sbin/nvmectl/logpage.c

1.1  nonaka /*	$NetBSD: logpage.c,v 1.1 2016/06/04 16:29:35 nonaka Exp $	*/
1.1  nonaka
1.1  nonaka /*-
1.1  nonaka  * Copyright (c) 2013 EMC Corp.
1.1  nonaka  * All rights reserved.
1.1  nonaka  *
1.1  nonaka  * Copyright (C) 2012-2013 Intel Corporation
1.1  nonaka  * All rights reserved.
1.1  nonaka  *
1.1  nonaka  * Redistribution and use in source and binary forms, with or without
1.1  nonaka  * modification, are permitted provided that the following conditions
1.1  nonaka  * are met:
1.1  nonaka  * 1. Redistributions of source code must retain the above copyright
1.1  nonaka  *    notice, this list of conditions and the following disclaimer.
1.1  nonaka  * 2. Redistributions in binary form must reproduce the above copyright
1.1  nonaka  *    notice, this list of conditions and the following disclaimer in the
1.1  nonaka  *    documentation and/or other materials provided with the distribution.
1.1  nonaka  *
1.1  nonaka  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
1.1  nonaka  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1  nonaka  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1  nonaka  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
1.1  nonaka  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1  nonaka  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1  nonaka  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  nonaka  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  nonaka  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  nonaka  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  nonaka  * SUCH DAMAGE.
1.1  nonaka  */
1.1  nonaka
1.1  nonaka #include <sys/cdefs.h>
1.1  nonaka #ifndef lint
1.1  nonaka __RCSID("$NetBSD: logpage.c,v 1.1 2016/06/04 16:29:35 nonaka Exp $");
1.1  nonaka #if 0
1.1  nonaka __FBSDID("$FreeBSD: head/sbin/nvmecontrol/logpage.c 285796 2015-07-22 16:10:29Z jimharris $");
1.1  nonaka #endif
1.1  nonaka #endif
1.1  nonaka
1.1  nonaka #include <sys/param.h>
1.1  nonaka #include <sys/ioccom.h>
1.1  nonaka
1.1  nonaka #include <ctype.h>
1.1  nonaka #include <err.h>
1.1  nonaka #include <fcntl.h>
1.1  nonaka #include <stdbool.h>
1.1  nonaka #include <stddef.h>
1.1  nonaka #include <stdio.h>
1.1  nonaka #include <stdlib.h>
1.1  nonaka #include <string.h>
1.1  nonaka #include <unistd.h>
1.1  nonaka
1.1  nonaka #include "nvmectl.h"
1.1  nonaka
1.1  nonaka #define DEFAULT_SIZE	(4096)
1.1  nonaka #define MAX_FW_SLOTS	(7)
1.1  nonaka
1.1  nonaka typedef void (*print_fn_t)(void *buf, uint32_t size);
1.1  nonaka
1.1  nonaka static void *
1.1  nonaka get_log_buffer(uint32_t size)
1.1  nonaka {
1.1  nonaka 	void	*buf;
1.1  nonaka
1.1  nonaka 	if ((buf = malloc(size)) == NULL)
1.1  nonaka 		errx(1, "unable to malloc %u bytes", size);
1.1  nonaka
1.1  nonaka 	memset(buf, 0, size);
1.1  nonaka 	return (buf);
1.1  nonaka }
1.1  nonaka
1.1  nonaka void
1.1  nonaka read_logpage(int fd, uint8_t log_page, int nsid, void *payload,
1.1  nonaka     uint32_t payload_size)
1.1  nonaka {
1.1  nonaka 	struct nvme_pt_command	pt;
1.1  nonaka
1.1  nonaka 	memset(&pt, 0, sizeof(pt));
1.1  nonaka 	pt.cmd.opcode = NVM_ADMIN_GET_LOG_PG;
1.1  nonaka 	pt.cmd.nsid = nsid;
1.1  nonaka 	pt.cmd.cdw10 = ((payload_size/sizeof(uint32_t)) - 1) << 16;
1.1  nonaka 	pt.cmd.cdw10 |= log_page;
1.1  nonaka 	pt.buf = payload;
1.1  nonaka 	pt.len = payload_size;
1.1  nonaka 	pt.is_read = 1;
1.1  nonaka
1.1  nonaka 	if (ioctl(fd, NVME_PASSTHROUGH_CMD, &pt) < 0)
1.1  nonaka 		err(1, "get log page request failed");
1.1  nonaka
1.1  nonaka 	if (nvme_completion_is_error(&pt.cpl))
1.1  nonaka 		errx(1, "get log page request returned error");
1.1  nonaka }
1.1  nonaka
1.1  nonaka static void
1.1  nonaka print_log_error(void *buf, uint32_t size)
1.1  nonaka {
1.1  nonaka 	int					i, nentries;
1.1  nonaka 	struct nvme_error_information_entry	*entry = buf;
1.1  nonaka
1.1  nonaka 	printf("Error Information Log\n");
1.1  nonaka 	printf("=====================\n");
1.1  nonaka
1.1  nonaka 	if (entry->error_count == 0) {
1.1  nonaka 		printf("No error entries found\n");
1.1  nonaka 		return;
1.1  nonaka 	}
1.1  nonaka
1.1  nonaka 	nentries = size/sizeof(struct nvme_error_information_entry);
1.1  nonaka 	for (i = 0; i < nentries; i++, entry++) {
1.1  nonaka 		if (entry->error_count == 0)
1.1  nonaka 			break;
1.1  nonaka
1.1  nonaka 		printf("Entry %02d\n", i + 1);
1.1  nonaka 		printf("=========\n");
1.1  nonaka 		printf(" Error count:           %ju\n", entry->error_count);
1.1  nonaka 		printf(" Submission queue ID:   %u\n", entry->sqid);
1.1  nonaka 		printf(" Command ID:            %u\n", entry->cid);
1.1  nonaka 		/* TODO: Export nvme_status_string structures from kernel? */
1.1  nonaka 		printf(" Status:\n");
1.1  nonaka 		printf("  Phase tag:            %d\n",
1.1  nonaka 		    (uint16_t)__SHIFTOUT(entry->status, NVME_CQE_PHASE));
1.1  nonaka 		printf("  Status code:          %d\n",
1.1  nonaka 		    (uint16_t)__SHIFTOUT(entry->status, NVME_CQE_SC_MASK));
1.1  nonaka 		printf("  Status code type:     %d\n",
1.1  nonaka 		    (uint16_t)__SHIFTOUT(entry->status, NVME_CQE_SCT_MASK));
1.1  nonaka 		printf("  More:                 %d\n",
1.1  nonaka 		    (uint16_t)__SHIFTOUT(entry->status, NVME_CQE_M));
1.1  nonaka 		printf("  DNR:                  %d\n",
1.1  nonaka 		    (uint16_t)__SHIFTOUT(entry->status, NVME_CQE_DNR));
1.1  nonaka 		printf(" Error location:        %u\n", entry->error_location);
1.1  nonaka 		printf(" LBA:                   %ju\n", entry->lba);
1.1  nonaka 		printf(" Namespace ID:          %u\n", entry->nsid);
1.1  nonaka 		printf(" Vendor specific info:  %u\n", entry->vendor_specific);
1.1  nonaka 		printf(" Command specific info: %ju\n",
1.1  nonaka 		    entry->command_specific);
1.1  nonaka 	}
1.1  nonaka }
1.1  nonaka
1.1  nonaka static void
1.1  nonaka print_log_health(void *buf, uint32_t size __unused)
1.1  nonaka {
1.1  nonaka 	struct nvme_health_information_page *health = buf;
1.1  nonaka 	float composite_temperature = health->composite_temperature;
1.1  nonaka
1.1  nonaka 	printf("SMART/Health Information Log\n");
1.1  nonaka 	printf("============================\n");
1.1  nonaka
1.1  nonaka 	printf("Critical Warning State:         0x%02x\n",
1.1  nonaka 	    health->critical_warning);
1.1  nonaka 	printf(" Available spare:               %d\n",
1.1  nonaka 	    (uint8_t)__SHIFTOUT(health->critical_warning,
1.1  nonaka 	      NVME_HEALTH_PAGE_CW_AVAIL_SPARE));
1.1  nonaka 	printf(" Temperature:                   %d\n",
1.1  nonaka 	    (uint8_t)__SHIFTOUT(health->critical_warning,
1.1  nonaka 	      NVME_HEALTH_PAGE_CW_TEMPERTURE));
1.1  nonaka 	printf(" Device reliability:            %d\n",
1.1  nonaka 	    (uint8_t)__SHIFTOUT(health->critical_warning,
1.1  nonaka 	      NVME_HEALTH_PAGE_CW_DEVICE_RELIABLITY));
1.1  nonaka 	printf(" Read only:                     %d\n",
1.1  nonaka 	    (uint8_t)__SHIFTOUT(health->critical_warning,
1.1  nonaka 	      NVME_HEALTH_PAGE_CW_READ_ONLY));
1.1  nonaka 	printf(" Volatile memory backup:        %d\n",
1.1  nonaka 	    (uint8_t)__SHIFTOUT(health->critical_warning,
1.1  nonaka 	      NVME_HEALTH_PAGE_CW_VOLATILE_MEMORY_BACKUP));
1.1  nonaka 	printf("Temperature:                    %u K, %2.2f C, %3.2f F\n",
1.1  nonaka 	    health->composite_temperature,
1.1  nonaka 	    composite_temperature - (float)273.15,
1.1  nonaka 	    (composite_temperature * (float)9/5) - (float)459.67);
1.1  nonaka 	printf("Available spare:                %u\n",
1.1  nonaka 	    health->available_spare);
1.1  nonaka 	printf("Available spare threshold:      %u\n",
1.1  nonaka 	    health->available_spare_threshold);
1.1  nonaka 	printf("Percentage used:                %u\n",
1.1  nonaka 	    health->percentage_used);
1.1  nonaka
1.1  nonaka 	/*
1.1  nonaka 	 * TODO: These are pretty ugly in hex. Is there a library that
1.1  nonaka 	 *	 will convert 128-bit unsigned values to decimal?
1.1  nonaka 	 */
1.1  nonaka 	printf("Data units (512 byte) read:     0x%016jx%016jx\n",
1.1  nonaka 	    health->data_units_read[1],
1.1  nonaka 	    health->data_units_read[0]);
1.1  nonaka 	printf("Data units (512 byte) written:  0x%016jx%016jx\n",
1.1  nonaka 	    health->data_units_written[1],
1.1  nonaka 	    health->data_units_written[0]);
1.1  nonaka 	printf("Host read commands:             0x%016jx%016jx\n",
1.1  nonaka 	    health->host_read_commands[1],
1.1  nonaka 	    health->host_read_commands[0]);
1.1  nonaka 	printf("Host write commands:            0x%016jx%016jx\n",
1.1  nonaka 	    health->host_write_commands[1],
1.1  nonaka 	    health->host_write_commands[0]);
1.1  nonaka 	printf("Controller busy time (minutes): 0x%016jx%016jx\n",
1.1  nonaka 	    health->controller_busy_time[1],
1.1  nonaka 	    health->controller_busy_time[0]);
1.1  nonaka 	printf("Power cycles:                   0x%016jx%016jx\n",
1.1  nonaka 	    health->power_cycles[1],
1.1  nonaka 	    health->power_cycles[0]);
1.1  nonaka 	printf("Power on hours:                 0x%016jx%016jx\n",
1.1  nonaka 	    health->power_on_hours[1],
1.1  nonaka 	    health->power_on_hours[0]);
1.1  nonaka 	printf("Unsafe shutdowns:               0x%016jx%016jx\n",
1.1  nonaka 	    health->unsafe_shutdowns[1],
1.1  nonaka 	    health->unsafe_shutdowns[0]);
1.1  nonaka 	printf("Media errors:                   0x%016jx%016jx\n",
1.1  nonaka 	    health->media_errors[1],
1.1  nonaka 	    health->media_errors[0]);
1.1  nonaka 	printf("No. error info log entries:     0x%016jx%016jx\n",
1.1  nonaka 	    health->num_error_info_log_entries[1],
1.1  nonaka 	    health->num_error_info_log_entries[0]);
1.1  nonaka }
1.1  nonaka
1.1  nonaka static void
1.1  nonaka print_log_firmware(void *buf, uint32_t size __unused)
1.1  nonaka {
1.1  nonaka 	u_int				i;
1.1  nonaka 	const char			*status;
1.1  nonaka 	struct nvme_firmware_page	*fw = buf;
1.1  nonaka
1.1  nonaka 	printf("Firmware Slot Log\n");
1.1  nonaka 	printf("=================\n");
1.1  nonaka
1.1  nonaka 	for (i = 0; i < MAX_FW_SLOTS; i++) {
1.1  nonaka 		printf("Slot %d: ", i + 1);
1.1  nonaka 		if (__SHIFTOUT(fw->afi, NVME_FW_PAGE_AFI_SLOT) == i + 1)
1.1  nonaka 			status = "  Active";
1.1  nonaka 		else
1.1  nonaka 			status = "Inactive";
1.1  nonaka
1.1  nonaka 		if (fw->revision[i] == 0LLU)
1.1  nonaka 			printf("Empty\n");
1.1  nonaka 		else
1.1  nonaka 			if (isprint(*(uint8_t *)&fw->revision[i]))
1.1  nonaka 				printf("[%s] %.8s\n", status,
1.1  nonaka 				    (char *)&fw->revision[i]);
1.1  nonaka 			else
1.1  nonaka 				printf("[%s] %016jx\n", status,
1.1  nonaka 				    fw->revision[i]);
1.1  nonaka 	}
1.1  nonaka }
1.1  nonaka
1.1  nonaka static struct logpage_function {
1.1  nonaka 	uint8_t		log_page;
1.1  nonaka 	print_fn_t	fn;
1.1  nonaka } logfuncs[] = {
1.1  nonaka 	{NVME_LOG_ERROR,		print_log_error		},
1.1  nonaka 	{NVME_LOG_HEALTH_INFORMATION,	print_log_health	},
1.1  nonaka 	{NVME_LOG_FIRMWARE_SLOT,	print_log_firmware	},
1.1  nonaka 	{0,				NULL			},
1.1  nonaka };
1.1  nonaka
1.1  nonaka static void
1.1  nonaka logpage_usage(void)
1.1  nonaka {
1.1  nonaka 	fprintf(stderr, "usage:\n");
1.1  nonaka 	fprintf(stderr, LOGPAGE_USAGE);
1.1  nonaka 	exit(1);
1.1  nonaka }
1.1  nonaka
1.1  nonaka void
1.1  nonaka logpage(int argc, char *argv[])
1.1  nonaka {
1.1  nonaka 	int				fd, nsid;
1.1  nonaka 	int				log_page = 0, pageflag = false;
1.1  nonaka 	int				hexflag = false, ns_specified;
1.1  nonaka 	int				ch;
1.1  nonaka 	char				*p;
1.1  nonaka 	char				cname[64];
1.1  nonaka 	uint32_t			size;
1.1  nonaka 	void				*buf;
1.1  nonaka 	struct logpage_function		*f;
1.1  nonaka 	struct nvm_identify_controller	cdata;
1.1  nonaka 	print_fn_t			print_fn;
1.1  nonaka
1.1  nonaka 	while ((ch = getopt(argc, argv, "p:x")) != -1) {
1.1  nonaka 		switch (ch) {
1.1  nonaka 		case 'p':
1.1  nonaka 			/* TODO: Add human-readable ASCII page IDs */
1.1  nonaka 			log_page = strtol(optarg, &p, 0);
1.1  nonaka 			if (p != NULL && *p != '\0') {
1.1  nonaka 				fprintf(stderr,
1.1  nonaka 				    "\"%s\" not valid log page id.\n",
1.1  nonaka 				    optarg);
1.1  nonaka 				logpage_usage();
1.1  nonaka 			/* TODO: Define valid log page id ranges in nvme.h? */
1.1  nonaka 			} else if (log_page == 0 ||
1.1  nonaka 				   (log_page >= 0x04 && log_page <= 0x7F) ||
1.1  nonaka 				   (log_page >= 0x80 && log_page <= 0xBF)) {
1.1  nonaka 				fprintf(stderr,
1.1  nonaka 				    "\"%s\" not valid log page id.\n",
1.1  nonaka 				    optarg);
1.1  nonaka 				logpage_usage();
1.1  nonaka 			}
1.1  nonaka 			pageflag = true;
1.1  nonaka 			break;
1.1  nonaka 		case 'x':
1.1  nonaka 			hexflag = true;
1.1  nonaka 			break;
1.1  nonaka 		}
1.1  nonaka 	}
1.1  nonaka
1.1  nonaka 	if (!pageflag) {
1.1  nonaka 		printf("Missing page_id (-p).\n");
1.1  nonaka 		logpage_usage();
1.1  nonaka 	}
1.1  nonaka
1.1  nonaka 	/* Check that a controller and/or namespace was specified. */
1.1  nonaka 	if (optind >= argc)
1.1  nonaka 		logpage_usage();
1.1  nonaka
1.1  nonaka 	if (strstr(argv[optind], NVME_NS_PREFIX) != NULL) {
1.1  nonaka 		ns_specified = true;
1.1  nonaka 		parse_ns_str(argv[optind], cname, &nsid);
1.1  nonaka 		open_dev(cname, &fd, 1, 1);
1.1  nonaka 	} else {
1.1  nonaka 		ns_specified = false;
1.1  nonaka 		nsid = 0xffffffff;
1.1  nonaka 		open_dev(argv[optind], &fd, 1, 1);
1.1  nonaka 	}
1.1  nonaka
1.1  nonaka 	read_controller_data(fd, &cdata);
1.1  nonaka
1.1  nonaka 	/*
1.1  nonaka 	 * The log page attribtues indicate whether or not the controller
1.1  nonaka 	 * supports the SMART/Health information log page on a per
1.1  nonaka 	 * namespace basis.
1.1  nonaka 	 */
1.1  nonaka 	if (ns_specified) {
1.1  nonaka 		if (log_page != NVME_LOG_HEALTH_INFORMATION)
1.1  nonaka 			errx(1, "log page %d valid only at controller level",
1.1  nonaka 			    log_page);
1.1  nonaka 		if (!(cdata.lpa & NVME_ID_CTRLR_LPA_NS_SMART))
1.1  nonaka 			errx(1,
1.1  nonaka 			    "controller does not support per namespace "
1.1  nonaka 			    "smart/health information");
1.1  nonaka 	}
1.1  nonaka
1.1  nonaka 	print_fn = print_hex;
1.1  nonaka 	if (!hexflag) {
1.1  nonaka 		/*
1.1  nonaka 		 * See if there is a pretty print function for the
1.1  nonaka 		 *  specified log page.  If one isn't found, we
1.1  nonaka 		 *  just revert to the default (print_hex).
1.1  nonaka 		 */
1.1  nonaka 		f = logfuncs;
1.1  nonaka 		while (f->log_page > 0) {
1.1  nonaka 			if (log_page == f->log_page) {
1.1  nonaka 				print_fn = f->fn;
1.1  nonaka 				break;
1.1  nonaka 			}
1.1  nonaka 			f++;
1.1  nonaka 		}
1.1  nonaka 	}
1.1  nonaka
1.1  nonaka 	/* Read the log page */
1.1  nonaka 	switch (log_page) {
1.1  nonaka 	case NVME_LOG_ERROR:
1.1  nonaka 		size = sizeof(struct nvme_error_information_entry);
1.1  nonaka 		size *= (cdata.elpe + 1);
1.1  nonaka 		break;
1.1  nonaka 	case NVME_LOG_HEALTH_INFORMATION:
1.1  nonaka 		size = sizeof(struct nvme_health_information_page);
1.1  nonaka 		break;
1.1  nonaka 	case NVME_LOG_FIRMWARE_SLOT:
1.1  nonaka 		size = sizeof(struct nvme_firmware_page);
1.1  nonaka 		break;
1.1  nonaka 	default:
1.1  nonaka 		size = DEFAULT_SIZE;
1.1  nonaka 		break;
1.1  nonaka 	}
1.1  nonaka
1.1  nonaka 	buf = get_log_buffer(size);
1.1  nonaka 	read_logpage(fd, log_page, nsid, buf, size);
1.1  nonaka 	print_fn(buf, size);
1.1  nonaka
1.1  nonaka 	close(fd);
1.1  nonaka 	exit(0);
1.1  nonaka }