero value to determine how to proceed.
*/
static int
do_get_feat_temp_thresh(int fd, const nvme_feature_t *feat,
const nvme_process_arg_t *npa)
{
int ret;
size_t bufsize = sizeof (nvme_health_log_t);
nvme_health_log_t *hlog;
nvme_print(2, feat->f_name, -1, NULL);
if ((ret = do_get_feat_temp_thresh_one(fd, feat,
"Composite Over Temp. Threshold", 0, NVME_TEMP_THRESH_OVER,
npa)) != 0) {
return (ret);
}
if (!nvme_version_check(npa->npa_version, 1, 2)) {
return (0);
}
if ((ret = do_get_feat_temp_thresh_one(fd, feat,
"Composite Under Temp. Threshold", 0, NVME_TEMP_THRESH_UNDER,
npa)) != 0) {
return (ret);
}
hlog = nvme_get_logpage(fd, NVME_LOGPAGE_HEALTH, &bufsize);
if (hlog == NULL) {
warnx("failed to get health log page, unable to get "
"thresholds for additional sensors");
return (0);
}
if (hlog->hl_temp_sensor_1 != 0) {
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 1 Over Temp. Threshold", 1,
NVME_TEMP_THRESH_OVER, npa);
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 1 Under Temp. Threshold", 1,
NVME_TEMP_THRESH_UNDER, npa);
}
if (hlog->hl_temp_sensor_2 != 0) {
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 2 Over Temp. Threshold", 2,
NVME_TEMP_THRESH_OVER, npa);
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 2 Under Temp. Threshold", 2,
NVME_TEMP_THRESH_UNDER, npa);
}
if (hlog->hl_temp_sensor_3 != 0) {
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 3 Over Temp. Threshold", 3,
NVME_TEMP_THRESH_OVER, npa);
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 3 Under Temp. Threshold", 3,
NVME_TEMP_THRESH_UNDER, npa);
}
if (hlog->hl_temp_sensor_4 != 0) {
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 4 Over Temp. Threshold", 4,
NVME_TEMP_THRESH_OVER, npa);
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 4 Under Temp. Threshold", 4,
NVME_TEMP_THRESH_UNDER, npa);
}
if (hlog->hl_temp_sensor_5 != 0) {
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 5 Over Temp. Threshold", 5,
NVME_TEMP_THRESH_OVER, npa);
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 5 Under Temp. Threshold", 5,
NVME_TEMP_THRESH_UNDER, npa);
}
if (hlog->hl_temp_sensor_6 != 0) {
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 6 Over Temp. Threshold", 6,
NVME_TEMP_THRESH_OVER, npa);
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 6 Under Temp. Threshold", 6,
NVME_TEMP_THRESH_UNDER, npa);
}
if (hlog->hl_temp_sensor_7 != 0) {
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 7 Over Temp. Threshold", 7,
NVME_TEMP_THRESH_OVER, npa);
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 7 Under Temp. Threshold", 7,
NVME_TEMP_THRESH_UNDER, npa);
}
if (hlog->hl_temp_sensor_8 != 0) {
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 8 Over Temp. Threshold", 8,
NVME_TEMP_THRESH_OVER, npa);
(void) do_get_feat_temp_thresh_one(fd, feat,
"Temp. Sensor 8 Under Temp. Threshold", 8,
NVME_TEMP_THRESH_UNDER, npa);
}
free(hlog);
return (0);
}
static int
do_get_feat_intr_vect(int fd, const nvme_feature_t *feat,
const nvme_process_arg_t *npa)
{
uint64_t res;
uint64_t arg;
int intr_cnt;
intr_cnt = nvme_intr_cnt(fd);
if (intr_cnt == -1)
return (EINVAL);
nvme_print(2, feat->f_name, -1, NULL);
for (arg = 0; arg < intr_cnt; arg++) {
if (nvme_get_feature(fd, feat->f_feature, arg, &res, NULL, NULL)
== B_FALSE)
return (EINVAL);
feat->f_print(res, NULL, 0, npa->npa_idctl, npa->npa_version);
}
return (0);
}
static int
do_get_features(int fd, const nvme_process_arg_t *npa)
{
const nvme_feature_t *feat;
char *f, *flist, *lasts;
boolean_t header_printed = B_FALSE;
if (npa->npa_argc > 1)
errx(-1, "unexpected arguments");
/*
* No feature list given, print all supported features.
*/
if (npa->npa_argc == 0) {
(void) printf("%s: Get Features\n", npa->npa_name);
for (feat = &features[0]; feat->f_feature != 0; feat++) {
if ((npa->npa_isns &&
(feat->f_getflags & NVMEADM_F_NS) == 0) ||
(!npa->npa_isns &&
(feat->f_getflags & NVMEADM_F_CTRL) == 0))
continue;
(void) feat->f_get(fd, feat, npa);
}
return (0);
}
/*
* Process feature list.
*/
flist = strdup(npa->npa_argv[0]);
if (flist == NULL)
err(-1, "do_get_features");
for (f = strtok_r(flist, ",", &lasts);
f != NULL;
f = strtok_r(NULL, ",", &lasts)) {
while (isspace(*f))
f++;
for (feat = &features[0]; feat->f_feature != 0; feat++) {
if (strncasecmp(feat->f_name, f, strlen(f)) == 0 ||
strncasecmp(feat->f_short, f, strlen(f)) == 0)
break;
}
if (feat->f_feature == 0) {
warnx("unknown feature %s", f);
continue;
}
if ((npa->npa_isns &&
(feat->f_getflags & NVMEADM_F_NS) == 0) ||
(!npa->npa_isns &&
(feat->f_getflags & NVMEADM_F_CTRL) == 0)) {
warnx("feature %s %s supported for namespaces",
feat->f_name,
(feat->f_getflags & NVMEADM_F_NS) != 0 ?
"only" : "not");
continue;
}
if (!header_printed) {
(void) printf("%s: Get Features\n", npa->npa_name);
header_printed = B_TRUE;
}
if (feat->f_get(fd, feat, npa) != 0) {
warnx("unsupported feature: %s", feat->f_name);
continue;
}
}
free(flist);
return (0);
}
static int
do_format_common(int fd, const nvme_process_arg_t *npa, unsigned long lbaf,
unsigned long ses)
{
nvme_process_arg_t ns_npa = { 0 };
nvmeadm_cmd_t cmd = { 0 };
cmd = *(npa->npa_cmd);
cmd.c_func = do_attach_detach;
cmd.c_name = "detach";
ns_npa = *npa;
ns_npa.npa_cmd = &cmd;
if (do_attach_detach(fd, &ns_npa) != 0)
return (exitcode);
if (nvme_format_nvm(fd, lbaf, ses) == B_FALSE) {
warn("%s failed", npa->npa_cmd->c_name);
exitcode += -1;
}
cmd.c_name = "attach";
exitcode += do_attach_detach(fd, &ns_npa);
return (exitcode);
}
static void
usage_format(const char *c_name)
{
(void) fprintf(stderr, "%s <ctl>[/<ns>] [<lba-format>]\n\n"
" Format one or all namespaces of the specified NVMe "
"controller. Supported LBA\n formats can be queried with "
"the \"%s identify\" command on the namespace\n to be "
"formatted.\n", c_name, getprogname());
}
static int
do_format(int fd, const nvme_process_arg_t *npa)
{
unsigned long lbaf;
if (npa->npa_idctl->id_oacs.oa_format == 0)
errx(-1, "%s not supported", npa->npa_cmd->c_name);
if (npa->npa_isns && npa->npa_idctl->id_fna.fn_format != 0)
errx(-1, "%s not supported on individual namespace",
npa->npa_cmd->c_name);
if (npa->npa_argc > 0) {
errno = 0;
lbaf = strtoul(npa->npa_argv[0], NULL, 10);
if (errno != 0 || lbaf > NVME_FRMT_MAX_LBAF)
errx(-1, "invalid LBA format %d", lbaf + 1);
if (npa->npa_idns->id_lbaf[lbaf].lbaf_ms != 0)
errx(-1, "LBA formats with metadata not supported");
} else {
lbaf = npa->npa_idns->id_flbas.lba_format;
}
return (do_format_common(fd, npa, lbaf, 0));
}
static void
usage_secure_erase(const char *c_name)
{
(void) fprintf(stderr, "%s <ctl>[/<ns>] [-c]\n\n"
" Secure-Erase one or all namespaces of the specified "
"NVMe controller.\n", c_name);
}
static int
do_secure_erase(int fd, const nvme_process_arg_t *npa)
{
unsigned long lbaf;
uint8_t ses = NVME_FRMT_SES_USER;
if (npa->npa_idctl->id_oacs.oa_format == 0)
errx(-1, "%s not supported", npa->npa_cmd->c_name);
if (npa->npa_isns && npa->npa_idctl->id_fna.fn_sec_erase != 0)
errx(-1, "%s not supported on individual namespace",
npa->npa_cmd->c_name);
if (npa->npa_argc > 0) {
if (strcmp(npa->npa_argv[0], "-c") == 0)
ses = NVME_FRMT_SES_CRYPTO;
else
usage(npa->npa_cmd);
}
if (ses == NVME_FRMT_SES_CRYPTO &&
npa->npa_idctl->id_fna.fn_crypt_erase == 0)
errx(-1, "cryptographic %s not supported",
npa->npa_cmd->c_name);
lbaf = npa->npa_idns->id_flbas.lba_format;
return (do_format_common(fd, npa, lbaf, ses));
}
static void
usage_attach_detach(const char *c_name)
{
(void) fprintf(stderr, "%s <ctl>[/<ns>]\n\n"
" %c%s blkdev(4D) %s one or all namespaces of the "
"specified NVMe controller.\n",
c_name, toupper(c_name[0]), &c_name[1],
c_name[0] == 'd' ? "from" : "to");
}
static int
do_attach_detach(int fd, const nvme_process_arg_t *npa)
{
char *c_name = npa->npa_cmd->c_name;
if (!npa->npa_isns) {
nvme_process_arg_t ns_npa = { 0 };
ns_npa.npa_name = npa->npa_name;
ns_npa.npa_isns = B_TRUE;
ns_npa.npa_cmd = npa->npa_cmd;
ns_npa.npa_excl = npa->npa_excl;
nvme_walk(&ns_npa, npa->npa_node);
return (exitcode);
}
/*
* Unless the user interactively requested a particular namespace to be
* attached or detached, don't even try to attach or detach namespaces
* that are ignored by the driver, thereby avoiding printing pointless
* error messages.
*/
if (!npa->npa_interactive && npa->npa_ignored)
return (0);
if ((c_name[0] == 'd' ? nvme_detach : nvme_attach)(fd)
== B_FALSE) {
warn("%s failed", c_name);
return (-1);
}
return (0);
}
static void
usage_firmware_load(const char *c_name)
{
(void) fprintf(stderr, "%s <ctl> <image file> [<offset>]\n\n"
" Load firmware <image file> to offset <offset>.\n"
" The firmware needs to be committed to a slot using "
"\"nvmeadm commit-firmware\"\n command.\n", c_name);
}
/*
* Read exactly len bytes, or until eof.
*/
static ssize_t
read_block(int fd, char *buf, size_t len)
{
size_t remain;
ssize_t bytes;
remain = len;
while (remain > 0) {
bytes = read(fd, buf, remain);
if (bytes == 0)
break;
if (bytes < 0) {
if (errno == EINTR)
continue;
return (-1);
}
buf += bytes;
remain -= bytes;
}
return (len - remain);
}
/*
* Convert a string to a valid firmware upload offset (in bytes).
*/
static offset_t
get_fw_offsetb(char *str)
{
longlong_t offsetb;
char *valend;
errno = 0;
offsetb = strtoll(str, &valend, 0);
if (errno != 0 || *valend != '\0' || offsetb < 0 ||
offsetb > NVME_FW_OFFSETB_MAX)
errx(-1, "Offset must be numeric and in the range of 0 to %llu",
NVME_FW_OFFSETB_MAX);
if ((offsetb & NVME_DWORD_MASK) != 0)
errx(-1, "Offset must be multiple of %d", NVME_DWORD_SIZE);
return ((offset_t)offsetb);
}
#define FIRMWARE_READ_BLKSIZE (64 * 1024) /* 64K */
static int
do_firmware_load(int fd, const nvme_process_arg_t *npa)
{
int fw_fd;
ssize_t len;
offset_t offset = 0;
size_t size;
uint16_t sc;
char buf[FIRMWARE_READ_BLKSIZE];
if (npa->npa_argc > 2)
errx(-1, "Too many arguments");
if (npa->npa_argc == 0)
errx(-1, "Requires firmware file name, and an "
"optional offset");
if (npa->npa_isns)
errx(-1, "Firmware loading not available on a per-namespace "
"basis");
if (npa->npa_argc == 2)
offset = get_fw_offsetb(npa->npa_argv[1]);
fw_fd = open(npa->npa_argv[0], O_RDONLY);
if (fw_fd < 0)
errx(-1, "Failed to open \"%s\": %s", npa->npa_argv[0],
strerror(errno));
size = 0;
do {
len = read_block(fw_fd, buf, sizeof (buf));
if (len < 0)
errx(-1, "Error reading \"%s\": %s", npa->npa_argv[0],
strerror(errno));
if (len == 0)
break;
if (!nvme_firmware_load(fd, buf, len, offset, &sc))
errx(-1, "Error loading \"%s\": %s", npa->npa_argv[0],
nvme_fw_error(errno, sc));
offset += len;
size += len;
} while (len == sizeof (buf));
(void) close(fw_fd);
if (verbose)
(void) printf("%zu bytes downloaded.\n", size);
return (0);
}
/*
* Convert str to a valid firmware slot number.
*/
static uint_t
get_slot_number(char *str)
{
longlong_t slot;
char *valend;
errno = 0;
slot = strtoll(str, &valend, 0);
if (errno != 0 || *valend != '\0' ||
slot < NVME_FW_SLOT_MIN || slot > NVME_FW_SLOT_MAX)
errx(-1, "Slot must be numeric and in the range of %d to %d",
NVME_FW_SLOT_MIN, NVME_FW_SLOT_MAX);
return ((uint_t)slot);
}
static void
usage_firmware_commit(const char *c_name)
{
(void) fprintf(stderr, "%s <ctl> <slot>\n\n"
" Commit previously downloaded firmware to slot <slot>.\n"
" The firmware is only activated after a "
"\"nvmeadm activate-firmware\" command.\n", c_name);
}
static int
do_firmware_commit(int fd, const nvme_process_arg_t *npa)
{
uint_t slot;
uint16_t sc;
if (npa->npa_argc > 1)
errx(-1, "Too many arguments");
if (npa->npa_argc == 0)
errx(-1, "Firmware slot number is required");
if (npa->npa_isns)
errx(-1, "Firmware committing not available on a per-namespace "
"basis");
slot = get_slot_number(npa->npa_argv[0]);
if (slot == 1 && npa->npa_idctl->id_frmw.fw_readonly)
errx(-1, "Cannot commit firmware to slot 1: slot is read-only");
if (!nvme_firmware_commit(fd, slot, NVME_FWC_SAVE, &sc))
errx(-1, "Failed to commit firmware to slot %u: %s",
slot, nvme_fw_error(errno, sc));
if (verbose)
(void) printf("Firmware committed to slot %u.\n", slot);
return (0);
}
static void
usage_firmware_activate(const char *c_name)
{
(void) fprintf(stderr, "%s <ctl> <slot>\n\n"
" Activate firmware in slot <slot>.\n"
" The firmware will be in use after the next system reset.\n",
c_name);
}
static int
do_firmware_activate(int fd, const nvme_process_arg_t *npa)
{
uint_t slot;
uint16_t sc;
if (npa->npa_argc > 1)
errx(-1, "Too many arguments");
if (npa->npa_argc == 0)
errx(-1, "Firmware slot number is required");
if (npa->npa_isns)
errx(-1, "Firmware activation not available on a per-namespace "
"basis");
slot = get_slot_number(npa->npa_argv[0]);
if (!nvme_firmware_commit(fd, slot, NVME_FWC_ACTIVATE, &sc))
errx(-1, "Failed to activate slot %u: %s", slot,
nvme_fw_error(errno, sc));
if (verbose)
printf("Slot %u activated: %s.\n", slot,
nvme_fw_error(errno, sc));
return (0);
}
/*
* While the NVME_VERSION_ATLEAST macro exists, specifying a version of 1.0
* causes GCC to helpfully flag the -Wtype-limits warning because a uint_t is
* always >= 0. In many cases it's useful to always indicate what version
* something was added in to simplify code (e.g. nvmeadm_print_bit) and we'd
* rather just say it's version 1.0 rather than making folks realize that a
* hardcoded true is equivalent. Therefore we have this function which can't
* trigger this warning today (and adds a minor amount of type safety). If GCC
* or clang get smart enough to see through this, then we'll have to just
* disable the warning for the single minor comparison (and reformat this a bit
* to minimize the impact).
*/
boolean_t
nvme_version_check(nvme_version_t *vers, uint_t major, uint_t minor)
{
if (vers->v_major > major) {
return (B_TRUE);
}
return (vers->v_major == major && vers->v_minor >= minor);
}
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